US2902995A - Hypodermic syringe and needle hub structure - Google Patents

Description

Sept. 8, 1959 D. A. LOPER HYPODERMIC SYRINGE AND NEEDLE HUB STRUCTURE Filed Oct. l1, 1954 nited States Patent HYPODERMIC SYRINGE AND NEEDLE HUB STRUCTURE Douglas A. Loper, Winnetka, Ill., assignor 'to Abbott Laboratories, North Chicago, Ill., a corporation of Illinois Application October 11, 1954, Serial No. 461,545

9 Claims. (Cl. 128-215) This invention relates to a hypoderrnic syringe assembly and more particularly to an improved plastic hypoderrnic syringe structure adapted to be iixedly engageable with a hypoderrnic needle hub and to the improved hypoderrnic needle hub.

There is presently in use a plastic hypoderrnic syringe which serves as a container for a medicament having a closure cap member disposed in sealing engagement with athe discharge outlet and in the absence of said closure :member the discharge outlet is adapted to support a hy- ,-poderrnic needle. In at least one plastic syringe of the foregoing type, however, there is a tendency for the hypoderrnic needle hub to be forced out of axial alignment or become disengaged from the discharge outlet of the syringe body while insertion of the hypoderrnic needle into the patient or during administration.

It is therefore an object of the present invention to provide a plasticr 'hypoderrnic syringe having a more economical means for fxedly securing a hypoderrnic needle hub thereto.

It is also `an object of the present invention to provide an improved plastic hypoderrnic syringe having a more economical means for maintaining a hypoderrnic needle v'hub in Iaxial alignment with the hypoderrnic syringe bar- 1161.

It is `a still further object of the invention to provide an improved hypoderrnic needle hub structure for use with a plastic hypoderrnic syringe which is more readily iixedly secured to the said plastic hypoderrnic syringe.

The foregoing and other objects of the invention will `be readily appreciated by reference to the following detailed description and claims when considered in connecrtion with the accompanying drawing wherein:

Figure l is an exploded perspective view of a hypoder- .mic syringe embodying one form of the present inventtion;

Figure 2 is a fragmentary vertical sectional view partially in elevation of the end of a hypodermic syringe barrel `and hypoderrnic syringe needle hub of the present invention;

Figure 3 is a fragmentary Vertical sectional view showing the end structure of the hypoderrnic syringe of Figure 2;

Figure 4 is a fragmentary vertical sectional View partially in elevation of a modified hypoderrnic syringe body and a modified hypoderrnic needle hub of the present invention;

Figure 5 is a fragmentary vertical sectional view showing the end structure of the hypodermic syringe shown in Figure 4;

Figure 6 is a fragmentary vertical sectional View partially in elevation of a modified form of hypoderrnic syringe body and modified hypoderrnic needle hub of the present invention;

Figure 7 is an end view of the hypoderrnic needle hub shown in Figure 6;

Figure 8 is a fragmentary vertical sectional view of a modified form of hypoderrnic syringe body and modiiied hypodermic needle hub of the present invention.

In Figure 1 of the drawing, the syringe illustrating the present invention is composed essentially of three principal parts, namely a hypoderrnic syringe body section orbarrel 10, a piston-plunger 20, and a hypoderrnic needleyand hub assembly 30. Thebarrel 10 is a hollow plastic cylindrical tube, such as: molded polyethylene plastic, having an open end `11 and having the opposite end thereof partially closed by a generallytransverse end Wall 12. Thetransverse end wall 12 has an axially aligned dispensing ordischarge tube 13 integral therewith and extending outwardly therefrom. Also extending outwardly from theend wall 12 Iand disposed concentrically about theaxial discharge tube 13 is an axial iiange orskirt member 14. Theexterior surface 15 of thedischarge tube 13 is preferably tapered to approximately the dimensions of a standard Luer taper for engagement with a hypodermic needle hub having a 'standard female Luer taper on the interior surface thereof. A removable cup-shaped cap member 22 is disposed on the end of the hypoderrnic syringe in the absence of a hypoderrnic needle hub assembly and is adapted to form a sealing engagement with thedischarge tube 13 and with the axi-al flange 14 of the syringe body. Integral with the wall of thebarrel 10 yand disposed adjacent the upper end thereof arelinger grips 19, 19 which extend laterally from thesyringe barrel 10. Braces 21, 21 are preferably provided to strengthen each of thefinger grips 19, 19.

In accordance with the form of the present invention disclosed in greater detail in Figures 2 and 3, thehypoderrnic syringe body 10 is provided with an axial liange orskirt member 23 extending outwardly from end wal-l 12. Disposed on the inner lateral surface of theaxial liange 23 and adjacent the outer end thereof is a circular groove ornotch 24 forming a circular recess` or retaining groove in thelaxial flange 23. Mounted on thedischarge tube 13 is a hypoderrnicneedle hub assembly 31 having a standard Luer taper at the end thereofl and having a substantially cylindricalexterior surface 32, saidcylindrical surface 32 having a ydiameter substantially the same as the interior diameter of thecircular flange 23. Intermediate the ends of thecylindrical surface 32 of the hub and disposed on the outer surface thereof is a circular ridge orring member 33 extending circumferentially about thecylindrical hub surface 32. Thecircular ridge 33 is preferably provided with abearing surface 34 which extends substantially perpendicular to the lateralcylindrical surface 32 of the hypoderrnic needle hub and an inwardly and rearwardlytapered surface 35 which merges into thecylindrical surface 32. Theinner surface 16 of theend wall 12 is preferably concave inwardly with a central funnel-shaped opening 17 extending into the axial passage or bore 18 through thedischarge tube 13.

In the modified form of the invention shown in Figures 4 and 5 of the drawing, thehypodermic syringe body 10 is provided with an axial liange orskirt member 40 which extends outwardly approximately the length of thedischarge tube 13. On the inner lateral surface of theaxial flange 40 yare disposed at least one and preferably a plurality of circular saw-tooth retaining rings 41 extending approximately from theend wall 12 outwardly, preferably to the outer end thereof. Seated on the end of the hypoderrnicsyringe discharge tube 13 is a further modilied hypoderrnic needle hub structure having disposed about its outercylindrical hub surface 43 and preferably adjacent the inner end thereof a circular flange or retainingring 42 of a diameter slightly larger than the diamelter of the cylindrical surface d3 of the hypoderrnic needle In the modified form of the invention shown in Figures 6 and 7 of the drawing, the hypodermic syringe body i0 is provided with an axial flange t) extending outwardly a distance approximately the length of thedischarge outlet 13. Mounted on the discharge outlet 113 is a still further modified form of hypodermic needle hub assembly having intermediate the ends of the cylindrical section 51 a plurality of laterally extending projections orbarbs 52 each of which has abearing surface 53 extending substantially perpendicular to the lateralcylindrical surface 51 and an inwardlytapered surface 54 which merges into thecylindrical surface 51 to form a relativelysharp edge 55 at the outer extremity of theprojection 52.

In the modified form of the invention shown in Figure 8 of the drawing, thehypodermic syringe body 10 is provided with anaxial ange 60 extending outwardly a distance approximately the length of thedischarge outlet 15. The inner lateral surface of theaxial ange 60 intermediate the ends thereof is provided with an integral inwardly extendingring section 61. Mounted on thetube 13 and engaging theange 60 is ahypodermic needle hub 62 having a cylindricallateral hub surface 63 provided with a groove ornotch 64 intermediate the ends thereof, saidgroove 64 being disposed so as to coact with thering section 61 when the hypodermic needle hub is substantially fully seated on thedischarge tube 13.

In operation, the cap member 122 normally sealing the discharge outlet of the hypodermic syringe container is removed immediately before use and a hypodermic needle hub of the type described herein is placed securely in engagement with thedischarge outlet 13. In the modification illustrated in Figures 2. and 3 of the drawing, the hypodermic needle hub having thecircular ridge 33 intermediate the ends on thecylindrical surface 31 is inserted into the raceway formed between the outertapered surface 15 of thedischarge outlet 13 and theinner surface 25 of theaxial flange 23. While the hypodermic needle hub `is being seated on thedischarge outlet 13 and irnmediately before becoming fully seated thereon, thecircular ange 33 moves into seating engagement with thegroove 24 adjacent the outer end of the axial ange Z3. Thebearing surface 34 securely engages the inner surface of thegroove 24 and resists outward longitudinal movement and tilting of the hypodermic needle and hub is substantially eliminated.

The modied form of the invention shown in Figures 4 and 5 is assembled in substantially the same manner as is the modification shown in Figure 2 of the drawing with thecircular iange 42 engaging one of the `plurality of saw-tooth rings adjacent the inner end of theaxial ange 40, thereby securely holding the hypodermic needle hub in rigid, non-tilting engagement with the hypodermic syringe body.

In the modified form of the hypodermic syringe and hypodermic needle hub shown in Figures 6 and 7 of the drawing, the hypodermic needle hub having the plurality of laterally extendingbarbs 52 is inserted into the raceway formed by thedischarge outlet 13 and the axial flange 50 and is moved inwardly until the hypodermic needle hub is fully seated on thetapered discharge outlet 13. While the hypodermic needle hub is being seated, thebarbs 52 slide over the inner surface of the axial flange 50. When the hub is fully seated, thebarbs 52 penetrate into the inner walls of the axial flange 50 and become imbedded therein. When an outwardly axial -force or tilting force is exerted on the hypodermic needle or hub, thebearing surfaces 53 of thebarbs 52 engage the axial iiange 50 and firmly resist any outwardly longitudinal or tilting force exerted on the hypodermic needle or hypodermic needle hub, thereby securely hold- -ing the hypodermic needle in rigid, non-tilting engagement with the hypodermic syringe barrel.

In the modification of the invention shown in Figure 8 of the drawing, thehypodermic needle hub 62 having the 'groove' 64 in the cylindrical lateral surface thereof isY assembled by inserting the hub into the raceway between theaxial flange 60 anddischarge tube 13 and moved inwardly until the hub is fully seated on the discharge outlet and thering section 61 is fully in engagement with thegroove 64 of the hypodermic needle hub, thereby rmly holding the hypodermic needle hub in operative association with the discharge outlet tube of the syringe body.

-In the embodiments of the present invention herein described, the hypodermic syringe body is preferably made of an inexpensive plastic, such as polyethylene plastic, nylon or other material having similar properties. Polyethylene is particularly suitable since -it has a marked degree of flexibility and a high tensile strength. A syringe made of the foregoing plastic material is practically non-breakable and can withstand considerable abuse. Polyethylene is also very inert toward most medicaments, thereby making it particularly suitable for use as a syringe which also functions as a medicinal container.

Others may readily adapt the invention for use under various conditions of service, by employing one or more of the no-vel features disclosed or equivalents thereof. As at present advised with respect to the apparent scope of my invention, I desire to claim the following subject matter.

I claim:

l. An improved hypodermic syringe comprising a plastic syringe body having at one end an axial tapered delivery tube and an axially extending deformable wall section spaced outwardly from said delivery tube and disposed concentrically thereabout forming a hypodermic needle hub receiving raceway between the delivery tube and the said ywall section which has a length substantially equal to the delivery tube, the inner surface of `said deformable wall section being substantially cylindrical throughout its entire length and having formed therein intermediate the ends thereof a circular retaining groove adapted to resiliently engage an enlarged diameter ring of a hypodermic needle hub when the said hug) is in operative engagement with the said delivery tu e.

2. An improved hypodermic syringe comprising a plastic syringe body having at one end an axial delivery tube and an axially extending deformable wall section spaced outwardly from said delivery tube and disposed concentrically thereabout forming a hypodermic needle hub receiving raceway between the delivery tube and the said wall section which has a length substantially equal to the delivery tube, the inner surface of said deformable wall section being substantially cylindrical throughout its entire length and having intermediate the ends thereof a plurality of saw-tooth retaining rings adapted to resiliently engage an enlarged diameter ring of a hypodermic needle hub when the said hub is in operative engagement with the said delivery tube.

3. An improved hypodermic syringe comprising a plastic syringe body having at one end an axial delivery tube and an axially extending deformable wall section spaced outwardly from said delivery tube and disposed concentrically thereabout forming a hypodermic needle hub receiving raceway between the delivery tube and the said wall section which has a length substantially equal to the delivery tube, the inner surface of said deformable wall section being substantially cylindrical throughout its entire length and having intermediate the ends thereof an integral ring section lying in a single plane extending into said raceway and adapted to resiliently engage a small diameter section of the hypodermic needle hub when the said hub is in operative engagement with the said delivery tube. i

4. An improved hypodermic syringe comprising a plastic syringe body having at one end an axial delivery tube and an axially extending deformable wall section spaced outwardly from said delivery tube and disposed concentrically thereabout forming a hypodermic needle hub receiving raceway between the delivery tube and the said Wall section, the said deformable wall section having a length substantially equal to the said delivery tube, and the inner surface of said deformable Wall section forming a substantially smooth cylindrical surface throughout its entire length and being adapted to be penetrated by one or more protruding barbs mounted on the hub of a hypodermic needle disposed in operating engagement with the delivery tube of the said hypodermic syringe.

5. An improved hypodermic needle in combination with a disposable plastic syringe, comprising a plastic syringe having a tapered discharge outlet and an axially extending deformable wall section having a length substantially equal to the discharge outlet and spaced outwardly from said discharge outlet and concentrically disposed thereabout forming a hypodermic needle hub receiving raceway, and la hypodermic needle with a cylindrical hub section which has a length substantially equal to the delivery tube being substantially cylindrical throughout its entire length and With a hypodermic needle cannula secured therein and the other end thereof telescopically engaging the discharge outlet of the plastic syringe, said hub section having at least one annular section thereof with a diameter differing substantially from the normal diameter of the said hub section which tits in said raceway and resiliently engages the said Wall section of the plastic syringe.

6. An improved hypodermic needle in combination with a disposable plastic syringe, comprising a plastic syringe having a tapered discharge outlet and an axially extending deformable wall section having a length substantially equal to the discharge outlet and spaced outwardly from said discharge outlet and concentrically disposed thereabout forming a hypodermic needle hub receiving raceway, and a hypodermic needle with a cylindrical hub section with a hypodermic needle cannula secured therein and the other end thereof telescopically engaging the discharge outlet of the plastic syringe, said hub section having intermediate the ends thereof a circular ridge section of greater diameter than the cylindrical hub section and resiliently engaging the said inner deformable wall section of the hypodermic syringe.

7. An improved hypodermic needle in combination with a disposable plastic syringe, comprising a plastic syringe having a tapered discharge outlet and an axially extending deformable Wall section having a length substantially equal to the discharge outlet and spaced outwardly from said discharge outlet and concentrically disposed thereabout forming a hypodermic needle hub receifving raceway, and a hypodermic needle with a cylindrical hub section with a hypodermic needle cannula secured therein and the other end thereof telescopically engaging the discharge outlet of the plastic syringe, said hub section having disposed on the lateral surface thereof intermediate the ends thereof a retaining ring of greater diameter than the said hub section resiliently engaging a retaining groove in the said wall section of the hypodermic syringed 8. An improved hypodermic needle in combination with a disposable plastic syringe having a discharge outlet and an axially extending deformable Wall section having a length substantially equal to the discharge outlet and spaced outwardly from said delivery tube and concentrically disposed thereabout forming a hypodermic needle hub receiving raceway, comprising a cylindrical hub section with a hypodermic needle cannula secured therein and the other end thereof adapted to telescopically receive the discharge outlet of the plastic syringe, said hub section having intermediate the ends thereof a circular groove -section of smaller diameter than the said hub section resiliently engaging an enlarged diameter ring section on the said wall section of the hypodermic syringe when the hypodermic needle hub is in operative engagement with the discharge outlet of the hypodermic syringe.

9. An improved hypodermic needle in combination with a disposable plastic syringe having a discharge outlet and an axially extending cylindrical deformable wall section having a length substantially equal to the discharge outlet and spaced outwardly from said delivery tube and concentrically disposed thereabout forming a hypodermic needle hub receiving raceway, comprising a cylindrical hub section With a hypodermic needle cannula secured therein and the other end thereof adapted to telescopically receive the discharge outlet of the plastic syringe, said hub section having mounted on the lateral surface of the cylindrical hub section a plurality of barbs resiliently engaging the inner surface of the cylindrical deformable wall section of the hypodermic syringe when the hypodermic needle hub is in operative engagement with the discharge outlet of the hypodermic syringe.

References Cited in the file of this patent UNITED STATES PATENTS 2,538,390 Smith Ian. 16, 1951 2,661,740 Hickey Dec. 8, 1953 2,677,374 Burnside May 4, 1954 2,695,612 Fields Nov. 30, 1954 2,757,672 Ogle Aug. 7, 1956 2,764,978 Everett Oct. 2, 1956 FOREIGN PATENTS 496,910 Great Britain Dec. 8, 1938 1,036,042 France Sept. 2, 1953 UNITED STATES PATENT @TTTCT @ERTIFICATE @F CQRRECMN Peent NoQ 2,902,995 Sep'bemmef 89 M959 Douglas AQ Lope? Column 5y linesA l'? to 19y Strike out "which s length sull-S3 equal to the delivery tub' e 'being sube'buftally cylindrical throughout; it entire length andh,

(SEAL) Attest:

KARL Ho AXLINE ROBERT C. WATSUN Attestng @Hicer Commissioner of Patents

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