Jan. 13, 1970 J. D.'sH'Aw 3,489,147
COMBINATION MIXING AND INJECTING MEDICAL SYRINGE Original Filed July 21, 1964 2 Sheets-Sheet 1 III/i111 INVENTOR. 7555 ,2, dfi/P'W J. D. SHAW I Jan. 13,1970
COMBINATION MIXING AND INJECTINGMEDICAL SYRINGE 2 Sheets-Sheet 2 Original Filed July 21, 1964 United States Patent 3,489,147 COMBINATION MIXING AND INJECTING MEDICAL SYRINGE Joseph Denman Shaw, 508 Church St.,
Brownsville, Pa. 15417 Continuation of application Ser. No. 384,148, July 21,
1964. This application Aug. 22, 1967, Ser. No. 662,340 Int. Cl. A61m /00; A61j 1/00; B67d 5/56 US. Cl. 128218 4 Claims ABSTRACT OF THE DISCLOSURE A combined mixing and injecting syringe has an outer barrel to contain a first ingredient and provided with an injection outlet, has an inner barrel slidable in a sealed manner longitudinally of the outer barrel for containing a second ingredient, and has a plunger slidable in a sealed manner longitudinally of the barrel. The inner barrel has a discharge opening communicating with the hollow of the outer barrel and normally closed by a gasket. A needle carried by the plunger is in position to pierce this gasket upon relative movement of the plunger in the inner barrel and then adapted to provide communication for the free exit of the second ingredient from the inner barrel to mix with the first ingredientin the outer barrel, after which the mixture may be injected by relative movement of the two barrels.
This is a continuation of application Ser. No. 384,148, filed July 21, 1964, and now abandoned.
This invention relates to a combined mixing and injecting syringe useful among other things in medical practice for the injection of a twoingredient mixture.
One of the objects of the present invention is the provision of a syringe whereby one ingredient, such as a powder or liquid, may be dissolved in a suitable diluent second ingredient and then injected into a patient by the use of this novel syringe.
Other objects of this invention include the arrangement of the parts for quick assembly and disassembly for loading or cleaning, means for quickly measuring the amounts of the mixed ingredients, and other objects and advantages as will be apparent in the accompanying drawings and description.
In the drawings:
FIG. 1 is a central sectional view through one embodiment of my invention;
FIG. 2 is a sectional view of an intermediate portion of FIG. 1 with the parts in a diiferent actuated position;
FIG. 3 is a cross-sectional view, enlarged, taken along the line 15-15 of FIG. 2;
FIG. 4 is a crosssectional view showing another noncircular section through the parts similar to FIG. 3 and illustrating how an embodiment of FIGS. 1 and 2 might be constructed;
FIG. 5 is a central sectional view through another embodiment of this invention;
FIG. 6 is a cross-sectional view taken along the line 1818 of FIG. 5; and
FIG. 7 is a central sectional view of the intermediate portion of FIG. 5 showing an operated position of the parts.
Prior to this invention, to the best of my knowledge and belief, there has been an unmet need for a mixing syringe wherein two or more ingredients could be easily placed in separate chambers of the syringe with no mixing occurring until just before the injection of the combined ingredients into a patient and constructed with easily manipulated parts whereby a breachable passageway communicating with the chambers containing the separate ingredients is adapted to be easily and quickly opened followed by mixing of the ingredients in a mixing chamber and the immediate propulsion of the contents out of the syringe.
In FIGS. 1 and 2, is shown one embodiment of this invention. Here theouter barrel 73 has adischarge outlet 74 which may be closed if desired by acap 75. An inner barrel 76 is reciprocatable in the outer barrel and is sealed thereagainst by agasket 77. Aplunger 78 is reciprocatable in the inner barrel and is sealed thereagainst by agasket 79. Here the breachable means for initially sealing off the contents of the ingredients inchamber 80 and the ingredients inchamber 81 comprises a portion of thegasket 77 which is impervious at 77a where the contents ofchamber 81 passing through adischarge opening 82 might reach thechamber 80 if it were not for thegasket portion 77a. For breaching this closure there is provided ahollow needle 83 which engages, or preferably is embedded in, the material of thegasket portion 77a as shown in FIG. 1. The opposite end of the needle is in position to communicate with thechamber 81 in the inner barrel but is temporarily sealed from such communication by means of apenetratable seal 84. Means is provided for relative movement of the inner barrel against the lower end ofneedle 83 as seen in FIG. 13 and for causing this needle to perforate thegasket portion 77a. The means here shown comprises ahollow neck 76a on the inner barrel 76 and provided with a male outer thread which coacts with a femaleinner thread 85 formed in a recess ingasket 77. Aprojection 86 rigid with theneedle 83 is provided for a purpose which will presently appear. In use of this device, with the inner barrel removed from the outer barrel, a measured amount of the first ingredient is placed in thechamber 80. Also, a measured amount of the second ingredient is placed in thechamber 81 and theplunger 78 pushed into proper position. The parts are then assembled as shown in FIG. 1. In this form of the invention, theouter barrel 73 and the coactinggasket 77 are non-circular in form as shown in FIG. 3. The corners are preferably rounded as shown so that a better seal may be had. Alternatively, some other form of non-circular barrel 73' might be adopted as in FIG. 4 with agasket 77 of complementary shape, the forms here being elliptical. By rotating the inner barrel 76 about its longitudinal axis while holding theouter barrel 73 stationary, the threaded connection at 76a, 85 is operated to move the parts from the full line position of FIG. 1 about half way to the position shown in FIG. 2, thus causing a first penetration of the needle through theseal 84. Further operation of the threaded connection to the position shown in FIG. 2 will cause the end of theneck 76a to engage against the projection 86- on the needle, thus forcing theneedle 83 through thegasket portion 77a and establishing communication betweenchambers 80 and 81. Movement ofplunger 78 into barrel 76 will now discharge the contents ofchamber 81 into themixing chamber 80 to mix with the first ingredient there. The mixture may then be propelled through thedischarge outlet 74 by movement of the inner barrel 76 and gasket 77.
FIG. 5 shows another embodiment of this invention which has great similarity to FIG. 1 except that theseal 84 is not required. Hereouter barrel 87 has adischarge outlet 88 which can be closed if desired by acap 89. Aninner barrel 90 is reciprocatable in thebarrel 87 and is sealed thereagainst by agasket 91. This gasket has a gasket portion 91a which is impervious at the point where the second ingredient might mix with the first ingredient in the same manner as thegasket portion 77a described in FIG. 1. Ahollow needle 92 is partially embedded in the gasket portion 91a at its pointed end, and has its other end rigidly secured in a projectingneck 90a of theinner barrel 90. A threaded connection is provided at 93 between theneck 90a and thegasket 91 for the purpose explained in connection with FIGS. 1 and 2. Aplunger 94 is reciprocatable ininner barrel 90 and sealed thereagainst by agasket 95. I have thus provided a first ingredient chamber 96 and asecond ingredient chamber 97 which may be loaded in any of the manners previously explained and the parts placed in the position of FIG. 5. In this embodiment, thebarrel 87 and thegasket 91 are circular in section so it is necessary to hold them manually if one is to actuate the threaded connection at 93. For this purpose thegasket 90 has a downwardly extending projection 91b which extends beyond the open end of theouter barrel 87 so as to be grasped by the fingers of the operator or otherwise. For sterility reasons it may be desirable to attach asleeve 98 of flexible plastic or the like to the outside ofbarrel 87 covering the parts as shown in FIG. 5 so that the fingers may grip through thesleeve 98 against the projection 9112 so as to maintain the parts clean and sterile. With the parts so held, the threadedconnection 93 is operated to cause relative movement of theneck 90a of the inner barrel relative to thegasket 91, thus forcing theneedle 92 to penetrate the gasket portion 91a and provide communication betweenchambers 96 and 97. Then, operation of theplunger 94 will force the contents of chamber '97 through thehollow needle 92 into chamber 96 where they may be mixed and injected into the patient as previously described.
If the above operation is to be carried out as one-time operation and then the syringe is discarded, then further improvements described herein are unnecessary. In other words, the parts heretofore described will permit theplunger 94 andbarrel 90 to drive thegasket 91 into thebarrel 87 sufficiently to inject the mixed ingredients fromchambers 96 and 97. However, if it is desired to reciprocate thegasket 91 in thebarrel 87, then a male threadedportion 99 is provided in the center of thegasket 95 extending axially in position to coact with thefemale thread 100 found in the socket end of theneedle 92. Then, just before the parts reach the position of FIG. 7, the threaded connection at 99, 100 may be completed by holding the gasket projection 91b against rotation about its axis as previously described. This completes a rigid connection between theparts 94, 90 and 91 so that thegasket 91 may be reciprocated in thebarrel 87 if desired.
Note that in every case I have provided a mixing syringe having a mixing chamber closed except for an inlet and an outlet and a second measured ingredient chamber having a closed but breachable passageway communicating with the mixing chamber inlet. Means is provided for opening the breachable passageway and for propelling the contents of the ingredient chamber into the mixing chamber with the ingredient already placed there after which the mixing chamber may be shaken to thoroughly mix the contents. Means is provided then for propelling the contents of the mixing chamber through the outlet to inject a patient. This provides a quick and easy manner of mixing two ingredients in place in a syringe just before injecting a pateint and is an improvement over methods previously known.
What is claimed is:
1. A combined mixing and injecting syringe comprising an outer first-ingredient-retaining barrel open at one end and having a discharge outlet at the other end, an inner second-ingredient-retaining barrel open at one end and having a discharge opening at its other end, breachable means initially closing said discharge opening, said other end having means for sealing engagement with the interior surface of said outer barrel and being movable axially in said outer barrel, a plunger adapted to sealingly engage the interior surface of said inner barrel and movable axially endwise of said inner barrel, whereby a first ingredient of a mixture may be placed in said outer barrel and held there by said inner barrel, and a second ingredient of said mixture may be placed in said inner barrel and held there by said plunger, after which said breachable means may be opened and said second ingredient may be propelled, by manipulation of said plunger, through said discharge opening into said first ingredient in said outer barrel, said two ingredients may be mixed there, and then said mixture may be propelled by said inner barrel through said discharge outlet, and wherein said means for sealingly engaging between said inner barrel and said outer barrel comprises a gasket impervious at the inner end of said inner barrel to provide said breachable means there, a hollow needle has one end substantially in engagement with said gasket and has its other end in position to communicate with said inner barrel, means is provided for relative movement of said inner barrel against said other end of said needle and for causing said needle to perforate said gasket, after which said ingredients may be mixed and said mixture may be propelled out of said discharge outlet.
2. A syringe as defined in claim 1 wherein said last named means comprises a hollow neck on said inner barrel having a threaded connection with said gasket, a needle-penetratable seal closing said neck on the upstream side of said needle, said outer barrel and said gasket being non-circular in section whereby turning of said inner barrel about its longitudinal axis will operate said threaded connection to advance said neck into said gasket causing said needle to perforate said seal, and there being inter-engageable parts on said neck and needle adapted to drive said needle through said gasket by operation of said threaded connection.
3. A syringe as defined in claim 1 wherein said last named means comprises a neck on said inner barrel having a threaded connection with said gasket, said needle rigidly carried by said neck with said other end of said hollow needle in communication with said inner barrel, said gasket having a portion extending outside said open end of said outer barrel for grasping by an operator in order to operate said threaded connection, the proportioning of the parts permitting such operation to drive said needle through said gasket.
4. A syringe as defined in claim 3, including a rigid connection between said plunger and said neck engageable by said plunger upon propelling said second ingredient out of said inner barrel and enabling reciprocation of said plunger and said gasket as a unit.
References Cited UNITED STATES PATENTS 2,724,383 11/1955 Lockhart 128272 XR 2,869,543 1/1959 Ratclifi et al. 3,336,924 8/1967 Sarnoff et al. 3,326,215 1/1967 Sarnoff et al. 128-272 XR FOREIGN PATENTS 815,749 7/1959 Great Britain.
RICHARD A. GAUDET, Primary Examiner MARTIN F. MAJESTIC, Assistant Examiner US. Cl. X.R.