Petition for Inter Partes Review of U.S. Patent No. 8,695,841 UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________________ Jackel International Limited and Mayborn USA, Inc. Petitioners v. Admar International, Inc. Patent Owner U.S. Patent No. 8,695,841 Filing Date: June 9, 2010 Issue Date: April 15, 2014 Title: No-Spill Drinking Cup Apparatus ____________________ PETITION FOR INTER PARTES REVIEW OF U.S. PATENT NO. 8,695,841 Inter Partes Review No. 2015-_________
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Petition for Inter Partes Review of U.S. Patent No. 8,695,841
UNITED STATES PATENT AND TRADEMARK OFFICE ____________________
BEFORE THE PATENT TRIAL AND APPEAL BOARD
____________________
Jackel International Limited and Mayborn USA, Inc.
Petitioners
v.
Admar International, Inc. Patent Owner
U.S. Patent No. 8,695,841 Filing Date: June 9, 2010 Issue Date: April 15, 2014
Title: No-Spill Drinking Cup Apparatus
____________________
PETITION FOR INTER PARTES REVIEW OF U.S. PATENT NO. 8,695,841
Inter Partes Review No. 2015-_________
ii
TABLE OF CONTENTS
I. MANDATORY NOTICES UNDER 37 C.F.R § 42.8(a)(1) ......................... 1
A. Real Party-In-Interest Under 37 C.F.R. § 42.8(b)(1) .......................... 1
B. Related Matters under 37 C.F.R. § 42.8(b)(2) .................................... 1
C. Lead and Back-Up Counsel Under 37 C.F.R. § 42.8(b)(3) ................ 1
D. Service Information ............................................................................. 2
E. Power of Attorney ............................................................................... 2
II. PAYMENT OF FEES – 37 C.F.R. § 42.103 ................................................. 2
III. REQUIREMENTS FOR INTER PARTES REVIEW UNDER 37 C.F.R. §§ 42.104 AND 42.108 ...................................................................... 3
A. Grounds for Standing Under 37 C.F.R. § 42.104(a) ........................... 3
B. Challenge Under 37 C.F.R. § 42.104(b) and Requested Relief ................................................................................................... 3
C. Requirements for Inter Partes Review 37 C.F.R. § 42.108(c) ........... 7
IV. TECHNOLOGY BACKGROUND RELEVANT TO THE ’841 PATENT ........................................................................................................ 7
A. Spill Proof Cups .................................................................................. 7
B. Flexible Membrane Valves ................................................................. 8
C. Air Vents ............................................................................................. 8
V. DESCRIPTION OF THE CLAIMED SUBJECT MATTER ....................... 9
A. Specification of the ’841 Patent .......................................................... 9
B. The Claims of the ’841 Patent ............................................................. 9
VI. CLAIM CONSTRUCTION UNDER 37 C.F.R. § 42.104(B)(3) ................ 11
A. “opening” and “hole” ........................................................................ 12
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B. “blocking element” ............................................................................ 13
C. “barrier” ............................................................................................. 14
VII. THE CHALLENGED CLAIMS OF THE ’841 PATENT ARE UNPATENTABLE ...................................................................................... 15
A. GROUND 1 – Claims 1, 2, 5-9, and 12-14 Are Obvious Over Raymond In View Of Mutti ..................................................... 15
1. Overview of Raymond ............................................................ 15
2. Overview of Mutti ................................................................... 16
3. Independent Claim 1 Is Obvious Over Raymond in view of Mutti ....................................................................... 17
a. Claim 1(a): “a no-spill drinking apparatus” ..................................................................... 17
b. Claim 1(b): “said no-spill drinking apparatus comprising a cap, said cap further comprising a spout” .......................................... 17
c. Claim 1(c): “said cap comprising a valve, said valve comprising a flexible material and an opening” ............................................................ 18
d. Claim 1(d): “said apparatus comprising a blocking element next to said opening” ....................... 20
e. Claim 1(e): “wherein said opening rests against said blocking element when the user is not drinking from said spout” ........................... 21
f. Claim 1(f): “wherein said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate” ....................................... 21
g. Claim 1(g): “a barrier, said barrier blocking said flexible material from
iv
moving beyond a maximum distance after said flexible material moves when the user sucks through said spout to drink from said spout” ............................................................ 22
4. Independent Claim 8 Is Obvious Over Raymond in View of Mutti ...................................................................... 24
a. Claim 8(a)-8(d), and 8(g) .............................................. 24
b. Claim 8(e): “wherein said valve comprises a closed position in which said opening rests against said blocking element when the user is not drinking from said spout” ............................................................ 24
c. Claim 8(f): “wherein said valve comprises an open position in which said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate” ....................................... 24
d. Claim 8(h): “a post, wherein the relative position of said post and said opening changes when the user sucks through said spout to drink from said spout” .................................... 24
e. Claim 8(i): “wherein said post extends into and through said opening in said closed position and said open position of said valve” .................................................................... 26
a. Claims 2 and 9: “wherein said flexible material comprises a center area and sidewalls, and wherein said center area is of a greater thickness than said sidewalls” ................... 27
b. Claim 5 and 12: “wherein said opening is a hole” ........................................................................... 27
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c. Claim 6 and 13: “wherein said apparatus further comprises a valve holder, said valve holder being separable from said cap and being dimensioned to fit snugly into said cap” ................................................................ 28
d. Claim 7 and 14: “wherein said spout of said cap is soft, and wherein said cap further comprises a hard section for attachment to a cup.” .................................................... 28
B. GROUND 2 – Claims 3-4 and 10-11 Are Obvious Over Raymond and Mutti, further in view of Belanger ............................. 29
1. Overview of Belanger ............................................................. 29
2. Claims 3-4 and 10-11 Are Obvious Over Raymond and Mutti, Further in view of Belanger .................................................................................. 30
C. GROUND 3 – Claims 1-14 Are Obvious Over Mutti in View of Kano and Suffa .................................................................... 33
1. Overview of Kano ................................................................... 33
2. Overview of Suffa ................................................................... 34
3. Independent Claim 1 Is Obvious Over Mutti in view of Kano and Suffa .......................................................... 36
a. Claim 1(a): “a no-spill drinking apparatus” ..................................................................... 36
b. Claim 1(b): “said no-spill drinking apparatus comprising a cap, said cap further comprising a spout” .......................................... 37
c. Claim 1(c): “said cap comprising a valve, said valve comprising a flexible material and an opening” ............................................................ 37
d. Claim 1(d): “said apparatus comprising a blocking element next to said opening” ....................... 38
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e. Claim 1(e): “wherein said opening rests against said blocking element when the user is not drinking from said spout” ........................... 39
f. Claim 1(f): “wherein said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate” ....................................... 39
g. Claim 1(g): “a barrier, said barrier blocking said flexible material from moving beyond a maximum distance after said flexible material moves when the user sucks through said spout to drink from said spout” ............................................................ 40
4. Independent Claim 8 Is Obvious Over Mutti in view of Kano and Suffa for Largely the Same Reasons ................................................................................... 49
a. Claim 8(a)-8(d), and 8(g) .............................................. 49
b. Claim 8(e): “wherein said valve comprises a closed position in which said opening rests against said blocking element when the user is not drinking from said spout” ............................................................ 49
c. Claim 8(f): “wherein said valve comprises an open position in which said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate” ....................................... 49
d. Claim 8(h): “a post, wherein the relative position of said post and said opening changes when the user sucks through said spout to drink from said spout” .................................... 50
vii
e. Claim 8(i): “wherein said post extends into and through said opening in said closed position and said open position of said valve” .................................................................... 50
a. Claims 2 and 9: “wherein said flexible material comprises a center area and sidewalls, and wherein said center area is of a greater thickness than said sidewalls” ................... 51
b. Claims 3-4 and 10-11: “wherein said cap further comprises an air vent.” ..................................... 53
c. Claims 5 and 12: “wherein said opening is a hole” ........................................................................... 55
d. Claims 6 and 13: “wherein said apparatus further comprises a valve holder, said valve holder being separable from said cap and being dimensioned to fit snugly into said cap.” ............................................................... 56
e. Claims 7 and 14: “wherein said spout of said cap is soft, and wherein said cap further comprises a hard section for attachment to a cup.” .................................................... 57
VIII. CONCLUSION ............................................................................................ 58
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EXHIBITS
Exhibit No. Title of Document
1001 U.S. Patent No. 8,695,841 to Hakim (“the ’841 patent” or “Hakim”)
1002 Declaration of Dr. Stuart Brown (“Brown”)
1003 U.S. Patent No. 5,747,083 to Jean-Louis Raymond et al. (“Raymond”)
1004 French Patent Document FR 1,191,181 to Leonardo Mutti and certified translation (“Mutti”)
1005 U.S. Patent No. 5,079,013 to Richard A. Belanger (“Belanger”)
1006 U.S. Patent No. 4,785,978 to Yuji Kano et al. (“Kano”)
1007 German Patent Document DE 195 10 007 A1 to Udo Suffa and certified translation (“Suffa”)
1008 Excerpts from the Prosecution History of U.S. Patent No. 6,321,931.
1009 Plaintiffs’ Initial Disclosures in Luv n’ Care, Ltd. et al. v. Jackel Int’l et al., ED. Tex. 2:14-cv-00855
1010
Luv N’ Care Ltd. v. Koninklijke Philips NV, et al., Case No. 2:11-cv-512-RSP (July 9, 2013 claim construction order) and Luv N’ Care Ltd. v. Philips Elec. North Am. Corp., et al., 2014-1007 (Fed. Cir. Dec. 11, 2014) (aff’d)
1011 Hakim v. Cannon Avent Group, PLC, 2005 WL 1793760 (W.D. La. May 4, 2005), 2005 WL 1793765 (W.D. La.
ix
May 4, 2005), and Hakim v. Cannon Avent Group, PLC, 479 F.3d 1313 (Fed. Cir. 2007) (aff’d)
1012 Plaintiff’s Motion to Stay in Luv n’ Care, Ltd. et al. v. Jackel Int’l et al., ED. Tex. 2:14-cv-00855 (Dkt. 66)
1
Jackel International Limited and Mayborn USA, Inc. (collectively,
“Petitioners” or “Mayborn”) respectfully submit, pursuant to 35 U.S.C. §§ 311-319
and 37 C.F.R. § 42, this petition for Inter Partes Review of claims 1-14 of U.S.
Patent No. 8,695,841 (“the ’841 patent”).
I. MANDATORY NOTICES UNDER 37 C.F.R § 42.8(A)(1)
A. Real Party-In-Interest Under 37 C.F.R. § 42.8(b)(1)
The Petitioners, Jackel International Limited and Mayborn USA, Inc., are
the real parties-in-interest. Both companies are wholly-owned subsidiaries of
Mayborn Group Limited.
B. Related Matters under 37 C.F.R. § 42.8(b)(2)
The Petitioners are aware of two district court cases involving the ’841
patent. The first is an action for declaratory judgment of non-infringement only
that Mayborn filed on April 4, 2014: Mayborn USA, Inc. v. Luv n’ Care, Ltd. et al.,
D. Mass. 1:14-cv-11846. That action was voluntarily dismissed. The second is an
infringement action filed by Luv n’ Care Ltd. and the Patent Owner on August 14,
2014: Luv n’ Care, Ltd. et al. v. Jackel Int’l et al., ED. Tex. 2:14-cv-00855.
The Petitioners are also aware that the Patent Owner filed a re-issue
application concerning the ’841 patent on or about January 23, 2015, which was
assigned serial number 14/604,410.
C. Lead and Back-Up Counsel Under 37 C.F.R. § 42.8(b)(3)
The Petitioners designate John S. Goetz, Reg. No. 54,867 as lead counsel.
2
Mr. Goetz is available for service at 3200 RBC Plaza, 60 South Sixth Street,
Minneapolis, MN 55402 (T: 212-641-2277). The Petitioners designate Jane Du,
Reg. No. 65,844 as backup counsel. She may be served at the same address.
D. Service Information
This Petition is being served by Federal Express to the attorney of record for
the ’841 patent at 1350 Avenue of the Americas, 3rd Floor, New York NY 10019.
The Petition is also being served by Federal Express on the attorney of record in
re-issue proceedings 14/604,410 at 120 South Riverside Plaza, Suite 2200,
Chicago, Illinois 60606. The Petition is also being served by Federal Express on
counsel of record in the Texas action identified above.
The Petitioners may be served at the address above in Section I.C. The
Petitioners also consent to electronic service by e‐mail at [email protected] and
properly rescind that disclaimer during the prosecution of the ’841 patent, and
13
(4) LNC’s tacit admission of such failure, as evidenced by the recent re-issue
application, which LNC admitted was to “to put to rest any question of meeting all
of the requirements for rescission of the disclaimer in the ancestor ’931 patent.”
Ex. 1012 (Plaintiff’s Motion for Stay), p. 1. Further, this interpretation is
consistent with the ’841 patent specification. Ex. 1001 (’841 patent), Abstract,
2:16-21; 8:27-34; 8:58-9:7; 10:41-43; and 11:54-62. This interpretation is further
consistent with the understanding a person of ordinary skill in the art would have
for this term in light of the relevant facts. See Ex. 1002 (Brown), ¶ 26.
B. “blocking element”
The term “blocking element,” which appears in every ’841 patent claim,
should be construed as “a stationary structure that seals against fluid flow.” LNC
has previously agreed that this term means a “structure that seals against fluid
flow” (Ex. 1010 (Philips Claim Construction Order), p. 8), but given that the only
disclosed “blocking element” embodiments are fixed, immovable structures, the
broadest reasonable interpretation must make clear that the claimed blocking
element is stationary. See Phillips v. AWH Corp., 415 F.3d 1303, 1315 (Fed. Cir.
2005) (en banc) (explaining that “the 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.’”) (quoting Vitronics Corp. v. Conceptronic, Inc.,
90 F.3d 1576, 1582 (Fed. Cir. 1996)); see also Ormco Corp. v. Align Tech., Inc.,
14
498 F.3d 1307, 1313–14 (Fed. Cir. 2007) (construing claims to include a limitation
where doing so “most naturally aligns with the patent’s description of the
invention” (quotation marks omitted)).
In addition, the ’841 patent defines the “blocking element” of the valve
assembly as something that “seals off and blocks the flow of fluid through the
valve.” See Ex. 1001 (’841 patent), 7:45-47. Finally, this interpretation is
consistent with the ’841 patent specification and with the understanding of a
person having ordinary skill in the art. See Ex. 1002 (Brown), ¶ 28; Ex. 1001
(’841 patent), 7:9-12; 7:12-14; FIGS. 6, 15.
C. “barrier”
The term “barrier,” which appears in every ’841 patent claim, should be
construed as “a restraining structure that prevents over-extension of the valve
during fluid flow.” The ’841 patent does not discuss this term in detail; instead, it
describes it as a shield that prevents the valve from over-extension or damage. See
Ex. 1001 (’841 patent), 9:8-18. This interpretation is consistent with the
understanding of a person having ordinary skill in the art. See Ex. 1002 (Brown),
¶ 29.
15
VII. THE CHALLENGED CLAIMS OF THE ’841 PATENT ARE UNPATENTABLE
A. GROUND 1 – Claims 1, 2, 5-9, and 12-14 Are Obvious Over Raymond In View Of Mutti
The alleged inventions of claims 1, 2, 5-9, and 12-14 are obvious over
Raymond in view of Mutti, rendering the claims unpatentable under 35 U.S.C.
§ 103.
1. Overview of Raymond
Raymond is a U.S. Patent issued on May 5, 1998 and describes a feeding
bottle that simulates breast feeding by requiring the infant to make sucking and
pressure exertions and suppressing ingestion of air. Ex. 1003 (Raymond), 1:13-20.
The feeding bottle is designed to not spill, even in an upside-down position. Id.,
3:10-11. The feeding bottle includes a check valve (5), which allows liquid food to
flow at a negative pressure when the infant is sucking on the bottle teat. Id., 4:62-
65. The check valve (5) is formed by two circular membranes (6) and (7) where
one is applied against the other. Id. “The upper membrane (7) is made of a
flexible rubber or another flexible and elastic, easily deformable synthetic
elastomer,” and includes an opening (11). Id., 5:7-13. FIG. 5 shows the feeding
bottle in the closed, or non-dispensing position, where the check valve’s lower
membrane (6) acts to block the opening (11); whereas FIG. 6 shows when the
valve is in the open, or dispensing position, and the opening in the flexible
membrane (6) rises up off the blocking element and is prevented from
16
overextending by the barrier element (26):
See Ex. 1002 (Brown), ¶ 30.
2. Overview of Mutti
Mutti is a French patent issued on October 16, 1959 that describes a no-spill
baby bottle with a self-regulating valve. Ex. 1004 (Mutti), p. 1; FIG. 6. The self-
regulating valve allows liquid food to flow at a negative pressure when the infant is
sucking on the bottle teat. Id. The valve membrane is made of an elastic material
and is annular in shape. Id., p. 2; FIG. 4. In the absence of negative pressure, the
membrane surrounds and comes into contact with a guide (15) to prevent the flow
of liquid out of the bottle. Id., pp. 3-4. FIG. 6 from Mutti shows the bottle and teat
with a cross-section of a self-regulating valve in a closed position that holds the
liquid inside the bottle when not in use:
17
See Ex. 1002 (Brown), ¶ 41.
An air inlet valve at the opposite end of the bottle allows air to enter the
bottle in proportion to the liquid being sucked out. See Ex. 1004 (Mutti), pp. 4-5;
Ex. 1002 (Brown), ¶ 42.
3. Independent Claim 1 Is Obvious Over Raymond in view of Mutti
a. Claim 1(a): “a no-spill drinking apparatus”
Raymond discloses a no-spill drinking apparatus because it is designed to
“not leak even in its upside-down position.” Ex. 1003 (Raymond), 3:10-11.
Accordingly, Raymond discloses “a no-spill drinking apparatus,” as recited in the
claim. Ex. 1002 (Brown), ¶ 31
b. Claim 1(b): “said no-spill drinking apparatus comprising a cap, said cap further comprising a spout”
The feeding bottle in Raymond has a cap described as a “clamping ring 27
18
of a classic, conventional concept which is fastened by screwing onto the open end
of the body 1.” Ex. 1003 (Raymond), 6:19-27. Raymond also has a spout
described as a traditional teat that “includes a nipple piece 15 furnished with
perforations 18 and a body 16 in the shape of a bulb.” Id., 5:17-20. As shown in
FIG. 2, the feeding bottle includes a cap (27) and a spout (15):
Accordingly, Raymond discloses “said no-spill drinking apparatus comprising a
cap, said cap further comprising a spout,” as recited in the claim. See Ex. 1002
(Brown), ¶ 32.
c. Claim 1(c): “said cap comprising a valve, said valve comprising a flexible material and an opening”
The cap in Raymond includes a valve that has an “upper membrane 7 []
19
made of flexible rubber or another flexible and elastic, easily deformable synthetic
elastomer.” Ex. 1003 (Raymond), 5:7-9. The flexible upper membrane (7)
includes an opening in the form of “[b]ores 11 [that] are disposed at a distance of
its center part occupied by said bump.” Id., 5:11-13. As shown in FIG. 6, the
valve is made of flexible material in the upper membrane (7) with at least one
opening (11):
See Ex. 1002 (Brown), ¶ 33.
Although Raymond discloses bores that are not self-sealing, like a slit, Mutti
discloses a slit in Figures 10 and 11:
Ex. 1004 (Mutti), FIGS. 10-11. As those of skill would readily understand from
20
Mutti’s slit disclosures, these membranes self-seal thus strengthening the seal
against fluid flow. See Ex. 1002 (Brown), ¶ 69. Those of skill in the art would
have been motivated to use a self-sealing opening like that in Mutti for exactly this
reason. Id. Accordingly, Raymond and Mutti teach “said cap comprising a valve,
said valve comprising a flexible material and an opening,” as recited in the claim.
d. Claim 1(d): “said apparatus comprising a blocking element next to said opening”
The valve in Raymond is formed “by two circular membranes 6, 7 where
one is applied against the other.” Ex. 1003 (Raymond), 4:62-65. The lower
membrane (6) “is made of a rigid, non-deformable material (for example a rigid
plastic material).” Id., 4:66-5:3. As discussed above, the flexible upper membrane
(7) includes at least one opening (11). See VII.A.3.c, supra. As shown in FIG. 5,
the two circular membranes are applied to each other such that the lower
membrane (6) functions as the blocking element next to the opening (11) in the
upper membrane (7):
21
Accordingly, Raymond discloses “said apparatus comprising a blocking element
next to said opening,” as recited in the claim. See Ex. 1002 (Brown), ¶ 34.
e. Claim 1(e): “wherein said opening rests against said blocking element when the user is not drinking from said spout”
Raymond’s FIG. 5 shows the feeding bottle valve in the rest state. Ex. 1003,
(Raymond), 6:13-16. Therefore, the opening (11) rests against the blocking lower
membrane (6) when the user is not drinking from the spout. See VII.A.3.d, supra.
See Ex. 1002 (Brown), ¶ 35. Accordingly, Raymond discloses “wherein said
opening rests against said blocking element when the user is not drinking from said
spout,” as recited in the claim.
f. Claim 1(f): “wherein said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate”
When the chamber F is in a state of negative pressure, the flexible
Blocking element (6) next to the opening (11)
22
membrane (7) lifts up off the lower membrane (6). Ex. 1003 (Raymond), 6:13-18.
As shown in FIG. 6, when the user sucks through the spout to drink, the flexible
material (7) lifts off the blocking element (6), causing the opening (11) and the
blocking element (6) to separate:
Accordingly, Raymond discloses “wherein said flexible material moves when the
user sucks through said spout to drink from said spout, causing said opening and
said blocking element to separate,” as recited in the claim. See Ex. 1002 (Brown),
¶ 35.
g. Claim 1(g): “a barrier, said barrier blocking said flexible material from moving beyond a maximum distance after said flexible material moves when the user sucks through said spout to drink from said spout”
The base of the core (14) controls the maximum movement of the valve. Ex.
23
1003 (Raymond), 6:1-2. When the valve is at rest, “a slight space is provided
between the base of the core 14 of the teat and the flexible membrane 7 of the
intermediate check valve (FIG. 5), in order to allow the lifting up of the latter when
the chamber F is in a state of negative pressure (FIG. 6).” Id., 6:13-18. As shown
in FIG. 6, the base of the core (14) functions as a barrier to block the flexible
membrane from moving beyond a maximum distance when the user sucks through
the spout to drink:
Accordingly, Raymond discloses “a barrier, said barrier blocking said flexible
material from moving beyond a maximum distance after said flexible material
moves when the user sucks through said spout to drink from said spout,” as recited
in the claim. See Ex. 1002 (Brown), ¶ 37.
24
4. Independent Claim 8 Is Obvious Over Raymond in View of Mutti
a. Claim 8(a)-8(d), and 8(g)
Claim elements 8(a) through 8(d), and 8(g) are identical to claim elements
1(a) through 1(d), and 1(g), thus the claim 1 analysis in Section VII.A.3 above
applies with equal force to these claim 8 elements.
b. Claim 8(e): “wherein said valve comprises a closed position in which said opening rests against said blocking element when the user is not drinking from said spout”
Raymond discloses a valve where, in the closed position, the opening rests
against the blocking element when the user is not drinking from the spout. See
Section VII.A.3.e, supra.
c. Claim 8(f): “wherein said valve comprises an open position in which said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate”
Raymond discloses a valve where in the open position, the flexible material
moves when the user sucks through the spout to drink, causing the opening and
blocking element to separate. See VII.A.3.f, supra.
d. Claim 8(h): “a post, wherein the relative position of said post and said opening changes when the user sucks through said spout to drink from said spout”
Raymond does not disclose a post, but Mutti discloses a post where the
relative position of the post and the opening changes when the user sucks through
25
the spout to drink. As shown in FIG. 5 and 6, the guide (15) is in the shape of a
post. The relative position of the post and the opening in the membrane changes
because “[a]s a result of sucking on the teat 30, a negative pressure is set up in the
said teat through the hole 31,” and the “elastic membrane 22 undergoes a
deformation (as is shown with broken lines in Figs. 1 and 5) in the direction of the
arrows F.” The change in relative position of the opening and post occurs when
the “edge of the axial aperture 24 moves away from the guide 15.” Ex. 1004
(Mutti), p. 4; Ex. 1002 (Brown), ¶ 52.
In addition, it would have been an obvious design choice to those of skill in
the art at the time of the invention to use the Mutti post disclosure in the Raymond
valve design. As those of skill in the art would understand from Mutti’s post
disclosure, the post acts as a guide to help facilitate the proper positioning of the
flexible membrane valve during operation of the valve. See Ex. 1002 (Brown),
¶ 71. This guiding action of the post would have provided a motivation to those of
skill in art to use the Mutti post in Raymond’s valve design to further control and
guide the flexible membrane valve during repeated operation of the valve, thus
improving its duration and function. Id. Accordingly, Raymond in combination
with Mutti discloses “a post, wherein the relative position of said post and said
opening changes when the user sucks through said spout to drink from said spout,”
as recited in the claim.
26
Moreover, one of skill in the art would have been motivated to modify the
valve assembly in the feeding bottle of Raymond to include a post for guiding the
valve during operation as taught by Mutti. See Ex. 1002 (Brown), ¶ 72. The
combination amounts to the use of a known technique to improve similar devices
in the same way. See KSR v. Teleflex, 550 U.S. 398, 417 (2007); MPEP § 2143
I(C). The Raymond apparatus and Mutti apparatus are both devices that are
designed to be no-spill containers with a cap and valve to control the discharging
of liquid, and those of skill would have been motivated to combine them in this
predictable way leading the predictable result of a better guided valve function in
Raymond. See Ex. 1002 (Brown), ¶ 72.
e. Claim 8(i): “wherein said post extends into and through said opening in said closed position and said open position of said valve”
Mutti FIG. 5 shows the valve in the open position and FIG. 1 shows the
Mutti valve in the closed position; both show the post, or guide (15) extending into
and through the opening in the membrane (22). Ex. 1004 (Mutti), FIGS. 1, 5. It
would have been an obvious design choice to those of skill at the time to utilize the
Mutti post disclosure in the Raymond valve design for the reasons noted above.
See Ex. 1002 (Brown), ¶ 73. Accordingly, Raymond in combination with Mutti
discloses “wherein said post extends into and through said opening in said closed
position and said open position of said valve,” as recited in the claim.
27
5. Dependent Claims 2, 5-7, 9, 12-14
a. Claims 2 and 9: “wherein said flexible material comprises a center area and sidewalls, and wherein said center area is of a greater thickness than said sidewalls”
As seen in Raymond’s FIG. 6, the flexible membrane 7 has a thicker center
than sidewalls. See Ex. 1002 (Brown), ¶ 38. Accordingly, Raymond discloses a
“flexible material comprises a center area and sidewalls, and wherein said center
area is of a greater thickness than said sidewalls” of the claim.
b. Claim 5 and 12: “wherein said opening is a hole”
Raymond’s flexible membrane has openings described as bores (11). See
Section VII.A.3.c, supra. Although Raymond discloses bores that are not self-
sealing, like a slit, Mutti discloses slits in Figures 10 and 11:
Ex. 1004 (Mutti), FIGS. 10-11. As those of skill would readily understand from
Mutti’s slit disclosures, these membranes self-seal thus strengthening the seal
against fluid flow. See Ex. 1002 (Brown), ¶ 69. Those of skill in the art would
have been motivated to use a self-sealing opening like that in Mutti for exactly this
reason. Id. Accordingly, Raymond and Mutti teach “said cap comprising a valve,
28
said valve comprising a flexible material and an opening,” as recited in the claim.
c. Claim 6 and 13: “wherein said apparatus further comprises a valve holder, said valve holder being separable from said cap and being dimensioned to fit snugly into said cap”
Raymond’s upper (7) and lower (6) valve membranes are held together
between the sealing flange (17) of the teat and the opening (1b) of the cylindrical
comprising a cap, said cap further comprising a spout,” as recited in the claim.
c. Claim 1(c): “said cap comprising a valve, said valve comprising a flexible material and an opening”
As shown in FIGS. 6 and 7, the cap (14b) has a valve membrane (22) with
an opening that the guide (15) projects through. See Ex. 1004 (Mutti), FIGS. 6-7.
The “membrane [is] made of elastic material, means for holding the said
membrane made of elastic material in position in relation to the body of the valve.”
Id., p. 2. In addition, the “membrane 22 has, axially, an aperture 24 which, in the
absence of negative pressure, surrounds the guide 15 and comes lightly into contact
38
with the latter as a result of the shoulder 19.” Id., p. 4. The aperture in the valve
membrane can be clearly seen in FIG. 4. Id., FIG. 4; see also Ex. 1002 (Brown),
¶ 45.
In addition, Mutti discloses an embodiment where the aperture is a slit in
Figures 10 and 11:
Ex. 1004 (Mutti), FIGS. 10-11; see also Ex. 1002 (Brown), ¶ 46. Accordingly,
Mutti discloses “said cap comprising a valve, said valve comprising a flexible
material and an opening,” as recited in the claim.
d. Claim 1(d): “said apparatus comprising a blocking element next to said opening”
As shown in FIGS. 5 and 6, the valve membrane (22) is located next to the
guide (15), which acts to block the opening in the membrane. See Ex. 1004
(Mutti), FIGS. 5-6, 8. “The guide 15 has a shoulder at 19,” and the “membrane 22
has, axially, an aperture 24 which, in the absence of negative pressure, surrounds
the guide 15 and comes lightly into contact with the latter as a result of the
shoulder 19.” Id., pp. 3-4; see also Ex. 1002 (Brown), ¶ 47. Accordingly, Mutti
discloses “said apparatus comprising a blocking element next to said opening,” as
39
recited in the claim.
e. Claim 1(e): “wherein said opening rests against said blocking element when the user is not drinking from said spout”
As shown in FIGS. 5 and 6, the valve membrane (22) rests against the guide
(15), which acts to block the opening in the membrane when the user is not
drinking from the spout. Ex. 1004 (Mutti), FIGS. 5-6. “The guide 15 has a
shoulder at 19,” and the “membrane 22 has, axially, an aperture 24 which, in the
absence of negative pressure, surrounds the guide 15 and comes lightly into contact
with the latter as a result of the shoulder 19.” Id., pp. 3-4; see also Ex. 1002
(Brown), ¶ 48. Accordingly, Mutti discloses “wherein said opening rests against
said blocking element when the user is not drinking from said spout,” as recited in
the claim.
f. Claim 1(f): “wherein said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate”
“As a result of sucking on the teat 30, a negative pressure is set up in the
said teat through the hole 31,” and the “elastic membrane 22 undergoes a
deformation (as is shown with broken lines in Figs. 1 and 5) in the direction of the
arrows F.” Ex. 1004 (Mutti), p. 4. The deformation or separation of the elastic
membrane exists when the “edge of the axial aperture 24 moves away from the
guide 15 and, in particular, from the shoulder 19, and this allows the nutritive fluid
40
to flow out.” Id. The separation of the elastic membrane (22) from the blocking
guide (15) is shown in FIG. 5:
See Ex. 1002 (Brown), ¶ 49.
Accordingly, Mutti discloses “wherein said flexible material moves when
the user sucks through said spout to drink from said spout, causing said opening
and said blocking element to separate,” as recited in the claim.
g. Claim 1(g): “a barrier, said barrier blocking said flexible material from moving beyond a maximum distance after said flexible material moves when the user sucks through said spout to drink from said spout”
As just explained, Mutti discloses a valve made of flexible material that
moves when a user sucks through the spout of the drinking apparatus. Mutti also
discloses that the flexible material “is held in position peripherally against the
shoulder 20 and is fixed by a stop ring 23 to which pressure is applied, on the other
side, by the shoulder 21.” Ex. 1004 (Mutti), p. 4. As such, Mutti includes the
Flexible material (22) separating from the blocking element (15)
Blocking element (15)
41
claimed barrier blocking the flexible material from moving beyond a maximum
distance, because it is being held by a stop ring and the shoulder. See Ex. 1002
(Brown), ¶ 50. But even if this structure is not a barrier, Kano teaches a barrier
blocking said flexible material from moving beyond a maximum distance after said
flexible material moves. See Ex. 1002 (Brown), ¶ 81.
Specifically, Kano teaches a closure for containers with an automatic
opening-closing mechanism where “the annular surface between the first annular
step 16 and the second annular step 18 in the inside surface of the top wall 8 abuts
with the outer circumferential edge portion of the first valve member 26.” Ex.
1006 (Kano), Abstract; 5:2-6. Moreover, “[i]t is critical that the first valve
member 26 . . . should be formed of a flexible material.” Id., 3:46-48. As shown
in FIG. 2, the flexible material (26) is held inside the top wall (8) between the first
annular step (16) and the second annular step (18):
42
See Ex. 1002 (Brown), ¶ 82.
When the container (56) is in use and the pressure inside the container is
increased, “the inner circumferential edge portion of the first valve member 26 is
elastically bent and moved away from the outer circumferential surface 38 of the
central projecting portion of the plug member 24.” Ex. 1006 (Kano), 5:24-27. As
shown in FIG. 5, when the container is in use, the flexible material (26) elastically
bends away a maximum distance until blocked by the inside of the top wall (8)
acting as a barrier:
Flexible material (26)
Top wall (8)
43
See Ex. 1002 (Brown), ¶ 83.
Accordingly, Mutti in view of Kano teaches “a barrier, said barrier blocking
said flexible material from moving beyond a maximum distance after said flexible
material moves when the user sucks through said spout to drink from said spout,”
as recited in the claim.
One of skill in the art would have been motivated to modify the valve
assembly in the feeding bottle of Mutti to include a barrier that blocks the flexible
material from moving beyond a maximum distance when the bottle is in use. The
addition of a barrier is taught by similar no-spill containers for holding liquids with
Top wall barrier (8)
Flexible material (26) moving a maximum distance
44
a similar valve construction. See Ex. 1002 (Brown), ¶ 85. Such a combination
amounts to the use of a known technique to improve similar devices in the same
way. See KSR v. Teleflex, 550 U.S. 398, 417 (2007); MPEP § 2143 I(C).
As described above, Kano teaches a “container closure provided with an
automatic opening-closing mechanism,” which is a similar device to the feeding
bottle taught by Mutti because both devices are designed to be no-spill containers
with a cap and valve to control the discharging of liquid. See Ex. 1004 (Mutti), pp.
3-5; Kano, 1:6-10. The valve assembly is also alike because in Mutti, the valve is
“made of elastic material,” it has “an aperture,” which “surrounds the guide 15 and
comes lightly into contact with the latter” when the bottle is not in use. See Ex.
1004 (Mutti), p. 4. Whereas, in Kano, the valve “should be formed of a flexible
material,” is “of a flat annular plate shape,” with “a circular opening 44 [] formed
at its central part,” and the “diameter of the circular opening 44 is set at a value
greater than the maximum outside diameter of the upper end of the truncated
conical circumferential surface 38 of the central projecting portion 30 in the plug
member 24 but smaller than the maximum outside diameter of its lower end.” Ex.
1006 (Kano), 3:52-60. Moreover, as discussed above, the annular valve moves
away from the blocking element in the same way. In Mutti, separation of the valve
from the blocking element occurs when the “edge of the axial aperture 24 moves
away from the guide 15,” and in Kano, separation occurs when the “the inner
45
circumferential edge portion of the first valve member 26 is elastically bent and
moved away from the outer circumferential surface 38 of the central projecting
portion of the plug member 24.” Ex. 1004 (Mutti), p. 4; Ex. 1006 (Kano), 5:24-27;
Ex. 1002 (Brown), ¶ 86.
One of skill in the art would have been motivated to modify Mutti to add a
barrier element in the same way as in Kano, by adding a short length of wall a
distance away from the inner circumferential edge of the flexible material, to block
the edge from moving beyond a maximum distance. See Ex. 1002 (Brown), ¶ 87.
One of skill in the art would have known at the time that adding a barrier element
to Mutti will prevent overextension of the flexible membrane and prevent the
flexible membrane from damage in the same way that the inside wall of the
container closure avoids overextension of the first valve member. Id. The results
of such a combination would have been predictable because the use of barriers to
prevent overextension of flexible valves were well known to those of skill in the
art. Id.
In addition, Mutti in view of Suffa teaches a barrier blocking the flexible
material from moving beyond a maximum distance after the flexible material
moves when the user sucks through the spout to drink. See Ex. 1002 (Brown), ¶ 88.
As discussed above, Mutti discloses a valve made of flexible material that
moves when a user sucks through the spout of the drinking apparatus. See Section
46
VII.A.3.f, supra. Suffa teaches a container closure cap with a readily deformable
sealing element equipped with slits for dispensing liquids, wherein “[i]n the
dispensing position, [] the sealing element is forced outward against its curvature,
the slits are forced open allowing the product to be dispensed,” and when closed,
“the sealing element is returned to the position [] in which the slits abut directly
against one another.” Ex. 1007 (Suffa), Col. 1, ¶ 2. As shown in FIG. 3, the
deformable sealing element (2) rests against the support element 17 in the closed
state and the “top side of the sealing element 2 abuts against support surface 13 and
additional support surface 14”:
Id., Col. 3, ¶ 7. In this configuration, the “support surface 13 and additional
support surface 14 together form the retaining flange for sealing element 2 (on the
top side).” Id. When the container is in use and the pressure inside the closure cap
is increased, “sealing element 2 is forced outward against its – concave – curvature
and is lifted off of support disk 17.” Id., Col. 4, ¶ 6. In that position, “the concave
shape of sealing element 2 is flattened substantially in the dispensing position, with
a tendency toward leveling off,” however the “sealing element 2 does not curve
47
outward beyond opening 19.” Id. The retaining flange therefore acts as a barrier
to block the sealing element, or flexible material, from moving beyond a maximum
distance when the valve is in the dispensing position. As shown in FIG. 4, the
lower support surface (13) and the additional support surface (14) together form
the retaining flange, or barrier, to prevent the flexible material (2) from extending
beyond a maximum distance when the valve is in the dispensing position:
See Ex. 1002 (Brown), ¶ 89.
Accordingly, Mutti in view of Suffa teaches “a barrier, said barrier blocking
said flexible material from moving beyond a maximum distance after said flexible
material moves when the user sucks through said spout to drink from said spout,”
as recited in the claim.
One of skill in the art would have been motivated to modify the valve
assembly in the feeding bottle of Mutti to include a barrier that blocks the flexible
material from moving beyond a maximum distance when the bottle is in use. The
48
addition of a barrier is taught by similar no-spill containers for holding liquids with
a similar valve construction. See Ex. 1002 (Brown), ¶ 91. Such a combination
amounts to the use of a known technique to improve similar devices in the same
way. See KSR v. Teleflex, 550 U.S. 398, 417 (2007); MPEP § 2143 I(C).
As described above, Suffa teaches a closure cap with a “readily deformable
sealing element which forms a dispensing opening,” which is a similar device to
the feeding bottle taught by Mutti because both devices are designed to be no-spill
containers with a cap and valve to control the discharging of liquid. Ex. 1007
(Suffa), Abstract. Although Suffa relates generally to a squeeze bottle, which the
patent indicates is particularly useful for liquid soaps and shower gels, common
sense and logic dictate that such a device could also be used as a drinking
apparatus. One of skill in the art would have been motivated to modify Mutti to
add a barrier element in the same way as in Suffa, by adding a short length of wall
a distance away from the outer periphery of the flexible material, to block the
flexible material from moving beyond a maximum distance. See Ex. 1002
(Brown), ¶ 92.
One of skill in the art would know that adding a barrier element to Mutti will
prevent overextension of the flexible membrane and prevent the flexible membrane
from damage in the same way that the retaining flange prevents overextension of
the deformable sealing element. See Ex. 1002 (Brown), ¶ 93. The results of such a
49
combination would have been predictable because the use of barriers to prevent
overextension of flexible valves for fluid dispension were well known to those of
skill in the art. Id. Thus, such a modification amounts merely to combining prior
art elements according to known methods to yield predictable results.
4. Independent Claim 8 Is Obvious Over Mutti in view of Kano and Suffa for Largely the Same Reasons
a. Claim 8(a)-8(d), and 8(g)
Claim elements 8(a) through 8(d), and 8(g) are identical to claim elements
1(a) through 1(d), and 1(g), and the thus that claim 1 analysis above applies with
equal force to these claim 8 elements.
b. Claim 8(e): “wherein said valve comprises a closed position in which said opening rests against said blocking element when the user is not drinking from said spout”
Mutti discloses a valve where in the closed position, the opening rests
against the blocking element when the user is not drinking from the spout. See
VII.C.3.e, supra.
c. Claim 8(f): “wherein said valve comprises an open position in which said flexible material moves when the user sucks through said spout to drink from said spout, causing said opening and said blocking element to separate”
Mutti discloses a valve where in the open position, the flexible material
moves when the user sucks through the spout to drink, causing the opening and
blocking element to separate. See VII.C.3.f, supra.
50
d. Claim 8(h): “a post, wherein the relative position of said post and said opening changes when the user sucks through said spout to drink from said spout”
Mutti discloses a post where the relative position of the post and the opening
changes when the user sucks through the spout to drink. As shown in FIG. 5 and 6,
the guide (15) is in the shape of a post. The relative position of the post and the
opening in the membrane changes because “[a]s a result of sucking on the teat 30,
a negative pressure is set up in the said teat through the hole 31,” and the “elastic
membrane 22 undergoes a deformation (as is shown with broken lines in Figs. 1
and 5) in the direction of the arrows F.” See VII.C.4.d supra. The change in
relative position of the opening and post occurs when the “edge of the axial
aperture 24 moves away from the guide 15.” Ex. 1005 (Mutti), 4:20-21; see also
Ex. 1002 (Brown), ¶ 70. Accordingly, Mutti discloses “a post, wherein the relative
position of said post and said opening changes when the user sucks through said
spout to drink from said spout,” as recited in the claim.
e. Claim 8(i): “wherein said post extends into and through said opening in said closed position and said open position of said valve”
Mutti FIG. 5 shows the valve in the open position and FIG. 1 shows the
Mutti valve in the closed position; both show the post, or guide (15) extending into
and through the opening in the membrane (22). Ex. 1004 (Mutti), FIGS. 1, 5. See
Ex. 1002 (Brown), ¶ 73. Accordingly, Mutti discloses “wherein said post extends
51
into and through said opening in said closed position and said open position of said
valve,” as recited in the claim.
5. Dependent Claims
a. Claims 2 and 9: “wherein said flexible material comprises a center area and sidewalls, and wherein said center area is of a greater thickness than said sidewalls”
Mutti in view of Suffa teaches an apparatus as claimed in claim 1 where the
flexible material includes a center area and sidewalls, and where the center area is
of a greater thickness than the sidewalls. See Ex. 1002 (Brown), ¶ 94.
Suffa describes a sealing element 2 that is designed as concave and located
below the opening 19. Ex. 1007 (Suffa), Col. 4, ¶ 2. Located at both ends of the
sealing element “and extending approximately at a right angle alpha to the
dispensing direction of the concave shape, a seating flange 20 is formed on sealing
element 2.” Id. As shown in FIG. 3, the concave portion of the sealing element 2
is proportionately made of a thicker material than the seating flanges (20), or
sidewalls:
52
See Ex. 1002 (Brown), ¶ 95.
While it is true that “drawings in a patent need not illustrate the full scope of
the invention,” Arlington Indus., Inc. v. Bridgeport Fittings, Inc., 632 F.3d 1245,
(Fed. Cir. 2011), and “patent coverage is not necessarily limited to those inventions
that look like the ones in the figures,” MBO Lab., Inc. v. Becton, Dickinson & Co.,
474 F.3d 1324, 1333 (Fed. Cir. 2007), it is significant that each and every figure in
Suffa depicts the concave center portion of the sealing element to be of a greater
thickness than the sidewalls. See CVI/Beta Ventures, Inc. v. Tura LP, 112 F.3d
1146, 1153 (Fed. Cir. 1997) (concluding that the patent drawings highly relevant to
understanding claims); see also Phillips v. AWH Corp., 415 F.3d 1303, 1315 (Fed.
Cir. 2005) (holding that the specification is highly relevant to claim construction
analysis). Indeed, every figure in which the sealing element and sidewalls are
shown support the conclusion that Suffa discloses an apparatus wherein the
53
flexible sealing element includes a center area and sidewalls, where the center area
is of greater thickness than the sidewalls. Id., FIGS. 1, 3-5.
Accordingly, Mutti in view of Suffa teaches “an apparatus as claimed in
claim 1, wherein said flexible material comprises a center area and sidewalls, and
wherein said center area is of a greater thickness than said sidewalls,” as recited in
the claim.
b. Claims 3-4 and 10-11: “wherein said cap further comprises an air vent.”
As discussed above, Mutti discloses a feeding bottle with a cap. As shown
in FIG. 1, Mutti also discloses an air inlet valve that permits air to penetrate
through the orifices at the opposite end of the bottle (188) from the spout. Ex.
1004 (Mutti), 5:7-18; FIG 1. However, although this design was reasonable in
1958, modern manufacturing technology available in 1998 such as injection
molding now allows high volume production of plastic components at a lower cost.
See Ex. 1002 (Brown), ¶ 96. Injection molding now allows for placing both valves
in the cap, which eliminates the need to make a bottle with a hole in the bottom,
and therefore reduces the overall cost of production. Id.
Kano teaches a closure for containers where the “atmospheric air comes into
the container 56 through the pour opening 14 of the outside closure member 4 and
the air-introduction hole 36 of the plug member 24.” Ex. 1006 (Kano), 5:43-45.
The pour opening “is formed in the outside closure member covering the automatic
54
opening-closing mechanism in this container closure.” Id., 1:20-22. As shown in
FIG. 6, the pour opening (14), which also functions as an air vent, is located in the
cap:
See Ex. 1002 (Brown), ¶ 97.
Given that both Mutti and Kano disclose flexible valves for use in
dispensing liquids from a container, and that Mutti discloses an air vent at the end
of the bottle, one of ordinary skill in the art motivated to utilize injection molding
to reduce manufacturing costs would find it an obvious choice to move the air vent
to the cap. See Ex. 1002 (Brown), ¶ 98.
Accordingly, Mutti in view of Kano teaches “an apparatus as claimed in
Air vent
55
claim 1, wherein said cap further comprises an air vent,” as recited in the claim.
Furthermore, Mutti in view of Suffa teaches an apparatus as claimed in
claim 1, where the cap comprises an air vent. According to Suffa, when the valve
or sealing element 2 returns to its closed position and “as a result of the negative
pressure that is then present in closure cap 4, the peripheral region of sealing
element 2 is raised, resulting in air passages 25.” Ex. 1007 (Suffa), Col. 4, ¶ 7. As
shown in FIG. 5, when negative pressure is present in the closure cap (4), air vents
down through the peripheral regions of sealing element (2) in the cap:
See Ex. 1002 (Brown), ¶ 96.
Accordingly, Suffa teaches “an apparatus as claimed in claim 1, wherein
said cap further comprises an air vent,” as recited in the claim.
c. Claims 5 and 12: “wherein said opening is a hole”
The valve membrane in Mutti has “an aperture 24 which, in the absence of
Air Vent
56
negative pressure, surrounds the guide 15 and comes lightly into contact with the
latter as a result of the shoulder 19.” Ex. 1004 (Mutti), FIG. 4; see also Ex. 1002
(Brown), ¶ 100.
Accordingly, Mutti discloses “an apparatus as claimed in claim 1, wherein
said opening is a hole,” as recited in the claim.
d. Claims 6 and 13: “wherein said apparatus further comprises a valve holder, said valve holder being separable from said cap and being dimensioned to fit snugly into said cap.”
Mutti discloses an apparatus as claimed in claim 1 with a valve holder that is
separable from the cap and dimensioned to fit snugly into the cap. In Mutti, the
flexible membrane “is held in position peripherally against the shoulder 20, and is
fixed by a stop ring 23.” Ex. 1004 (Mutti), p. 4. As shown in FIGS. 2-5, the stop
ring (23) functioning as the valve holder is separable from the cap (14) and fits
snugly into the cap:
See Ex. 1002 (Brown), ¶ 55.
Cap (14)
Valve holder (23)
57
Accordingly, Mutti discloses “an apparatus as claimed in claim 1, wherein
said apparatus further comprises a valve holder, said valve holder being separable
from said cap and being dimensioned to fit snugly into said cap,” as recited in the
claim.
e. Claims 7 and 14: “wherein said spout of said cap is soft, and wherein said cap further comprises a hard section for attachment to a cup.”
Mutti discloses an apparatus as claimed in claim 1 where the spout of the
cap is soft and where the cap includes a hard section for attachment to a cup. The
spout or teat (30) in Mutti is “of a conventional, known type.” Ex. 1004 (Mutti), p.
4. Teats used in feeding bottles for infants, as discussed in Mutti, are traditionally
made using a soft and flexible material such as rubber. See Ex. 1002 (Brown), ¶
56.
The cap in Mutti comprises a hard section for attachment to the cup because
“[t]he body 14a of the valve comprises an outer part 14b which is screwed onto the
mouthpiece 11,” where the outer part “is threaded in order to be screwed onto the
bearing surface of an aperture at the base of the feeding bottle.” Ex. 1004 (Mutti),
pp. 5, 7. To the extent that Mutti does not explicitly describe the cap as including a
hard section, it would have been an obvious design choice to make the threaded
portion of the cap hard to ensure a secure connection once it is screwed onto the
mouthpiece of the bottle. See Ex. 1002 (Brown), ¶ 57.
58
Accordingly, Mutti discloses “an apparatus as claimed in claim 1, wherein
said spout of said cap is soft, and wherein said cap further comprises a hard section
for attachment to a cup,” as recited in the claim.
* * *
In sum, in light of the Mutti, Kano, and Suffa disclosures explained above,
as understood by one of skill in the art at the time of the alleged inventions, claims
1-14 of the ’841 patent would have been obvious and are thus unpatentable.
VIII. CONCLUSION
The cited prior art reference(s) identified in this Petition contain pertinent
technological teachings (both cited and uncited), either explicitly or inherently
disclosed, which were not previously considered in the manner presented herein, or
relied upon on the record during original examination of the ’841 patent. In sum,
these references provide new, non-cumulative technological teachings which
indicate a reasonable likelihood of success as to Petitioner’s assertion that the
Challenged Claims of the ’841 patent are not patentable pursuant to the grounds
presented in this Petition. Accordingly, Petitioner respectfully requests institution
of an IPR for those claims of the ’841 patent for each of the grounds presented
herein.
59
Respectfully submitted,
Dated: March 31, 2015 /s/ John S. Goetz John S. Goetz, Reg. No. 54,867
Jane Du, Reg. No. 65,844
Fish & Richardson P.C. P.O. Box 1022 Minneapolis, MN 55440-1022 T: 202-783-5070 F: 202-783-2331 Attorneys for Petitioner
60
CERTIFICATE OF SERVICE
Pursuant to 37 CFR §§ 42.6(e)(4)(i) et seq. and 42.105(b), the undersigned
certifies that on March 31, 2015, a complete and entire copy of this Petition for
Inter Partes Review and all supporting exhibits were provided by Federal Express,
cost prepaid, to the Patent Owner by serving the correspondence address of record
as follows:
Goldberg Cohen LLP 1350 Avenue of the Americas, 3rd Floor
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/Christine Rogers/ Christine Rogers Fish & Richardson P.C. 3200 RBC Plaza 60 South Sixth Street Minneapolis, MN 55402 (650) 839-5092