US3326215A - Two compartment syringe with vapor seal between compartments - Google Patents

Description

June 20, 1967 3. J. SARNOFF TWO COMPARTMENT SYRINGE WITH VAPOR ET AL. 3,326,215

SEAL BETWEEN COMPARTMENTS FIG. 5

i k Ym 68 70 INVENTORS John W. fla/enger S/arv/ey J. Sarnoff BY wd/nz ATTORNEY United States Patent 3,326,215 TWO COMPARTMENT SYRINGE WITH VAPOR SEAL BETWEEN COMPARTMENTS Stanley J. Sarnoff, McLean, Va. (7801 Woodmont Ave.,

Bethesda, Md. 20014), and John W. Balenger, Rockville, Md; said Balenger assignor to said Sarnofi Filed Dec. 16, 1963, Ser. No. 330,741 6 Claims. '(Cl. 128218) This invention relates to hypodermic syringes. In particular it relates to syringes of the type which stores a solid medicament in "a chamber of the syringe and which is to be disolved in a liquid supply also initially stored within a second chamber in the syringe.

It is an object of this invention to improve such a syringe by facilitating the transfer of liquid from the liquid storage chamber into the solid medicament or powder containing chamber.

It is another object of the invention to provide an eflicient vapor barrier between the two chambers to prevent undesired deliquescent action on the part of the powder.

Other objects will become apparent after a consideration of the following specification when taken in conjunction with the accompanying drawing in which FIG. 1 illustrates a syringe made in conformity with the invention.

FIG. 2 illustrates a modification of the invention employing two balls with a space there'between.

FIG. 3 shows another modification wherein a ball seats against an end of an inner tube.

FIG. 4 shows still another form of invention wherein in addition to a single ball for obstructing the vapor, there is employed a barrier plate.

FIG. 5 is a view similar to FIG. 4 showing a modified form of barrier plate and FIG. 6 shows still another form of the invention for securing a dual vapor barrier between the liquid chamber and the powder containing chamber.

Now referring to the drawings in greater detail, at 10 in FIG. 1 is indicated an outer cylindrical barrel, which may be of glass within which is telescoped a secondcylindrical barrel 12, which also may be of glass. The outer cylindrical barrel at its forward end is constructed as at 14 to form an orifice which may be sealed off by aremovable cap 16 or may be formed to accommodate a hypodermic needle. The other or rear end of thebarrel 10 is flared to form anannular flange 18 so that the fingers of an operator may readily straddle thebarrel 10 and be engaged beneath the flange.

Theinner barrel 12 at its forward end is provided with arubber plug 20 having apasageway 22 therethrough, the forward end of which is enlarged as at 24 to releasably hold aball 26 therein. The ball is wedged in the rubber of the plug sufliciently to act as a liquid seal and vapor barrier between aliquid 28 in the inner barrel and amedicament powder 30 soluble in the liquid, the powder being confined in the forward end of the outer barrel by initial positioning of the plug in contact with the powder. The plug is held in any convenient fashion against displacement relative to the inner barrel as by slightly constricting the forward end of the inner barrel and compressing the plug as indicated at 32. The rear end of thebarrel 12 is also flanged as indicated at 34 and in the initial position of parts,flange 34 is close toflange 18.

Within the rear end of the inner barrel is arubber piston 36 threaded as indicated at 38 to remov'ably receive the threaded end of apiston rod 40 having ahead 42 adapted to be engaged by the thumb of an operator while his fingers are engaged beneath theflange 18, pressure with his thumb on the head then driving the piston down into thebarrel 12.

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In so doing, liquid pressure will exist inpassageway 22 resulting in driving the ball out of the plug and allowing the liquid to commingle with and dissolve thepowder 30. As the liquid is expelled, back pressure on theplug 20 will cause thebarrel 12 to be shifted to the rear end of the assemblage until engagement offlange 34 andhead 42 takes place whereupon bothplunger rod 40 andinner barrel 12 with its plug move forwardly expelling the syringe contents out through theorifice 14 or the needle therein. Thecap 16 may be removed at any appropriate time, this cap covering a needle if a needle be employed. Prior to the coupling of the plunger with the piston, the overall length of the syringe is much less than the final extended position of the barrels. So, if instant compactness of parts he desired, thepiston rod 40 need not be coupled with the piston until immediately before use of the syringe.

To improve the seal afforded between theball 26 and the adjacent compressed wall of the plug, and to provide for a space of reduced vapor pressure, two balls may be inserted in thepassageway 22. Such a construction is shown in FIG. 2. In this figure, for efficiency in operation, the passageway, here indicated as 44 in theplug 46 is tapered and two balls 48 and 50 are located in the passageway, the larger ball being in the larger diametered portion of the passageway. The compression of the walls of the passageway adjacent the balls form effective seals, the sealing being enhanced by reason of the spacing of the balls. In this space between the balls only a vapor pressure can exist, this pressure being insufficient to cause leakage beyond the ball 50.

In accordance with FIG. 3, the seal is made not only between the ball, here indicated as 52 and the plug, but also with the lower end of the inner barrel, here indicated as 54. 'For this purpose the barrel is formed on its forward end with an annular seat 50. For the purpose of forming the annular seat, the forward end of thebarrel 54 is constricted inwardly toward the longitudinal axis of the barrel and then is reversely shaped. As shown at 58, the reverse shaping also affords a means for sceurement of theplug 60 to the inner barrel.

In FIG. 4 there is shown an additional seal which re stricts liquid or vapor flow through the material of the plug past the plug. This seal is provided by providing ametal plate 62 in the form of an annulus embedded in theplug 64, the central aperture in the annulus being of a size to enable the ball to be squeezed past the plate under pressure of the liquid in thebarrel 54.

FIG. 5 shows a modification of the last form of invention in that the extra liquid and vapor barrier is ametal cylinder 66 having aflange 68 engaged in theneck 70 of thebarrel 54. The forward end of the cylinder is inwardly bent as indicated at 72 the resulting flange performing thefunction of theannulus 62 of FIGURE 4. This construction of the metal piece not only provides an eflicient seal but also enables theplug 74 to be held securely against the end of the barrel.

Still another embodiment of the invention is disclosed in FIG. 6. The forward end ofbarrel 54, theplug 60,ball 52 andseat 56 are formed as has been disclosed in FIG. 3.

In addition to the seal formed by these parts, there is provided a backing up seal in the form of a longitudinally centrally perforated resilientsupplemental piston 76 cooperating with astud 78 having a number ofspider legs 80, as four, radiating from the stud and bearing against the innerforward face 82 of the barrel. The major portion of the stud is of a diameter considerably smaller than the diameter of the passageway through the supplemental piston but is provided at its rear end with aball head 84 slightly larger than the normal diameter of the :passageway in the supplemental piston. In initial position of parts thepiston 76 is located so that there is a considerable space between the bottom face of the piston and the spider. The thickness of thepiston 76 is such that when pressure is applied to the liquid inbarrel 54 and thepiston 76 is displaced, the ball head will protrude well to the rear of the piston allowing free flow of liquid past the stud, and when theball 52 is displaced, past theplug 60, into the chamber inouter barrel 10. Thus a triple seal is obtained in this form of the invention, these being provided by reason of the engagement of thestud head 84 in the passageway ofpiston 76, the seating of theball 52 against the lower end of thebarrel 54 and the sealing of theball 52 in the pasageway ofplug 60. It is obvious that the supplemental piston and associated stud could be utilized in the other forms of invention as well, though these would not provide as many barriers in series as in FIG. 6.

With the devices of the present invention, it is possible to store fluid and powder in the syringe for a very long time without danger of leakage of the fluid from the liquid containing chamber into the powder containing chamber and without any considerable amount of vapor being transferred from one chamber to the other. These devices are particularly useful Where the liquid is of a volatile nature.

Furthermore, because of the mode of initial assembly of parts in initial telescoped condition and the detachable character of thepiston rod 40, much less storage room is required than with known prior art devices.

What is claimed is:

1. A hypodermic syringe comprising an outer barrel,

said barrel having an orifice at one end thereof, displaceable closure means for occluding said orifice,

a medicament in said outer barrel at said orifice end thereof,

an inner barrel telescoped into said outer cylinder barrel,

a resilient stopper immovably located within the end of said inner barrel which is adjacent the orifice,

a passageway through said stopper,

a ball slightly larger in diameter than the normal diameter of the passage lodged in said passage,

a piston in said inner barrel at the other end of said inner barrel,

a solute for said medicament in said inner barrel between the piston and the stopper,

a vapor impermeable disc embedded in the stopper in a plane perpendicular to the passageway and located between the ball and face of the stopper adjacent the orifice in the outer cylinder,

said disc having formed therewith an annular cylinder, extending rearwardly through the material of the stopper,

said cylinder having an inwardly directed flange at its rear end held in a neck portion at the forward end of the inner barrel,

and means to drive the piston toward the stopper to first expel the ball from the passage, next force the solute through the passage while the inner barrel is automatically driven to greater extension from said outer barrel, thereby enabling a dissolving of the medicament to occur and preparing the syringe for expulsion of the dissolved medicament from the syringe.

2. A hypodermic syringe comprising an outer barrel,

said barrel having an orifice at one end thereof, displaceable closure means for occluding said orifice,

a medicament in said outer barrel at said orifice end thereof,

an inner barrel telescoped into said outer barrel,

a resilient stopper immovably located within the end of said inner barrel which is adjacent the orifice,

a passageway through said stopper,

a ball slightly larger in diameter than the normal diameter of the passage lodged in said passage,

a piston in said inner barrel at the other end of said inner barrel,

a solute for said medicament in saidrinner barrel between the piston and the stopper,

a stud with enlarged head supported at the forward end of the inner barrel,

a supplemental piston located in the inner barrel and having a passageway within which the head of the stud lies and seals the passageway,

the thickness of the supplemental piston being such as to allow the head to be projected rearwardly of the supplemental piston in the most forward position of said supplemental piston in the inner barrel,

said stud being of a diameter less than the diameter of the passageway in the supplemental piston,

and means to drive the piston toward the stopper to first expel the ball from the passage, next force the solute through the passage while the inner barrel is automatically driven to greater extension from said outer barrel, thereby enabling a dissolving of the medicament to occur and preparing the syringe for expulsion of the dissolved medicament from the syringe.

3. The structure of claim 2 in which the forward end of the inner barrel is formed with a seat and the ball is seated against said seat.

4. A hypodermic syringe comprising an outer barrel,

said barrel having an orifice at one end thereof, displaceable closure means for occluding said orifice,

a medicament in said outer barrel at said orifice end thereof,

an inner barrel telescoped into said outer barrel,

a resilient stopper immovably located within the end of said inner barrel which is adjacent the orifice,

a passageway through said stopper,

a ball slightly larger in diameter than the normal diameter of the passage lodged in said passage,

a piston in said inner barrel at the other end of said inner barrel,

a solute for-said medicament in said inner barrel between the piston and the stopper,

a vapor impermeable disc embedded in the stopper in a plane perpendicular to the passageway and located between the ball and face of the stopper adjacent the orifice in the outer barrel,

and means to drive the piston toward the stopper to first expel the ball from the passage, and next force the solute through the passage while the inner barrel is automatically driven to greater extension from said outer barrel, thereby enabling a dissolving of the medicament to occur and preparing the syringe for expulsion of the dissolved medicament from the syringe.

5. A hypodermic syringe comprising an outer barrel,

said barrel having an orifice at one end thereof, displaceable closure means for occluding said orifice,

a medicament in said outer barrel at said orifice end thereof,

an inner barrel telescoped into said outer cylinder barrel,

a resilient stopper immovably located within the end of said inner barrel which is adjacent the orifice,

a passageway through said stopper,

two spaced apart balls slightly larger in diameter than the normal diameter of the passage lodged in said passage,

a piston in said inner barrel at the other end of said inner barrel,

a solute for said medicament in said inner barrel between the piston and the stopper,

and means to drive the piston toward the stopper to first expel the balls from the passage, next force the 5 6 solute through the passage While the inner barrel is References Cited automatically driven to greater extension from said UNITED STATES PATENTS outer barrel, thereby enabling a dissolving of the medicament to occur and preparing the syringe for 933398 9/1909 Stahl 128 237 expulsion of the dissolved medicament from the 5 2688966 9/1954 Hube? 128 218 syringe- 2,869,543 1/ 1959 Ratchff et al 128-218 6. A structure as defined in claim 5 wherein the pas- FOREIGN PATENTS sageWay is tapered with the larger end opening toward the 205 579 12/1956 Australia orifice of the outer barrel,

and the two spaced balls are of diiferent diameter, With 10 RICHARD GAUDET Primary Examiner.

the larger diametered ball nearest the larger end of the tapered passageway, ROBERT E. MORGAN, D. L. TRULUCK, Examiners.

Claims (1)

1. A HYPODERMIC SYRINGE COMPRISING AN OUTER BARREL, SAID BARREL HAVING AN ORIFICE AT ONE END THEREOF, DISPLACEABLE CLOSURE MEANS FOR OCCLUDING SAID ORIFICE, A MEDICAMENT IN SAID OUTER BARREL AT SAID ORIFICE END THEREOF, AN INNER BARREL TELESCOPED INTO SAID OUTER CYLINDER BARREL, A RESILIENT STOPPER IMMOVABLY LOCATED WITHIN THE END OF SAID INNER BARREL WHICH IS ADJACENT THE ORIFICE, A PASSAGEWAY THROUGH SAID STOPPER, A BALL SLIGHTLY LARGER IN DIAMETER THAN THE NORMAL DIAMETER OF THE PASSAGE LODGED IN SAID PASSAGE, A PISTON IN SAID INNER BARREL AT THE OTHER END OF SAID INNER BARREL, A SOLUTE FOR SAID MEDICAMENT IN SAID INNER BARREL BETWEEN THE PISTON AND THE STOPPER, A VAPOR IMPERMEABLE DISC EMBEDDED IN THE STOPPER IN A PLANE PERPENDICULAR TO THE PASSAGEWAY AND LOCATED BETWEEN THE BALL AND FACE OF THE STOPPER ADJACENT THE ORIFICE IN THE OUTER CYLINDER, SAID DISC HAVING FORMED THEREWITH AN ANNULAR CYLINDER, EXTENDING REARWARDLY THROUGH THE MATERIAL OF THE STOPPER, SAID CYLINDER HAVING AN INWARDLY DIRECTED FLANGE AT ITS REAR END HELD IN A NECK PORTION AT THE FORWARD END OF THE INNER BARREL, AND MEANS TO DRIVE THE PISTON TOWARD THE STOPPER TO FIRST EXPEL THE BALL FROM THE PASSAGE, NEXT FORCE THE SOLUTE THROUGH THE PASSAGE WHILE THE INNER BARREL IS AUTOMATICALLY DRIVEN TO GREATER EXTENSION FROM SAID OUTER BARREL, THEREBY ENABLING A DISSOLVING OF THE MEDICAMENT TO OCCUR AND PREPARING THE SYRINGE FOR EXPULSION OF THE DISSOLVED MEDICAMENT FROM THE SYRINGE.

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