Inland Diamond Products Co. v. Hoya Optical Labs of America, Inc.
Filing
76
CLAIM CONSTRUCTION MEMORANDUM OPINION AND ORDER. Signed by District Judge Rodney Gilstrap on 5/18/2018. (nkl, )
IN THE UNITED STATES DISTRICT COURT
FOR THE EASTERN DISTRICT OF TEXAS
MARSHALL DIVISION
INLAND DIAMOND PRODUCTS CO.,
Plaintiff,
v.
Case No. 2:17-cv-00416-JRG
HOYA OPTICAL LABS OF AMERICA,
INC.,
Defendant.
CLAIM CONSTRUCTION MEMORANDUM OPINION AND ORDER
Before the Court is the opening claim construction brief of Inland Diamond Products Co.
(“Plaintiff”) (Dkt. No. 49, filed on February 12, 2018),1 the response of Hoya Optical Labs of
America, Inc. (“Defendant”) (Dkt. No. 51, filed on February 26, 2018), and the reply of Plaintiff
(Dkt. No. 53, filed on March 5, 2018). The Court held a hearing on the issues of claim construction
on March 26, 2018 (Dkt. No. 56). Having considered the arguments and evidence presented by the
parties at the hearing and in their briefing, the Court issues this Order.
Citations to the parties’ filings are to the filing’s number in the docket (Dkt. No.) and pin cites
are to the page numbers assigned through ECF.
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1
Table of Contents
I.
BACKGROUND ............................................................................................................... 3
II.
LEGAL PRINCIPLES ..................................................................................................... 5
A.
Claim Construction ................................................................................................. 5
B.
Departing from the Ordinary Meaning of a Claim Term ........................................ 7
III.
AGREED CONSTRUCTIONS........................................................................................ 9
IV.
CONSTRUCTION OF DISPUTED TERMS ................................................................. 9
A.
B.
“in compression” ................................................................................................... 19
C.
“defined by” .......................................................................................................... 22
D.
V.
“interference fit” ..................................................................................................... 9
“is from”................................................................................................................ 24
CONCLUSION ............................................................................................................... 26
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I.
BACKGROUND
Plaintiff alleges infringement of two U.S. Patents: No. 8,636,360 (the “’360 Patent”) and No.
9,405,130 (the “’130 Patent”) (collectively, the “Asserted Patents”). The patents are related and
share a common title: Beveling Wheel, Method for Forming a Beveled Lens for Use with
Eyeglasses and a Beveled Lens. Both patents have a priority date of August 12, 2009. The ’360
Patent issued on January 28, 2014 and the ’130 Patent issued on August 2, 2016.
In general, the Asserted Patents are directed to technology for securing a lens within an
eyeglass frame. Figure 2 (common to both patents), reproduced here and annotated by the court,
is illustrative of the technology. The figure depicts a fragmented view of a portion of lens (36) fit
within an eyeglass frame (34). When assembled, the frame (34) supports the lens (36). The
periphery of the lens includes a bevel (38, highlighted in yellow). The frame includes a retention
structure channel (42, highlighted in red). The bevel (38) and channel (42) cooperate “to provide
an interference fit.” ’360 Patent col.4 ll.10–26. Though illustrated as triangular, “the shape of the
bevel 38 and the retention structure 42 may
FIG. 2
include any polygonal shapes, provided that
frame
bevel 38 may achieve an interference fit with
retention structure 42.” Id. at col.4 ll.21–25.
bevel
“An interference fit of a bevel on a plastic lens
to a bottom of a receiving channel of an
lens
eyeglass frame provides a relatively secure
assembly with regards to lenses falling out.”
Id. at col.3 ll.26–28.
The abstracts of the Asserted Patents are identical and provide:
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The present invention relates to a beveling wheel and method for forming a beveled
lens with the beveling wheel for use with eyeglasses. One embodiment includes a
prescription lens for use on an eyeglass frame having a receiving channel. The
receiving channel includes a channel bottom and opposed interior wall surfaces
having a first angle therebetween. The prescription plastic lens includes a
prescription lens body generally defined by a peripheral edge having a bevel
extending away from the edge to a vertex. The bevel has a distal portion with a
second angle. The bevel is receivable within the receiving channel. At least a
portion of the vertex of the bevel has an interference fit with the receiving channel
bottom when held within the eyeglass frame. The first angle is greater than the
second angle.
Claim 1 of the ’360 Patent and Claim 11 of the ’130 Patent, exemplary apparatus claims to a
lens and eyeglasses, respectively, recite as follows:
1. A prescription plastic lens for use in an eyeglass frame, said eyeglass frame
having a receiving channel defined by opposed interior wall surfaces having a
first angle therebetween, the receiving channel having a channel bottom at one
end and a channel opening at the other end, the plastic lens comprising:
a prescription lens body generally defined by a peripheral edge, the peripheral
edge having a bevel extending away from the peripheral edge to a vertex, the
bevel having a distal portion having a second angle defined between opposing
sides of the bevel adjacent to the vertex, the bevel being receivable within the
receiving channel, at least a portion of the vertex of the bevel being in contact
with the receiving channel bottom and having an interference fit with the
receiving channel bottom when held within the eyeglass frame, the first angle
being greater than the second angle;
wherein the portion of the vertex in contact with the receiving channel bottom
is in compression once the plastic lens is fitted in the frame.
11. A pair of eyeglasses, comprising:
an eyeglass frame having a receiving channel, the receiving channel defined
by opposed interior wall surfaces having a first angle therebetween, the
receiving channel having a channel bottom at one end, a channel opening at
the other end, and a channel depth; and
a prescription plastic lens secured to the eyeglass frame and including a body
having a peripheral edge having a bevel extending away from the peripheral
edge to a vertex, the vertex including two sides defining a second angle that
is less than the first angle, and the vertex contacting and forming an
interference fit with a bottom of the receiving channel and having a height
between the peripheral edge and the vertex that is greater than the channel
depth and is from 0.30 to 0.75 mm.
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II.
LEGAL PRINCIPLES
A.
Claim Construction
“It is a ‘bedrock principle’ of patent law that ‘the claims of a patent define the invention to
which the patentee is entitled the right to exclude.’” Phillips v. AWH Corp., 415 F.3d 1303, 1312
(Fed. Cir. 2005) (en banc) (quoting Innova/Pure Water Inc. v. Safari Water Filtration Sys., Inc.,
381 F.3d 1111, 1115 (Fed. Cir. 2004)). To determine the meaning of the claims, courts start by
considering the intrinsic evidence. Id. at 1313; C.R. Bard, Inc. v. U.S. Surgical Corp., 388 F.3d
858, 861 (Fed. Cir. 2004); Bell Atl. Network Servs., Inc. v. Covad Commc’ns Group, Inc., 262 F.3d
1258, 1267 (Fed. Cir. 2001). The intrinsic evidence includes the claims themselves, the
specification, and the prosecution history. Phillips, 415 F.3d at 1314; C.R. Bard, Inc., 388 F.3d at
861. The general rule—subject to certain specific exceptions discussed infra—is that each claim
term is construed according to its ordinary and accustomed meaning as understood by one of
ordinary skill in the art at the time of the invention in the context of the patent. Phillips, 415 F.3d
at 1312–13; Alloc, Inc. v. Int’l Trade Comm’n, 342 F.3d 1361, 1368 (Fed. Cir. 2003); Azure
Networks, LLC v. CSR PLC, 771 F.3d 1336, 1347 (Fed. Cir. 2014) (“There is a heavy presumption
that claim terms carry their accustomed meaning in the relevant community at the relevant time.”)
(vacated on other grounds).
“The claim construction inquiry … begins and ends in all cases with the actual words of the
claim.” Renishaw PLC v. Marposs Societa’ per Azioni, 158 F.3d 1243, 1248 (Fed. Cir. 1998). “[I]n
all aspects of claim construction, ‘the name of the game is the claim.’” Apple Inc. v. Motorola,
Inc., 757 F.3d 1286, 1298 (Fed. Cir. 2014) (quoting In re Hiniker Co., 150 F.3d 1362, 1369 (Fed.
Cir. 1998)). First, a term’s context in the asserted claim can be instructive. Phillips, 415 F.3d at
1314. Other asserted or unasserted claims can also aid in determining the claim’s meaning, because
claim terms are typically used consistently throughout the patent. Id. Differences among the claim
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terms can also assist in understanding a term’s meaning. Id. For example, when a dependent claim
adds a limitation to an independent claim, it is presumed that the independent claim does not
include the limitation. Id. at 1314–15.
“[C]laims ‘must be read in view of the specification, of which they are a part.’” Id. (quoting
Markman v. Westview Instruments, Inc., 52 F.3d 967, 979 (Fed. Cir. 1995) (en banc)). “[T]he
specification ‘is always highly relevant to the claim construction analysis. Usually, it is dispositive;
it is the single best guide to the meaning of a disputed term.’” Id. (quoting Vitronics Corp. v.
Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed. Cir. 1996)); Teleflex, Inc. v. Ficosa N. Am. Corp.,
299 F.3d 1313, 1325 (Fed. Cir. 2002). “‘Although the specification may aid the court in
interpreting the meaning of disputed claim language, particular embodiments and examples
appearing in the specification will not generally be read into the claims.’” Comark Commc’ns, Inc.
v. Harris Corp., 156 F.3d 1182, 1187 (Fed. Cir. 1998) (quoting Constant v. Advanced MicroDevices, Inc., 848 F.2d 1560, 1571 (Fed. Cir. 1988)); see also Phillips, 415 F.3d at 1323. “[I]t is
improper to read limitations from a preferred embodiment described in the specification—even if
it is the only embodiment—into the claims absent a clear indication in the intrinsic record that the
patentee intended the claims to be so limited.” Liebel-Flarsheim Co. v. Medrad, Inc., 358 F.3d
898, 913 (Fed. Cir. 2004).
The prosecution history is another tool to supply the proper context for claim construction
because, like the specification, the prosecution history provides evidence of how the U.S. Patent
and Trademark Office (“PTO”) and the inventor understood the patent. Phillips, 415 F.3d at 1317.
However, “because the prosecution history represents an ongoing negotiation between the PTO
and the applicant, rather than the final product of that negotiation, it often lacks the clarity of the
specification and thus is less useful for claim construction purposes.” Id. at 1318; see also Athletic
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Alternatives, Inc. v. Prince Mfg., 73 F.3d 1573, 1580 (Fed. Cir. 1996) (ambiguous prosecution
history may be “unhelpful as an interpretive resource”).
Although extrinsic evidence can also be useful, it is “‘less significant than the intrinsic record
in determining the legally operative meaning of claim language.’” Phillips, 415 F.3d at 1317
(quoting C.R. Bard, Inc., 388 F.3d at 862). Technical dictionaries and treatises may help a court
understand the underlying technology and the manner in which one skilled in the art might use
claim terms, but technical dictionaries and treatises may provide definitions that are too broad or
may not be indicative of how the term is used in the patent. Id. at 1318. Similarly, expert testimony
may aid a court in understanding the underlying technology and determining the particular
meaning of a term in the pertinent field, but an expert’s conclusory, unsupported assertions as to a
term’s definition are not helpful to a court. Id. Extrinsic evidence is “less reliable than the patent
and its prosecution history in determining how to read claim terms.” Id. The Supreme Court
recently explained the role of extrinsic evidence in claim construction:
In some cases, however, the district court will need to look beyond the patent’s
intrinsic evidence and to consult extrinsic evidence in order to understand, for
example, the background science or the meaning of a term in the relevant art during
the relevant time period. See, e.g., Seymour v. Osborne, 11 Wall. 516, 546 (1871)
(a patent may be “so interspersed with technical terms and terms of art that the
testimony of scientific witnesses is indispensable to a correct understanding of its
meaning”). In cases where those subsidiary facts are in dispute, courts will need to
make subsidiary factual findings about that extrinsic evidence. These are the
“evidentiary underpinnings” of claim construction that we discussed in Markman,
and this subsidiary factfinding must be reviewed for clear error on appeal.
Teva Pharm. USA, Inc. v. Sandoz, Inc., 135 S. Ct. 831, 841 (2015).
B.
Departing from the Ordinary Meaning of a Claim Term
There are “only two exceptions to [the] general rule” that claim terms are construed according
to their plain and ordinary meaning: “1) when a patentee sets out a definition and acts as his own
lexicographer, or 2) when the patentee disavows the full scope of the claim term either in the
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specification or during prosecution.”2 Golden Bridge Tech., Inc. v. Apple Inc., 758 F.3d 1362, 1365
(Fed. Cir. 2014) (quoting Thorner v. Sony Computer Entm’t Am. LLC, 669 F.3d 1362, 1365 (Fed.
Cir. 2012)); see also GE Lighting Solutions, LLC v. AgiLight, Inc., 750 F.3d 1304, 1309 (Fed. Cir.
2014) (“[T]he specification and prosecution history only compel departure from the plain meaning
in two instances: lexicography and disavowal.”). The standards for finding lexicography or
disavowal are “exacting.” GE Lighting Solutions, 750 F.3d at 1309.
To act as his own lexicographer, the patentee must “clearly set forth a definition of the
disputed claim term,” and “clearly express an intent to define the term.” Id. (quoting Thorner, 669
F.3d at 1365); see also Renishaw, 158 F.3d at 1249. The patentee’s lexicography must appear
“with reasonable clarity, deliberateness, and precision.” Renishaw, 158 F.3d at 1249.
To disavow or disclaim the full scope of a claim term, the patentee’s statements in the
specification or prosecution history must amount to a “clear and unmistakable” surrender. Cordis
Corp. v. Boston Sci. Corp., 561 F.3d 1319, 1329 (Fed. Cir. 2009); see also Thorner, 669 F.3d at
1366 (“The patentee may demonstrate intent to deviate from the ordinary and accustomed meaning
of a claim term by including in the specification expressions of manifest exclusion or restriction,
representing a clear disavowal of claim scope.”). “Where an applicant’s statements are amenable
to multiple reasonable interpretations, they cannot be deemed clear and unmistakable.” 3M
Innovative Props. Co. v. Tredegar Corp., 725 F.3d 1315, 1326 (Fed. Cir. 2013).
Some cases have characterized other principles of claim construction as “exceptions” to the
general rule, such as the statutory requirement that a means-plus-function term is construed to
cover the corresponding structure disclosed in the specification. See, e.g., CCS Fitness, Inc. v.
Brunswick Corp., 288 F.3d 1359, 1367 (Fed. Cir. 2002).
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III.
AGREED CONSTRUCTIONS
The parties have agreed to the following constructions set forth in their Joint Patent Rule
4-5(d) Claim Construction Chart (Dkt. No. 54). See also Dkt. No. 66, Hr’g Tr. at 3:19-4:10.
Term3
Agreed Construction
plain and ordinary meaning
“ranges from”
’360 Patent Claims 2, 6
“apex”
plain and ordinary meaning
’130 Patent Claims 2, 11
“secured to”
plain and ordinary meaning
’130 Patent Claims 7, 11
Having reviewed the intrinsic and extrinsic evidence of record, the Court agrees with and
hereby adopts the parties’ agreed constructions. See id.
IV.
CONSTRUCTION OF DISPUTED TERMS
A.
“interference fit”
Disputed Term
“interference fit”
’360 Patent Claim 1
’130 Patent Claims 1, 11
Plaintiff’s Proposed
Construction
fit between the lens and frame
in which an external
dimension of the lens exceeds
a corresponding internal
dimension between the frame
channel bottoms and the
resulting contact between the
bevel vertex and channel
bottom secures the lens
within the frame
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Defendant’s Proposed
Construction
the bevel fits into the
triangular channel in such a
manner that the channel
interferes with the motion of
the lens by frictional forces
For all term charts in this order, the claims in which the term is found are listed with the term
but: (1) only the highest-level claim in each dependency chain is listed, and (2) only asserted claims
identified in the parties’ Joint Patent Rule 4-5(d) Claim Construction Chart (Dkt. No. 54) are listed.
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The Parties’ Positions
Plaintiff submits: (1) “interference fit” is a term of art denoting a secure fit between parts in
which a first part is fit within a space in a second part, which space is smaller than first part’s
external dimension, Dkt. No. 49 at 15–20; (2) the term is used in the Asserted Patents according
to this ordinary meaning, id. at 15, 20–21; and (3) Defendant’s proposed conflation of “interference
fit” and “contact” is improper as “contact” is separately expressed in the claim, id. at 12–15. The
patents provide that the “interference fit” secures the lens within the frame. Id. at 14–15 (citing
’360 Patent col.3 ll.26–28). This secure fit is achieved through an aspect of the interference fit that
is well-known in the art; namely, an interference fit between two parts requires that the “external
dimension of one part slightly exceeds the internal dimension of the part into which it is has to fit.”
Id. at 15–16 (quoting New Oxford American Dictionary 879 (2d ed. 2005), Dkt. No. 49-6 at 11).
Defendant’s proposed construction effectively conflates “interference fit” with a fit involving
frictional forces. Because all contact between objects involves frictional forces, Defendant is
proposing that an interference fit is simply contact between the lens and the frame. However, this
is improper because such “contact” is separately recited in the claims and contact alone does not
connote that the frame secures the lens. Id. at 12–15.
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position: Intrinsic evidence: ’360 Patent col.3 ll.26–28, col.4 l.61 – col.5
l.2; ’360 Patent File Wrapper August 12, 2013 Amendment at 9 (Plaintiff’s Ex. N, Dkt. No. 49-14
at 10); U.S. Patent Application Publication No. 2008/0125013 (Plaintiff’s Ex. U, Dkt. No. 49-21).
Extrinsic evidence: Wiand Decl.4 (Plaintiff’s Ex. C, Dkt. No. 49-3); Friction (Sept. 24, 1999),
http://physics.bu.edu/~duffy/py105/Friction.html (Feb. 12, 2018) (Plaintiff’s Ex. D, Dkt. No.
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Declaration of Ronald C. Wiand (Feb. 12, 2018).
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49-4); Friction, http://www.splung.com/content/sid/2/page/friction (Feb. 12, 2018) (Plaintiff’s
Ex. E, Dkt. No. 49-5); New Oxford American Dictionary 879 (2d ed. 2005), “interference fit”
(Plaintiff’s Ex. F, Dkt. No. 49-6 at 11); Google dictionary search, “interference fit”
https://www.google.com/search?site=async/dictw&q=Dictionary#dobs=interference%20fit (Feb.
11, 2018) (Plaintiff’s Ex. G, Dkt. No. 49-7); Machinery’s Handbook 1710 (25th ed. 1996),
“interference-fit threads” (Plaintiff’s Ex. H, Dkt. No. 49-8 at 4); Oxford Dictionaries online,
“interference fit”5 (Plaintiff’s Ex. I, Dkt. No. 49-9); Dictionary.com, “interference fit”6 (Plaintiff’s
Ex. J, Dkt. No. 49-10); Marks’ Standard Handbook for Mechanical Engineers 8-43 – 8-44 (10th
ed. 1996) (Plaintiff’s Ex. K, Dkt. No. 49-11 at 5–6); Paul R Yoder, Jr., Mounting Lenses in Optical
Instruments 28 (1995) (Plaintiff’s Ex. L, Dkt. No. 49-12 at 5); Engineer on a Disk, eNotes:
Manufacturing Processes – 36.1 The Basics of Fits, http://engineeronadisk.com/notes_manufact/
assemblya3.html (Feb. 12, 2018) (Plaintiff’s Ex. M, Dkt. No. 49-13); U.S. Patent No. 5,593,045
(Plaintiff’s Ex. R, Dkt. No. 49-18); U.S. Patent No. 6,474,810 (Plaintiff’s Ex. S, Dkt. No. 49-19);
U.S. Patent Application Publication No. 2007/0280614 (Plaintiff’s Ex. T, Dkt. No. 49-20).
Defendant responds: (1) during prosecution of the ’360 Patent, the patent examiner defined
“interference fit” as a fit in which friction interferes with motion, Dkt. No. 51 at 7–8; (2) the
examiner’s definition comports with the use of “interference fit” in the Asserted Patents, id. at 8–
9; (3) Plaintiff’s proposed construction would require a lens-compression limitation within
“interference fit,” which would be improper because a lens-compression limitation is separately
recited in the claims and thus, the patentee disclaimed such an interpretation of “interference fit”,
id. at 9–11; and (4) the extrinsic evidence indicates a meaning of “interference fit” that is contrary
5
6
https://en.oxforddictionaries.com/definition/interference_fit (Feb. 12, 2018).
http://www.dictionary.com/browse/interference-fit?s=t (Feb. 12, 2018).
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to the term’s use in the patents and prosecution history, and therefore that meaning should not be
adopted, id. at 11–18.
In addition to the claims themselves, Defendant cites the following intrinsic and extrinsic
evidence to support its position: Intrinsic evidence: ’360 Patent figs.2, 3b, col.2 ll.30–32, col.2
ll.36–38, col.4 ll.18–26, col.5 ll.29–33, ’360 Patent File Wrapper July 31, 2012 Office Action at 3
(Defendant’s Ex. C, Dkt. No. 51-3 at 5), August 5, 2013 Proposed Interview Agenda at 2
(Defendant’s Ex. E, Dkt. No. 51-5 at 3), August 12, 2013 Amendment at 2 (Defendant’s Ex. D,
Dkt. No. 51-4 at 3), August 20, 2013 Advisory Action (Defendant’s Ex. F, Dkt. No. 51-6),
September 12, 2013 Amendment at 2 (Defendant’s Ex. G, Dkt. No. 51-7 at 3). Extrinsic evidence:
New Oxford American Dictionary 879 (2d ed. 2005), “interfere” (Plaintiff’s Ex. F, Dkt. No. 49-6
at 11); Wiand Decl. ¶ 19 (Plaintiff’s Ex. C, Dkt. No. 49-3 at 6); Machinery’s Handbook 642–43,
656–59 (25th ed. 1996) (Defendant’s Ex. H, Dkt. No. 51-8 at 4–9); Marks’ Standard Handbook
for Mechanical Engineers 8-43 – 8-44 (10th ed. 1996) (Plaintiff’s Ex. K, Dkt. No. 49-11 at 5–6);
Paul R. Yoder, Jr., Mounting Lenses in Optical Instruments 28 (1995) (Plaintiff’s Ex. L, Dkt. No.
49-12 at 5); U.S. Patent No. 5,593,045 (Plaintiff’s Ex. R, Dkt. No. 49-18); U.S. Patent No.
6,474,810 (Plaintiff’s Ex. S, Dkt. No. 49-19); U.S. Patent Application Publication No.
2007/0280614 (Plaintiff’s Ex. T, Dkt. No. 49-20).
Plaintiff replies: (1) the examiner’s statement that Defendant presents as a definition of
“interference fit” is not a definition but rather it is a characterization of a prior-art reference, Dkt.
No. 53 at 4–5; and (2) the patentee did not adopt the examiner’s statement but rather it disputed
whether the prior-art reference disclosed an “interference fit,” id. at 5–6.
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Plaintiff cites further intrinsic evidence to support its position: ’360 Patent File Wrapper July
31, 2012 Office Action at 3 (Defendant’s Ex. C, Dkt. No. 51-3 at 5), December 28, 2012 Response
at 9,7 August 5, 2013 Proposed Interview Agenda at 2 (Defendant’s Ex. E, Dkt. No. 51-5 at 3).
Analysis
The primary issue in dispute is whether “interference fit” requires more than frictional contact
between the vertex of the lens’s bevel and the frame’s receiving channel. It does. The interference
fit requires that the lens is larger than the frame opening in which the lens fits such that the lens is
secured within the frame.
The term “interference fit” has a well-established meaning. Evidence of this exists in generalpurpose dictionaries, technical treatises, and unrelated patents. For example, one general-purpose
dictionary defines “interference fit” as “a fit between two parts in which the external dimension of
one part slightly exceeds the internal dimension of the part into which it has to fit.” New Oxford
American Dictionary 879, Dkt. No. 49-6 at 11. A mechanical-engineering-and-machining treatise
provides a similar definition: an “interference fit” is a fit “having limits of size so specified that an
interference always results when mating parts are assembled” and “fit” is “the general term used
to signify the range of tightness that may result from the application of a specific combination of
allowances and tolerances in the design of mating parts.” Machinery’s Handbook 642–43 (25th
ed. 1996), Dkt. No. 51-8 at 4–5). Consistent with these definitions, an optical-engineering treatise
describes an “interference fit” used to secure a lens-holding ring within a cell: “The OD of the ring
is made slightly oversize with respect to the ID of the cell.” Paul R. Yoder, Jr., Mounting Lenses
Plaintiff cites “Ex. C” as the December 12, 2012 Response. Plaintiff’s Ex. C is the Wiand
Declaration and Defendant’s Ex. C is the July 31, 2012 Office Action. The Court did not find the
December 12, 2012 Response in the submitted exhibits. That response, however, is available to
the public through the U.S. Patent and Trademark Office’s Public Patent Application Information
Retrieval system at https://portal.uspto.gov/pair/PublicPair.
7
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in Optical Instruments 28 (1995), Dkt. No. 49-12 at 5. Finally, patents and patent applications
related to supporting eyeglasses, constructing eyeglass frames, and securing fiber lightguides use
“interference fit” to denote a fit in which a part is fit within a space smaller than the part. See U.S.
Patent No. 5,593,045 col.12 ll.46–65 (describing a pin with rounded ends “slightly greater in
diameter than the lateral bore … to provide an interference fit” when inserted in the bore), Dkt.
No. 49-18 at 14; U.S. Patent No. 6,474,810 col.4 ll.18–34 (describing a bulb “greater in diameter
than [a] hole” forming an “interference fit” when inserted through the hole), Dkt. No. 49-19 at 8;
U.S. Patent Application Publication No. 2007/0280614 ¶ [0029] (describing a “disk-shaped
insulator … slightly larger in diameter tha[n] the inside of … the support member … in order to
provide an interference fit between the disk-shaped insulator [] and support member”), Dkt. No.
49-20 at 8. The Court finds the extrinsic evidence establishes that “interference fit” has an ordinary
meaning connoting that a part is fit within a space smaller than such part.
“Interference fit” is used in the Asserted Patents consistent with the term’s ordinary meaning.
For example, the patents provide:
Another failure mode occurs when the glass lenses crack as a result of having an
interference fit of the vertex of the bevel with a bottom of a channel portion of
the eyeglass frame. It is well practiced in the art to avoid cracking of the lens by
having the bevel vertex not in contact with the bottom of the channel of the eyeglass
frame. As such, glass lenses have always been manufactured to have bevels which
will not contact the bottom of the eyeglasses frame.
…
It is an unfortunate consequence of using beveling wheels designed glass to edge
plastic lens materials that the bevel is not fully inserted into the channel of the
eyeglass frame. When the plastic lens is not fully inserted, the lens is prevented
from forming an optimal interference fit between the lens and the eyeglass frame.
As a result, a plastic lens is very susceptible to falling out of the eyeglass frame
caused by shrinkage of the lens, loosening of the retention screws or twisting of the
frames.
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’360 Patent col.1 ll.22–45 (emphasis added). That a lens would crack “as a result of having an
interference fit” between the lens’s bevel and the frame suggests than an interference fit is
something more than simple contact. Indeed, this is entirely consistent with the ordinary meaning
of interference fit, which provides that the lens is forced into a frame opening smaller than the
lens. That the cracking problem is avoided when “the bevel is not fully inserted into the channel
of the eyeglass frame” to prevent an “interference fit” is also consistent with the ordinary meaning
of “interference fit.” When the outer dimension of the lens is smaller than the space within the
frame opening into which the lens is inserted, there cannot be an “interference fit” under the term’s
ordinary meaning and such a situation is not represented as having an “interference fit” in the
patents.
The Asserted Patents further provide a description of the desirability of an interference fit that
is consistent with the ordinary meaning of the term:
An interference fit of a bevel on a plastic lens to a bottom of a receiving channel
of an eyeglass frame provides a relatively secure assembly with regard to lenses
falling out. The assembly is particularly secure when a bevel height of the bevel
on the plastic lens is greater than a depth of a groove of the eyeglass frame by an
amount exceeding a typical shrinkage and/or creep dimensional change
associated with polymeric materials used in a lens body for a lens. Use of plastic
for a lens allows an interference fit between a vertex of the bevel and a receiving
channel of the eyeglass frame. Unlike a glass lens, the plastic lens is not readily
susceptible to cracking when a vertex of the glass bevel comes in prolonged contact
with the receiving channel bottom of the eyeglass frame. The prolonged contact in
at least one embodiment may be more than a day. In another embodiment the
prolonged contact may be more than a month. In yet another embodiment, the
prolonged contact may be more than a year.
Id. at col.3 ll.26–42 (emphasis added). Again, this is consistent with the ordinary meaning of
“interference fit”—the exterior dimension of the lens bevel is larger than the size of the frame
opening into which it fits. Optimally, it is larger by an amount greater than the typical shrinkage
or creep of the lens that can affect the size of the lens.
15
An “interference fit” was never defined contrary to its ordinary meaning during prosecution.
Defendant’s argument that “interference fit” was somehow defined by the examiner—and then
adopted by the patentee—is misplaced. The examiner stated:
Re claim 1, Chappell teaches a prescription lens (see at least numeral 11) for use in
an eyeglass frame (see at least numeral 10) having a receiving channel (see at least
numerals 21 and 18 which point to channel and bevel), the receiving channel
defined by opposed interior wall surfaces having a first angle there between (see at
least numerals 18 and 21), the receiving channel having a channel bottom at one
end and a channel opening at the other end (see at least numerals 18 and 21), the
lens comprising: a prescription lens body generally defined by a peripheral edge
(see at least numeral 11), the peripheral edge having a bevel extending away from
the peripheral edge to a vertex (see at least numerals 18 and 21), the bevel having
a distal portion having a second angle (see at least numerals 18 and 21), the bevel
being receivable within the receiving channel (see at least numerals 18 and 21), at
least a portion of the vertex of the bevel having an interference fit with the
receiving channel bottom when held within the eyeglass frame (the bevel fits into
the triangular channel in such a manner that the channel interferes with the
motion of the lens by frictional forces), the first angle being greater than the second
angle (a triangle has 3 angles and as the bevel is not equilateral and the angle of the
bevel is located at the distal or location situated farthest from point of attachment
or origin and that adds the question which end is farthest from the point of
attachment.
’360 Patent File Wrapper July 31, 2012 Office Action at 2–3 (emphasis added), Dkt. No. 51-3 at
4–5. The emphasized portion is not a definition of “interference fit.” Rather, it is the examiner’s
characterization of a prior-art disclosure. The characterization is consistent with the ordinary
meaning of “interference fit” in that such a fit necessarily “interferes with the motion [of the fitted
parts] by frictional forces.” However, this characterization alone does not establish an
“interference fit” under the ordinary meaning of the term because it only addresses the contact
between the bevel and the frame channel and fails to address the lens support within the frame that
is created by the interference fit. Indeed, rather than adopting the examiner’s characterization of
“interference fit” as definitional, the patentee highlighted the missing “support” element:
Chappell requires a supporting member (19) that extends around the bottom of the
lenses in a groove (20) and attaches to the frame arms (16 and 17) to support the
16
lenses and keep them attached to the frame. Without the supporting member, the
lenses would not be supported by the frame. …
Also as discussed above, Chappell teaches an eyeglass frame and lens that utilizes
a supporting member (19) to support the frame and does not teach an interference
fit that support[s] a lens.
’360 Patent File Wrapper December 28, 2012 Response at 9 (emphasis added). This exchange does
not rise to the level of patentee lexicography. See GE Lighting Sols., LLC v. AgiLight, Inc., 750
F.3d 1304, 1309 (Fed. Cir. 2014) (“[T]he specification and prosecution history only compel
departure from the plain meaning in two instances: lexicography and disavowal. … The standards
for finding lexicography and disavowal are exacting. To act as its own lexicographer, a patentee
must ‘clearly set forth a definition of the disputed claim term,’ and ‘clearly express an intent to
define the term.’” (internal citations omitted)).
The Court is not persuaded that an interference fit necessarily requires compression of the
larger part that is fit within a smaller space. It is apparent that in such a fit something has to give.
However, it is not apparent that the inserted part—here, the lens—must be compacted to fit. For
example, the space could be enlarged by compression or deformation of the material that defines
the space. In the context of the Asserted Patents, this could be implemented by the frame material
being compressed or the frame being deformed. Addition of a lens-in-compression limitation
during prosecution or inclusion of such a limitation in the issued claim sets does not mandate
deviating from the ordinary meaning of “interference fit.” Rather than disavowing the ordinary
meaning of “interference fit”—which allows, but does not necessitate, the lens to compress—the
added “compression” limitation further limits the claims by requiring the vertex of the lens’s bevel
to be “in compression.” The expressed “compression” limitation simply does not rise to the level
of a disavowal of the ordinary meaning of “interference fit.” See GE Lighting Sols., 750 F.3d at
1309 (“[T]he specification and prosecution history only compel departure from the plain meaning
17
in two instances: lexicography and disavowal. … The standards for finding lexicography and
disavowal are exacting. … disavowal requires that ‘the specification [or prosecution history]
make[] clear that the invention does not include a particular feature.’” (alterations in original)
(internal citations omitted)).
The Court rejects Defendant’s proposal to limit the bevel-receiving “channel” to a “triangular
channel.” Defendant has not provided any compelling reason to do so. Indeed, Defendant’s
proposed “triangular” limitation conflicts with the description of the bevel in the specification:
It should be understood that while the bevel 38 and the retention structure 42 are
illustrated as being triangular, the shape of the bevel 38 and the retention structure
42 may include any polygonal shapes, provided that bevel 38 may achieve an
interference fit with retention structure 42, without exceeding the scope of the
present invention.
’360 Patent col.4 ll.21–26 (emphasis added). For example, the embodiment illustrated in Figure
6 has a channel shaped to receive a frustum, not a triangle. Id. at fig.6, col.5 l.59 – col.6 l.15.
Accordingly, the Court construes “interference fit,” and the relevant surrounding claim
language for contextual clarity, as follows:
“the vertex of the bevel being in contact with the receiving channel bottom and
having an interference fit with the receiving channel bottom” means “the contact
of the bevel’s vertex with the bottom of the receiving channel where the height of
the bevel is greater than the depth of the receiving channel and where the lens as a
whole is larger than the frame’s area in which to receive the lens”;
“the vertex of the bevel being in contact with the receiving channel bottom,
having an interference fit with the receiving channel bottom” means “the contact
of the bevel’s vertex with the bottom of the receiving channel where the height of
18
the bevel is greater than the depth of the receiving channel and where the lens as a
whole is larger than the frame’s area in which to receive the lens”;
“the vertex contacting and forming an interference fit with a bottom of the
receiving channel” means “the contact of the bevel’s vertex with the bottom of the
receiving channel where the height of the bevel is greater than the depth of the
receiving channel and where the lens as a whole is larger than the frame’s area in
which to receive the lens.”
B.
“in compression”
Disputed Term
“in compression”
’360 Patent Claim 1
’130 Patent Claims 1, 11
Plaintiff’s Proposed
Construction
plain and ordinary meaning,
namely “the state of being
compressed, i.e. pressed into
less space”
Defendant’s Proposed
Construction
plain and ordinary meaning,
i.e. “being pressed together,
but not necessarily into less
space”
The Parties’ Positions
Plaintiff submits: The plain and ordinary meaning of “compression” connotes that a lens “in
compression” occupies less space by virtue of being compressed. Dkt. No. 49 at 22. This comports
with the use of the term in the Asserted Patents, which provides that the “‘compression’ results in
deformation.” Id. at 22 (citing ’360 Patent col.4 ll.39–46).
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position: Intrinsic evidence: ’360 Patent col.4 ll.39–46. Extrinsic
evidence: American Heritage Dictionary 303 (2d College ed. 1982), “compression” and
“compressed” (Plaintiff’s Ex. O, Dkt. No. 49-15 at 5); Webster’s New World Dictionary 292 (2d
19
College ed. 1984), “compression” and “compressed” (Plaintiff’s Ex. P, Dkt. No. 49-16 at 5);
Dictionary.com, “compression”8 and “compressed”9 (Plaintiff’s Ex. Q, Dkt. No. 2, 4).
Defendant responds: “Compression,” as used in the Asserted Patents, does not necessarily
require that the lens is squeezed into less space. Dkt. No. 51 at 19. The patents distinguish
deformation from compression because Claim 11 of the ’360 Patent requires both the lens-bevel
vertex be “in compression” and that it be “deformed.” Id. at 19–20. Thus, an interpretation of
“compression” that requires the vertex be deformed by forcing it into less space would improperly
render the “deformed” distinction in Claim 11 superfluous. Id. at 19–20. Further, the patentee
distinguished “compression” from deformation during prosecution. Id. at 20 (citing ’360 Patent
File Wrapper September 12, 2013 Response at 8–10, Dkt. No. 51-7 at 9–11).
In addition to the claims themselves, Defendant cites the following intrinsic and extrinsic
evidence to support its position: Intrinsic evidence: ’360 Patent File Wrapper September 12, 2013
Amendment at 8–10 (Defendant’s Ex. G, Dkt. No. 51-7 at 9–11). Extrinsic evidence: American
Heritage Dictionary 303 (2d College ed. 1982) (Plaintiff’s Ex. O, Dkt. No. 49-15 at 5); Webster’s
New World Dictionary 292 (2d College ed. 1984) (Plaintiff’s Ex. P, Dkt. No. 49-16 at 5).
Plaintiff replies: Forcing the lens’s vertex into a space in the frame that is smaller than the
lens does not necessarily cause the lens to deform but rather it may cause the frame to deform.
Dkt. No. 53 at 8.
Analysis
The issue here is whether a vertex of the lens bevel being “in compression” necessarily means
that it occupies less space than it would when it is not compressed. It does.
8
9
http://www.dictionary.com/browse/compression (Feb. 6, 2018)
http://www.dictionary.com/browse/compressed (Feb. 6, 2018)
20
“Compression” in the Asserted Patents connotes a reduction in size. The parties agree that
under the ordinary meaning of “interference fit,” the two parts forming the interference fit
necessarily press against each other. As set forth above, “interference fit” is used in the Asserted
Patents according to the term’s ordinary meaning. Thus, to state that an object is in an “interference
fit” and “in compression” with another object presumptively means more than the object is pressed
against another object. Consistent with the ordinary meaning of “compression,” an object in an
“interference fit” that is also “in compression” is squeezed to occupy a smaller space than when
not “in compression”—such an object is compacted. See, e.g., American Heritage Dictionary 303
(2d College ed. 1982) (defining: (1) “compress” as “[t]o shorten or condense as if by pressing or
squeezing,” (2) “compressed” as “made compact,” (3) “compression” as “[t]he state of being
compressed”), Dkt. No. 49-15 at 5; Webster’s New World Dictionary 292 (2d College ed. 1984)
(defining: (1) “compress” as “make more compact by or as by pressure,” (2) “compressed” as
“made more compact by pressure,” (3) “compression” as “being compressed”), Dkt. No. 49-16 at
5. Defendant’s proposed construction appears to treat all applications of pressure as
“compression.”
The fact that certain claims require that the lens vertex be both “deformed” and “in
compression” does not mandate that “in compression” means something other than compaction.
The Court is not persuaded that compacting (or condensing) an object necessarily involves
deforming the object. For example, an object may be compacted yet still maintain its form—in
other words, only its size is changing. In the context of the Asserted Patents, for example, the
vertex of the lens’s bevel may be compacted yet still maintain the same defining angles it has when
the vertex is not compacted. Such a compacted vertex would not be deformed.
Accordingly, the Court construes “in compression” as follows:
21
C.
“in compression” means “compacted.”
“defined by”
Disputed Term
“defined by”
Plaintiff’s Proposed
Construction
plain and ordinary meaning
’360 Patent Claim 1
’130 Patent Claims 1, 11
Defendant’s Proposed
Construction
plain and ordinary meaning,
i.e. “completely specified by”
The Parties’ Positions
Plaintiff submits: “Defined by” has a plain meaning that is readily accessible to the jury and
therefore need not be construed. Dkt. No. 49 at 23. Defendant’s proposed “completely specified
by” is not the plain and ordinary meaning of “defined by.” Id. at 23–24.
In addition to the claims themselves, Plaintiff cites the following extrinsic evidence to support
its position: American Heritage Dictionary 375 (2d College ed. 1982), “define” (Plaintiff’s Ex. O,
Dkt. No. 49-15 at 5).
Defendant responds: The Asserted Patents use both “defined by” and “generally defined by”
implying the two terms have different meanings. Dkt. No. 51 at 21–22. In the patents, a first
parameter is “defined by” other parameters if the first parameter is completely specified by those
other parameters. Id. at 22–23 (citing, inter alia, ’360 Patent col.5 ll.61–64). In contrast, the first
parameter is “generally defined by” the other parameters if more information is needed to
completely specify the first parameter. Id. (citing, inter alia, ’360 Patent col.5 ll.16–21). This usage
comports with the plain and ordinary meaning of “defined by.” Id. at 23–24.
In addition to the claims themselves, Defendant cites the following intrinsic and extrinsic
evidence to support its position: Intrinsic evidence: ’360 Patent col.4 ll.30–32, col.5 ll.16–21,
col.5 ll.48–50, col.5 ll.53–55, col.5 ll.61–64, col.5 l.67 – col.6 l.3, col.6 ll.5–7, col.7 ll.23–29.
Extrinsic evidence: New Oxford American Dictionary 444 (2d ed. 2005), “define” (Plaintiff’s Ex.
22
F, Dkt. No. 49-6 at 8, 9); American Heritage Dictionary 375 (2d College ed. 1982), “define”
(Plaintiff’s Ex. O, Dkt. No. 49-15 at 5).
Plaintiff replies: Defendant’s proposed construction improperly injects ambiguity into an
otherwise accessible claim term. Dkt. No. 53 at 9. Specifically, Claim 1 of the ’360 Patent recites
a “receiving channel defined by opposed interior wall surfaces” and it is unclear what it would
mean for the receiving channel to be “completely specified” by the opposed interior wall surfaces.
Id. Further, the terms “generally defined by” and “defined by” are used synonymously in the
Asserted Patents. Id. at 10–11 (citing ’360 Patent col.5 ll.16–21, col.5 ll.61–64).
Plaintiff cites further intrinsic evidence to support its position: ’360 Patent col.5 ll.16–21,
col.5 ll.61–64.
Analysis
The issue in dispute distills to whether recitation that the frame’s receiving channel is “defined
by” the walls of that channel necessarily means that the channel is “completely specified by” the
walls. It does not.
The claims recite not only a receiving channel “defined by” walls but also other specific
features of the receiving channel. For example, Claim 1 of the ’360 Patent provides:
A prescription plastic lens for use in an eyeglass frame, said eyeglass frame having
a receiving channel defined by opposed interior wall surfaces having a first angle
therebetween, the receiving channel having a channel bottom at one end and a
channel opening at the other end, the plastic lens comprising:
’360 Patent col.8 ll.36–41 (emphasis added). If the channel were “completely specified” by the
walls, there would be no need to specify that the channel has an opening at one end and a bottom
at the other. Rather, the wall surfaces bound or outline the channel, just as the channel opening
and channel bottom bound or outline the channel. This comports with the ordinary meaning of
23
“defined by.” See, e.g., New Oxford American Dictionary 444 (2d ed. 2005) (“define” means
“mark out the boundary or limits of” and “make clear the outline of”), Dkt. No. 49-6 at 89.
Accordingly, the Court defines “defined by” as follows:
D.
“defined by” means “bounded at least in part by”
“is from”
Disputed Term
“is from”
Plaintiff’s Proposed
Construction
plain and ordinary meaning
’130 Patent Claims 2, 11
Defendant’s Proposed
Construction
plain and ordinary meaning,
i.e. “varies between [X] and
[Y]”
The Parties’ Positions
Plaintiff submits: The term “is from” has a readily understood plain meaning and therefore
does not need to be construed. Dkt. No. 49 at 24–25. Defendant’s proposed “varies between [X]
and [Y]” improperly injects ambiguity in that it is not clear whether it means fluctuating between
X and Y or changing from one end to another or something else. Id. at 25.
Defendant responds: During prosecution, the patentee replaced “ranges from” with “is from”
in certain claims, thereby implying that “is from” differs in meaning from “ranges from.” Dkt. No.
51 at 24–25.
In addition to the claims themselves, Defendant cites the following intrinsic evidence to
support its position: ’130 Patent File Wrapper March 22, 2016 Amendment at 2–3 (Defendant’s
Ex. I, Dkt. No. 51-9 at 3–4).
Plaintiff replies: Defendant originally understood that “is from” and “ranges from” have the
same meaning. Dkt. No. 53 at 11 (citing Joint Claim Construction and Prehearing Statement
Pursuant to P.R. 4-3 Exhibit B, Dkt. No. 41-2).
24
Analysis
The dispute here is whether the limitations directed to a bevel height that “is from 0.30 to 0.75
mm” means that the bevel height “varies” or “must vary” within that range. It does not.
Defendant’s only support for its proposed “varies between” limitation is that some claims state
“ranges from” and others state “is from.” Without more, this is not enough to interpret “is from”
as “varies between,” which the Court understands would require the vertex height to be 0.30 mm
at some points on the lens and 0.75 mm at other points on the lens. Defendant has not identified a
description of such a purposeful variance in the Asserted Patents, nor has it posited any
technological purpose of such variance. Indeed, it appears that all references to a bevel height
being “from” one value to another are references to that parameter falling within a range of values.
For example, the patents provide:
Referring back to FIG. 4, the bevel 38 has a height 100, h1, may be greater than
0.25 mm in at least one embodiment. In another embodiment, the height 100, h1, of
bevel 38 may range from 0.25 mm to 1.1 mm. In another embodiment, the height
100, h1, of the bevel 38 may range from 0.28 mm to 1 mm. In at least another
embodiment, the height 100, h1, of the bevel 38 may range from 0.30 mm to 0.75
mm.
’360 Patent col.6 ll.32–38 (emphasis added). This disclosure of a bevel height in the range of 0.30
mm to 0.75 mm naturally aligns with the “is from 0.30 to 0.75 mm” claim language. See Phillips
v. AWH Corp., 415 F.3d 1303, 1316 (Fed. Cir. 2005) (en banc) (“‘The construction that stays true
to the claim language and most naturally aligns with the patent’s description of the invention will
be, in the end, the correct construction.’” (quoting Renishaw PLC v. Marposs Societa' per Azioni,
158 F.3d 1243, 1250 (Fed. Cir. 1998)). That the patentee chose two different phrases (“is from”
and “ranges from”) to express similar concepts does not overcome the natural alignment of “is
from” with the description of a height falling within a range of values. See Bancorp Servs., L.L.C.
v. Hartford Life Ins. Co., 359 F.3d 1367, 1373 (Fed. Cir. 2004) (“[I]t is not unknown for different
25
words to be used to express similar concepts . . . .”); Innova/Pure Water, Inc. v. Safari Water
Filtration Sys., 381 F.3d 1111, 1120 (Fed. Cir. 2004) (“[W]e must conclude that this is simply a
case where the patentee used different words to express similar concepts . . . .”).
Accordingly, the Court construes “is from,” with the relevant surrounding claim language for
contextual clarity, as follows:
“height of the bevel is from 0.30 to 0.75 mm” means “height of the bevel is no
less than 0.30 mm and no greater than 0.75 mm”;
“height between the peripheral edge and the vertex that is greater than the channel
depth and is from 0.30 to 0.75 mm” means “height between the peripheral edge
and the vertex that is greater than the channel depth and is no less than 0.30 mm
and no greater than 0.75 mm.”
V.
CONCLUSION
The Court adopts the constructions set forth above, as summarized in the following table. The
parties are ORDERED that they may not refer, directly or indirectly, to each other’s claimconstruction positions in the presence of the jury. Likewise, the parties are ORDERED to refrain
from mentioning any portion of this opinion, other than the actual definitions adopted by the Court,
in the presence of the jury. Any reference to claim-construction proceedings is limited to informing
the jury of the definitions adopted by the Court.
Term
“the vertex of the bevel being in contact with
the receiving channel bottom and having an
interference fit with the receiving channel
bottom”
Construction
“the contact of the bevel’s vertex with the
bottom of the receiving channel where the
height of the bevel is greater than the depth of
the receiving channel and where the lens as a
whole is larger than the frame’s area in which
to receive the lens”
26
Term
“the vertex of the bevel being in contact with
the receiving channel bottom, having an
interference fit with the receiving channel
bottom”
Construction
“the contact of the bevel’s vertex with the
bottom of the receiving channel where the
height of the bevel is greater than the depth of
the receiving channel and where the lens as a
whole is larger than the frame’s area in which
to receive the lens”
the vertex contacting and forming an
interference fit with a bottom of the receiving
channel
“the contact of the bevel’s vertex with the
bottom of the receiving channel where the
height of the bevel is greater than the depth of
the receiving channel and where the lens as a
whole is larger than the frame’s area in which
to receive the lens”
“in compression”
.
“compacted”
“defined by”
“bounded at least in part by”
“height of the bevel is from 0.30 to 0.75 mm”
“height of the bevel is no less than 0.30 mm
and no greater than 0.75 mm”
“height between the peripheral edge and the
vertex that is greater than the channel depth
and is from 0.30 to 0.75 mm”
“height between the peripheral edge and the
vertex that is greater than the channel depth
and is no less than 0.30 mm and no greater
than 0.75 mm”
SIGNED this 19th day of December, 2011.
So ORDERED and SIGNED this 18th day of May, 2018.
____________________________________
RODNEY GILSTRAP
UNITED STATES DISTRICT JUDGE
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