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Publication numberUS1563627 A
Publication typeGrant
Publication dateDec 1, 1925
Filing dateDec 23, 1924
Priority dateDec 23, 1924
Publication numberUS 1563627 A, US 1563627A, US-A-1563627, US1563627 A, US1563627A
InventorsGeorge N Hein
Original AssigneeGeorge N Hein
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Syringe ampul, piston, and piston-packing construction
US 1563627 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

Dec. 1 1925. 1.563.627





i Application filed December 2S, 1924. Serial No. 757,657.

of which the following is a specitication.

This invention relates to a hypodcrn'lic syringe construction wherein the solution to be injected is adapted to be contained within a phial or ampul which is used as a piston within the syringe in'tilling the, syringe and in ejccting the fluid therefrom.

This inventlon has a number of obJects, among the principal being that a number of phials of the bottle type sterilized may be carried by the physician, with their out-.lets sealed by a hood deslgned for use as a piston "q ilunger within a syringe barrel and adapted to be cut in such manner as to serve as a valve to admit of the withdrawing of Athe solution from the phial.

VAnother object is to employ the phial bottle as a piston and to construct the syringe proper with a valve member enabling the Acontents of the phial to be withdrawn on the rearward reciprocation of the piston and discharged on the forward movement of the piston, and to provide a simple form of elastic closure or hood for the container or phial, the peripheral edges of which are -designed to snugly 'engage the inner surface of the syringe barrel and the top of which is adapted to be'cut inwardly to provide av flap valve portion.

By the use of the present construction the desired quantity of the contentsof the phial may be admitted into the syringe barrel and the remainder is adapted for subsequent use without exposure to the atmosphere and without admission into the syringe barrel until needed.

With the above mentioned and other objects in view, the invention consists in the novel construction and combination of parts hereinafter described, illustrated in the accompanying drawings and pointed out in the claims hereto appended; it being understood that 'various changes' in the form, proportion, size .and minor details of construction' Within the scope of the claims may be re- In the drawings, disclosing one embodiment of my invention- Fig. l is a View in longitudinal section of a syringe barrel illustrating the phial inserted therein to be used as a piston.

Fig. 2 is a View in'detail vertical section of the neck of the phial illustrating particularly the hooded closure prior to being cut and illustrating the same serving as a piston packing within the syringe barrel.

Fig. 3 is a View similar to Fig. 2, illustrating the phial closure cut inwardly from its outer edge providing a valve for controlling the dischargel of the fluid from the phial.

Fig. 4 is a transverse sectional view on line 4-4 of Fig. 3.

In the drawings, wherein like characters `of reference designate coliesponding parts,

1 indicates a phial of the conventional cyhnv drieal bottle type having a contracted neck 2, the phial adapted for containing suitable solution indicated by the numeral 3. The

neck of the bottle or phial after being filled and preferably sterilized, is closedr by a iiexible hood 4 positioned over the neck, the' hood preferably being ,constructed of rubber or other elastic material. Opposite the end of the bottle neck the peripheral edge of the hood 4 is of a diameter not less than that of the diameter of the phial l and is comparatively broad and flat affording a wide contact surface 5. r That portion (i of the hood 4 projecting beyond the end of the neck 2 is of considerable thickness in its center and tapers towards its edge.

Immediately prior to the bottle or phial being inserted neckend first into a syringe barrel hereinafter described, the user cuts the hood 4 inwardly from its outer edge to its center on a line parallel with the outer end of the bottle neck 2, as at 7 and this cut portion, as is illustrated in dotted lines- Fig. 3, when raised will permit of the escape of the contents from the end of the bottle or phial and when 'seated will preclude the entrance of fluid into the bottle and the peripheral wall 5 of the hood will contact with the inner Wall of the barrel and serve as a piston head. v

A syringe barrel 8 ofthe conventional type, preferabl of glass` open at one end as at 9'and provi ed with a tapered nipple 10 at its opposite end, of an inside 'diameter substantially corresponding to the diameter of the phial or bottle 1, is adapted to receive the latter.v The end 10 is provided with an outlet channel 11 and said nipple mounts the base 12 carrying a hypodermic needle 13. The reduced end 14 of the nipple then mounts a suitable hood 15, the peripheral edge 16 of which is in;tight contact with the inner Wall of the needle base, and the end of which is inwardly/cut as at 17 to provide a' iap valve portion 18 adapted to unseat on the inward reciprocation of the piston and to seat on the outward drawing of the same.

It Nwill be observed that with the double valve construction one at the discharge end of thebottle or phial 1 and the other associated with the syringe, that the phial may be inserted into the barrel, after its hood hasbeen cut, and on its inward movement will expel air from within the barrel, the expelled air passing through the channel 11 and escaping beyond the valve portion 18.

. On the Withdrawal or outward movement of the phial, the vacuum created within the syringe barrel will lift the cut portion 7, drawing the desired amount of Huid from the phial into the syringe barrel. On the syringe barrel being supplied with the necessary quantity of material dependent on the injection to be made, the further outward movement of the phial is arrested and" the inward reciprocation thereof is made, causing a closing of the Hap 7 and forcing the solution in the syringe barrel to raise the flap 18 and discharge from the needle 13.

It will be observed that the closure for the phial in addition to serving as a closure also serves as a piston head for the syringe barrel, and the cut flap portion serves as a valve; also'that this construction enables' the hypodermic injection 'of the desired solution from closed containers where the excess remains until entirely used.

1. A piston for hypoderinicsyringes including an elongated phial provided with an outlet at one end, a yieldable closure therefor fitted over the end thereof and extending downwardly over'the sides of the phial, sald closure having a flap portion for frictionally engaging the syringe barrel wall and adapted for movement outwardly to admit of the discharge of the phial contents.

2. In combination with a hypodermic syringe barrel terminating at one end in a nipple and provided with a discharge openingq a needle mounting member carried by the nipple, a hood enclosing the nipple end and cut transversely of the nipple end to provide a valve for controlling the passage of fluid in one direction through the discharge opening, said needle mounting member engaging the nipple inwardly beyond the hood andy frictionally engaging the hood at its point of greatest diameter, and a piston reciprocably mounted Within the barrel.

3. In combination with a hypodermic syringe barrel terminating at one end in a nipple and provided with a discharge opening, a needle mounting member carried by the nipple, a flexible valve member and packing fitted over the end of the nipple for engagement by the needle `mounting member and adapted to automatically control the passage of fluid in one direction through the discharge opening,'and a piston reciprocably mountedV within the barrel.

4. A piston head of elastic material for hollow piston rods of barrel syringes adapted to be placed over and surround the outlet end of the piston rod and bear against the piston rod barrel and serve as a packing, said piston head being provided with a valve controlling the outlet of the piston rod, said valve frictionally engaging the barrel wall to facilitate its opening and closing.

In testimony whereof I have signed my name to this specification.


Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2766754 *Jul 10, 1952Oct 16, 1956Becton Dickinson CoSyringe assembly
US2869544 *Oct 30, 1957Jan 20, 1959Iowa Cooperative AssInjector
US3075525 *Jul 15, 1959Jan 29, 1963Mcconnaughey Robert KVenting closures and separators for hypodermic syringes
US3255752 *Jan 28, 1965Jun 14, 1966Peter DickHypodermic syringe
US3303846 *Oct 8, 1963Feb 14, 1967Functional Container CorpMixing syringe having separate compartments for incompatible medicaments
US3380451 *Jun 14, 1965Apr 30, 1968Cloyd J. Sorensen Jr.Two compartment syringe
US3659749 *Apr 28, 1970May 2, 1972Boris SchwartzIntermixing syringe
US3977568 *Jan 8, 1975Aug 31, 1976Eastman Kodak CompanyBiological fluid dispenser for dispensing micro amounts
US4046291 *Jan 7, 1976Sep 6, 1977George GodaDevice for pipetting and/or diluting
US4299238 *Jun 24, 1980Nov 10, 1981Baidwan Balinderjeet SVented piston and push-rod subassembly for use in a syringe barrel
US4700872 *Aug 19, 1986Oct 20, 1987Keyes Paul HDispensing pump for syringe
US4834705 *May 11, 1987May 30, 1989Vaillancourt Vincent LDrug dispensing system
US5181909 *May 15, 1991Jan 26, 1993Mcfarlane Richard HAmpule-container medical syringe and methods
US5358150 *Nov 6, 1992Oct 25, 1994Mpl Technologies, Inc.Pressurized fluid dispensing device
US6796217 *Aug 14, 2002Sep 28, 2004Taisei Kako Co., Inc.Injector assembly capable of preventing subsequent dripping, as well as plunger and seal member for the injector assembly
US20030035744 *Aug 14, 2002Feb 20, 2003Taiji HoritaInjector assembly capable of preventing subsequent dripping, as well as plunger and seal member for the injector assembly
US20040162527 *Jan 16, 2004Aug 19, 2004Gerhard MoersdorfSterile sheath for an injection syringe
EP2016962A1Jul 18, 2008Jan 21, 2009VOCO GmbHSpray and method for metered release of material
U.S. Classification604/226, 604/231, 604/237, 92/249, 92/81, 604/236
International ClassificationA61M5/315, A61M5/31, A61M5/24
Cooperative ClassificationA61M2005/3128, A61M5/204, A61M2005/2407, A61M5/31511, A61M5/24
European ClassificationA61M5/24