AU612882B2

AU612882B2 – Self-sealing valve for non-latex balloon
– Google Patents

AU612882B2 – Self-sealing valve for non-latex balloon
– Google Patents
Self-sealing valve for non-latex balloon

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Publication number
AU612882B2

AU612882B2
AU39710/89A
AU3971089A
AU612882B2
AU 612882 B2
AU612882 B2
AU 612882B2
AU 39710/89 A
AU39710/89 A
AU 39710/89A
AU 3971089 A
AU3971089 A
AU 3971089A
AU 612882 B2
AU612882 B2
AU 612882B2
Authority
AU
Australia
Prior art keywords
valve
balloon
sheet
self
sealing
Prior art date
1988-08-17
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Expired

Application number
AU39710/89A
Other versions

AU612882C
(en

AU3971089A
(en

Inventor
Garry Kieves
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Anagram International Inc

Original Assignee
Anagram International Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1988-08-17
Filing date
1989-06-14
Publication date
1991-07-18
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«Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.

1989-06-14
Application filed by Anagram International Inc
filed
Critical
Anagram International Inc

1990-03-23
Publication of AU3971089A
publication
Critical
patent/AU3971089A/en

1991-07-18
Publication of AU612882B2
publication
Critical
patent/AU612882B2/en

1994-12-22
Assigned to ANAGRAM INTERNATIONAL, INC.
reassignment
ANAGRAM INTERNATIONAL, INC.
Alteration of Name(s) in Register under S187
Assignors: KIEVES, GARRY

1995-08-03
Application granted
granted
Critical

1995-08-03
Publication of AU612882C
publication
Critical
patent/AU612882C/en

2009-06-14
Anticipated expiration
legal-status
Critical

Status
Expired
legal-status
Critical
Current

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Classifications

A—HUMAN NECESSITIES

A63—SPORTS; GAMES; AMUSEMENTS

A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS

A63H27/00—Toy aircraft; Other flying toys

A63H27/10—Balloons

F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL

F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING

F16K15/00—Check valves

F16K15/14—Check valves with flexible valve members

F16K15/144—Check valves with flexible valve members the closure elements being fixed along all or a part of their periphery

F16K15/147—Check valves with flexible valve members the closure elements being fixed along all or a part of their periphery the closure elements having specially formed slits or being of an elongated easily collapsible form

A—HUMAN NECESSITIES

A63—SPORTS; GAMES; AMUSEMENTS

A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS

A63H27/00—Toy aircraft; Other flying toys

A63H27/10—Balloons

A63H2027/1025—Fabrication methods or special materials therefor

A—HUMAN NECESSITIES

A63—SPORTS; GAMES; AMUSEMENTS

A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS

A63H27/00—Toy aircraft; Other flying toys

A63H27/10—Balloons

A63H2027/1041—Holding or sealing means, e.g. handling rods, clamps or plugs

A—HUMAN NECESSITIES

A63—SPORTS; GAMES; AMUSEMENTS

A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS

A63H27/00—Toy aircraft; Other flying toys

A63H27/10—Balloons

A63H2027/1083—Valves or nozzles

Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC

Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION

Y10T137/00—Fluid handling

Y10T137/7722—Line condition change responsive valves

Y10T137/7837—Direct response valves [i.e., check valve type]

Y10T137/7879—Resilient material valve

Y10T137/788—Having expansible port

Y10T137/7882—Having exit lip

Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC

Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION

Y10T137/00—Fluid handling

Y10T137/7722—Line condition change responsive valves

Y10T137/7837—Direct response valves [i.e., check valve type]

Y10T137/7879—Resilient material valve

Y10T137/788—Having expansible port

Y10T137/7882—Having exit lip

Y10T137/7886—Internally extending mount

Abstract

The present invention relates to a self-sealing flexible plastic valve (10) for a non-latex balloon (12). The valve includes a positioning tab and a bonding barrier (76) at the inlet (64) end to facilitate automated insertion of the valve into the balloon.

Description

I
OPI DATE 23/03/90 APPLN- ID 39710 89
I
PCT AOJP DATE 26/04/90 PCT NUMBER PCT/US89/02589 INTERNATIONAL APPLICATION f 6
SH
1 D D H TE COOPERAllUN IRIA Y (PCT) (51) International Patent Classification 4 International Publication Number: WO 90/01976 A63H 27/10, F6K 15/20 Al (43) International Publication Date: 8 March 1990 (08.03.90) (21) International Application Number: PCT/US89/02589 Published With international search report.
(22) International Filing Date: 14 June 1989 (14.06.89) With amended claims.
Priority data: 233,156 17 August 1988 (17.08.88) US (71X72) Applicant and Inventor: KIEVES, Carry [US/US]; 3517 West 38th Street, Minneapolis, MN 55410 (US).
(74) Agent: BERNTSEN, Denis, Allegretti Witcoff, Ltd., South Wacker Drive, Chicago, IL 60606 (US).
(81) Designated States: AU, DK, JP, KR.
(54)Title: SELF-SEALING VALVE FOR NON-LATEX BALLOON (57) Abstract A self-sealing flexible plastic valve (10) for a non-latex balloon The valve (10) is made from two flexible plastic sheets (46, 48), secured together to define a valve inlet a valve outlet and a valve passageway The inlet end of one sheet extends beyond the other to provide a positioning tab (62) to be se cured to a balloon sheet such that the valve inlet is within the balloon stem. A bonding barrier (76) at the inlet end avoids sealing during fabrication of the balloon.
76– 1 i i i -P_ I ‘WO 90/01976 PCr/US89/02589 «SELF-SEALING VALVE FOR NN-AIEX BALCI’ BACKGROUND OF THE INVENTION The present invention relates generally a selfsealing, non-latex balloon and a method for manufacturing such balloons, and more specifically to a self-sealing valve mechanism for a non-latex balloon.
As used herein, the term «balloon» refers to any inflatable toy having a body and an inflation stem.
The popularity of non-latex balloons has grown tremendously over the past five years. This type of balloon includes two flexible plastic sheets which are heat-sealed together in many different configurations a circle or heart shape). One or both of the sheets may be decorated or metallized to provide an aesthetically-pleasing balloon.
Since non-latex balloons are highly imrrmeable, sealing of the balloon stem is critical to extended inflated life. A well-sealed non-latex balloon may remain virtually fully inflated for several weeks even when the inflation fluid is helium.
Until recently, non-latex balloons were filled with air or helium to the desired pressure using a pump mechanism and then sealed by a tightly-tied string, (ii) a clip or cup assembly adapted to crimp the balloon stem, or (iii) heat sealing. The disadvantages of these three systems are self-evident.
The string provides’only a marginal seal and can be difficult to apply in the field. Refilling of the balloon is also cumbersome. The clip and cup assemblies add a significant incremental cost and cannot be effectively utilized with helium-filled balloons. Furthermore the balloon stem is often damaged during an attempt to refill the balloon. Heat sealing provides a virtually permanent seal, but completely eliminates the ability to refill, the balloon. It also requires a heat-sealing mechanism and an appropriate power supply. In addition, proper use 2 of the presently available heat sealing mechanisms requires training and practice.
Recently the non-latex balloon industry has sought to develop a self-sealing balloon and valve mechanism. The objectives have always been clear: reliability, minimal cost, ease of valve fabrication, and simplicity of incorporation into the balloon production system. To-date, several valves formed from two flexible plastic sheets have been made, but despite S»o 10 the efforts of many, each suffers from one or more serious disadvantages. These disadvantages include unacceptably high failure rates, costly fabrication procedures, and difficulty incorporating the valve insertion step into the balloon-manufacturing process.
In addition, all presently available selfsealing valves extend beyond the balloon stem with the two plastic valve sheets being coterminous. Several problems therefore exist.
First, the valve itself is exposed and subject 20 to damage, e.g. by puncture through engagement with the inflation mechanism. Second, the size of the valve is less than that of the conventional balloon stem so as to require an adaptor for conventional pump mechanisms. Third, the valve sheets are difficult to fully separate such that interference with the inflation process is often experienced.
Three examples of. presently available selfsealing valves are shown herein.
-MP
1r 1′ WO 90/01976 PCT/US89/02589 -3- SUIiMARY OF THE INVENTION The present invention relates to a self-sealing valve for use in conjunction with a non-latex balloon and extends to a balloon incorporating such a selfsealing valve and a method of manufacture. The valve itself includes two flexible plastic valve sheets secured together to define a valve inlet, valve outlet and valve passageway. One of the valve sheets extends beyond the other at the valve inlet to provide a positioning tab, which substantially facilitates automation of the valve insertion process.
The self-sealing valve fits entirely within the balloon, partially within the stem and partially within the body thereof. During assembly of the balloon, the positioning tab and the valve inlet, the valve portion within the stem, are bonded or fused to the interior surfaces of the balloon sheets. This Ssubstantially avoids potential valve damage and potential interference during inflation since there are no free ends or edges of the self-sealing valve exposed i to the inflation mechanism.
j The two flexible plastic valve sheets also FI define, in the region of the valve inlet, a bonding barrier. This avoids the complete or partial closing of the valve inlet during assembly of the balloon or, more particularly, as the balloon sheets are bonded j together and to the self-sealing valve.
It is thus an object of the present invention to provide a self-sealing, non-latex balloon. Another object is to provide a non-latex balloon with a reliable self-sealing valve mechanism. It is also an object to provide a self-sealing valve for a non-latex balloon which may be readily incorporated into the balloon assembly process. Still another object of the present invention is an inexpensive, mass-producible, self-sealing balloon valve. An additional object is a
I
«r I I I I- WO 90/01976 PCT/US89/02589 4 self-sealing, non-latex balloon which may be filled by conventional mechanisms without use of a special adaptor.
It is yet another object of the present invention to provide a method for fabricating a selfsealing, non-latex balloon. A further object is to provide a method for fabricating a non-latex balloon having a self-sealing valve wherein the stem portion of the valve is bonded or fused such that there are no free ends or edges. It is also an object to provide a non-latex, self-sealing balloon wherein the stem portion of the valve is not exposed and does not interfere with the balloon-filling process.
These and other features, objects and advantages of the present invention are described or implicit in the following detailed description.
I 5 BRIEF DESCRIPTION OF THE DRAWING A preferred embodiment of the present invention is described herein with reference to the drawing wherein: FIGURE 1 is a perspective view of a metalliccoated, non-latex balloon including a preferred embodiment of the self-sealing valve, illustrating the 0′ extent of bonding with one balloon sheet peeled away solely for illustrative purposes; FIGURE 2 is an enlarged top view of the valve of FIGURE 1; FIGURE 3 is an enlarged perspective view of the S» bonded sheets of the valve shown in FIGURES 1 and 2; FIGURE 4 is a schematic view of an apparatus for fabricating the non-latex balloon of FIGURE 1; FIGURE 5 is a greatly enlarged cross-sectional .view of one balloon sheet shown in FIGURE 1; FIGURES 6 and 6A illustrate one known selfsealing valve in exploded perspective and top views, 20 respectively; FIGURES 7 and 7A illustrate a second known selfsealing valve in exploded perspective and top views, respectively; and FIGURES 8 and 8A illustrate a third known selfsealing valve in exploded perspective and top views, respectively.
Aj
N
k 1 II: ,WO 90/01976 PCT/US89/02589 6 DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT A preferred embodiment of the present invention is shown as a self-sealing valve 10 for a metalliccoated, non-latex balloon 12. As is well known in the art, the balloon 12 includes a body 14 and a stem 16, defined by two flexible plastic balloon sheets 18, of a metallic-coated, heat-sealable material 22. As best shown in FIGURE 5, each balloon sheet 18, includes a thin metallic coating 24 applied to a plastic sheet’26, which includes a layer of nylon 28 and a layer of polyethylene 30. The polyethylene layers 30 are sealed or fused together by application of heat along a substantially peripheral heat-seal line 32.
The body 14 of the balloon 12 is inflatable with an inflation fluid, such as air or helium, through the stem 16. For purposes hereof, the stem 16 extends from a boundary 34, shown as a dashed line in FIGURE 1 and defined by a relatively smooth, continuous extension of the heat-seal line 32 in the region of the stem 16.
With particular reference to FIGURE 4, the heatsealable material 22 is provided in roll form with a width three feet. Two rolls 36, 38 are utilized to produce the balloon 12 or more particularly the two balloon sheets 18, 20. After printing, the two rolls 36, 38 are aligned, registered and ultimately brought together by a series of rollers, generally designated The balloon 12 is formed by a heat-sealing dye 42 and a cutting dye 44, as is well known in the art.
As best shown in FIGURES 2 and 3, the valve includes first and second flexible plastic valve sheets 46, 48, sealed or fused along two longitudinal edge lines 50, 52. Preferably the first and second sheets 46, 48 are low density polyethylene (for example, as producible from the resin ‘ELVAX 3120″ marketed by to -7 DuPont E I De Nemours Co). The first and second sheets 46, 48 have a thickness in the range of one to three mils. In this preferred embodiment, the first sheet 46 is one and one-half mils., and the second sheet 48 is two mils.
The first sheet 46 is substantially rectangular and has a first inlet end 54 and a first outlet end 56.
The second sheet 48 is also substantially rectangular, having a second inlet end 58 and a second outlet end 60. As shown, the second sheet 48 is preferably longer than the first sheet 46. More importantly, the second inlet end 58 extends beyond the first inlet end 54 in the assembled valve state, as best shown in FIGURE 2, so as to define a positioning tab 62.
In the assembled valve state, the first and second valve sheets 46, 48 cooperate to define a valve inlet 64, valve outlet 66 and valve passageway 68 extending therebetween. The valve passageway 68 preferably includes an inlet section 70 extending from the valve inlet 64, an outlet section 72 extending from the valve outlet 66, and an interconnecting offset section 74. As shown, the outlet section 72 has a width corresponding to the width of the valve outlet 66, and the inlet section 70 has greater width corresponding to that of the valve inlet 64. The offset section 74 provides a relatively smooth transition between the inlet and outlet sections 70, 72 and defines an offset angle, designated on FIGURE 2, in the range of fifteen (15) to forty (40) degrees.
The offset angle is preferably twenty (20) degrees.
The valve 10 also includes barrier means, generally designated 76. The barrier means 76 provides a bonding barrier at the valve inlet 64, such that the inlet 64 is not sealed or closed during the balloon assembly process.
In this preferred embodiment, the barrier means n v
MEO
WO 90/01976 PCT!US89/02589 -8- 76 is a coating 78 of heat-resistant nitrocellulose ink, applied to the second sheet 48. The ink coating 78 extends across the width of the second sheet 48 between the two longitudinal edge lines 50, 52. The longitudinal extent of the ink coating 78 must be sufficient, based upon valve and balloon assembly tolerances, to ensure that the first inlet end 54 of the first valve sheet 46 overlaps the ink coating 78.
As shown in FIGURE 1, the valve 10 lies entirely within the balloon 12. That is, a first portion 80 of the valve 10 extends into the body 14 and is substantially free or floating. This floating portion facilitates sealing under pressure in that the floating portion 80 often partially folds over to crease the valve passageway 68.
A second portion 82 of the valve 10 extends beyond the boundary 34 and partially into the stem 16.
This second portion 82 includes the positioning tab 62 and valve inlet 64 and is preferably completely bonded to the balloon stem 16 in the final assembled balloon state. In this preferred embodimew., heat sealing integrally fuses the second portion 82 of the valve to the balloon sheets 18, Fusion thereof substantially facilitates inflation of the balloon 12 by conventional mechanisms.
First, fusion of the positioning tab 62 and valve inlet 64 eliminates any free end or edge of the valve within the balloon stem 16. This substantially avoids valve interference with the inflation process.
Second, the flexible plastic sheets 46, 48 of the valve 10 are not directly exposed to the inflation equipment and puncture thereof is substantially avoided. The fused positioning tab 62 and valve inlet 64 also thicken and reinforce the flexible balloon sheets 18, 20 in the region of the boundary 34, offering further protection against puncture.
C I I WO 90/01976 PP/US89/02589 9 Third, the fused positioning tab 62 and valve inlet 64, in conjunction with the floating portion cooperate to «snap open» the valve 3.0 under initial inflation pressure. The valve inlet 64 opens as the inflation mechanism is inserted into the balloon stem 16, and the inflation fluid readily passes through the valve passageway 68 emerging from the valve outlet 66 into the balloon body 14.
Finally, the valve 10 does not reduce in any way the size of the balloon stem 16. As such, no adaptor is needed for the conventional inflation equipment.
During assembly of the balloon 12, the valve is secured to an interior surface 84 of the polyethylene layer 30 of the balloon sheet 20. More particularly, the valve 10 is properly placed upon the interior surface 84, and the positioning tab 62 is preferably completely fused thereto by a second heat sealing dye 86. The first and second balloon sheets 18, 20 are then heat-sealed together and to the valve 10. This heat seal extends about the entire periphery of the body 14 and along the edges of the stem 16. It also extends along the boundary 34 such that the balloon sheets 18, 20 are sealingly bonded to the first and second valve sheets 46, 48, respectively, integrally fusing the valve inlet 64 to the balloon stem 16 without closure thereof.
For a conventional eighteen (18) inch non-latex balloon 12 to be filled with helium to a pressure of approximately three quarters of a pound per square inch, the valve 10 is preferably seven (7) inches in total length and one inch in total width, with a one-half inch positioning tab 62. The widths of the inlet and outlet sections 70, 72 are three-quarters and seven-sixteenths (7/16) inch, respectively. Preferably the ink coating 80 extends one inch.
10 One presently available self-sealing valve, generally designated 100, is shown in FIGURES 6 and 6A.
The valve 100 includes two heat-sealed sheets 102, 104 and two plastic V-shaped inserts 106, 108, respectively. Each insert 106, 108 is a single plastic sheet folded over to provide the V-shape and positionally maintained by the side heat seals 110, 112. The sheets 102, 104 are coterminous at both ends, neither sheet 102 nor 104 extends above the other 10 at either end.
At an inlet end 114, the sheet 104 is coated.
4 This avoids sealing of the inlet end 114 during Sgo placement of the valve 100 into a balloon (not shown) A second available valve 116 is shown in FIGURES .4 7 and 7A. The valve 116, including flexible plastic sheets 118, 120, defines an irregular passageway 122.
The sheets 118, 120 are coterminous at both ends, and the sheet 120 is coated in an inlet region 124.
A third valve 126 is shown in FIGURES 8 and 8A.
20 This is a variation of the valve shown and described in 9* United States Letters Patent No. 4,672,532.
The valve 126 includes two heat-sealed plastic sheets 128, 130, which are coternminous at both ends.
The sheet 130 is coated at an inlet end 132 to avoid 25 closing the valve 126 during incorporation into a balloon (not shown) The valve 126 includes a V-shape insert 134 at an outlet end 136. The insert 134 is heat sealed along an intermediate strip 138 so as to provide two outlet ports 140, 142, respectively.
A preferred embodiment of the present invention has been described herein. It is to be understood that modifications and changes can be made without departing from the true scope and spirit of the present invention, which are defined by the following claims to be interpreted in view of the foregoing description.
,T
~z j

Claims (17)

1. A self-sealing valve, for use with a non-latex balloon having a stem and a body, comprising, in combination: a first flexible plastic valve sheet or sheet portion havb’- i a first inlet end and a first outlet end; a second flexible plastic valve sheet or sheet portion having a second inlet end and a second outlet end; said first and second flexible plastic valve sheets or sheet portions being of generally rectangular shape and being secured together or being formed integral with each other and thereby defining a valve inlet, a valve outlet and a valve passage therebetween; and barrier means for providing a bonding barrier between said first and second flexible plastic valve sheets at said valve inlet; said second inlet end of said second flexible plastic valve sheet i extending beyond said first inlet end of said first flexible plastic valve sheet to provide a positioning tab to be secured within said stem of said non-latex balloon; said self-sealing valve extending from said stem into said body and lying entirely within said non-latex balloon when said self-sealing valve is secured within said stem.

2. A self-sealing valve as claimed in claim 1 wherein said first and second flexible plastic valve sheets further define a valve passageway between said valve inlet and said valve outlet, said valve passageway including an offset section.

3. A self-sealing valve as claimed in claim 1 wherein said barrier means is a coating of heat-resistant ink. I o o WO 90/01976 PCT/US89/02589

4. A self-sealing valve as claimed in claim 3 wherein said coating of heat-resistant ink is applied to said second flexible plastic valve sheet.

A self-sealing, non-latex balloon having a body and a stem comprising, in combination: a first balloon sheet having an interior surface; a second balloon sheet bonded to said first balloon sheet so as to define said body and said stem; and a self-sealing valve having a first floating portion within said body and a second portion bonded to said first and second balloon sheets within said stem, said self-sealing valve including a firsti flexible plastic valve sheet bonded to a secondAflexible plastic Q VQ\\e- p~ss- Re_ .xa valve sheet so as to provide a positioning tab and a valve inlet defining said second portion, said positioning tab being initially bonded to said interior surface of said first balloon sheet at a predetermined position and orientation with respect thereto; said valve inlet being bonded to said first and second balloon sheets within said stem; said self-sealing valve further including barrier means for providing a bonding barrier between said first and second flexible plastic valve sheets at said valve inlet.

6. A self-sealing, non-latex balloon as claimed in claim 5 wherein said self-sealing valve includes a valve passageway having an inlet section, an outlet section, and an offset section. V L T~ C~ II I WO 90/01976 PCT/US89/02589 /3

7. A self-sealing, non-latex balloon as claimed in claim 5 wherein said barrier means is a coating of heat-resistant ink.

8. A self-sealing, non-latex balloon as claimed in claim 7 wherein said coating of heat- resistant ink is applied to said second flexible plastic valve sheet.

9. A self-sealing, non-latex balloon as claimed in claim 5 wherein said second portion of said self-sealing valve is fused to said stem by heat sealing.

A method for producing a self-sealing, non- latex balloon, having a body and a stem defined by a first balloon sheet bonded to a second balloon sheet, comprising the steps of: bonding a first flexible plastic valve sheet to a second flexible plastic valve sheet so as to provide CL pcssiC lr -I a valve having a valve inlet, a valve outlet, and a positioning tab; treating at least one of said first and second flexible plastic valve sheets to provide barrier means for providing a bonding barrier between said first and second flexible plastic valve sheets at said valve inlet; bonding said positioning tab to said first jalloon sheet ‘at a predetermined position such that said valve has a predetermined orientation with respect to said first balloon sheet; registering said second balloon sheet with respect to said first balloon sheet; and i WO 90/01976 Pcr/us8/02589 /4 bonding said first and second balloon sheets together and to said valve such that said valve includes a first floating portion within said body and a second portion bonded to said balloon stem, said second portion including said positioning tab and said valve inlet.

11. A method as claimed in claim 10 further including the step of forming a valve passageway between said valve inlet and said valve outlet, said valve passageway having an offset section.

12. A method as claimed in claim 10 wherein the step of treating said first and second flexible plastic valve sheet includes coating thereof with a heat- resistant ink.

13. A method as claimed in claim 10 wherein said steps of bonding include applying heat to form a fused heat seal.

14. A self-sealing, non-latex balloon having a body and a stem comprising, in combination: a first balloon sheet having an interior surface; a second balloon sheet bonded to said first balloon sheet so as to define said body and said stem; and a self-sealing valve having a first floating portion within said body and a second portion heat- fused to said first and second balloon sheets within said stem, said self-sealing valve including a first flexible plastic valve sheet, having a thickness in the range of one to two mil, bonded to a second Ir ea e ec_-c\ 15 -flexible plastic valve sheet, having a thickness in the range of one 0. va\lVe Pass cge,y to two mils, so as to providega positioning tab and a valve inlet defining said second portion, said positioning tab being initially bonded to said interior surface of said first balloon sheet at a predetermined position and a predetermined orientation with respect thereto; said valve inlet being bonded to said first and second balloon sheets within said stem; said self-sealing valve further including a bonding barrier of heat-resistant ink applied to at least one of said first and second flexible plastic valve sheets at said valve inlet; said self-sealing valve further defining a valve passageway having an inlet section, an outlet section and an offset section, such that said inlet section has a width greater than said outlet section.

15. A self sealing valve substantially as hereinbefore described with reference to Figs. I to 5 of the illustrations.

16. A self-sealing, non-latex balloon substantially as hereinbefore S described with reference to Figs. 1 to 5 of the illustrations.

17. A method for producing a self-sealing, non-latex balloon substantially as hereinbefore described with reference to Figs. 1 to 5 of r- the illustrations. DATED this FIFTEENTH day of JUNE 1990 G. arry Kieves S Patent Attorneys for the Applicant S SPRUSON FERGUSON S 1 46

AU39710/89A
1988-08-17
1989-06-14
Self-sealing valve for non-latex balloon

Expired

AU612882C
(en)

Applications Claiming Priority (2)

Application Number
Priority Date
Filing Date
Title

US07/233,156

US4917646A
(en)

1988-08-17
1988-08-17
Self-sealing valve, a self-sealing, non-latex balloon, and a method for producing such a balloon

US233156

1994-04-25

Publications (3)

Publication Number
Publication Date

AU3971089A

AU3971089A
(en)

1990-03-23

AU612882B2
true

AU612882B2
(en)

1991-07-18

AU612882C

AU612882C
(en)

1995-08-03

Family
ID=
Citations (2)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

US3332415A
(en)

*

1964-04-30
1967-07-25

Kendall & Co

Self-sealing pressure valve for inflatable splints and other devices

US4674532A
(en)

*

1984-10-30
1987-06-23

Toshimichi Koyanagi

Check valve

Patent Citations (2)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

US3332415A
(en)

*

1964-04-30
1967-07-25
Kendall & Co
Self-sealing pressure valve for inflatable splints and other devices

US4674532A
(en)

*

1984-10-30
1987-06-23
Toshimichi Koyanagi
Check valve

Also Published As

Publication number
Publication date

EP0356013B1
(en)

1994-09-07

PT91457A
(en)

1990-03-08

DE68918027T2
(en)

1995-03-09

US4917646A
(en)

1990-04-17

ES2060773T3
(en)

1994-12-01

MX169122B
(en)

1993-06-22

JPH03502058A
(en)

1991-05-16

WO1990001976A1
(en)

1990-03-08

EP0356013A3
(en)

1990-12-19

ATE111197T1
(en)

1994-09-15

PT91457B
(en)

1995-07-06

CA1301590C
(en)

1992-05-26

EP0356013A2
(en)

1990-02-28

AU3971089A
(en)

1990-03-23

DE68918027D1
(en)

1994-10-13

JP2667030B2
(en)

1997-10-22

KR940009442B1
(en)

1994-10-13

KR900701357A
(en)

1990-12-01

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