|Publication number||US2671448 A|
|Publication date||Mar 9, 1954|
|Filing date||Feb 19, 1951|
|Priority date||Feb 19, 1951|
|Publication number||US 2671448 A, US 2671448A, US-A-2671448, US2671448 A, US2671448A|
|Inventors||Georgiana W Harnisch|
|Original Assignee||Georgiana W Harnisch|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (6), Referenced by (15), Classifications (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
March 9, 1954 F. l-Lluawscl-lI 2,671,448 AUTOMATIC HYPODERMIC SYRINGE Filed Feb. 19, 1951 2 Sheets-Sheet 2 MWQWWW 25 INVEN TOR.
7m@ Magwww Patented Mar. 9, 19574 AUTOMATIC HYPODERMI/C SYRINGE Fritz Harnjsch, deceased, late of New Orleans, La., by Georgiana W. Harnisch, administratrix, New- Orleans, La.
Application February 19, 1951, Serial No. 211,642
Z Claims. (Cl. 12S- 218) This invention relates to a novel form of automatic hypodermic syringe operating mechanism or device, constructed so as to avail of the usual hypoderrnic syringe in conjunction with simple, unique, and automatic features included in a unit with which the syringe is adapted to be associated.
This invention is an improvement upon prior application for patent, Serial No. 780,255, filed October 16, 1947, now Patent No. 2,531,267, issued November 2l, 1950, the primary improvements over that said application residing in a construction which makes possible completely automatic operation of the device herein described.
One of the primary features of this particular device is that it is suitable for use by persons who are not necessarily skilled in using the ordinary hypodermic syringe, since it includes certain features which carry out the sequence of injection of the needle into the epidermis, a forcing of the medicament through the needle and into the vein or other part of the body, as the case may be, and subsequent withdrawal of the needle when the injection of the medicament has been completed.
The device as a unit is entirely enclosed and maintains the syringe in a set condition preliminary to use and may be very simply operated by manipulation thereof; enabling unskilled ordinary persons to use the same, with very simple initial instructions.
While in his former device, disclosed in the application above referred to, he provided means for controlling the injection of the needle into the epidermis, manually, and withdrawal of the same manually, in the present disclosed device ell of the foregoing operations ere carried out in proper Sequence and by automatic .Operation of the unit or device shown.
I-Ie further provides means for eiecting ad,- justment of the device so as to limit or regulate the depth of penetration of the needle into the epidermis, and by e unique combination ei slid: able members under the control of Ysimple trisgers or releasing devices, eiect the entire op.- eration of hypcdermic injection, making possible a uniform method of procedure such as is commonly availed of by experts who use hypodermic syringes as general practice.
It is therefore an object of this invention to disclose such automatic means and arrangement of parts for carrying out the same, whereby persons who require the hypedermie injections 2 may be able to eifect them for themselves, without resorting to skilled assistance therefor,
It is a further object of this invention to provide a useful device having relatively few parts, so arranged and constructed as to carry out the sequence of operation by simple manipulation.
It is a still further object of this invention to provide a novel form of hypodermic syringe carrier, which carrier may be preloaded after the syringe is arranged thereon and by subsequent manipulation lthe needle of the syringe is carried into the epidermis, and at a predeter--. mined time, depending upon the characteristics of various springs and under the control of the operator, the medicament may be injected, and thereafter the needle of the hypodermic syringe is automatically withdrawn, whereby the oomplete operation is thus effected.
It is a further object of this invention to provide a novel form of cartridge associated with the carrier, which upon preloading may be released to move the carrier in one direction, and upon suitable manipulation of the releasing meinber said carrier will be moved in the other direction by the cartridge.
It is a still further object of this invention to provide a completely enclosed unit adapted to support therein the usual hypodermic syringe, including the needle thereof for manipulation in a manner to effect the desired injection of medicament.
An understanding of his invention will be had upon reference to the following detailed desorip.- tion and to the accompanying drawings, and fin the drawings:
Figure 1 is e t0n plan View of the mechanism of his device, showing the cover thereon in closed condition and the ventiel members their re.- lationship on opposite sides of the device,
YFigure 2 is a top plan view of the mechanism With the @over in eren position, ,Showing the hypedermie syringe in position the terrier., the Seme sure disclosing the device es initially loaded prior to injection.
Figure 3 is a plan view similar to Figure 2 Shelving the device es .hei/ine rermitted'iei/ee ment of the hvpederme Syringe as a Whole ic,- war-d the left, whereby the needle Aei the seme is injected into the epidermis preliminary to' ex, pulsieu ef the medicament therein.
Figure 4 is e View `similar te Figure 3 there@ the medicament has been expelled from the hypo.-
derme Syringe, and the terrier .is moved t0 the fight S0 es te Withdraw the needle iron? Lthe @P sti'ms- Figure is a longitudinal sectional view, somewhat fragmentary, illustrating relationship of various parts and associated springs when the device is in the condition disclosed in Figure 2.
Figure 6 is a sectional view, somewhat fragmentary in nature, disclosing the carrier as having been removed from the syringe, the same being in its preloaded position.
Figure 7 is a bottom view of the part of the device shown in Figure 6, disclosing certain parts of the latching and releasing mechanism.
Figure 8 is a sectional view taken about on the line 8--8 of Figure 5, through the cartridge, disclosing the means for maintaining the cartridge in loaded condition.
the form of the carrier.
Figure is an end view of Figure 1, looking from the left thereof, disclosing the cover (in full lines) in closed position and in its open position in the dotted lines.
Referring to Figures 1, 2 and l0, it will be noted that the device or unit comprises a housing including a cover I and a channel shaped body 2. The cover I is hingedly connected along one side of the open portion of the body by hinge members 3 formed with the cover I and hinge members 4 formed with the body 2. A hinge pin 5 engages members 3 and 4 in a manner to permit movement of the member I from the full line position shown in Figure l0 to the dotted line position shown therein.
Adjacent one end of the body 2 and at one side, an adjusting screw device Si is provided, comprising a threaded member 'I having a head 8 thereon adapted to abut with one of the hinge members 3 of the cover. A suitable nut 3 is provided for threaded engagement with the member l, the said member 'I being received in a cylindrical opening formed by rolling up the edge of the body at It). It will be obvious that manipulation 0f the nut 9 along the member 'I will permit movement of the cover I on the hinge pin 5, within limits, and for purposes to be hereinafter set forth.
The cover I is provided at one end with a hemispherical portion II, as seen in Figures 1 and 2, the said hemispherical portion II having an opening I2 therein, through which the needle of the hypodermic syringe can be projected. The
hemispherical or dome like portion II is intended to be placed against the epidermis during manipulation of the device as will be subsequently disclosed.
The cover member I is additionally provided with a frictional latch member I 3 adapted to engage the edge of the channel-like body 2 at the side opposite the hinge portions 4 thereof, so as to maintain the cover in its closed position, as seen in Figures 1 and 10.
The channel shaped body 2 is closed at one end as at I4, and is provided with a carrier generally designated I 5 for reciprocation therein.
Referring now to Figures 5 to 9 inclusive particularly, it will be noted that this carrier l5 includes a substantially U-shaped body member I6 supported in an inverted position within the channel shaped body 2. The upper cross piece of the body of the carrier I5 is provided with a cradle generally designated I1, adapted to support a conventional hypodermic syringe generally designated I8, thereon. This hypodermic syringe cradle I1 includes a pair of semi-circular spring members I9 to receive the body of the hypodermic syringe, a flange receiving member 20, to receive the flange of the said syringe, and
a pair of fingers 2I, between which the needle of the syringe is received. The foregoing provisions thus enable the hypodermic syringe to be removably seated on the carrier.
Near the lower edges of the depending sides of the inverted U-shaped carrier I6 (see Figure 9) a cross plate 22 is xed to the sides and extends from side to side and end to end of the said carrier member IG. This cross plate 22 divides the interior of the carrier l5 into upper and lower sections, as will be seen in Figure 9. In the lower section and beneath the cross plate 22, a plunger actuating slide 23 is supported. This is an L-shaped member including an upstanding portion 24 at one end thereof provided with a resilient bumper 25 for coaction with the plunger of the hypodermic syringe as will be later set forth. A cam portion 23a is formed on the other end of the slide 23. Suitable guide means 26 for the slide 23 are provided so as to maintain the same in position for reciprocation during operation of the mechanism, and shown particularly in Figure 7. A spring 2l fastened at 28 to the upstanding portion 24 of the slide 23, extends through the carrier body I6 in the upper portion thereof, from the cross plate 22, and is fastened at 29 to the said cross plate, said spring 21 being so constructed as to be placed under tension when expanded, for purposes to be made clear as this description proceeds. In order to maintain the slide 23 in the position shown in Figure 6, wherein the spring 2l is under tension, a suitable latch unit generally designated 3U is provided. This latch unit 3Q comprises a plate 3l fastened by pins 32 to opposite sides of the guide means for the slide on the opposite sides of the carrier body I5. The latch unit 30 further includes an arm 33 pivotally connected at 34 to the plate 3l. One end of the arm 33 is provided with a notch adapted to engage a down-turned ear or detent 35 formed near one end of the slide 23. The other end of the arm 33 includes a cam portion 31 for coaction with a releasing detent as will be later set forth. A suitable spring 33a, connected to the arm 33 and one of the pins 32, tends to maintain the notch 35 engaged with ear 36.
In the upper section or" the carrier I5 a cartridge generally designated 38 is provided (see Figure 5), the said cartridge including means for reciprocation of the entire carrier I5 in both directions in the housing 2. The cartridge 38 includes a body 39 comprising a tubular member rectangular in cross section, divided into two passages extending longitudinally thereof, as seen in Figure 9.
The division of the body 39 of the cartridge provides therefor two substantially rectangular passages. A tension spring 40 is fastened at one end to a portion of the cartridge as at 4i, and extends through one of the passages, in turn being fastened at 42 (see Figures 2 and 4) to the end wall I4 of the body 2. A compression spring 43 is seated in the other passage of the cartridge body 39 against a closure 44 for the passage. A spring guide 45 in the form of a rod having a foot 46 thereon, is provided, the rod 45 being entered in the coils of the spring 43. The foot 46 engages an end 4l of the carrier I5, this end being a closure for that section of the carrier in which the cartridge 38 reciprocates. The foregoing arrangement provides means for moving the cartridge 38 relatively outwardly, or towards the left' in Figure 5,' upon expansion of the spring 43 from the compressed. position shown in said gure. A suitable resilient bumper 48 is fixed in the end of the passage and adapted to abut end wall I4 of the housing 2 during operation of the device as later explained.
The cartridge 38 is provided with a notch 49 formed in the lower side thereof for coaction with a detent 50 (see Figure 8) the said detent being pivoted at 5I to the cross plate 22 previously mentioned, the said detent 50 being below the said cross plate. The detent 50 is adapted to be held in the position shown in Figure 8 by means of a suitable spring 52. In view of the foregoing itwill be apparent that the spring 43 will be conditioned by loading the same, when the cartridge 38 is moved to the right, to the position shown in Figures 5 and 8, and. the car-v tridge will therefore be in position to move the carrier I5 as a whole to the right. This will be effected by abutment of the resilient bumper 48 with the end wall I4 of the housing 2 in a manner to be hereinafter set forth.
As seen in Figure 5, the cartridge 38 is additionally provided with a notch 53 located on the side thereof for engagement by a carrier holding latch 54. The latch 54 is pivotally supported on the housing 2 at 55 and includes a notch engaging portion 56. A suitable elongated opening 39a in the cartridge body 39 is provided whereby the portion 56 projects therethrough to engage the notch 53 in a manner and for purposes to be further explained.
A carrier releasing mechanism 51 (see Figure 3), includes a releasing trigger 58 suitably supported at 59 on the housing 2, a spring 6D being availed of to maintain the trigger in nonoperating condition as shown in said figure. Pressing inwardly on the trigger 58 against the spring 50 will cause a cam section 6I thereof to engage the cam portion 31 of the arm 33 (see Figures 3, 4, and 7), whereby the arm is pivoted in countercloclrwise direction and thus the notch 35 in the said arm is disengaged from the detent 36 of the slide 23. The slide 23 will thereupon move to the left from the position of Figures 3 and 7 to the Figure 4 position, to ei'ect expulsion of the medicament in the syringe I8.
It will be apparent that as the slide 23 reaches its extreme leftward position the cam portion 23a thereof will engage the detent 55 and thus release the cartridge 38 whereby the carrier I5 as a whole will thereafter be moved to the right by expansion of the spring 43 in the said cartridge.
A description of the operation of the mechanism hereinbefore described will now be set forth, said operation including a detailed explanation of the initial setting movements required to place the mechanism in condition for operation, and the subsequent releasing cycle which follows to eifect the introduction of the medicament at the point desired.
With the carrier I5 shown in the position of Figure 4, the slide 23 is moved toward the right to a position where the notch 35 of the arm 33, in the latch mechanism 3|l is engaged by the detent 36 on the said slide. This will maintain the slide in the position shown in Figure 6. Thereafter by pushing on the upstanding portion 24 toward the left, the notch 49 on the lower side of the cartridge 38 is engaged by the detent 50 in the carrier i5. When the cartridge is in relatively locked relationship with the carrier I5, subsequent movement of the carrier as a whole toward the right, by pushing on the bumper for example, will cause the. engagement of the notch 53 on the side of the cartridge, with` the carrier holding latch` 54. When. the above cycle of operation has been undertaken the position of the parts will be that shown in Figure 2, the slide 23 and bumper thereon being in substantially the extreme right position. in the housing 2 of the mechanism. It should also be noted that the spring 2T is expanded placing the same under` tension, the same being true of the spring in the cartridge 38. The spring 43 within the cartridge will have been placed. undery compression by reason of the relative movement of the cartridge in the carrier towards the right, as above set forth.
With the various parts in the position shown in Figure 2, the syringe I8v is placed on the cradle I1 with the plunger of the syringe in its extended position so as to abut the cushion or bumper 25. It will be noted that the needle of the syringe will be completely enclosed` within the device when the cover I thereof is closed so as to assume the position shown in Figure 1. This is the normal preliminary position with all. the parts completely enclosed within the device, ready for use in its injecting operation.
The point of injection having been selected previously, the hemispherical portion II of the housing I is placed in position on the epidermis and the following releasing cycle will be carried forth:
The carrier holding latch 54 is pressed so as to assume the position shown in Figure 3, whereby the locking portion 56 thereof becomes disengaged from the notch 53 of the cartridge 38 and thus the spring is permitted to contract. This moves the entire carrier I5 toward the left and the needle of the hypodermic syringe penetrates the epidermis through the opening I2 in the cover I. Thereafter the releasing trigger 51 is pressed, so as to compress spring 60. This compression moves the arm 33 of the latch unit 30 and eiects disengagement of the notch 35 on the arm from. the detent 35 in the slide 23. This will permit the slide` to move toward the left, the rubber bumper or resilient cushion 25 on the slide contacting the plunger of the syringe and forcing the contents thereoflthrough the needle into the patient. When the slide 23 has moved to its extreme left position in its relation to the carrier I5, cam portion 23a thereof will engage the detent and move the same in a clockwise direction around the pivot 5i so as to become disengaged from the notch 49 of the cartridge 38. It will be understood that at this point the contents of the hypodermic syringe I3 have been ejected therefrom through the needle and the operation of releasing of the detent 50 will permit the spring 43 within the cartridge 33 to expand. The contact of the cushion 48 on the end of the cartridge will force the carrier as a whole to the right, carrying with it the syringe I8 and the needle-thereon. This action above described may be properly called the withdrawal action. The parts of the device just described will thereupon have assumed the position shown in Figure 4, the operation just described having been substantially automatic under the control of the carrier holding latch 54 and the releasing trigger 58.
In view of the foregoing it will be apparent that he has provided a device which is substantially completely automatic as to its needle injection operation, the ejection of the medicament from within the hypodermic syringe, and the subsequent withdrawal of the needle from the patient in a unique and novel manner under the control of suitable instrumentalities provided therefor.
Having thus described the invention, what is claimed as new and desired to be secured by Letters Patent of the United States is:
1. Mechanism of the class described, in combination, a housing, a carrier in the housing, a hypodermic syringe on the carrier including a needle and a plunger, a syringe plunger operating slide mounted in said carrier for moving the plunger, releasable means for moving the carrier in one direction, automatic means operable after movement of the carrier` in said one direction has been completed to eject the contents of the hypodermic syringe, said automatic means including means for moving the carrier in the opposite direction, actuated incident to comple: tion of ejection of contents of the syringe, the means for moving the carrier in one direction and the means for moving the same in the opposite direction, comprising a cartridge slidably mounted in the carrier, a detent on the carrier for engagement with said cartridge, a spring conditioned for actuation by relative movement of the cartridge with respect to the carrier, in one direction, a spring conditioned for actuation by movement of the cartridge with respect to the carrier in another direction, and means on the housing for releasing said carrier for movement by one of said springs in said one direction.
2. Mechanism as claimed in claim 1, wherein the carrier includes means for releasing the other spring to operate to move the carrier in the said other direction.
3. Mechanism of the class described, in combination, a housing, a carrier in the housing, a hypodermic syringe on the carrier including a needle, releasable means for moving the carrier in one direction, automatic means operable after movement of the carrier in said one direction has been completed to eject the contents of the hypodermic syringe, said automatic means including means for moving the carrier in the opposite direction, actuated incident to completion of ejection of contents of the syringe, the syringe having a plunger, the means operable on movement of the carrier in said one direction to eject the contents of the syringe comprising a slide provided with a portion in engagement with said plunger, a latch unit in the said carrier, a spring for causing relative movement of the carrier and the slide, and a releasing trigger on the housing cooperable with said latch unit to release said slide and permit movement of the same by the said spring.
4. Mechanism of the class described, in combination, a housing, a carrier in the housing, a hypodermic syringe on the carrier including a needle and a plunger, releasable means for moving the carrier in one direction, automatic means operable after movement of the carrier in said 8. one direction has been completed to eject the contents of the hypodermic syringe and including a slide having a part engaging said plunger to eject the contents of the syringe, said automatic means also including means for moving the carrier in the opposite direction, actuated incident to completion of ejection of contents of the syringe, the housing comprising a channel shaped body member and a cover hinged thereto. the carrier includes a substantially U-shaped body member and a cross plate therein, the said slide mounted for reciprocal movement in the carrier below said plate, a tension spring fastened to said slide and to said cross plate and extending through said body member, a latch unit adapted to restrain said slide and means on the body member to release said unit when the carrier moves to a position adjacent one end of the body member aforesaid.
5. Mechanism of the class described, in combination, a housing, a carrier in said housing, a hypodermic syringe on the carrier including a plunger, an operating member` on said carrier for engagement with the plunger of said syringe for moving said plunger, and a cartridge in said carrier, said cartridge including means for releasable engagement with the carrier and with the housing aforesaid, automatically operable means between said cartridge and said carrier for eecting relative movement thereof, other automatically operable means between said cartridge and said housing for effecting movement of said carrier with respect to said housing, and means for releasing both of said movement effecting means.
6. Mechanism as claimed in claim 5, wherein the means for effecting relative movement between said cartridge and said carrier includes a compression spring, and a detent on the carrier is provided for releasing said spring.
7. Mechanism as claimed in claim 5, wherein the means for effecting movement of said carrier with respect to said housing, comprises a tension spring connected to said carrier and said cartridge, and the means for releasing said spring comprises a trigger on the housing,
GEORGIANA W. HARNISCH, Administratrix of the estate of Fritz Harnzsch,
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 2,531,267 Harnisch s Nov. 21, 1950 FOREIGN PATENTS Number Country Date 143,084 Great Britain May 20, 1920 214,232 Great Britain Dec. 18, 1924 371,002 Italy May 8, 1939 378,714 Germany July 30, 1923 452,341 Italy Oct. 21, 1949
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US2531267 *||Oct 16, 1947||Nov 21, 1950||Fritz Harnisch||Hypodermic syringe operating device|
|DE378714C *||Jul 30, 1923||Charles De Montet Dr||Selbsttaetiger Injektionsapparat|
|GB143084A *||Title not available|
|GB214232A *||Title not available|
|IT371002B *||Title not available|
|IT452341B *||Title not available|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2960087 *||Feb 16, 1954||Nov 15, 1960||Auguste Rooseboom||Hypodermic injection apparatus|
|US3064650 *||Apr 15, 1959||Nov 20, 1962||Elder S Trustee And Executor C||Device for automatically effecting injections with a hypodermic syringe|
|US3656472 *||Apr 8, 1970||Apr 18, 1972||Moura Pierre Ben||Instrument for the parenteral penetration of a needle|
|US3702608 *||Dec 15, 1970||Nov 14, 1972||Tibbs Robert C||Painless injection device with powered plunger|
|US3886938 *||Oct 23, 1973||Jun 3, 1975||Scala Anthony||Power operated fluid infusion device|
|US3941130 *||Mar 18, 1975||Mar 2, 1976||Tibbs Robert C||Sequential trigger release for injection device|
|US4196730 *||Aug 1, 1977||Apr 8, 1980||Wilson Dennis R||Liquid drug dispenser|
|US4228922 *||Oct 23, 1978||Oct 21, 1980||Ryuzo Takeshita||Apparatus for injecting a desired volume of liquid in liquid and gas-liquid chromatography|
|US4261358 *||Oct 1, 1979||Apr 14, 1981||Walter Vargas||Automatic syringe plunger|
|US4333459 *||Mar 4, 1981||Jun 8, 1982||Michael Becker||Intramuscular injection device suitable for insulin injections|
|US4351332 *||Mar 27, 1981||Sep 28, 1982||Whitney Douglass G||Split nut for injector|
|US4547189 *||Mar 5, 1984||Oct 15, 1985||John A. Long||Insulin syringe injector apparatus with auto-aspirator feature|
|US5141496 *||Jan 27, 1992||Aug 25, 1992||Tino Dalto||Spring impelled syringe guide with skin penetration depth adjustment|
|USRE32922 *||Apr 2, 1987||May 16, 1989||Paul D. Levin||Blood sampling instrument|
|DE1038718B *||May 31, 1954||Sep 11, 1958||Deare Soc||Vorrichtung zum Betrieb von Injektionsspritzen|
|Cooperative Classification||A61M5/2033, A61M2005/206, A61M2005/2418|