US1748682A - Automatic valve for closures - Google Patents

Description

Feb. 25, 1930. A, E MITH 1,748,682

AUTOMATIC VALVE FOR CLOSURES Filed May 28, 1928 2 Sheets-Sheet l 25 50 I5 20 m 7Z9 26 22 20 INVENTOR.

flRTHZ/f? E SMITH A TTORNEYI Feb. 25, 1930. $M|TH 1,748,682

AUTOMATIC VALVE FOR cLosuREs' Filed May 28, 1928' 2 Sheets-Sheet 2 E5515 FFlE Pi g. E. E. JR. E. 4 109 F23 9 "lllllllfl las M2 ZZ/IRTHUR E. SMITH 92 BY 90 ATTORNEY a Patented Feb. 25, 1930 mum-on E. SMITH. or LOS ANqELEs, cALIronmA AUTOMATIG VALVE FOR CLOSIl'BES Application filed May 28, 1928. Serial no. 281,131.

This invention relates to improvements in closures for receptacles.

' The general object of this invention is to provide an improved closure for a'collapsi ble tube wherein the closure includes an automatic valve. I Another object of the invention is to provide a rotatable collapsible tube cap having an automatlc discharge valve therein.

7 A further object of the invention is to provide novel means for retaining an automatic valve on the closure cap.

Another object of the invention is to provide a closure including an automatic dis- 1 charge valve, the perimeter of.which is less than the perimeter of the discharge opening in the tube. Y

Other objects and the advantages ofothis invention will be apparent from the follow-' 29 ing description taken in connection with the accompanying drawings wherein:- Fig. 1 is an elevation of a collapsibletube embodying the features of my invention.

Fig. 2 is a top plan view of the tubeof Fig. 1, showing the cap turned to wposition wherein the tube contents may be discharged.

Fig. 3 is a view similar to Fig. 2 showing the cap turned to a closed position.

Fig. 4 is an enlargedsectiontaken online 44 of Fig. 2, showing the valve opened by pressure of the tube contents.

Fig. 5 is a section taken on line 5-5 of Fig. 3.

Fig. 6 is a section taken on line 6-6 of Fig. 2, showing the cap before. it is fastened to the tube neck. 4 1 i Fig. 7 is a section taken on line 7-7 of Fig. 6. I

Fig. 8 is a section-taken on line 8-8 of Fig. 9 is a detail side elevation of the automati'c valve shown in Figs. 1 to 8 inclusive.

Fig. 10 is a top plan view of the valve of Fig.9.

.Fig. modified form showing the cap turned to. a position wherein the tube contents may be discharged. I

Fig. 12 is a view similar to Fig. 2 showing the cap turned to a closed position.

- automatic valve shown in Figs. 15 in- 11 is a top plan View of a slightly Fig. 13 isan enlarged section taken on line 13l3 of Fig. 11 showing the valve opened by pressure of the tube contents. Fig. 14 is a section-taken on line 14-14 of Fig. 12.

Fig.15 is a section taken on line 1515 of Fig 13. j Fig. 16 is a detail top plan view of the elusive.

Fig. 17 is a top plan view of another slightly modified form showing the cap turned to an open position.

Fig. 18 is a view similar to Fig. 17 showing the cap turned to a closed position.

Fig. 19 is an enlarged section taken online 19 19 or Fig. 17.

Fig. 20 is a section taken on line 2020 of Fig. 19.

Fig. -21-is a detail top plan view of the automatic valve shown in-Figs. 17 to 20 inclusive.

Fig. 22 is a top plan view ofstill another modification showing the cap turned to an open position. v -7 Fig. 23 isan enlarged section taken on line 23-23 of Fig. 22. I

Fig. 24 is a section taken on line 24 -24 of Fig. 23, and p j Fig. 25 is a detail top plan view of the auto-' 80 matic valve shown-in Figs. 22 to 24'inclu sive.

- Referring to the drawings by reference characters I have shown my invention in connection with a collapsible metallic tube in- 8 dicated vgenerally at 10. In the following description I will describe my invention as used in connection with tubes of this character which are particularly adapted for the purpose of dispensing material such as dental creams and pastes, althoughit will be understood that the invention is not limited to this particular use, but may be used for dispensing other plastic or semi-viscous substances which flow more or less freely.

As shown in the accompanying drawings, thecollapsible tube 10 is provided ."with aconical end portion 12 having acylindrical neck 13 integral therewith. Theneck 13 includes acylindrical recess 14 which commu- 00 24. The recesses nicates at one end with the interior of thetube 10 and is provided at the other end with atransverse partition 15 having an eccentrically locatedaperture 16 therethrough. Adjacent the juncture ,of theconical end portion 12 and the neck 13 I provide anexternal groove 17.

A metallic cap indicated generally at 20 is adapted to be positioned on theneck 13 and is shown as including abody portion 21, a top 22' having an eccentrically located aperture recess 23 in thebody 21 and askirt portion 16 and 23 are preferably similar in shape, being semi-circular. Thecap 20 includes an automatic valve indicated generally at 25 which is preferably made of a good grade of rubber vulcanized to the desired elasticity.

As clearly shown in Figs. 9 and 10, theautomatic valve 25 includes asemi-cylindrical body portion 26 having a centrally located substantiallyelliptical neck 27 thereon on which is provided an enlarged substantiallyelliptical head 28 which includes an overhanging peripheral flange -29.- A recess 'is provided in thebody portion 26 and theneck 27 and aslit 31 in the head communicates with therecess 30.

Theautomatic valve 25. is adapted to be positioned in therecess 23 of thecap 20 .so that thevalve neck 27 is positioned in the cap aperture 23'and thevalve head 28 protrudes beyond thetop 21 of the cap while thevalve head flange 29 overlaps thecap aperture 23 as clearly shown in the drawings.

In the form nowbeing described the area of thevalve body 26 is preferably less than the area of thetube flange aperture 16 as shown in Fig. 8, and the area of the valve neck 27' is preferably less than the area of thecap aperture 23 as shown in Fig. 7. The distance between the top of thevalve body 26 and the underside of the length of the neck 27) is preferably less than the thickness of the side walls of thecap aperture 23. Thus when thevalve 25 is positioned in thecap 20 the side wall of the cap aperture 23distorts thevalve head 28 and exerts a pressure thereon which tends to retain thevalve discharge slit 31 closed. The amount of pressure exerted on the valve head to retain the slit closed may be regulated by varying the relative breadth of the 'cap aperture and the length of theneck 27.

Either before or after thevalve 25 has been positioned in thecap 20 the latter is placedon theneck 13 of the tube and the ends of'the cap skirt 24.,are spun into the neck groove17 as shown inFigs. 4 and 5.

When thecap is operatively positioned on the tube the recess 30of thevalve 25 .is adapted to register with theaperture 16 of the1gleck partition 15 as shown in Figs. 4 an 23 therein which communicates with av the head flange29 (i. e.

When the cap is in th position it is only necessary to apply pressure to thetube 10 to force the contents thereof out through thevalve slit 31 which opens as clearly shown in Fig. 4. The differencein the circumference of thevalve neck 27 and thecap aperture 23 allows the valve neck to expand when the tube contents is being discharged. After the pressure on the tube has been removed the elasticity of the valve forces theslit 31 closed again.

When thecap 20 is turned to the position shown in Figs. 3 and 5 so that the valve re'-. cess 30 does not register with thetube aperture 16, pressure on the tube will not force the tube contents out.

Anindicator 34 may be provided on thecap 20 which is adapted to coact with indicia matter on-the tube such as indicated at 35 to show the open and closed positions of the valve.

In Figs. 11 to 16 inclusive I have shown acollapsible tube 40 havingametallic cap 41 thereon which includes a modified form of automatic discharge valve; Thetube 40 is provided with aconical end portion 42 having acylindrical neck 43 integral therewith. Theneck 42 includes acylindrical recess 44 which communicates at one end with theinterior of'the tube 40 and is provided at the other end with atransverse partition 45 having an eccentrically locatedsemi-circular aperture 46 therethrough (see Fig. 15). I

Adjacent the juncture oftheconical end portion 42 and the neck 43 I provide an ex--ternal groove 47. Thecap 41 is adapted to be positioned on the neck 43and is shown as including abody portion 50, a top 52 having an eccentrically located substantially elliptical aperture 53'therein which communicates with asemi-circular recess 53 in thebody 50, and askirt portion 54. Thecap 41 includes an automatic valve indicated generally at 55 which is preferably made of a good grade of rubber .vulcanized to the desired elasticity.

As shown theautomatic valve 55 includes asemi-circular body portion 56 having an eccentrically located substantiallyelliptical neck 57 thereon. Arecess 60 is provided in thebody portion 56 and theneck 57 and a slit 61in the head communicates withth recess 60.

Theautomatic valve 55 is adapted to be positioned in therecess 53 of thecap 41 so that thevalve neck 57 is positioned, in thecap aperture 53. The length of thevalve neck 57 is preferably less than the length of thecap aperture 53 as shown in Fig. 15 and the width of theneck 57 is preferably slightly greater than the width of thecap aperture 53.

Thus when thevalve 55 is positioned in thecap 41 the side walls of thecap aperture 53 distort thevalve neck 57 and exert a pres- 20 to expandwhen the tube contents is beingdisdischarge slit 61 closed. The amount of pressure exerted on the valve head to retain the slit closed may be regulated by varying thecap 41 the relative proportion of the width of the cap aperture to the width of the valve neck. After thevalve 55 has been positioned in the cap is placed on theneck 43 of the tube and the ,endsofthe cap skirt 44 are s 1111 into theneck groove 47.

' W en the cap is operatively positioned on thetube therecem 60 of the valve 55' is adapted to register with theaperture 46 of theneck partition 45 as shown in Figs. 13 and 15. When the cap is in this position it is only necessary to appl pressure to thetube 40 to force the contents t ereof out through the valve slit 61 which opens as shown in Fig. '13. The difference in the length of thevalve neck 57 and the cap aperture 53' allows the valve neck charged. After the pressure on the tube has been removed the elasticity of the valve forces theslit 61 closed again. 1

-When thecap 41 is turned to the posit-ion shown in Figs. 12 and 14 so thatthevalve recess 60 does not register with thetube aperture 46 pressure on the tube will not force the tube contents out.

Indicia matter such as indicated at 66 may be provided on thetube 40 and is adapted to coact with an indicator on the cap- 41 to show the 0 n' and closed positions of the valve.

In figs. 17 to 21,inclusive I have shown a colla-psibletube 64 having acap 65 thereon which includes anothermodified form of discharge valve. Thecollapsible tube 64 is provided with aconical end portion 66 havin acylindrical neck 67 integral therewith.-Tale neck 67 includes acylindrical recess 68 which communicates at one end with the interior of thetube 65 and is provided at the other end -with atransverse partition 69 hav-- ing an eccentrically locatedsemi-circular aperture 70 therethrough. Adjacent the juncture of theconical endportion 66 and the neck67 I provide anexternal groove 72.

, Thecap 65 is adapted to be positioned on theneck 67 and is shown as including abody portion 73, a top '74 having an eccentrically located annular aperture and a counter- (csunk recess 76 in thebody 73 and askirt portion 77. Thecap 65 includes an automatic valve indicated generally at 86 which is preferably made of a good grade of rubber vulcanized to the desired elasticity.

As shown. theautomatic valve 80 includes asemi-circular body'portion 81 having a centrally al flange locatedannularneck 82 thereon on which is provided an enlarged'annularhead 83 which includes an overhanging peripher- 84. A recess is provided in thebodyportion 81 and extends into theneck 82. A slit 86 in the head communicates with therecess 85. i

' ing sitioned in therecess 76 of thecap 65 so that 1 thevalve neck 82 is positioned in the cap aperture 7 5 and thevalve head 83 protrudes beyond the top 74 ,of thecap and thevalve head flange 84 overlaps theaperture'7 5.

The circumference of thevalve neck 82 is preferably less than the circumference of thecap aperture 75 as shown in Fig. 20, and the length of the valve neck is preferably less than the thickness of the side walls of thecap aperture 75. I

Thus when thevalve 80 is positioned in thecap 65 the side wall of thecap aperture 75 distorts thevalve head 83 and exerts a pressure thereon'which tends to retain the valve discharge slit 86 closed. The amount of pressure exerted on the valve head to retain the slit closed may be regulated by varying the relative proportion of thickness of the cap aperture to the distance between the top of the valve body and the underside of the valve head as previously stated.

After thevalve 80. has been positioned in thecap 65 the cap is placed on theneck 67 of the tube and the ends of theca skirt 77 are spun into theneck groove 72 as s own.

VVhen the cap is operatively positioned on the tube therecess 85 of thevalve 80 is adapt-' ed to register with theaperture 70 of theneck artition 69 as shown in Figs. 19 and 20.

en the cap is in this position it is only necessaryto apply pressure to thetube 64 to force the contents thereof out through the valve slit 86 which 0 ens. The difference in the circumference o thevalve neck 82 and thecap aperture 75 allows the valve neck to expand. when the tube contents are being dis charged. After the pressure on the tube has been removed the elasticity of thevalve forces theslit 86 closed again.

When thecap 65 is turned to the position shown in Fig. 18 thevalve recess 85 does not 'register with the tube aperture 7 O and Qzhe pressure on the tube will not force the tube contents out.

. Indicia matter such as indicated at 88 may be provided on thetube 64 and adapted to (50- act with an indicator on the cap .65 to show the open and closed positions of the valve.

In FigsJ-22 to 25 inclusive have shown acollapsible tube 96. having acap 91 thereon which includes a further modified form of discharge valve. Thecollapsible tube 90 is provided with aconicalend portion 82 having acylindrical neck 93 integral therewith. The neck I 93 includes a cylindrical recess which communicates at one end with .the interior of the tube90 and is provided at the other end with a transverse partition 95 'havthrough. Adjacent the juncture of theconical end portion 92 and the neck 93 I provide anexternal groove 97.

-Thecap 91 is adapted to be positioned on aneccentricallylo'cated aperture 96therethe neck 93 and is shown as including abody portion 98, a top 99.having .an eccentrically ocated substantiallyelliptical aperture 100 and acountersunk recess 101 in thebody 98, 5 and askirt portion 102. Thecap 91 includes an automatic valve' indicated generally at 103 which is preferably made of a good grade of rubber vulcanized to the desired elasticity. As shown theautomatic valve 103 includes asemi-circular body portion 104 having a centrally locatedannular neck 105 thereon. Arecess 106 is provided in thebody portion 104 and theneck 105 and aslit 107 in the neck communicates with therecess 106.

Theautomatic valve 103 is adapted to be positioned intherecess 101 of thecap 91 so that thevalve neck 105 is positionedin'the cap aperture 100 and protrudes beyond thetop 99 of the cap.

preferably less than the width of thecap aperture 101 as shown in Fig. 24, and the length of thecap aperture 101 is preferably greater than the circumference of thevalve neck 105.

Thus when thevalve 103 is positioned in-thecap 91 the side walls of thecap aperture 100 distorts thevalve neck 105 and exerts a pressure thereon which tends to retain the valve discharge slit 107 closed. The amount of pressure exerted on the valve head to retain the slit closed may be regulated by varying the width of the cap aperture relative to the width of the valve neck.

- After thevalve 103 has been positioned in thecap 91 the cap is placed on theneck 93 of the tube and the ends of thecap skirt 102 are spun into theneck groove 97 as shown.

When the capis operatively positioned on the tube the recess of the valve 106is adapted 40 to register with theaperture 96 of theneck partition 95 as shown in Figs. 23 and 24.

en the cap is in this'position it is only necessary to apply pressure to thetube 90 to. force the contents thereof outthrough the valve slit 107 which opens as shown in Fig. 23. The-difference in the circumference of thevalve neck 105 and thecap aperture 100 allows the valve neck to expand when the tube contents is being discharged. After the pressure on the tube has been removed the elasticity of the valve forces theslit 107 closed again.

Indicia matter such as indicated at 109 may be provided on thetube 90 and adapted to coact with an indicatoron thecap 91 to show the open and closed positions of the valve.

Although in the foregoing description I have referred to my invention as embodied in collapsible tubes I wish it to be understood that it may be used for other purposes if desired.

From the foregoing description it will be apparent that I have provided an improved closure for tubes containing plastic, semiviscous or freely flowing materials, which clohaving a discharge aperture, The circumference of thevalve neck 105 is i of the Wall of sure can be economically manufactured, is highly efficient in use, and which satisfies the conditions neces ary to produce a sanitary device. I Having described my invention, I claim:

1. In combination with a receptacle having a discharge aperture, a cap rotatably mounted on said receptacle, said 'cap having an eccentric aperture in. the top wall, said cap aperture being adapted in one position of said cap to register with said discharge aper ture, a valt ecarried by said cap, said valve being formed of flexible material, said valve including a neck fitting said cap aperture,

said valve body portion being of less area than the area of said receptacle discharge aperture.

2. In combination with a collapsible tube a cap rotatably mounted on said tube, said cap having an aperture, a valve carried by said cap,saidvalve being formed of flexible material and having a portion fitting said cap aperture and of substantially the same transverse sectional area as the area of the cap aperture, said valve being of less area than the area of said discharge aperture, said valve being of less width than said cap aperture, said valve having a discharge'slit therein.

3. A receptacle having a discharge aperture, a'cap, said cap including a body portion and a top wall, 'said cap top wall having an aperture therein, a valve said valve being of'less area than the area of the discharge aperture and being formed of flexible material, said valve having a neck carried by said cap,

fitting said cap aperture and being of substantially the same transverse sectional area as the area of the cap aperture, said valve neck being of greater length than the length the cap aperture.

'4. In combination with a collapsible tube having a relatively stiff neck thereon, a transversepartition adjacent the end of said neck, an aperture in said partition, a cap fitted over said neck, said cap'including a body portion and a top wall, the top wall of said cap having an" aperture, a valve carried by said cap, said valve being formed of flexible material, said valve comprising a body portion and an annular neck, said valve body being ofsubstantially the same transverse sectional area as the area .of the cap aperture and of less area than the area of said partition aperture, said valve being positioned in said aperture of said cap top wall. I

5. The combination of a collapsible tube having a discharge opening, and a cap rotatably mounted on said collapsible tube, said cap having an aperture, alignable with said tube aperture and an automatic flexible, sep arately formed valve in saidcap aperture.

6. In-combination with a collapsible tube having a relatively stiff neck thereon, a transverse partition adjacent the endof said neck,

said partition having an aperture at one side of the center of said partition, a cap fitted over said neck, said cap including a body portion, a top wall, and a side Wall, said cap being rotatable on said neck, a substantially elliptical aperture in said top Wall of said cap and a semi-cylindrical recess in said body portion, said aperture being adapted in one position of said cap to register with said aperture in said partition, a valve carried by said cap, said valve being formed of flexible material, said valve comprising a semi-cylindrical body portion and an annular neck, said valve body being less in area than the area of said tube partition aperture, said valve body portion being positioned in said cap recess, said valve neck being positioned in said aperture of said cap top Wall, said valve neck being greater in circumference than the width of said cap top wall aperture and said aperture being of greater length than said neck, said valve having a discharge aperture therein.

7. In combination with a collapsible. tube having a relatively stifl' neck thereon, an eccentric discharge aperture in said neck, a

cap rotatably mounted on said neck, an eccentric recess and an eccentric aperture in the top wall of said cap, said aperture being adapted in one position of said cap to register with said discharge aperture in said neck, a valve carried by said cap, said valve beingformed of flexible material, said valve ,comprising a body portion and a neck, the area of said valve body portion'beingless than the area of said neck discharge aperture, said valve body portion being positioned in said cap recess and said valve neck beingpositioned in said aperture of said cap'top wall, said valve neck being of greater Width than said cap top wall aperture and the wall of said aperture being greater in length than said neck, the side Wall of said neck being under tension When operatively positioned on said cap, a recess in said valve body portion and said neck and a slit extending from said recess through said neck, said slit being adapted to be normally closed by the tension of said neck and adapted to be forced open by the contents of said collapsible tube when said cap apertureis moved to register with said discharge aperture.

In testimony whereof, I. hereunto aflix my signature.

, E. SMITH.

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