Wing Enterprises, Inc. v. Tricam Industries, Inc.
Filing
589
FINDINGS OF FACT AND CONCLUSIONS OF LAW. See Order for specifics. (Written Opinion). Signed by Judge Eric C. Tostrud on 2/3/2022.(RMM)
UNITED STATES DISTRICT COURT
DISTRICT OF MINNESOTA
Little Giant Ladder Systems, LLC,
File No. 17-cv-1769 (ECT/ECW)
Plaintiff and
Counter Defendant,
v.
FINDINGS OF FACT AND
CONCLUSIONS OF LAW
Tricam Industries, Inc., a Minnesota
corporation,
Defendant and
Counter Claimant.
________________________________________________________________________
Mark A. Miller, Brett L. Foster, and Elliot James Hales, Dorsey & Whitney LLP, Salt Lake
City, UT; and Caitlin L.D. Hull and Shannon L. Bjorklund, Dorsey & Whitney LLP,
Minneapolis, MN, for Plaintiff Little Giant Ladder Systems, LLC.
Eric H. Chadwick, James T. Nikolai, and Zachary Paul Armstrong, DeWitt LLP, for
Defendant Tricam Industries, Inc.
The Parties manufacture competing brands of articulated ladders, also known as
multi-position ladders. Plaintiff Little Giant Ladder Systems, LLC sells multi-position
ladders under the Little Giant brand through multiple channels.
Defendant Tricam
Industries, Inc. sells multi-position ladders under the Gorilla MPX Ladders brand in stores
and online through The Home Depot.
In this lawsuit, Little Giant claims that Tricam violated the Lanham Act, 15 U.S.C.
§ 1125(a), and the Minnesota Deceptive Trade Practices Act, Minn. Stat. § 325D.44, by
falsely representing that its ladders comply with ANSI ASC A14.2, a voluntary industry
standard for portable metal ladders. The case was tried to the Court without an advisory
jury, and the following findings of fact and conclusions of law are entered pursuant to
Federal Rule of Civil Procedure 52(a).
To prevail on its claims, Little Giant must prove by the greater weight of the
evidence:
(1) a false statement of fact by the defendant in a commercial
advertisement about its own or another’s product; (2) the
statement actually deceived or has the tendency to deceive a
substantial segment of its audience; (3) the deception is
material, in that it is likely to influence the purchasing decision;
(4) the defendant caused its false statement to enter interstate
commerce; and (5) the plaintiff has been or is likely to be
injured as a result of the false statement, either by direct
diversion of sales from itself to defendant or by a loss of
goodwill associated with its products.
United Indus. Corp. v. Clorox Co., 140 F.3d 1175, 1180 (8th Cir. 1998). Judgment will be
entered for Tricam because the better understanding of the trial record is that Little Giant
did not prove the first, second, and third of these elements.
FINDINGS OF FACT1
The Parties and Their Ladders
1.
Plaintiff Little Giant was founded (originally as Wing Enterprises, Inc.) in
1972 by Hal Wing. Tr. 226:4–23 (A. Wing). Little Giant claims to have pioneered the
1
Footnotes included within the Findings of Fact are explanatory only. They are not
findings. “P-#” Exhibits are Little Giant’s trial exhibits. “D-#” Exhibits are Tricam’s trial
exhibits. For trial exhibits, cited page numbers refer to the offering party’s stamped exhibit
page numbering, unless otherwise specified. Trial Transcripts (“Tr.”) are docketed at ECF
Nos. 565 (vol. 1, pp. 1-247), 566 (vol. 2, pp. 248-487), 567 (vol. 3, pp. 488-738), 568 (vol.
4, pp. 739-1000), and 569 (vol. 5, pp. 1001-1295) and are paginated consecutively
throughout those five volumes. Trial Transcripts will be cited by the transcript page
number and line.
2
articulating-extendable (or “multi-position”) ladder (shown below), creating a new
category of ladders domestically:
P-129 at 2; P-278.
2.
Multi-position ladders like those shown above have an outer set of rails
connected by rungs. This outer set of rails and rungs slide/extend relative to an inner set
of rails connected by rungs and a pair of central hinges. This allows the user to select
numerous configurations of the ladder to increase utility. Tr. 93:11–94:24 (Moss).
3.
An outer rung may be affixed to a ladder’s rails by, among other options,
welding or riveting. Tr. 94:25–95:15 (Moss). A rung may be riveted to the outer rail while
maintaining a uniform depth; in other words, it need not be crimped before it is riveted.
Tr. 95:10–19 (Moss).
3
4.
Little Giant’s metal articulating ladders use a welded and capped rung style,
where the rungs have at least a one-inch, flat depth along the length of the rung from rail
to rail:
P-278.
5.
In or around 2002, Tricam developed its first multi-position ladders, which
were each sold as part of Tricam’s “AL” ladder line. Tr. 398:12–24 (Skubic); P-309.
6.
When first developed, Tricam’s AL ladders utilized an outer rung that was
welded to the side rails of the multi-position ladder and had a one-inch minimum depth
step surface across it from rail to rail. Tr. 399:19–23 (Skubic); 518:22–519:16 (Williams);
P-35 at 5; P-309.
7.
At some point in 2006 or 2007, Tricam modified the design of the outer rungs
on its AL ladders to a crimped-riveted style rung, the same crimped-riveted style rung used
on its later-developed, at-issue MPX ladders. Tricam sold these ladders to Home Depot.
Tr. 399:2–14, 399:24–400:6, 456:5–15, 1237:24–1238:24 (Skubic).
4
8.
Tricam stopped selling its AL ladders in 2008 after Home Depot decided to
purchase multi-position ladders exclusively from a third-party competitor, Werner. The
multi-position ladders Werner sold to Home Depot had the same crimped-riveted style of
rung that Tricam began making in 2006 and 2007. Tricam did not sell multi-position
ladders again until 2017. Tr. 400:24–401:8 (Skubic).
9.
Between 2008 and 2017, Tricam did not sell a multi-position ladder. Id.
Though Tricam was no longer selling multi-position ladders during that period, it still sold
stepstools and hybrid ladders to Home Depot. Tr. 1239:6–20 (Skubic); ECF No. 573 at
19:19–21:10, 25:15–21 (Jackson).
10.
Tricam sought to expand its ladder offerings through Home Depot with a
multi-position ladder.
Though Home Depot was not doing a line review of its
multi-position ladders at that time (i.e., it was not then taking the initiative to replace, add
to, or otherwise alter the line of ladders it was selling), Home Depot had interest in a new
multi-position ladder from Tricam. In 2015, Tricam began developing for sale to Home
Depot what would become the MPX ladders, and that development continued into 2016.
Tr. 401:9–12, 1239:6–1240:3, 1240:22–1241:3 (Skubic); Tr. 499:8–13 (Williams);
ECF No. 573 at 19:19–21:10, 25:15–21 (Jackson); D-26.
11.
From the beginning of this development effort, Tricam was aware that Home
Depot would only purchase ANSI-compliant multi-position ladders, and that Home Depot
would require that an independent third-party laboratory test and confirm ANSI
compliance of every such multi-position ladder model and size before Home Depot would
5
onboard such ladders, either in-store or online. Tr. 470:9–13 (Mansager); Tr. 417:4–11,
1240:17–1241:7 (Skubic).
12.
Tricam’s product team consisted of Ben Williams, Joe Foley, Dennis
Simpson, and other Tricam engineers and employees based in China. Tr. 498:23–499:2,
500:3–5 (Williams).
13.
Mr. Williams joined Tricam in 2013 and was the product manager for Tricam
who oversaw the development of Tricam’s MPX ladders. Mr. Williams graduated from
St. Cloud State in 2006 with a B.S. in electrical engineering and worked as a product
developer for 3M for three to four years and for Target for three years. In these positions,
Mr. Williams developed an array of products, including air purifiers, water filters,
command hook products, lighting, home décor, hardware products, sporting goods, and pet
products. Prior to developing the MPX ladders, Mr. Williams developed step stools, work
platforms, and other climbing products that were sold to Home Depot and other retailers.
All these climbing products were tested by independent testing labs for ANSI compliance
before being sold to Home Depot. In 2016, Mr. Williams was named Vice President of
Product Development at Tricam. Tr. 495:10–16, 20–25, 496:4–10, 496:14–17, 497:10–17,
22–24, 498:23–499:2 (Williams).
14.
Tricam hired Mr. Foley in March 2014 as a product design engineer. Prior
to joining Tricam, Mr. Foley graduated in 2011 from the University of Minnesota with a
degree in mechanical engineering. After graduating, he worked for Target as an assistant
product engineer. At Target, Mr. Foley was responsible for drafting product quality
standards, designing products, work in CAD, and ensuring compliance with industry
6
standards. Mr. Foley had specific experience with ensuring that all lamps that Target sold
were compliant with the ANSI/UL 153 standard by referencing and interpreting that
standard to ensure the lamps met the geometric, mechanical, and electrical requirements
set forth in that standard. He also developed dozens of products for Target and is listed as
an inventor on several patents as well. In 2019, Tricam promoted Mr. Foley to lead product
design engineer. Tr. 1173:14–1176:21 (Foley).
15.
Tricam’s MPX ladders included a crimped-riveted rung that is trapezoidal in
shape, with a flat top-surface area between 200 and 225 millimeters (approximately eight
to nine inches), between the crimped edges. On each side of this flat center section is a
crimped and riveted section that extends out from the center section to the rails. Rivets
attach each rung to the rails. Tr. 19:12–13, 38:7 (Pl. Opening Statement); 329:16–19,
330:6–8, 336:10–16 (Bloswick); Tr. 534:25–535:3, 541:6–8 (Williams); Tr. 1181:6–9
(Foley). A photograph of this design follows:
16.
To sell MPX ladders to Home Depot, Tricam would have to certify that the
ladders complied with ANSI A14.2, a voluntary industry safety standard that “prescribes
7
rules governing safe construction, design, testing, care and use of portable metal ladders of
various types and styles.” Tr. 470:9–13 (Mansager); Tr. 417:4–11, 1240:17–1241:7
(Skubic); P-1 § 1.1. Specifically, as part of its Supplier Buying Agreement (“SBA”), Home
Depot required suppliers to “make sure they can substantiate” claims that they meet
applicable industry standards.
Home Depot did not require that specific testing be
performed, and Home Depot performed no testing of its own. Under its system, Home
Depot could not sell a product if a supplier did not attest to having complied with testing
requirements. ECF No. 573 at 39:20–40:18, 42:2–6, 46:17–23, 47:13–18, 118:6–119:16,
128:5–14, 137:2–16, 189:12–190:10 (Jackson).
ANSI Generally
17.
American National Standards Institute (“ANSI”)2 standards are voluntary, in
that “[t]he existence of an [ANSI standard] does not in any respect preclude anyone,
whether they have approved the standard or not, from manufacturing, marketing,
purchasing, or using products, processes, or procedures not conforming to the standard.”
P-1 at 3.
18.
An ANSI standard “implies a consensus of those substantially concerned
with its scope and provisions.” Id.
2
“The American National Standards Institute (ANSI) is a private, non-profit
organization that administers and coordinates the U.S. voluntary standards and conformity
assessment system. . . . [T]he Institute works in close collaboration with stakeholders from
industry and government to identify and develop standards- and conformance-based
solutions
to
national
and
global
priorities.”
About
ANSI,
https://www.ansi.org/about/introduction (last visited Feb. 3, 2022).
8
19.
ANSI “does not develop standards and will in no circumstance give an
interpretation of any [ANSI standard].” Id. And “no persons shall have the right or
authority to issue an interpretation of an [ANSI standard] in the name of [ANSI].” Id.
ANSI A14.2 – Development Process
20.
ANSI approved the American National Standard for Ladders—Portable
Metal—Safety Requirements, ANSI-ASC A14.2-2007 (“ANSI A14.2”) on August 20,
2007. Id. at 2.
21.
ANSI A14.2 was updated in 2017, but any sections relevant to the dispute
here were unaltered from the 2007 version. ECF No. 584 at 22:2–11 (Van Bree); Tr.
339:10–25 (Bloswick); see also P-1; P-2. Unless otherwise specified, references are to the
2007 ANSI A14.2 standard. See P-1.
22.
The American Ladder Institute (“ALI”) is the Secretariat for ANSI A14.2.
P-1 at 2. As Secretariat, the ALI helps to “raise the funds . . . to produce the ANSI
standard.” Tr. 78:24–79:1 (Moss). The ALI “represent[s] the members of the ALI,”
“promote[s] the standards and safety practices of selection, care, and use of ladders,” and
“oversee[s] the standards process.” Tr. 79:1–4 (Moss). The ALI is comprised of ladder
manufacturers and suppliers to ladder manufacturers. Tr. 78:19–23 (Moss).
23.
Little Giant Chief Executive Officer Newell Ryan Moss has served as
President of the ALI since 2016 and as a board member before he became President.
Tr. 77:1–22, 149:25–150:1, 185:25–186:2 (Moss).
The ALI board also includes
representatives from other major ladder manufacturers, including Werner and Louisville
Ladder. Tr. 186:3–18 (Moss).
9
24.
ANSI A14.2 was “prepared under the supervision of the ANSI Accredited
Standards Committee on Safety in the Construction, Care, and Use of Ladders, A14” (the
“A14 Committee”) by subcommittee A14.2, Portable Metal Ladders (the “A14.2
Subcommittee”). P-1 at 4, Foreword; P-248 at 1.
25.
The A14 Committee is composed of members from three different interest
categories: (a) fabrication/related members (such as manufacturers and trade associations);
(b) users of ladders (who represent the interest of consumers or individuals employed by
companies that are regular ladder users); and (c) other general interest members (such as
insurance companies, specialists, and others that do not fall within the other two
categories). P-248 at 1–2. There can be no more than one-third representation from a
single interest category on the A14 Committee. Id.
26.
The A14 Committee “serves as the consensus body for all ASC A14
standards.” Id. at 1. The scope of the A14 Committee is “to develop requirements
governing the safe design, construction, testing, labeling, selection, care and use of various
types of ladders.” P-248 at 1. But the A14 Committee “does not evaluate specific ladders
or laboratory findings of specific ladders, nor does it certify ladders or accredit the testing
protocol of laboratories using the standard for certification or other purposes.” Id. at 1; Tr.
83:17–84:8 (Moss).
27.
The A14.2 Subcommittee is responsible for writing, revising, and updating
the standard. Tr. 1085:19–24. The standard ordinarily is updated every four or five years,
and the A14.2 Subcommittee meets at least twice a year to review the standards, examine
10
issues, and incorporate new and novel designs since the last edition. Tr. 1085:25–1086:8
(Krafchick); ECF No. 579 at 51:4–52:4 (King); see also P-1 at 4, Foreword.
28.
The A14.2 Subcommittee submits any revisions of the standards to the A14
Committee for approval. Tr. 317:1–17 (Bloswick); Tr. 1086:9–15 (Krafchick).
29.
If the A14 Committee approves a standard, it is released to the ANSI
organization for public review and comment. See Tr. 1086:9–15 (Krafchick). “Each
revision of the standard was processed and approved for submittal to ANSI” by the A14
Committee, but “[c]ommittee approval of the standard does not necessarily imply that all
the committee members voted for its approval.” P-1 at 5, Foreword.
30.
After a public comment period, ANSI informs the A14 Committee if the new
standard may be published. See Tr. 1086:9–15 (Krafchick). The ALI disseminates the
standard. Tr. 317:1–17 (Bloswick).
31.
Little Giant, as well as competing ladder manufacturers Werner and
Louisville Ladder, all have been represented on the board of ALI, the A14 Committee, and
the A14.2 Subcommittee. Werner has been represented on the A14.2 Subcommittee since
at least 1982. Tr. 186:3–18 (Moss); ECF No. 579 at 52:7–12, 54:17–55:9 (King); P-1 at
5–6, Foreword; P-2 at 6–7, Foreword; P-104; P-106; P-109.
32.
Tricam was not represented on the ALI, the A14 Committee, or the A14.2
Subcommittee when the 2007 or 2017 versions of ANSI 14.2 were passed. P-1 at 5–6,
Foreword; P-2 at 6–7, Foreword.
33.
Mr. Williams has served on the ANSI A14 Committee and the A14.2
Subcommittee since 2018. Tr. 952:2–10 (Williams). Mr. Foley has been on the A14
11
Committee since 2018 as an alternate, and he has participated in A14.2 Subcommittee
meetings since 2019. Tr. 1176:22–1177:2 (Foley).
34.
As noted, ANSI A14.2 is a consensus standard. This means that ANSI A14.2
reflects a consensus of the A14 Committee. Tr. 82:20–83:11, 223:22–224:1 (Moss);
Tr. 325:8–24 (Bloswick); P-1 at 3.
35.
When ANSI A14.2 was approved, the A14 Committee was comprised of a
wide variety of individuals who possessed interests in ladder design and safety, including
unions, government agencies, ladder manufacturing associations, and a Canadian standard
association. Tr. 324:3–12 (Bloswick). The A14 committee included ladder-manufacturer
associations, and approximately 20 to 25 percent of the committee’s membership
represented ladder manufacturers. Tr. 324:21–325:3 (Bloswick).
ANSI A14.2 – Purposes and Use
36.
ANSI A14.2 “prescribes rules governing the safe construction, design,
testing, care and use of portable metal ladders of various types and styles.” P-1 § 1.1.
ANSI A14.2 is “also intended to prescribe rules and criteria for labeling/marking of the
kinds of portable ladders cited in [the] standard,” including articulating ladders. Id.
37.
The purpose of ANSI A14.2 “is to provide reasonable safety for life, limb,
and property.” Id. § 1.2. The standard “is intended for voluntary use by establishments
that use, manufacture or evaluate ladders.” Id. § 2.2.
38.
ANSI A14.2 “is also intended to provide the manufacturer, purchaser, and
user of metal ladders with a set of performance and dimensional requirements against
which [a] product may be compared.” Id. § 1.2. But “[i]t is not the purpose of this standard
12
to specify all the details of construction of portable metal ladders”; rather, “[t]he limitations
imposed are for the purpose of providing adequate general requirements and testing
methods needed for consistency.” Id.
39.
Determining whether a ladder complies with an ANSI standard involves a
“self-policed” or “honor” system—that is, individual manufacturers are responsible for
doing their own testing to determine if they comply with ANSI Standards. Tr. 84:3–85:2
(Moss).
40.
Neither the ALI nor the ANSI A14 Committee actually determines, certifies,
tests, or enforces compliance with the standard. Tr. 83:21–84:5 (Moss); P-248.
ANSI A14.2 § 6.7.5 – Text
41.
ANSI A14.2 § 6.7 prescribes specifications for articulated ladders. P-1
42.
Section 6.7.5 provides guidance on the step width and rung diameter for
§ 6.7.
articulated ladders. Section 6.7.5 states, in full:
6.7.5 Step Width and Rung Diameter. If steps are used, the
minimum width of a step shall be three inches. If rungs are
used, they may be round, D-shaped or equivalent, trapezoidal,
square, or rectangular. Round rungs shall have a minimum
diameter of 1-1/8 inches. Trapezoidal, D-shaped or equivalent,
square or rectangular rungs shall have a step surface of not
less than 1 inch, either flat or along a segment of arc of 3
inches or greater radius. Right-angle or near-right angle
corners shall have their edges rounded to a radius of not less
than 1/16 of an inch.
Id. § 6.7.5 (second emphasis added).
13
43.
Although ANSI A14.2 is 78 pages long, see P-1, this litigation hinges on the
interpretation of a single phrase of a single paragraph of § 6.7.5, requiring that a
“[t]rapezoidal … rung[] shall have a step surface of not less than 1 inch….” Id. § 6.7.5
(emphasis added).
44.
Section 5.4 of ANSI A14.2 allows for riveted or welded rung connections.
Id. § 5.4.
45.
ANSI A14.2 states, “The word ‘shall’ is to be understood as denoting a
mandatory requirement.” Id. § 2.4.
46.
ANSI A14.2 defines the word “equivalent” as “a construction, connection,
or material providing equal performance.” Id. § 2.5.
47.
Section 4 of ANSI A14.2 includes the following definitions:
a. Articulated ladder. A portable ladder with one or more
pairs of locking articulated joints which allow the ladder to
be set up in several modes such as a straight of extension
ladder, with or without a stand-off, as a regular or double
front stepladder, scaffold or work table.
b. Inside clear width. The distance between the inside
flanges of the side rails of a ladder.
c. Rungs, steps, or cleats. Ladder crosspieces that are
intended for use by a person in ascending or descending.
d. Step surfaces. The clear portion of steps, rungs, or cleats
on which a person may step while ascending or descending
a ladder.
Id. § 4.
48.
The term “inside clear width” is not used in § 6.7.5. See id. § 6.7.5.
49.
ANSI A14.2 does not define “step surface” in the singular. See id. § 4.
14
50.
The term “clear portion,” as used in the “Step surfaces” definition, is not
defined in ANSI A14.2. See id. § 4; Tr. 962:14–17 (Williams). The term “clear portion”
does not appear anywhere else in ANSI A14.2. See P-1.
51.
Section 5, “General Requirements,” of ANSI A14.2 states:
Specific design and construction requirements are minimized
in this standard because of the wide variety of metals and
design possibilities. However, the design shall have such
characteristics as to produce a ladder of sufficient strength and
stiffness to meet the performance requirements of this standard
and shall produce a ladder without structural defects or
accident hazards such as sharp edges, burrs, and the like.
While this standard addresses known performance[] issues, it
is based on current designs and materials of construction.
Alternative designs and materials may bring new issues that
are not presently addressed. Therefore, in addition to the
requirements of this standard, each design/material
configuration must be carefully evaluated according to sound
engineering practice to assure a ladder that meets its intended
use.
Id. § 5 (emphasis added).
52.
As for “Rungs, Steps, and Platforms,” the general requirements state that:
Those surfaces of rungs, steps, and platforms designed for use
in ascending, descending, working, or standing, shall be
corrugated, serrated, knurled, dimpled, or coated with a slipresistant material, across their entire width. Provided the
overall slip-resistant characteristics are not compromised,
interruption in the slip-resistant surfaces is permissible if
necessitated by operational and/or structural requirements or
other considerations that could affect safety or function.
Id. § 5.5 (second emphasis added).
15
53.
Other sections of ANSI A14.2 prescribe depths as well as widths of surfaces,
including, for instance, § 6.6.9, which requires that the size of the Top Cap of a
stepstool-type ladder be “not less than 12 inches wide and 4-3/4 inches deep.” Id. § 6.6.9.
54.
ANSI A14.2 is to be construed liberally. Specifically, ANSI A14.2 states:
In view of the many different kinds of ladders and the many
different conditions under which they are used, this standard
should be liberally construed considering the rationale (see
2.1). In cases of practical difficulty or under special service
conditions, it is expected that the administrative authority will
grant exceptions to the literal requirements of this standard or
will permit the use of alternate designs or features, but only if
equivalent safety is thereby secured.
Id. § 2.3 (emphasis added).
55.
ANSI A14.2 provides a means to request interpretation of the standard. Id.
56.
The ALI will not process a request for interpretation of ANSI A14.2 if the
§ 2.3.
request:
a. Involves a determination of compliance to the applicable
Standards in the areas of a design, installation, or product,
or equivalency of protection.
b. Involves a review of plans or specifications, or requires
judgment or knowledge that can only be acquired as a result
of on-site inspection.
c. Involves tests that clearly and decisively provide the
requested information.
d. Involves subjects that were not previously considered by
the Committee or that are not addressed in the Standard.
e. Involves product evaluation judgments concerning safe
work practices.
f. Involves issues in litigation or in preparation for litigation.
16
Id. at 76; see also Tr. 87:20–89:12 (Moss); P-248 § 11.3 (“Requests for Interpretation of
Standards”). Thus, to request interpretation of an ANSI standard, the requesting party must
state that there is no litigation involved. ECF No. 585 at 110:9–17 (Ver Halen) (“ANSI
does not want to become involved in a litigation situation so if it’s in litigation, they will
not provide an interpretation.”).
Little Giant’s § 6.7.5 Expert – Dr. Bloswick
57.
Little Giant retained Dr. Bloswick to review ANSI A14.2 and the rungs on
Tricam’s MPX ladder, to opine on the compliance of the ladder rungs with § 6.7.5, and to
opine regarding whether the MPX ladder would present equivalent safety to a ladder rung
that did comply with § 6.7.5. Tr. 321:20–322:3 (Bloswick).
58.
Dr. Bloswick has a Bachelor of Science degree in mechanical engineering
from Michigan State University, a Master of Science degree in industrial engineering from
Texas A&M, a Master of Arts degree in human relations from the University of Oklahoma,
and a Ph.D. in industrial and operations engineering from the University of Michigan.
Tr. 310:1–6 (Bloswick).
59.
Dr. Bloswick authored his Ph.D. dissertation on the biomechanics of ladder
climbing. Tr. 310:23–311:3 (Bloswick). Dr. Bloswick studied the forces on the hands and
feet that one generates climbing up a ladder, and how that translates into the movement of
the joints. Tr. 311:4–9 (Bloswick). Dr. Bloswick also studied hand and foot separation for
a variety of ladder configurations. Tr. 311:9–12 (Bloswick).
60.
After completing his Ph.D., Dr. Bloswick worked as a professor in the
Department of Mechanical and Industrial Engineering at the University of Utah, where he
17
taught courses in system safety, industrial safety, biomechanics, and ergonomics.
Tr. 312:18–313:15 (Bloswick).
61.
Dr. Bloswick founded the ergonomics and safety program at the University
of Utah, funded by the National Institute for Occupational Safety and Health.
Tr.
313:16–314:4 (Bloswick). That program studied the biomechanics of safety of movements
in industrial tasks like lifting, lowering, pushing, pulling, and carrying. Tr. 314:24–315:5
(Bloswick).
62.
Dr. Bloswick was a member of the ANSI A14 Committee beginning in 1984
or 1985 and up until five to seven years ago, when he retired. Tr. 315:15–19, 316:6–21
(Bloswick). Dr. Bloswick was an independent expert on the committee, because he did not
have an affiliation with a manufacturer, a union, or an insurance company; rather, he was
an “interested party that may have some capabilities and experience that might lend
something to [the] committee.” Tr. 318:16–24 (Bloswick); see also P-1 at 6; P-2 at 7.
63.
Dr. Bloswick was familiar with the 2007 revision of ANSI A14.2, having
voted on that committee at that time. Tr. 318:25–319:15 (Bloswick).
64.
Dr. Bloswick does not remember whether he was aware of crimped and
riveted articulated ladder designs at the time that he voted on the 2007 ANSI A14.2
standard. Tr. 351:17–21 (Bloswick).
65.
According to Dr. Bloswick, the ladder committees “looked for a very broad
consensus rather than a majority vote” when voting on the standards, and that consensus
was “almost unanimous” in his experience on the committees.
Tr. 317:22–318:15,
364:15–365:1 (Bloswick). During his time on the committees, if Dr. Bloswick had a
18
specific concern about the standard, someone would contact him to discuss the issue, so
that the issue could be addressed and prevent a “no” vote. Tr. 318:9–15, 365:2–18
(Bloswick).
66.
According to Dr. Bloswick, his vote to approve the 2007 ANSI A14.2
standard was not an approval of existing articulated ladder designs in the market.
Tr. 351:22–25 (Bloswick). In Dr. Bloswick’s view, relying on existing ladder designs that
claim ANSI compliance to approve a similar design could result in “continuation of a bad
design.” Tr. 352:1–10 (Bloswick).
67.
In his time serving on the ANSI committee, Dr. Bloswick never raised the
issue of compliance of crimped-riveted rungs with § 6.7.5, nor is he aware of anyone else
ever having raised this issue. Tr. 363:20–364:14 (Bloswick). And Dr. Bloswick does not
remember issues about the design of the rung and meaning of the § 6.7.5 standard ever
coming up for discussion among the members of any A14 Committee. Tr. 395:12–19
(Bloswick).
68.
Prior to working on this litigation, Dr. Bloswick did not “really appreciate
the interaction between the definitions in Section 4 and 6.7.5 and . . . the relationship
between inside clear width requirement of 12 inches . . . and the requirement with respect
to [the] clear portion of the rung.” Tr. 394:20–395:10 (Bloswick). Dr. Bloswick testified
that he “didn’t appreciate the relationship between all of those terms and the definitions
and the standard itself and 6.7.5 in particular.” Id.
69.
In reviewing the ladders for this case, Dr. Bloswick examined Tricam’s
MPX13, which has the same type of crimped-riveted rung design as all other ladders in
19
Tricam’s MPX series. Tr. 328:20–329:3 (Bloswick). Specifically, Dr. Bloswick analyzed
the trapezoidal outer rungs on the Tricam MPX ladder and evaluated the rungs against
§ 6.7.5. Tr. 329:4–330:11 (Bloswick).
70.
Dr. Bloswick opined that the MPX ladder does not comply with ANSI A14.2
with respect to the rung design, and that it does not provide equivalent safety to a ladder
with rungs that comply with ANSI A14.2. Tr. 322:12–22 (Bloswick).
71.
Dr. Bloswick applied a “literal” interpretation to the standard, not a “liberal”
interpretation, because he concluded that dimensional, measurable, or quantitative
requirements (such as the stated one-inch width requirement in § 6.7.5) lent themselves to
a literal interpretation. Tr. 345:16–350:6 (Bloswick).
72.
According to Dr. Bloswick, § 6.7.5’s use of “shall” means that the
requirement is mandatory. Tr. 330:12–20 (Bloswick).
73.
Dr. Bloswick used the definition of “step surfaces” contained in ANSI A14.2
§ 4 to identify the “step surface” on the outer rungs of the MPX ladder. Tr. 330:21–331:18
(Bloswick).
74.
Dr. Bloswick testified that the “step surface” to which § 6.7.5 referred meant
“all the surface on which a user might step while ascending or descending the ladder,” and
this was the space “between [the] two rails.” Tr. 331:24–332.4 (Bloswick).
75.
In Dr. Bloswick’s opinion, the term “clear portion of . . . rungs” in § 4’s
definition of “step surfaces” referred to the “entire part . . . of the rung” because a person
may step on the entire width of the rung while ascending or descending the ladder.
Tr. 332:5–12, 354:19–22 (Bloswick). Dr. Bloswick also pointed to the definition of “inside
20
clear width” in § 4, which “talks about the clear width going from rail to rail.” Tr. 332:5–12
(Bloswick).
76.
Referring to this rail-to-rail span, Dr. Bloswick concluded that “the step
surface [of the rung] ranges from here to the same point on the other side of—to the
opposite point on the other side of the ladder.” Tr. 332:13–17 (Bloswick). Thus, Dr.
Bloswick testified that the “step surface” of § 6.7.5 goes from rail to rail, and that step
surface must conform to the one-inch depth requirement for that entire rail-to-rail width.
77.
Dr. Bloswick’s interpretation of § 6.7.5 was based on his determination that
a user could step on any part of the ladder rung when climbing or descending. Tr.
332:18–333:10, 354:19–22 (Bloswick) (testifying, based on his studies and experiences,
that a person “will step on the part of the rung that has the outside edge that’s crimped and
riveted as part of normal climbing and going down the ladder”).
78.
With that in mind, Dr. Bloswick determined that the crimped portion of the
rung did not meet § 6.7.5 because that portion did not have a one-inch deep, flat surface.
Tr. 334:13–335:18; 336:22–337:2, 342:17–343:12 (Bloswick).
79.
According to Dr. Bloswick, nine inches of the 12-inch MPX ladder rung
comply with the depth and shape requirements set forth in § 6.7.5, but the outer three inches
or so (i.e., the approximately 1-1/2-inch crimped portion on each side of the flat surface)
do not. Tr. 337:25–338:10 (Bloswick). In Dr. Bloswick’s opinion, any ladder sharing this
design would not comply with § 6.7.5. Tr. 338:14–339:2 (Bloswick).
80.
Dr. Bloswick identified no differences in the 2017 version of ANSI A14.2
that would change his opinion. Tr. 339:10–25 (Bloswick).
21
81.
In light of his determination that Tricam’s MPX ladders did not comply with
§ 6.7.5, Dr. Bloswick continued on to opine that the MPX ladders’ crimped-riveted rung
design does not provide equivalent safety to a design that complies with § 6.7.5. See P-2
§ 2-3.
82.
Dr. Bloswick opined that a one-inch depth requirement across the entire rung
was “a reasonably safe design for a ladder rung” and the “one-inch surface gives enough
space for there to be some slip resistance generated, as there is on the middle part of [the
Tricam MPX] rung.” Tr. 337:16–24 (Bloswick).
83.
Dr. Bloswick testified that, for a rung to be equivalent in safety to ladders
that comply with § 6.7.5, the rung would need to be “one inch across its entire width” and
“would have to be flat or this gentle curvature . . . with the radius of approximately . . .
three inches or greater.” Tr. 352:22–353:15, 353:19–24 (Bloswick).
84.
Because a user could step on any part of the entire rung, all the way out to
the rails of the ladder, Dr. Bloswick opined that Tricam’s crimped-riveted design (without
the uniform one-inch flat surface from rail-to-rail) was “not as safe” than a ladder that has
a continuous one-inch flat surface from rail-to-rail. Tr. 354:19–356:2 (Bloswick).
85.
In particular, Dr. Bloswick testified that the shape of the crimped-riveted
attachment of the ladder rung to the rail would “change the slip potential to make it more
likely to have a foot slip from that part of the ladder than one that has a flat surface all the
way from rail to rail.” Tr. 355:23–356:17 (Bloswick). Dr. Bloswick testified that “[t]here’s
a reduced mechanical interference because of the shape” of the crimp because “there are
no longer seven ribs” and “only . . . a few ribs that contact the sole of the shoe.” Tr.
22
357:4–10 (Bloswick). Although this “might not cause one’s foot to leave the rung, . . . it
could cause one to be startled or basically to lose their balance.” Tr. 357:11–16 (Bloswick).
86.
Dr. Bloswick also testified that the crimped-riveted rung design increased the
risk of a slip proceeding to a fall, due to the shape of the rung causing a slight change in
the angle of the foot. Tr. 358:2–359:3 (Bloswick).
87.
Neither Dr. Bloswick nor any other witness testified regarding, or presented
evidence of, accidents or injuries occurring because of Tricam’s MPX ladder’s
crimped-riveted rung design.
88.
Dr. Bloswick also opined that interpreting “clear portion” of the rung (as set
forth in the definition of “step surfaces” from § 4) to exclude the crimped portions of the
rung from the 1-inch deep “step surface” requirement of § 6.7.5 could lead to the creation
or manufacture of absurd and potentially unsafe hypothetical ladder designs.
Tr.
343:2–345:4 (Bloswick).
89.
To demonstrate, Dr. Bloswick showed a slide depicting hypothetical
variations on a crimped-riveted rung, which included depictions of various hypothetical,
trapezoidal crimped-riveted rungs that Dr. Bloswick deemed would be permitted under
Tricam’s interpretation of § 6.7.5, including examples that significantly maximized the
crimped portion and significantly minimized the flat surface of the rung. Tr. 343:2–345:4
(Bloswick).
90.
No evidence was presented that ladders using such extreme rung dimensions
exist, or that any ladder manufacturer (including Tricam) interprets § 6.7.5 (or ANSI A14.2
as a whole) to permit such designs.
23
91.
Dr. Bloswick reviewed other crimped-riveted rung ladders in the
marketplace to be familiar with the state of the art, but he did not rely on ANSI compliance
statements on crimped-riveted rung ladders from other ladder manufacturers to determine
ANSI compliance here because “the configuration of other ladders can’t determine my
analysis of the compliance of any given ladder with the literal requirements of a standard,
in this case ANSI A14.2.” Tr. 350:9–351:6 (Bloswick).
92.
Dr. Bloswick testified that even though ANSI A14.2 is a consensus standard,
reviewing the designs of other ladder manufacturers would not reveal the consensus of the
A14 Committee, because that would “simply indicate[] that there are a lot of ladders or
many ladders that may not and do not . . . comply with ANSI A14.2.” Tr. 351:7–12
(Bloswick).
Tricam’s § 6.7.5 Expert – Jack Krafchick
93.
Tricam’s expert, Jack Krafchick, testified at trial regarding his interpretation
of § 6.7.5. Tr. 1083:1–7 (Krafchick).
94.
Mr. Krafchick holds a Bachelor of Science degree in mechanical
engineering, a Master of Science degree in biomedical engineering from Drexel University,
and a Mechanical Engineering degree from MIT. Tr. 1083:10–18 (Krafchick).
95.
Mr. Krafchick’s industry background includes “development work on novel
paper making machinery” for Scott Paper Company in Philadelphia as well as work
designing and building factories at ICI Americas in Bloomington, Delaware.
1084:4–1085:3 (Krafchick).
24
Tr.
96.
Mr. Krafchick has been on the A14.2 Subcommittee since 1999.
Tr.
1085:4–7 (Krafchick).
97.
In Mr. Krafchick’s opinion, Tricam’s MPX ladder complies with ANSI
A14.2. Tr. 1087:3–12 (Krafchick).
98.
Mr. Krafchick viewed existing examples of competing ladders of Cosco,
Werner, and Louisville, and found those manufacturers’ crimped-riveted rung ladder
designs “virtually identical” to Tricam’s MPX ladders. Tr. 1090:9–1092:19 (Krafchick).
99.
According to Mr. Krafchick, the consensus required to reach agreement in
the ANSI A14.2 Committee meant there were “no significant objections to the parties
involved” in the various committee levels.
Tr. 1089:19–1090:8 (Krafchick).
Mr.
Krafchick testified that other manufacturers’ crimped-riveted designs were relevant
because they “represent[] a consensus of the people involved” in the ladder industry who
have membership on the ANSI A14.2 Subcommittee. Tr. 1089:7–1092:13 (Krafchick).
100.
Mr. Krafchick testified that manufacturers of crimped-riveted rung ladders
were represented on the ANSI A14.2 Subcommittee when the standard was adopted, so the
specifications of the standard are based on those designs and materials, as reflected in the
ANSI A14.2 § 5 statement that “[w]hile this standard addresses known performances
issues, it is based on current designs and materials of construction” Tr. 1093:3–1095:1,
1157:1–16 (Krafchick); P-1 § 5.
101.
In Mr. Krafchick’s view, the absence of an official interpretation of § 6.7.5
warranted a liberal interpretation of the standard. Tr. 1100:16–25 (Krafchick).
25
102.
Mr. Krafchick testified that considering the § 4 definition of “step surfaces,”
a rung can have “multiple step surfaces.” Tr. 1102:14–21 (Krafchick). Mr. Krafchick
opined that “[t]he step surface referred to in Section 6.7.5 is the flat area of the rungs
between the crimped ends, which is one-and-one-eighths inches deep.”
Tr.
1103:23–1104:3 (Krafchick).
103.
Mr. Krafchick testified that the fact that other crimped-riveted design rungs
remain in the market after passage of the 2007 standard from manufacturers who all have
representation on the committee informed his opinion relative to § 6.7.5.
Tr.
1106:23–1107:7 (Krafchick). Mr. Krafchick testified: “These are manufacturers continue
[sic] to manufacture their product in the same way, without any change or deviation, and
they all have representation on the committee. They know what the standard is and they
certainly—you know, if I were in their place, I wouldn’t market a product that I believe
didn’t comply with the safety standard.” Tr. 1107:1–7 (Krafchick).
104.
Mr. Krafchick sought to rebut Dr. Bloswick’s testimony about safety
problems with Tricam’s interpretation of the § 6.7.5 standard, including less tread depth,
sloped ends of the rungs, and a non-uniform step surface. Tr. 1108:1–9 (Krafchick).
105.
Mr. Krafchick testified that even with round rungs, which are allowed by
§ 6.7.5 as long as the round rung is at least 1-1/8-inch in diameter, foot contact is not made
on a flat surface, but rather on a line contact. Tr. 1108:13–22 (Krafchick); see also P-1
§ 6.7.5. Mr. Krafchick testified essentially that “if a line contact is good for a round rung,”
then it should be adequate with a crimped-riveted rung. Tr. 1108:13–22 (Krafchick).
26
106.
Mr. Krafchick opined that Tricam’s MPX ladder has three step surfaces
instead of one, because the ladder changes shape where the crimps are: one step surface is
the central flat portion, and there are two other step surfaces—namely, one step surface for
each of the two outer crimped portions of the rung. Tr. 1136:22–1137:7 (Krafchick).
107.
In Mr. Krafchick’s opinion, the singular term “step surface” as used in § 6.7.5
is not defined; rather, the plural term “step surfaces” is defined.
Tr. 1123:19–21
(Krafchick).
108.
Mr. Krafchick opined that if one applies the § 4 “step surfaces” definition to
§ 6.7.5, the standard “probably doesn’t even allow for a crimped and riveted rung style at
all.” Tr. 1135:13–17 (Krafchick).
109.
Mr. Krafchick testified that, to identify the “step surfaces” of a rung, one
must determine where on the rungs the clear portion is found where a user may step while
ascending or descending the ladder. Tr. 1129:25–1130:9 (Krafchick). Mr. Krafchick
testified that if a user can step on a portion of the rung, then “[t]hat’s a step surface.”
Tr. 1130:10–12 (Krafchick). Mr. Krafchick acknowledged that “the entire area from rail
to rail can be stepped upon.” Tr. 1138:25–1139:4 (Krafchick).
110.
Mr. Krafchick distinguished between the (undefined) “clear portion” of § 4’s
definition of “step surfaces” and § 4’s separately defined term, “inside clear width.”
Tr. 1137:12–15, 1138:25–1139:4 (Krafchick).
27
§ 6.7.5 – History Regarding Crimped-Riveted Rung Ladders
111.
Ladders with crimped-riveted rungs like Tricam’s have been on the market
since at least 2002.
And Tricam presented evidence at trial that competing ladder
manufacturers assert that their own crimped-riveted designs also comply with ANSI A14.2.
112.
Werner represents that its crimped-riveted rungs have a depth of one inch.
ECF No. 579 at 20:20–21:9 (King); D-35 at 17; D-36 at 44.
113.
Werner asserts that its multi-position ladders with crimped-riveted rungs
meet or exceed ANSI A14.2. ECF No. 579 at 16:14–17:6, 28:17–20, 29:3–11, 57:13–24,
58:2–59:12 (King); D-35 at 2, 4; D-36 at 6).
114.
Werner has its multi-position ladders tested by a third-party lab. ECF No.
579 at 35:4–15, 36:24–37:10, 41:14–42:7 (King); D-37; D-38.
115.
Werner’s third-party testing concluded that its crimped-riveted rungs comply
with § 6.7.5 of ANSI A14.2. ECF No. 579 at 36:24–37:10, 41:14–42:7, 42:21–43:7,
46:12–16, 47:9–12, 48:4–15, 48:19–20 (King); D-38 at 24; D-39 at 22.
116.
Before its multi-position ladders were tested by a third party, Werner had
already concluded that its multi-position ladders comply with ANSI A14.2. ECF No. 579
at 76:22–77:5 (King).
117.
Werner does not consider the crimped portion of the rung to be the step
surface under § 6.7.5 because it considers the crimped portion of its rungs to be “part of
the interrupted area to the step surface.” ECF No. 579 at 78:15–79:10, 80:21–81:4,
83:16–18, 84:7–15 (King).
28
118.
Louisville Ladders represents that its multi-position ladders meet or exceed
ANSI A14.2. ECF No. 583 at 18:2–25, 20:22–25, 21:3–9, 22:21–23:2, 26:7–15, 54:5–25
(Schmitt); D-14 at 7, 57; D-15 at 2.
119.
Louisville Ladder describes its crimped and riveted rungs as trapezoidal and
having a depth of over one inch with the ends of the rungs being under one inch in depth.
ECF No. 583 at 27:5–13, 28:14–16, 28:20–24, 30:1–31:7 (Schmitt); D-15 at 1.
120.
In addition to Werner and Louisville ladders, Keller, Cosco, and Mighty
Multi all have produced ladders with crimped-riveted rungs, and these businesses all claim
that their ladders comply with ANSI A14.2. Tr. 1184:23–1185:6 (Foley); see also ECF
No. 579 (King) at 12:20–13:1, 14:20–15:5, 18:3–19:8, 20:17–19, 28:17–20, 87:15–88:3;
D-35 at 17; D-36 at 44; ECF No. 583 at 8:5–19, 20:4–21, 21:3–9, 21:19–23:2, 24:20–25:22,
26:1–21, 37:4–20 (Schmitt); ECF No. 586 at 9:1–4, 9:6–8, 9:19–21, 9:23–25, 10:8–9,
12:12–15, 12:21–23, 15:2–4, 15:17–18, 24:5–8, 24:22, 39:8–9, 39:13–15; 39:25–40:2,
40:14, 40:16, 40:25, 53:7–13 (Voris).
121.
There is no evidence anyone ever has sought interpretation of § 6.7.5 as it
applies to crimped-riveted rung ladders. Every witness who was asked testified that, to
their knowledge, the issue of whether crimped-riveted rungs complied with ANSI A14.2
§ 6.7.5 had never been raised before the A14 Committee or the A14.2 Subcommittee.
122.
Dr. Bloswick never raised the issue of crimped-riveted rung compliance with
§ 6.7.5 before the A14 Committee, nor is he aware of anyone ever raising this issue with
the A14 Committee. Tr. 364:9–14 (Bloswick).
29
123.
Jon Ver Halen, president of Ver Halen Engineering and Chair of the ANSI
Labeling Task Force, has performed testing for Tricam since 2001. ECF No. 585 at
10:6–23 (Ver Halen).
124.
Mr. Ver Halen is unaware of Tricam ever seeking an interpretation of § 6.7.5,
and he has never sought an interpretation of that section himself. ECF No. 585 at 110:9–22
(Ver Halen).
125.
Michael Van Bree, Ph.D., has been a member of the A14.2 Subcommittee
since sometime in the 1990s. ECF No. 584 at 8:24–9:12 (Van Bree). Dr. Van Bree is an
engineering consultant for Engineering Systems, Inc., and he has worked with Louisville
Ladders, Werner, and Tricam. See ECF No. 518-3 at 6:25–8:13.
126.
Dr. Van Bree is unaware of anyone ever requesting an interpretation of § 6.75
during his time on the A14.2 Subcommittee, including between the filing of this case and
his deposition. ECF No. 584 at 16:25–17:6, 21:7–22:1 (Van Bree).
127.
Erick Knox is the current chair of the A14.2 Subcommittee. He has been
involved in the A14 meetings and standards development processes since 1998 or 1998.
ECF No. 580 at 8:7–25 (Knox).
128.
Dr. Knox is unaware of anyone requesting an interpretation of § 6.7.5. ECF
No. 580 at 63:21–24 (Knox). To Dr. Knox’s knowledge, the A14 Committee has never
given an official interpretation of § 6.7.5, and neither Tricam nor Little Giant has ever
sought an interpretation of § 6.7.5 as applied to Tricam’s crimped-riveted rung design.
ECF No. 580 at 63:25–64:15 (Knox).
30
129.
Pamela O’Brien is the Executive Director of the ALI. ECF No. 574 at
10:17–19 (O’Brien).
130.
Ms. O’Brien testified that she is not aware of, nor is there any record of,
anyone requesting interpretation of § 6.7.5, or of any comments that have submitted for
§ 6.7.5. ECF No. 574 at 22:23–23:11, 27:10–17 (O’Brien). Ms. O’Brien testified that ALI
has not previously offered an interpretation of § 6.7.5. ECF No. 574 at 34:5–20 (O’Brien).
131.
According to Mr. Krafchick, “[t]here has never been a request for
interpretation either formally or informally with regard to [§] 6.7.5.” Tr. 1100:16–19,
1155:14–20 (Krafchick).
132.
Little Giant admits that “[t]here is no evidence that anyone has ever requested
an interpretation of § 6.7.5 of the ANSI Standard.” Pl.’s Proposed Findings of Fact [ECF
No. 587] ¶ 14.
§ 6.7.5 – Interpretation3
133.
The better interpretation of § 6.7.5—and the interpretation I adopt here—
does not require that trapezoidal rungs on an articulating ladder have a flat top surface of
at least 1 inch in depth across their entire width (i.e., the entire distance between the inside
3
I conclude that the interpretation of § 6.7.5 presents a fact question. Section 6.7.5
is a voluntary industry standard. It is not a contract, statute, regulation, or other rule having
the force of law—the sort of things whose interpretation often requires a conclusion of law.
It is true that ANSI standards are sometimes incorporated into, or adopted as part of, a
regulatory regime. And though that may be true of § 6.7.5 in some contexts, the standard
is not presented here as a rule having the force of law. See Wing Enter., Inc. v. Tricam
Indus., Inc., 829 F. App’x 508, 515–16 (Fed. Cir. 2020) (observing that OSHA compliance
is not part of the case). This also seems to be how the Parties have treated the interpretation
of § 6.7.5. See, e.g., Pl.’s Proposed Findings of Fact [ECF No. 587] ¶¶ 45–56; Def.’s
Proposed Findings of Fact [ECF No. 588] ¶¶ 61–144.
31
of the ladder’s side rails). I reach this finding based on § 6.7.5’s text, both alone and
construed in light of other relevant provisions in ANSI A14.2, ANSI A14.2’s purpose, facts
underlying the standard’s adoption process and history, and facts regarding industry
practices to the extent ANSI A14.2 makes them relevant.
§ 6.7.5 – Text and Informative Provisions in ANSI A14.2
134.
Section 6.7.5 provides: “Trapezoidal . . . rungs shall have a step surface of
not less than 1 inch, either flat or along a segment of arc of 3 inches or greater radius.” P-1
§ 6.7.5.
135.
Although § 6.7.5 defines a depth of “not less than 1 inch” for “a step surface,”
§ 6.7.5 does not explicitly prescribe a width for the “step surface” to which it refers. Id.
136.
The term “step surface” does not alone answer this question because the term
is not defined.
137.
The term “step surfaces” is defined. P-1 § 4. This definition of the plural
term (plainly) informs the interpretation of the singular “step surface” appearing in § 6.7.5.
138.
However, I conclude that the “step surfaces” definition does not prescribe a
specific width for a “step surface” in § 6.7.5, either.
139.
The “step surfaces” definition uses the term “clear portion.”
140.
“Clear portion” is not defined.
141.
“Clear portion” is not used in any other part of ANSI A14.2.
142.
“Clear portion” is not used in a way in the “step surfaces” definition that
suggests it was intended to prescribe a particular width. This is evident from the “step
surfaces” definition’s text and when contrasted with other sections in ANSI A14.2.
32
143.
When the drafters of ANSI A14.2 intended to specify a width requirement,
they did so in clear, seemingly unambiguous terms that do not appear in the “step surfaces”
definition or in § 6.7.5.
144.
Other sections, for example, specify width dimensions using explicit
language different from “clear portion.” See P-1 § 5.5 (“surfaces of rungs, steps, and
platforms designed for use in ascending, descending, working, or standing, shall be
corrugated, serrated, knurled, dimpled, or coated with a slip-resistant material, across their
entire width” (emphasis added)); § 6.6.9 (requiring the size of the Top Cap of a
stepstool-type ladder to be “not less than 12 inches wide and 4-3/4 inches deep”)
(emphasis added)).
145.
Section 4 of ANSI A14.2 defines “inside clear width” as “[t]he distance
between the inside flanges of the side rails of a ladder.” P-1 § 4. However, the “step
surfaces” definition does not use the term “inside clear width.” This seems especially
significant because these terms—“step surfaces” and “inside clear width”—appear
together in ANSI A14.2 § 4. In other words, it would seem difficult to characterize the
decision not to use “inside clear width” as part of the “step surfaces” definition as a drafting
error, oversight, or unintended imperfection.
146.
ANSI A14.2 uses the term “inside clear width” in other portions to define a
width dimension. See P-1 §§ 6.1.3, 6.2.1, 6.2.2, 6.3.2, 6.4.3, 6.5.3, 6.6.3, 6.7.3.
147.
If ANSI A14.2 were intended to apply the meaning of “inside clear width”
to the “step surfaces” definition or to § 6.7.5, the term more likely would appear in either
or both sections.
33
148.
“Clear portion” as used in the “step surfaces” definition means something
less than “inside clear width.”
149.
Dr. Bloswick testified credibly and persuasively that a ladder user typically
steps on the entirety of a ladder’s rungs and is prone to step on the outer portions of a
ladder’s rungs. Tr. 366:15–23 (Bloswick).
150.
I am nonetheless not persuaded that Dr. Bloswick’s testimony in this regard
means the term “step surfaces” should be understood to prescribe a minimum width, or a
rung’s entire width, between a ladder’s rails. As noted above, the textual clues ANSI A14.2
uses to do that do not appear in § 6.7.5.
151.
Even if the term “step surfaces” (plural) were construed to mean the entire
width of a rung (which, for reasons explained in ¶¶ 133–150, I decline to do), the better
interpretation is that “a step surface” (singular)—the term used in § 6.7.5—means
something less than that.
152.
ANSI A14.2 does not identify explicitly a precise or minimum width of the
“step surface” to which § 6.7.5 refers. In its statement of purpose, ANSI A14.2 is clear
that it is intended “to provide reasonable safety for life, limb, and property.” P-1 at § 1.2.
At a minimum then, I interpret § 6.7.5 to require a “step surface” of sufficient width to
meet this purpose.
153.
The trial record includes evidence suggesting that the design of Tricam’s
MPX ladders is not as safe as Little Giant’s, see, e.g., Tr. 355:23–359:9, 391:22–25
(Bloswick), but there is no evidence that Tricam’s MPX ladders do not “provide reasonable
safety for life, limb, or property.” See P-1 § 1.2.
34
154.
As part of his testimony, Dr. Bloswick identified ladder designs that he
believed would comply with § 6.7.5 if the section were understood not to prescribe a
minimum width of the “step surface” to which it refers. For two basic reasons, I find that
these hypothetical designs do not undermine my interpretation of § 6.7.5.
155.
First, I understand that the point of the hypotheticals was to show that
Tricam’s proposed interpretation of § 6.7.5 would condone absurd and unsafe designs, and
one might reasonably question each hypothetical design’s safety. But if the hypothetical
designs Dr. Bloswick identified were found to be unsafe, that would mean they would
violate ANSI A14.2’s essential purpose. No design that would violate the standard’s
essential purpose would comply with the standard. In other words, the hypothetical designs
would not comply with my understanding of § 6.7.5, which requires a “step surface” to be
of sufficient width to provide reasonable safety. See supra ¶ 152.
156.
Second, the trial record includes no evidence suggesting either that any
ladder depicted in Dr. Bloswick’s hypotheticals or anything equivalent is manufactured (or
will be manufactured based on this interpretation of § 6.7.5), or that these hypothetical
ladders are fair comparators to Tricam’s MPX ladders.
§ 6.7.5 – Relevant History
157.
In addition to its textual clues, ANSI A14.2’s development process
considered alongside those who participated in ANSI A14.2’s drafting supports this
interpretation of § 6.7.5.
158.
As noted, an ANSI standard “implies a consensus of those substantially
concerned with its scope and provisions.” P-1 at 3; see also id. at 4 (noting that the A14.2
35
Subcommittee’s original objective was to develop “portable ladder standards within the
consensus framework of developing standards”).
Witness testimony supports the
conclusion that the A14.2 Subcommittee sought to achieve consensus consistent with these
provisions.
Tr. 82:20–83:11, 223:22–224:1 (Moss); 325:8–24 (Bloswick); Tr.
1089:19–1090:8 (Krafchick).
159.
By definition, the presence of a consensus does not imply unanimity. It does,
however, imply the presence of consent or concurrence, and very likely agreement
regarding basic principles. See Tr. 316:6–21, 317:22–318:15, 364:15–365:18 (Bloswick);
Tr. 1089:7–1090:8 (Krafchick). Witness testimony shows that the A14.2 Subcommittee
shared this understanding of what it means to reach a consensus. Id.
160.
Ladders with crimped-riveted rungs like Tricam’s MPX ladders have been
on the market since at least 2002, and representatives of manufacturers of such ladders
have served on the A14.2 Subcommittee throughout that time. P-1; P-2; P-104; P-106;
P-109.
161.
If I am to understand and apply ANSI A14.2 as reflecting a consensus
of—not merely “those substantially concerned with its scope and provisions” (i.e.,
participants in the portable metal ladder market), P-1 at 3—but more specifically those
responsible for ANSI A14.2’s drafting and upkeep, the better understanding is that § 6.7.5
was not intended on its adoption to render non-compliant an existing category of ladders
(with crimped-riveted rungs) produced by manufacturers with representation on the A14.2
Subcommittee.
The opposite conclusion effectively would require finding that
crimped-riveted rung ladder manufacturers’ representatives on the A14.2 Subcommittee
36
consented to the adoption of a standard with which their design did not, and could not,
comply.
162.
This understanding finds additional support in ANSI A14.2 § 5’s explanatory
statement that the standard “is based on current designs and materials of construction.” P-1
§ 5. To be clear, I do not understand this statement to mean that the standard condones
every ladder design on the market when the standard was adopted. I do understand this
statement to mean, however, that I am to consider at least those designs that were common
or widely available in the portable ladder market and whose reasonable safety was not
questioned at that time. The evidence shows that, at the time of ANSI A14.2’s adoption,
ladders with crimped-riveted rungs fell into this category. There is no evidence suggesting
anyone questioned whether the ladders “provide[d] reasonable safety for life, limb, [or]
property.” P-1 § 1-2.
163.
I also find it informative that there is no evidence (prior to this lawsuit) that
anyone questioned whether crimped-riveted rung ladders comply with ANSI A14.2 and
specifically § 6.7.5.
164.
Given the availability of such ladders throughout the relevant period, the
absence of such evidence leaves three possibilities: (1) those concerned with ANSI A14.2’s
scope and provisions shared a consensus that crimped-riveted rung ladders complied with
ANSI A14.2, and specifically § 6.7.5; (2) those concerned with ANSI A14.2’s scope and
provisions shared a consensus that such ladders did not comply with ANSI A14.2, and
specifically § 6.7.5; or (3) no one identified the issue.
37
165.
I find the first possibility more likely than the second and third for the reasons
described in ¶¶ 157–163, above.
166.
If that were incorrect, I would find the third possibility more likely than the
second. This conclusion would find support, for example, in Dr. Bloswick’s testimony.
Though Dr. Bloswick has a lengthy and estimable career, much of which he spent studying
and promoting ladder safety, he evidently did not identify this question or take the position
that crimped-riveted rung ladders do not comply with ANSI A14.2 prior to this case. And
Dr. Bloswick acknowledged that prior to his retention by Little Giant in this case, he did
not “really appreciate the interaction between the definitions in Section 4 and 6.7.5 and . . .
the relationship between inside clear width requirement of 12 inches . . . and the
requirement with respect to [the] clear portion of the rung.” Tr. 394:20–395:10 (Bloswick).
167.
In that situation, I would find that the failure to identify the issue resulted
from a lack of specificity in ANSI A14.2, and particularly § 6.7.5. I also would find that
ANSI A14.2 addresses this kind of situation by instructing that “this standard should be
liberally construed[.]” P-1 § 2.3. Though this provision is not entirely clear, I understand
it to recognize that it is not feasible to account for every ladder type or use condition, and
that if an unanticipated ladder type, use condition, or other unaddressed issue is
encountered, ANSI A14.2 should be liberally (and not strictly) construed in view of the
standard’s more general rationale and purposes.
Tricam’s ANSI-Compliance Testing
168.
Tricam knew its MPX ladders had to meet ANSI standards as a condition of
doing business with Home Depot. Tr. 1240:17–21 (Skubic).
38
169.
During development of the MPX ladders, Tricam performed internal testing
of the MPX ladders at its Eden Prairie, Minnesota facilities and in China. Tr. 951:5–22
(Williams); 1183:16–1184:22 (Foley).
170.
Foley observed testing performed on the MPX ladder designs to ensure that
the designs met ANSI performance requirements. Tr. 1179:3–18, 1180:10–13 (Foley)
(testifying that ANSI compliance was “a consideration with every part of the model of the
ladder”). The final design of the MPX ladder passed all testing done or arranged by Tricam.
Tr. 1184:15–22 (Foley).
171.
Tricam had different models and sizes of its MPX ladders externally tested
for compliance with ANSI A14.2 standards by independent third-party test labs Ver Halen
Engineering and Intertek Testing Services Ltd. (“Intertek”).
Tr. 555:21–556:1,
964:15–965:18, 967:4–11 (Williams); D-21, D-22, D-28.
172.
Intertek’s testing determined that the final designs of Tricam’s MPX ladders
satisfied § 6.7.5. D-21; D-22; D-28; Tr. 1184:10–22 (Foley).
173.
Intertek’s testing was bona fide and considered all relevant aspects of ANSI
A14.2, including § 6.7.5. It is true that Tricam did not direct Intertek specifically to use
the “step surfaces” definition to interpret compliance with § 6.7.5. The Intertek test reports
show nonetheless that Intertek compared the ladders to the precise language of § 6.7.5 and
found the ladders to be compliant. See D-21 at 4–5; D-22 at 4–5.
Little Giant’s Historical Position Regarding Crimped-Riveted Rung Ladders
174.
Little Giant has known for many years that its competitors manufacture
crimped-riveted rung ladders.
39
175.
Prior to bringing this case, Little Giant did not challenge whether such
ladders complied with ANSI A14.2 § 6.7.5.
176.
Moss, who has served as ALI president for six years, has known about the
market presence of crimped-riveted rung ladders for almost two decades, but he did not
raise the issue of their compliance with § 6.7.5 or their safety except in connection with
litigation over Tricam’s MPX ladders. Tr. 148:22–150:1 (Moss).
177.
Little Giant Senior Vice President of Sales Mel Huffaker has been selling
multi-position ladders for 25 years for Little Giant. He has known of Werner selling
crimped-riveted ladders since the early 2000s.
Tr. 720:19–721:18, 763:13–764:15
(Huffaker).
178.
Prior to this lawsuit, Little Giant routinely acquired competitors’ ladders and
brought them to Little Giant’s lab to test for ANSI compliance. Tr. 110:10–14 (Moss).
Little Giant did not test for compliance with ANSI A14.2 § 6. See Tr. 213:18–214:6
(Moss); Tr. 228:12–231:25 (Wing).
Little Giant’s Determination that Tricam’s MPX Ladders Violate § 6.7.5
179.
Little Giant first learned of Tricam’s MPX ladders on February 6, 2017.
Tr. 99:19–22 (Moss); P-113.
180.
On approximately March 13, 2017, Wing videotaped a Tricam MPX ladder
being presented at a Home Depot Product Walk in Las Vegas, Nevada, where Tricam first
unveiled the ladder. Tr. 241:19–242:1, 272:16–273:2, 274:14–24 (Wing); 1246:1–16
(Skubic); P-114; P-132.
40
181.
Until Tricam started marketing its MPX ladders, Little Giant’s competitors
(including Tricam) used “J-locks or lock-tabs” to adjust the height of the ladders.
Tr. 97:24–98:25 (Moss). In this style, you had to “actually … pull them out to change …
and then just bring them back up to lock them into place.” Id.
182.
Little Giant uses “rapid locks” (or twist locks) that rotate to “control the outer
section of the ladder” and “change the height of the A-frame.” Tr. 93:24–94:2 (Moss).
183.
Aside from Little Giant and Tricam, Mr. Wing is not aware of any other
articulating ladders on the market that use twist locks. Tr. 242:22–25 (Wing).
184.
In February 2017, when Little Giant first became aware of Tricam’s MPX
ladders, Little Giant had already introduced products into the market with its rapid lock
feature, but it was not selling them at Home Depot. Tr. 99:19–100:18 (Moss). When
Tricam released its MPX ladder, Little Giant determined that, in its view, the MPX ladder
copied Little Giant’s rapid locks and hinge technology. Tr. 99:19–100:18, 106:12–107:10,
151:21–152:7 (Moss).
185.
At that time, Mr. Moss was concerned “[b]ecause we were just in the early
stages of beginning to market this new technology … having that technology on a broader
stage before we were on that broad stage could make it look like we were the afterthought
or we were copying them.” Tr. 100:19–24 (Moss).
186.
Little Giant purchased a Tricam MPX ladder sometime in March 2017 to
investigate potential patent infringement, and soon after determined that, in its view, the
MPX ladder did not comply with § 6.7.5. Tr. 151:24–152:13, 106:12–107:13, 109:13–15,
112:1–10 (Moss); P-113; P-117.
41
187.
Mr. Moss first formed a belief that crimped-riveted rungs do not comply
with § 6.7.5 after he observed a Tricam MPX ladder in a hallway at Little Giant’s offices
and recalled the § 6.7.5 standard. Tr. 106:12–21 (Moss). Mr. Moss discussed the issue
with Little Giant engineer (and Little Giant’s representative on the ANSI Committee) Ben
Cook. Tr. 107:11–25, 145:7–12 (Moss).
188.
Mr. Cook and Little Giant engineer Scott Patton were involved with ANSI
testing at Little Giant. Mr. Patton had worked with ANSI A14.2 for 30 years, including
working as an engineer at Werner for approximately 25 years. ECF No. 572 at 7:10–25
(Cook); ECF No. 575 at 13:23–14:10, 14:22–15:1, 16:11–14, 20:14–21:1, 33:4–11
(Patton).
189.
Mr. Patton was aware of the crimped-riveted design of Werner’s
multi-position ladders from working at Werner. ECF No. 575 at 11:23–13:5 (Patton).
190.
Mr. Patton testified that “there are a lot of grey areas within ANSI,” and he
and Mr. Cook on occasion would go to Dr. Knox, the chair of the ANSI committee, for an
opinion regarding ANSI standards. ECF No. 575 at 30:4–32:9 (Patton); but see ECF
No. 572 at 60:3–62:3 (Cook).
191.
Mr. Cook has never spoken with Dr. Knox or anyone on the A14.2
Subcommittee about § 6.7.5.
192.
Mr. Patton acknowledged that the term “clear portion” was not defined in
§ 6.7.5. ECF No. 575 at 62:2–11 (Patton).
42
193.
Little Giant contacted Testing Engineers International, Inc. (“TEi”) to review
Tricam’s MPX ladder for ANSI compliance. ECF No. 582 at 21:19–22:14 (MacGregor).
TEi is a member of ANSI. ECF No. 582 at 10:14–11:15 (MacGregor).
194.
In June 2017, Little Giant provided TEi with a Tricam MPX ladder and
defined the scope of the test it wished TEi to conduct. ECF No. 582 at 21:19–22:14,
33:6–34:15 (MacGregor); D-2 at 3. Pursuant to Little Giant’s instructions, § 6.7 was the
only section that TEi evaluated for compliance. ECF No. 582 at 48:22–49:5, 49:22–50:21,
51:4–13 (MacGregor).
195.
Little Giant’s instructions to TEi interpreted § 6.7.5, stating that “Step
surface must be not less than 1 inch → step surfaces are the clear portion you may step on
→ clear portion must be at least 12ʺ.” D-2 at 3. Adhering to these directions, TEi’s report
concluded that the Tricam MPX ladder’s outer rungs did not comply with § 6.7.5 ECF No.
582 at 48:1–11, 76:7–16 (MacGregor).
196.
A May 2018 internal Little Giant document also compared Tricam’s
crimped-riveted rungs to the § 6.7.5 standard. D-25. Just as in its instructions to TEi, Little
Giant interpreted § 6.7.5 to require that the “clear portion must be at least 12",” thus
equating the “clear portion” with the dimensions for “inside clear width” in § 6.7.3. D-25
at 3; D-2 at 3.
Tricam’s Challenged Statements
197.
Little Giant alleges that Tricam falsely advertised that its MPX ladders
comply with ANSI A14.2 via four separate statements:
43
(1) prior to June 2018, a circular icon on the side label of Tricam’s MPX ladders
stated: “MANUFACTURER CERTIFIES CONFORMANCE TO OSHA ANSI
A14.2 CODE FOR METAL LADDERS” (as shown below):
Tr. 461:22–462:12 (Mansager); 535:19–536:7 (Williams); P-122; P-311;
44
(2) from June 2018, that same label stated (and states): “COMPLIES WITH ALL
APPLICABLE ANSI A14 STANDARDS” (as shown below):
Tr. 464:11–17 (Mansager); 535:19–536:7 (Williams); P-311;
(3) online statements on Home Depot website product pages for Tricam MPX
ladders stating: “Certifications and Listings: ANSI Certified” (the “THD.com
Statements”). Tr. 428:18–429:7 (Skubic); see also P-180; and
45
(4) product pages for Tricam’s MPX ladders on Tricam’s GorillaLadders.com
website
stating:
“CERTIFICATIONS:
ANSI
A14.2
OSHA”
(the
“GorillaLadders.com Statements”).
198.
Regarding the side labels, ANSI includes requirements for marking and
labeling on articulating ladders, including the placement of certain ANSI compliance
statements on the side labels of ladders. See Tr. 922:21–25, 928:2–16 (Mansager); P-1
§§ 9, 9.3.8.1 & Appendices at 64, 65, 74; D-113; D-112.
199.
Tricam’s statements on the ladder labels “mean[] that Tricam certifies its
MPX ladders comply with the ANSI A14.2 Standard.” Def.’s Proposed Findings of Fact
[ECF No. 588] ¶ 147; Tr. 536:2–11 (Williams). The intended audience for these ladder
label statements is consumers, or “prospective purchasers of an MPX ladder.”
Tr.
457:21–25, 461:1–21, 925:6–928:1 (Mansager); Tr. 536:12–25 (Williams). The side label
certifications are intended to communicate to consumers that the manufacturer certifies
that the MPX ladder complies with ANSI. Tr. 462:9–15, 923:4–12 (Mansager).
200.
Little Giant alleges that Tricam’s statements on Home Depot’s website,
THD.com, are false. In particular, Little Giant challenges the portion of each product page
for Tricam’s MPX ladders on Home Depot’s website that reads: “Certifications and
Listings: ANSI Certified.”
201.
Tricam provided Home Depot with a document showing that Tricam’s MPX
ladders had passed testing from a third-party company before Home Depot “onboarded”
the ladders. ECF No. 573 at 41:2–8, 46:9–23, 59:6–19 (Jackson). Home Depot only looks
46
for a “pass” on these testing documents but does not further “dive into any detail.” ECF
No. 573 at 60:16–61:3 (Jackson).
202.
When Tricam first introduced its MPX line to Home Depot, information
about the ladders was added into Home Depot’s Flex PLM vendor portal, which is used
when Home Depot is the “importer of record,” that is, when a product ships directly to
Home Depot. Tr. 908:24–909:13 (Mansager).
203.
Sarah Mansager, Tricam’s Marketing Manager, is the only person at Tricam
who interacts with the Flex PLM program. Tr. 911:12–14 (Mansager).
204.
The information in the Flex PLM portal includes “information about the
product, dimensions, weights, container quantities, the factory name, [and] the port where
it’s going to ship from.” Tr. 909:14–22 (Mansager).
205.
Ms. Mansager testified that Home Depot required Pre-Purchase Testing
(“PPT”) on Tricam’s products before it purchased them. Tr. 911:9–912:5 (Mansager). Ms.
Mansager entered information in the Flex PLM portal indicating that Intertek tested the
MPX ladders. Tr. 912:6–8 (Mansager).
206.
Once the Flex PLM process is complete and submitted to Home Depot for
review, the information is imported into Home Depot’s information data management
system (“IDM”). At that point, Ms. Mansager gained access to the IDM. Tr. 912:9–17
(Mansager).
207.
Tricam’s marketing team was responsible for entering certain data about
Tricam’s MPX ladders through the IDM. Tr. 427:9–19 (Skubic). The purpose of this
47
information included showing the information to consumers, and Home Depot uses the
information for its internal systems. Tr. 427:24–428:10 (Skubic).
208.
Ms. Mansager entered information about Tricam’s MPX ladders through the
IDM, including marketing copy, images, product/material information, dimensions,
weights, and other specifications. Tr. 428:11–14 (Skubic); Tr. 913:8–16 (Mansager).
209.
Tricam had the ability to choose and control what information it wanted to
display about its MPX ladders. Tr. 427:20–23 (Skubic).
210.
The information Ms. Mansager entered on the IDM populated the
specifications data on the website. Tr. 428:21–23 (Skubic). Pursuant to the SBA, the
vendor (or whoever submits the data) controls the content of the data submitted on the
IDM. ECF No. 573 at 133:8–134:2 (Jackson).
211.
This information includes certifications, such as the ANSI certification at
issue in this litigation. Tr. 429:2–7 (Skubic).
212.
Tricam knows that the information it submits on the IDM will be shown to
consumers and that the information is “intended to convince consumers to buy [Tricam’s]
ladder[s].” Tr. 427:24–428:10 (Skubic).
213.
Home Depot relies on vendors to make sure that content is accurate and does
not take the responsibility to audit every product’s data to make sure it is correct. ECF
No. 573 at 131:11–134:17 (Jackson).
214.
The certifications and listings portion of the IDM has a drop-down menu/list
from which Ms. Mansager selected that the MPX ladder line was ANSI certified.
Tr. 913:17–914:11, 468:8–23 (Mansager).
48
215.
Ms. Mansager chose to mark the MPX ladder line as ANSI compliant
because “[s]ince I’ve worked at Tricam, I know that all of our ladders are tested to the
ANSI standard.” Tr. 468:8–469:18, 914:8–15, 934:14–935:3 (Mansager).
216.
The certifications and listings portion of the IDM is a required field, and Ms.
Mansager knew that she would have to select a certification in this field, or the ladders
would not be onboarded onto Home Depot’s website.
Tr. 470:9–13, 913:21–24
(Mansager).
217.
According to Ms. Mansager, selecting the certification regarding ANSI
compliance means that the ladder has “been tested and passed ANSI.” Tr. 923:21–924:15
(Mansager).
218.
Home Depot reviews the IDM information from Tricam before it is visible
online. Tr. 914:22–916:1.
219.
The information about Tricam’s MPX ladder ANSI certification appears on
Home Depot’s website in a section on the product page called “Warranty/Certifications.”
Tr. 472:19–473:3 (Mansager).
220.
Ms. Mansager uploads all content and images to Tricam’s website,
GorillaLadders.com. Tr. 473:17–21 (Mansager).
221.
Tricam does not sell any ladders on the GorillaLadders.com website.
Tr. 474:2–4 (Mansager).
222.
Ms. Mansager added the line “Certifications: ANSI A14.2; OSHA” to the
GorillaLadders.com website.
Tr. 474:5–22 (Mansager).
49
Ms. Mansager added this
information to the website because she believed that “[Tricam’s] ladders are tested to
ANSI.” Tr. 474:19–475:11 (Mansager); P-9.
223.
The GorillaLadders.com website is directed to consumers. Tr. 475:16–20
(Mansager).
Little Giant’s Materiality Expert – Hal Poret
224.
Little Giant retained Hal Poret to design and conduct a survey to determine
whether compliance with industry safety standards generally is important to
consumer-purchase decisions with respect to multi-position ladders.
Tr. 573:3–15,
575:21–576:1 (Poret). Mr. Poret also reviewed and analyzed the survey conducted by
Tricam’s expert, Dr. Debbie Treise. Id.
225.
Mr. Poret has an undergraduate degree in math from Union College in New
York, a master’s degree in math from the State University of New York at Albany, and a
juris doctor degree from Harvard Law School. Tr. 574:15–23 (Poret).
226.
Mr. Poret owns a survey research company, and for the last 17–18 years, he
has designed consumer surveys and consulted on consumer survey design in the areas of
corporate market research and in the context of legal proceedings. Tr. 574:24–575:15
(Poret). Poret has testified as an expert witness at trial approximately 40–50 times.
Tr. 575:16–20 (Poret).
227.
Based on his survey results, Mr. Poret found that compliance with industry
safety standards is important, as evidenced by the 58 percent of respondents who said that
it was an important factor in their decisions; only strength and duty rating were rated as
50
more important factors than compliance with industry safety standards. Tr. 573:19–574:1,
582:11–16 (Poret).
228.
Mr. Poret did not perform observational testing as part of his survey work.
Tr. 601:3–23 (Poret).
229.
Mr. Poret’s survey “was phrased about general industry safety standards,”
and “[i]t was not asking about ANSI specifically.” Tr. 599:18–600:6, 614:21–615:7
(Poret).
230.
The “answer [to Mr. Poret’s survey] is not telling you whether or not anybody
is thinking of a particular organization,” but rather “that they care as a principle about
compliance with industry standards such that if they did find themselves in a situation
where they’re seeing a statement about a particular standard, that would give you reason to
think they are going to care about that.” Tr. 606:22–607:10 (Poret). Mr. Poret testified
that “consumers generally don’t walk around with a high degree of thinking of certifying
organizations or standards in their head, but the reason these things get put on products is
because when consumers see them in context on actual advertising [of] products they
understand from the context what the significance of it is.” Tr. 614:21–615:7 (Poret).
231.
Mr. Poret did not include certain other factors in his survey, such as the
impact of price, store availability, product recall notices, brand loyalty, whether a ladder
can fold to fit in a car, different sizes of ladders, stability, rail locks, wider rail profiles, and
comfort/ease of use, though these could be important factors in purchasing.
608:17–613:25 (Poret).
51
Tr.
232.
Mr. Poret’s survey “was designed to test the extent to which compliance with
industry safety standards is important in the decision of purchasers of multi-position
extension ladders.”
Tr. 575:21–576:1 (Poret).
To this end, Mr. Poret created a
questionnaire that was used to create and program the survey. Tr. 576:4–11 (Poret); P-345;
P-346; P-347. Mr. Poret retained a market research company to program, conduct, and
host the survey online under Mr. Poret’s supervision. Tr. 577:15–578:1 (Poret).
233.
Mr. Poret surveyed “past purchasers and likely future purchasers of
multi-position extension ladders.” Tr. 579:22–24 (Poret). Participants “were first asked
which products they’d purchased in the past two years or they’re likely to purchase in the
next two years, and they had to select [a] ladder in order to continue.” Tr. 579:24–580:3
(Poret). After that, participants were asked “which type of ladder they had purchased or
are likely to purchase, and they had to select a multi-position ladder … that can extend and
change positions.” Tr. 580:4–9 (Poret).
234.
Of the 200 participants in Mr. Poret’s survey, 196 had purchased a
multi-position extension ladder in the past two years. Tr. 580:9–10 (Poret). Only 4 of the
participants were prospective purchasers. Tr. 580:20–581:2 (Poret).
235.
All of Mr. Poret’s survey participants either had shopped for or purchased a
ladder at Home Depot or indicated that they would consider purchasing a ladder at Home
Depot. Tr. 580:11–14 (Poret).
236.
Mr. Poret asked survey participants to select which of twelve listed factors
were “important” to them in selecting a multi-position ladder. Tr. 581:10–14 (Poret).
These factors included: feet material or style, compliance with industry safety standards,
52
scope of warranty, brand or model name, company name, rung or step material, strength or
duty rating, hinge lock size or style, product weight, and color or appearance. Tr.
581:19–582:1 (Poret). Participants were then asked to rank from most important to least
important the factors that they had previously indicated were important. Tr. 582:2–10
(Poret).
237.
From the survey results, Mr. Poret concluded that “generally compliance
with industry safety standards is important to the majority of consumers and it’s of
particular importance to a lot of consumers.” Tr. 582:17–23 (Poret).
238.
In addition to testifying regarding his survey, Mr. Poret testified that
Tricam’s survey—described in detail in the next section—yielded results that were
consistent with his importance findings.
239.
As Mr. Poret described it, the Tricam survey demonstrated that 72.8 percent
of consumers “remembered that the ladder that they had purchased made representations
on the label about meeting safety standards and 87 percent answered that the information
on the side of the ladder was important to their purchase decision.” Tr. 574:2–8 (Poret).
240.
Mr. Poret concluded that Dr. Treise’s survey revealed that a “large majority
of the respondents said that they did read the side label of the ladder” both before and after
purchasing it, “they did see a representation on the label about meeting safety standards,”
and “the information on the side label was important to their decision.” Tr. 583:18–584:2,
587:5–16 (Poret).
241.
Mr. Poret testified that Dr. Treise’s survey was “consistent” with the results
of his survey, and that the two surveys “corroborate each other.” Tr. 592:18–593:1 (Poret).
53
Specifically, Mr. Poret testified that his survey “establishes as a principle that compliance
with industry safety standards is important, and the Tricam survey showed specifically that
with respect to recent actual purchasers and Gorilla ladder purchasers, that they were, in
fact, influenced by safety representations on the … side label.” Id.
242.
Mr. Poret also criticized Dr. Treise’s survey as being essentially too
restrictive because Dr. Treise counted respondents as having been influenced by the label
only if they had heard of ANSI, could explain what ANSI does, and used the term ANSI
in describing what they remembered from the side label. Tr. 593:16–595:23 (Poret).
243.
Mr. Poret concluded that “all the survey data supports the position that
compliance with industry safety standards is important to a large percentage of consumers
and that a statement about ANSI compliance would likely influence the decisions of
significant percentages of purchasers. Tr. 574:10–16 (Poret).
Tricam’s Materiality Expert – Debbie M. Treise, Ph.D.
244.
Dr. Treise testified at trial as an expert for Tricam and to rebut Mr. Poret’s
opinions. Tr. 1028:1–14 (Treise).
245.
Dr. Treise is a full professor in the department of advertising at the University
of Florida in Gainesville. Tr. 1022:1–6 (Treise). Dr. Treise has an undergraduate degree
in advertising from the University of Florida, a master’s degree in advertising and mass
communication from the University of South Florida in Tampa, and a Ph.D. from the
University of Tennessee. Tr. 1022:7–19 (Treise).
246.
Dr. Treise served as the research and graduate dean for 16 years at the
University of Florida. Tr. 1022:25–1023:7 (Treise). She has taught undergraduate classes,
54
including undergraduate capstone classes, in advertising.
Tr. 1023:8–13 (Treise).
Dr. Treise instructs and supervises students on how to conduct survey research with
appropriate target markets. Tr. 1023:14–21 (Treise).
247.
Dr. Treise conducted survey research for NASA for ten years.
Tr.
1024:3–11. She served as a creative director at several advertising agencies for 13–14
years before she went into academics. Tr. 1024:12–15 (Treise). She has consulted on
survey research for various organizations. Tr. 1024:12–17 (Treise). Dr. Treise has
authored approximately 60 published papers, many of which were based on survey
research. Tr. 1024:23–1025:7 (Treise). Dr. Treise has received grants from the Kaiser
Family Foundation and NASA for her survey work. Tr. 1025:11–17 (Treise). Dr. Treise
currently serves as the executive director of the American Academy of Advertising, and
previously served as its secretary and president. Tr. 1025:22–25 (Treise).
248.
Dr. Treise has never testified in court before this litigation. Tr. 1026:8–12
(Treise).
249.
Dr. Treise testified that the fundamental problem with Mr. Poret’s survey
was that “Mr. Poret did not isolate ANSI, which seems to be at the core of this,” and that
“[h]e also seems to conflate industry safety standards with safety and ANSI” and “didn’t
separate those out.” Tr. 1028:8–14 (Treise).
250.
Dr. Treise testified that Mr. Poret’s survey population—200 people—was
insufficient to generate reliable results. Tr. 1028:15–1029:2 (Treise).
251.
Dr. Treise surveyed more than 1,000 people. Tr. 1029:3–4, 1034:15–17
(Treise). To arrive at this number, Dr. Treise did a “power analysis,” and had it double55
checked by “the stats people at the University of Florida”; this analysis identified the
number of survey participants needed to yield reliable results.
Tr. 1028:17–1029:9
(Treise).
252.
Dr. Treise criticized Mr. Poret’s survey because it contained a “finite list of
potential factors that might be important and it doesn’t ask people how important.”
Tr. 1029:21–1030:3 (Treise). Dr. Treise also found fault with Mr. Poret’s survey because
it did not include an “other” option, “where people could indicate what’s important to
them”; instead, participants were asked to rank a list that may not include everything they
might consider important. Tr. 1030:4–1032:6 (Treise).
253.
Dr. Treise opined that Mr. Poret’s survey was defective in that it did not ask
anything about ANSI specifically, but rather just asked about “compliance with industry
safety standards.” Tr. 1032:11–24 (Treise). As a result, it was not clear if anyone that
marked “compliance with industry standards” as important was thinking about ANSI
specifically. Id.
254.
Dr. Treise visited Home Depot stores to investigate “how shoppers shop for
these ladders.” Tr. 1078:13–19 (Treise). She went to Home Depot stores in three Florida
cities, spent several hours at each location, and observed customers examine and purchase
ladders. Tr. 1078:13–1079:15 (Treise). Dr. Treise observed that the ladders were often
“wrapped in plastic wrap that obscured” the side labels, and often were “up too high to read
the warning labels.” Id. She also observed that “a third [of the customers she observed]
asked for sales associates to come over . . . and asked various questions about the weight”
56
and other questions. Id. She also observed that “if [consumers] spent ten seconds looking
at the side of the ladder, that was a lot.” Id.
255.
Dr. Treise’s survey asked 1,043 people who had purchased a multi-position
ladder in the past year an open-ended question about why they had purchased the ladder.
Tr. 1034:15–19, 1043:12–17 (Treise). No one responded with anything regarding ANSI,
OSHA, or industry safety (or other) standards. Tr. 1032:25–1034:19, 1043:12–17 (Treise).
256.
Dr. Treise asked survey participants whether they had heard of ANSI,
OSHA, or “HFNI,” a fictitious organization that Dr. Treise included to control for “a
phenomenon in survey and experimental research . . . where . . . people in your study are
trying to guess what your study is about and they want to answer the right way . . . to be
good survey takers.” Tr. 1035:3–1036:17, 1055:17–22 (Treise). Based on the responses
to her survey, Dr. Treise determined that just over 42 percent had heard of ANSI, 78.9
percent had heard of OSHA, and almost 14 percent had heard of HFNI. Id.
257.
Because 14 percent claimed to have heard of (the fictitious) HFNI, Dr. Treise
surmised that at least some people similarly responded that they had heard of ANSI or
OSHA, though they likely had not. Tr. 1036:2–13 (Treise).
258.
According to Dr. Treise, the fact that a respondent had heard of ANSI did not
necessarily mean that the respondent considered ANSI compliance important to a
purchasing decision. Tr. 1036:14–17 (Treise).
259.
Dr. Treise asked survey participants whether they knew what ANSI, OSHA,
or “HFNI” did. As to ANSI, 13.8 percent of survey participants did not recall or gave
incorrect answers, 3 percent correctly identified what the acronym stood for, 3.7 percent
57
copied and pasted what the organization did from the internet, and 21.9 percent clearly
knew what ANSI did. Tr. 1037:2–1038:14 (Treise).
260.
According to Dr. Treise, the fact that a respondent knew what ANSI did does
not necessarily mean that ANSI compliance was important to a ladder purchasing decision.
Tr. 1037:25–1038:3 (Treise).
261.
Dr. Treise testified that “about three times more people knew, clearly knew
what OSHA did. Far fewer had to cut and paste. And fewer couldn’t recall or gave [an]
incorrect answer.” Tr. 1038:4–7 (Treise).
262.
Dr. Treise testified that this demonstrated the problem with Poret’s
survey—i.e., that he conflated different industry standards into one listed factor. Tr.
1038:8–14 (Treise).
263.
Dr. Treise also asked participants an open-ended question as to what they
recalled reading on the label. Tr. 1039:20–23, 1040:15–20 (Treise). According to
Dr. Treise, only 1.7 percent of participants remembered seeing the ANSI label and 3.5
percent the OSHA label, while 5.1 percent remembered seeing a safety standard.
Tr. 1039:24–1040:12 (Treise).
264.
From this small percentage, Dr. Treise concluded that ANSI is “not terribly
important” to driving purchasing decisions. Tr. 1040:21–1041:3 (Treise).
265.
Of the survey participants who purchased a ladder at Home Depot, only
2 percent remembered seeing ANSI on the label, and 3.7 percent remembered seeing
OSHA. Tr. 1047:16–1048:7 (Treise).
58
266.
Dr. Treise asked survey participants a closed-ended question about how
important certain ladder attributes—such as material, size, duty rating, price, and side
labels—were to them on a scale. Tr. 1045:6–1046:3 (Treise). Of the survey participants,
45.3 percent said the information on the side label was “very important” and 41.7 percent
found the information on the side label “somewhat important.” Tr. 1054:1–16 (Treise).
However, with “so much information on those warning labels,” it was not clear “what
[survey participants] were referring to” on the side label. Tr. 1054:14–16 (Treise).
CONCLUSIONS OF LAW
1.
There is subject-matter jurisdiction over this case under 28 U.S.C. §§ 1331,
1338, and 1367(a).
2.
Personal jurisdiction and venue aren’t issues. Tricam maintains its principal
place of business in Minnesota, and Little Giant chose to bring suit here. 28 U.S.C.
§ 1391(b)(1); see Answer [ECF No. 9] at 5 ¶ 1.
3.
Under the Lanham Act:
Any person who, . . . in connection with any goods, . . . uses in
commerce any . . . false or misleading description of fact, or
false or misleading representation of fact, which . . . in
commercial advertising or promotion, misrepresents the
nature, characteristics, [or] qualities . . . of his or her . . . goods,
. . . shall be liable in a civil action by any person who believes
that he or she is likely to be damaged by such act.
15 U.S.C. § 1125(a)(1)(B).
4.
The Act’s purpose is “to protect persons engaged in commerce against false
advertising and unfair competition.” Am. Italian Pasta Co. v. New World Pasta Co.,
59
371 F.3d 387, 390 (8th Cir. 2004) (quoting United Indus. Corp. v. Clorox Co., 140 F.3d
1175, 1179 (8th Cir. 1998)).
5.
The Eighth Circuit has distilled § 1125(a)(1)(B)’s text into five elements that
a plaintiff must prove to establish a false-advertising claim:
(1) a false statement of fact by the defendant in a commercial
advertisement about its own or another’s product; (2) the
statement actually deceived or has the tendency to deceive a
substantial segment of its audience; (3) the deception is
material, in that it is likely to influence the purchasing decision;
(4) the defendant caused its false statement to enter interstate
commerce; and (5) the plaintiff has been or is likely to be
injured as a result of the false statement, either by direct
diversion of sales from itself to defendant or by a loss of
goodwill associated with its products.”
United Indus. Corp., 140 F.3d at 1180.
6.
The Minnesota Deceptive Trade Practices Act, Minn. Stat. § 325D.44,
“mirrors” the Lanham Act, and courts therefore “use the same analysis to evaluate false
advertising claims that are made simultaneously under the federal and state statutes.” Med.
Graphics Corp. v. SensorMedics Corp., 872 F. Supp. 643, 649 (D. Minn. 1994); accord
Aviva Sports, Inc. v. Fingerhut Direct Mktg., Inc., 829 F. Supp. 2d 802, 809 n.7 (D. Minn.
2011).
7.
A plaintiff’s failure to demonstrate any one of the five elements is fatal to its
claim. Allsup, Inc. v. Advantage 2000 Consultants Inc., 428 F.3d 1135, 1138 (8th Cir.
2005).
8.
Tricam does not dispute the fourth element—that it caused its allegedly false
statements to enter interstate commerce.
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9.
Tricam argues that it did not “use” the statements on Home Depot’s website
within the meaning of § 1125(a)(1)(B). Specifically, Tricam asserts that Home Depot
controls the content of its website, developed the ANSI compliance language in its IDM
system, specified the compliance language to be used in a drop-down menu, and otherwise
exercised substantial control over the website. These facts, Tricam argues, show that Home
Depot alone used the at-issue statements on Home Depot’s website.
10.
The text of § 1125(a)(1)(B), and specifically its use of the word “use,” seems
broad. In the abstract, one could imagine lots of different ways to “use” a statement in
commercial advertising that necessarily involve action by third parties. A defendant
business could, for example, place an ad in a magazine that exercises editorial control over
its content, giving the magazine some ability to make changes to the ad. I conclude based
on § 1125(a)(1)(B)’s text that a business in this type of scenario has “used” the statements
in the ad, even if the magazine has, too. In that scenario, the common-sense question to
ask is whether the business has ceded so much control that it is no longer “using” the ad.
11.
Persuasive authorities support this approach. Specifically, courts have held
that a retailer is not liable under the Lanham Act for false advertisements “created and
controlled solely by third parties”—i.e., manufacturers. Outlaw Lab’y, LP v. Shenoor
Enter., Inc., 371 F. Supp. 3d 355, 368 (N.D. Tex. 2019); see also, e.g., Lasoff v.
Amazon.com Inc., No. C16-151 BJR, 2017 WL 372948, at *8 (W.D. Wash. Jan. 26,
2017) (declining to hold Amazon liable for “misrepresentative material generated by third
parties”). So if, for example, a retailer merely sells products with manufacturer-provided
61
packaging that contains false statements, the retailer is not liable. See Cohn v. Kind, LLC,
No. 13 Civ. 8365 (AKH), 2015 WL 9703527, at *3 (S.D.N.Y. Jan. 14, 2015).
12.
On the other hand, a retailer can be liable when it takes a more active role in
“us[ing], promot[ing], and disseminat[ing] the false advertising.” JST Distrib., LLC v.
CNV.com, Inc., No. CV 17-6264 PSG (MRWx), 2018 WL 6113092, at *4 (C.D. Cal.
Mar. 7, 2018); see Corker v. Costco Wholesale Corp., No. C19-0290RSL, 2019 WL
5895430, at *2–3 (W.D. Wash. Nov. 12, 2019); accord Dorfman v. Nutramax Labs., Inc.,
No. 13cv0873 WQH (RBB), 2013 WL 5353043, at *14 (S.D. Cal. Sept. 23, 2013) (holding,
under a California false-advertising statute, that retailers who “ma[de] . . . statements on
[their] website[s] that repeat and reinforce the false and misleading . . . statements on the
packaging and labeling” could be liable because they “‘participat[ed] in the unlawful
practices’ with ‘unbridled control over the practices’”).
13.
Applying these principles in the opposite direction, the better understanding
of the trial record is that Tricam retained control over the statements on Home Depot’s
website. Tricam entered the information, not Home Depot. Though Home Depot reviews
the submitted information, it relies on vendors to ensure that content is accurate. There is
no evidence suggesting Home Depot second-guessed, double-checked, or somehow
verified the information vendors submitted through this system. If Home Depot could
change the Tricam-related content on its webpage without Tricam’s input, there is no
evidence that happened. And no evidence warrants concluding that Tricam was prevented
from accessing or editing this content if that became necessary.
62
14.
Really, Tricam’s argument seems to be that it cannot be responsible for its
ANSI-compliance statements on Home Depot’s website because Home Depot required
them. If that is a fair understanding of the argument, the problem is that it conflates
requirement and responsibility.
Businesses are often required to make statements
concerning their products, sometimes by the government and other times (as happened
here) by agreement. We don’t ordinarily say that the fact a statement was required makes
the statement the sole responsibility of whoever required it.
15.
There are two types of actionable statements under § 1125(a): “(1) literally
false factual commercial claims; and (2) literally true or ambiguous factual claims ‘which
implicitly convey a false impression, are misleading in context, or [are] likely to deceive
consumers.’” Am. Italian Pasta Co., 371 F.3d at 390 (quoting United Indus. Corp.,
140 F.3d at 1180). A statement may be literally false either because it is “false on its face,”
United Indus. Corp., 140 F.3d at 1181, or because it is false “by necessary implication,”
Buetow v. A.L.S. Enter., Inc., 650 F.3d 1178, 1185 (8th Cir. 2011).
16.
“The standard for proving literal falsity is rigorous.” Buetow, 650 F.3d at
17.
Whether an advertisement is literally false depends on the answer to two
1185.
separate questions: (1) what message is being conveyed, and (2) whether that message is
false. See United Indus. Corp., 140 F.3d at 1181; Surdyk’s Liquor, Inc. v. MGM Liquor
Stores, Inc., 83 F. Supp. 2d 1016, 1022–23 (D. Minn. 2001); accord 5 J. Thomas McCarthy,
McCarthy on Trademarks and Unfair Competition § 27:53 (5th ed. Dec. 2021 Update).
63
18.
When the first question has no clear answer, the claim fails, because “[o]nly
an unambiguous message can be literally false.” Buetow, 650 F.3d at 1185 (quoting Time
Warner Cable, Inc. v. DIRECTV, Inc., 497 F.3d 144, 158 (2d Cir. 2007)) (emphasis in
original). Put differently, when an advertisement “can reasonably be understood as
conveying different messages, [a] literal falsity argument must fail.” Id. (quoting Scotts
Co. v. United Indus. Corp., 315 F.3d 264, 275 (4th Cir. 2002)).
19.
In assessing whether an advertisement is literally false, a court must analyze
the message conveyed within its full context. United Indus. Corp., 140 F.3d at 1180;
Buetow, 650 F.3d at 1185 (citations omitted).
20.
A false message is “necessarily implied” only when it “will necessarily and
unavoidably be received by the consumer.” Id. (quoting Novartis Consumer Health, Inc.
v. Johnson & Johnson-Merck Consumer Pharm. Co., 290 F.3d 578, 588 (3d Cir. 2002));
see also MSP Corp. v. Westech Instruments, Inc., 500 F. Supp. 2d 1198, 1216 (D. Minn.
2007) (explaining that the intended audience must “recognize the claim as readily as if it
had been explicitly stated” (internal quotation marks and citation omitted)). This depends
on the “full context” of the message. United Indus. Corp., 140 F.3d at 1180 (citing RhonePoulenc Rorer Pharms., Inc. v. Marion Merrell Dow, Inc., 93 F.3d 511, 516 (8th Cir.
1996)); accord Time Warner, 497 F.3d at 158.
21.
Here, Little Giant alleges that Tricam falsely advertised that it complies with
ANSI A14.2 via four separate statements:
a. a circular icon on a label affixed to the side of the ladder that
states: “MANUFACTURER CERTIFIES CONFORMANCE
64
TO OSHA ANSI A14.2 CODE FOR METAL LADDERS”
(Tr. 461:22–462:12 (Mansager); Tr. 535:19–536:7 (Williams);
P-311; P-122);
b. a side label affixed to the ladder that states: “COMPLIES
WITH ALL APPLICABLE ANSI A14 STANDARDS.” (Tr.
464:11–17 (Mansager); Tr. 535:19–536:7 (Williams); P-311);
c. online statements on Home Depot’s website product pages for
the Tricam MPX ladders, which state, “Certifications and
Listings: ANSI Certified” under the “Certifications and
Listings” section, (Tr. 428:18–429:7 (Skubic); P-180); and
d. product pages for Tricam’s MPX ladders on Tricam’s
GorillaLadders.com
website,
which
state,
“CERTIFICATIONS: ANSI A14.2 OSHA.”
22.
The trial record shows, and Tricam concedes, that Tricam intended each of
these statements to communicate to consumers that Tricam’s MPX ladders comply with
ANSI A14.2. Def.’s Proposed Conclusions of Law [ECF No. 588] ¶ 15. To be clear, I
would reach this same finding independent of Tricam’s concession.
23.
Tricam’s statements of ANSI compliance are statements of fact, not of
opinion. See, e.g., LensCrafters, Inc. v. Vision World, Inc., 943 F. Supp. 1481, 1497–98
(D. Minn. 1996) (statements regarding ANSI standard for eyeglasses); Outdoor Optics,
Inc. v. Wolf Peak Int’l Inc., No. 1:02-CV-160 TS, 2003 WL 23142197, at *1 (D. Utah Dec.
23, 2003) (statements regarding ANSI standard for eye and face protective devices); Pipe
65
Restoration Techs., LLC v. Pipeline Restoration Plumbing, Inc., No. SACV 13-00499-CJC
(RNBx), 2014 WL 12597091, at *2 (C.D. Cal. May 29, 2014) (statements that epoxy is
NSF/ANSI certified). Here, there is no question that Tricam’s statements of ANSI
compliance are “reasonably interpreted as [] statement[s] of objective fact.” Am. Italian
Pasta, 371 F.3d at 391.
24.
Little Giant’s claims rest on its contention that Tricam’s MPX ladders do not
comply with ANSI A14.2 § 6.7.5. Little Giant does not contend that the ladders do not
comply with any other section or part of ANSI A14.2.
25.
As found earlier, the better interpretation of § 6.7.5—and the interpretation I
have adopted—does not require that trapezoidal rungs on an articulating metal ladder have
a flat top surface of at least 1 inch in depth across their entire width (i.e., the entire distance
between the inside of the ladder’s side rails), but instead requires a “step surface” of
sufficient width to meet ANSI A14.2’s statement of purpose that it is intended “to provide
reasonable safety for life, limb, and property.” P-1 § 1.2. See supra ¶¶ 133–167.
26.
So construed, the trial record shows that Tricam’s MPX ladders comply with
§ 6.7.5. Therefore, Tricam’s statements of ANSI compliance are not literally false.
27.
If that were not correct, I would find that Tricam’s statements “actually
deceived or ha[d] the tendency to deceive a substantial segment of its audience.” United
Indus. Corp., 140 F.3d at 1180; see also Buetow, 650 F.3d at 1183 (holding that, once a
plaintiff has proved that a statement is literally false, “the court may presume that
consumers were misled . . . without requiring consumer surveys or other evidence of the
ad’s impact on the buying public.”); 5 McCarthy, supra, §§ 27:53–54; cf. Fair Isaac Corp.
66
v. Experian Info. Sols., Inc., 650 F.3d 1139, 1151–52 (8th Cir. 2011) (“A claim that a
statement is implicitly [as compared to literally] false requires proof that the statement is
deceptive or misleading, and the success of such a claim usually turns on the persuasiveness
of a consumer survey.”).
28.
Again, if the no-falsity finding were incorrect, then it would be necessary
next to consider materiality. Materiality is a “separate inquiry from deception,” and
“considers ‘whether the false or misleading statement is likely to make a difference to
purchasers.’” 3M Innovative Props. Co. v. Dupont Dow Elastomers LLC, 361 F. Supp. 2d
958, 971 (D. Minn. 2005) (quoting Cashmere & Camel Hair Mfrs. Inst. v. Saks Fifth Ave.,
284 F.3d 302, 312 n.10 (1st Cir. 2002)).
29.
The materiality element of a false-advertising claim requires that “the
deception is . . . likely to influence the purchasing decision.” United Indus. Corp., 140 F.3d
at 1180; Aviva Sports, 829 F. Supp. 2d at 813 (“A Lanham Act plaintiff must prove that
the deception is likely to influence consumers’ purchasing decisions.”).
30.
In the Eighth Circuit, materiality is not presumed even when a statement is
found to be literally false. Select Comfort Corp. v. Baxter, 996 F.3d 925, 939 (8th Cir.
2021) (holding “it was error to instruct the jury in a manner that shifted the burden of proof
on the materiality element based on a finding of literal falsity”); see also Aviva Sports, 829
F. Supp. 2d at 813.
31.
Here, I conclude that, if Tricam’s statements of ANSI compliance were false
and deceptive, they were not material.
67
32.
Dr. Treise’s survey was ANSI-specific. Mr. Poret’s concerned industry
safety standards generally and did not ask about ANSI. For this reason, I conclude that
Dr. Treise’s ANSI-specific survey, and her opinions based on that survey, are considerably
more informative regarding whether Tricam’s ANSI-compliance statements are likely to
influence consumers’ purchasing decisions.
33.
ANSI A14.2—and especially § 6.7.5, that part of ANSI A14.2 that Little
Giant says Tricam’s MPX ladders did not meet—are specific and distinct safety standards.
And the issue is whether Tricam’s ANSI statements influenced consumers’ purchasing
decisions.
34.
The specificity of this issue matters. Little Giant does not allege that
Tricam’s statements implicated safety standards globally or some larger-than-ANSI subset
of safety standards. Though Little Giant sought at one time to allege that Tricam’s
statements implicated an OSHA standard or standards, that issue is not part of the case.
The bottom line, then, is that the ANSI-only nature of Little Giant’s allegations is better
served by ANSI-specific research, and not by research regarding the importance to
consumers of industry safety standards globally. To explain by analogy, if the issue were
whether some critical mass of individuals was willing to purchase tickets to watch baseball
games, it would be more informative to ask about interest in baseball specifically, and
probably not very informative to ask about interest in sports generally.
35.
Further, Dr. Treise’s survey showed that consumers are considerably more
aware (by a ratio of about 3-to-1) of at least one source of safety standards—OSHA—than
ANSI. The ANSI-specific nature of Dr. Treise’s survey makes it more persuasive because
68
we can’t know what safety standards the respondents to Mr. Poret’s survey had in mind.
Given the way this case has developed, a hypothetical Poret-survey respondent who was
thinking only of OSHA wouldn’t say very much about the importance of an
ANSI-compliance statement.
36.
Dr. Treise’s survey was more thorough and precise in other respects. Dr.
Treise surveyed more than 1,000 individuals after determining on her own and obtaining
confirmation from “stats people at the University of Florida” that this number was
necessary to yield reliable results. Mr. Poret’s survey population was 200—one-fifth the
size of Dr. Treise’s and a number less likely to generate reliable results. Dr. Treise’s survey
included open-ended questions, where Mr. Poret’s included a closed list of 10 factors. Tr.
581:15–582:1 (Poret). And Dr. Treise spent considerable time in Home Depot stores
observing customers shop for and purchase ladders; Mr. Poret did not.
37.
Mr. Poret’s survey seemed less complete in other respects. His survey did
not ask consumers about seemingly important factors beyond his closed list. These include,
for example: price, availability in the store, customer reviews, product recalls, brand
loyalty, ability to fold up to fit in a car, extension height, features, rail profile, comfort, or
ease of use. Mr. Poret agreed that if these factors were added to his survey, he would not
know how the “compliance with industry safety standards” factor would rank in
importance. Tr. 608:4–615:17 (Poret).
38.
Dr. Treise’s survey results show that ANSI compliance is not material. In
response to an open-ended question asking why they had purchased a particular ladder,
none of the 1,053 individuals surveyed responded with anything regarding ANSI, OSHA,
69
or industry safety standards. In response to a question asking what survey participants
recalled reading on a purchased ladder’s label, 1.7 percent recalled seeing that part of the
label containing an ANSI-compliance statement. Of the survey participants who purchased
a ladder at Home Depot, 2 percent recalled seeing the ANSI label.
39.
It is true that a far greater number of respondents in Dr. Treise’s
survey—about 87 percent—indicated in response to a closed-ended question that
information on a ladder’s side label was either “very important” or “somewhat important”
to their purchasing decision. But the tremendous volume of information on the side labels
of Tricam’s MPX ladders makes it impossible to know whether—and unwise to conclude
that—the ANSI-compliance statement specifically prompted or affected these responses.
The survey responses described in the preceding paragraph also would undermine that
conclusion.
40.
Dr. Treise’s survey results show that just over 42 percent of people had heard
of ANSI, and Mr. Poret relied on those survey results. But the fact that someone has heard
of ANSI does not demonstrate anything meaningful as to how important ANSI is to a
consumer’s purchasing decision, when weighed against the fact that no one added “ANSI”
in response to Dr. Treise’s open-ended question of what was important to their purchasing
decisions.
41.
Other evidence (in addition to Dr. Treise’s survey and opinions) supports the
conclusion that Tricam’s ANSI-compliance statements are not material.
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42.
During hundreds of discussions with ladder consumers in-store during his
tenure at Tricam, Mr. Skubic has never once heard mention of ANSI compliance as a
concern of consumers. Tr. 1245:11–18 (Skubic).
43.
Mr. Cook testified that he was not aware of any instance where a consumer
relied on ANSI certification to buy a ladder. ECF No. 572 at 112:6–9 (Cook).
44.
Mr. Moss testified that in hundreds of conversations with customers “safety
is key in making decisions on purchasing ladders,” Tr. 92:1–10 (Moss), but he provided no
testimony that ANSI compliance in general or the Tricam ANSI compliance statements
specifically are material to consumers. On the contrary, although Mr. Moss regularly reads
online consumer reviews, he testified that any mention of ANSI in them is “rare, very rare,”
and ANSI compliance is not mentioned in the reviews admitted into evidence. Tr.
118:20–119:15, 224:21–225:3 (Moss); P-11; P-77).
45.
In response to a question asking whether industry standards are important to
consumers, Ms. Jackson referenced OSHA, not ANSI.
ECF No. 573 at 114:4–18
(Jackson).
46.
Little Giant has not proven a violation of the Lanham Act and, as such, is not
entitled to the remedy of disgorgement and cannot establish willfulness.4
4
Given the conclusions regarding falsity and materiality, it is not necessary to address
the remaining elements of the Lanham Act claim, or any remaining issues in the case.
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ORDER
Based on the foregoing, and all the files, records, and proceedings herein, IT IS
ORDERED THAT:
1.
Judgment shall be entered in favor of Defendant Tricam Industries, Inc., on
the claims of Plaintiff Little Giant Ladder Systems, LLC, under the Lanham
Act and the Minnesota Deceptive Trade Practices Act, with prejudice and
on the merits.
2.
Defendant Tricam’s motion in limine to exclude speculative evidence to
prove materiality [ECF No. 473] is DENIED IN PART and GRANTED
IN PART. Specifically, the motion is denied to the extent that the testimony
of Moss and Skubic was admitted at trial and considered or relied upon in
these Findings of Fact and Conclusions of Law. The motion is otherwise
granted.
3.
Defendant Tricam’s motion in limine to exclude argument regarding
compliance with OSHA and the interplay with OSHA and ANSI [ECF No.
476] is DENIED IN PART and GRANTED IN PART. Specifically, the
motion is denied to the extent that evidence regarding OSHA and any
interplay between OSHA and ANSI A14.2 was admitted at trial and
considered or relied upon in these Findings of Fact and Conclusions of Law.
The motion is otherwise granted.
4.
Defendant Tricam’s motion in limine to limit the testimony of Art Wing
[ECF No. 477] is DENIED as moot.
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5.
Defendant Tricam’s motion in limine to exclude argument and evidence
regarding Tricam’s copying [ECF No. 480] is DENIED.
6.
Plaintiff Little Giant’s motion in limine to exclude Tricam’s unclean hands
defense [ECF No. 498] is DENIED as moot.
7.
Plaintiff Little Giant’s motion in limine to exclude testimony of Knox and
Van Bree [ECF No. 500] is DENIED IN PART and GRANTED IN PART.
Specifically, the motion is denied to the extent Knox and Van Bree’s
testimony is considered or relied upon in these Findings of Fact and
Conclusions of Law. The motion is otherwise granted.
8.
Plaintiff Little Giant’s motion in limine to exclude evidence of third-party
ladders [ECF No. 504] is DENIED.
9.
Plaintiff Little Giant’s motion in limine to exclude evidence of product
recalls [ECF No. 501] is DENIED as moot.
LET JUDGMENT BE ENTERED ACCORDINGLY.
Dated: February 3, 2022
s/ Eric C. Tostrud
Eric C. Tostrud
United States District Court
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