JPH09512718A - Syringe actuator by elastic force - Google Patents

Abstract

(57) Summary The syringe actuation device (10) includes an elastic element (26) removably attachable to the outlet end (14) of the syringe (12), the elastic element (26) comprising a gripping member (26). 48) can be detachably attached. The gripping member (48) allows the elastic element to be pulled distally along the syringe barrel (16) and seated abuttingly on the distal end of the syringe plunger (18). In the first and second embodiments, the elastic element (26) is mounted between the eyelet (22) and the end cap (24) which engages the distal end of the plunger (18). Seat the eyelet (22) around the outlet end (14) with the plunger (18) in the withdrawn position and engage the end cap (24) with the distal end of the plunger (18). In doing so, the elastic element (26) is extended along the length of the syringe, biasing the plunger (18) towards its insertion position. In the first embodiment, the elastic element (26) comprises one or more elastic straps, including a first end (52) and a second end (54), the first end (52). ) And the second end (54) are detachably fixed to the eyelet (22). Each elastic strap (26) has an intermediate portion secured to the end cap (24).

Description

DETAILED DESCRIPTION OF THE INVENTION Syringe actuator by elastic force [Disclosure of Related Application] Application No. 08/300, filed on September 2, 1994, currently pending No. 157 is a partial continuation application. Said application number 08/300, 157 is Application No. 08/208, filed March 9, 1994, which is currently pending. No. 729 is a partial continuation application. TECHNICAL FIELD OF THE INVENTION The present invention generally relates to Fluid injection device for medical use, For more information, An infusion device for administering a liquid drug to a patient by inserting a filled syringe into an intravenous administration system. [Prior art] For a long time, Various devices have been developed for the intravenous infusion of liquid medication into a patient at a controlled flow rate. For example, Many years Gravity flow intravenous dosing devices have been used. Recently, an intravenous administration device equipped with an electric pump has been developed. There are applications where it is desirable or necessary to use a smaller and cheaper type of intravenous administration device. For example, In addition to injecting the primary venous flow directly from the syringe, It is often necessary to inject secondary venous fluid into the primary venous flow from a gravity flow or electric pump type intravenous delivery device. When injecting into ambulatory patients, Less bulky than gravity or electric pump type intravenous delivery devices, Not complicated, Moreover, there is often a need for an injection device that is much easier to use. Relatively complex self-contained, powered injection devices are often used for such applications. It is usually impractical or inconvenient to perform long-term infusions using a typical manually operated intravenous injection syringe, It is also often difficult to keep the injection flow rate substantially constant. In the conventional device, to solve this problem, Various syringe actuation mechanisms have been developed to provide more or less constant fluid flow over time. One type of syringe actuation mechanism is An inner or outer spring is used to bias the syringe plunger. Examples of such syringe actuation mechanisms include: US Patent No. 4, 381, No. 006, Fourth, 597, 754, Fourth, 608, 042, Fourth, 623, No. 330, Fourth, 755 No. 172, Fourth, 966, No. 585, Fifth 078, No. 679 and No. 5, 100, There is 389. Conventional spring-loaded syringe actuation mechanisms While solving the above mentioned problems with manual injectors to varying degrees, Complex, Relatively heavy, Further, there are other drawbacks such as relatively high cost. The syringe actuation mechanism with a spring built in will inevitably increase the manufacturing cost of the syringe itself, Not suitable for single-use single-use syringes. Also, Those with a spring exterior are typically cumbersome to operate, Another step is often required to attach the syringe to the dispenser. As another measure, Some use an elastic band to provide the plunger push down force within the syringe. This device example US Patent No. 4, 636 197, Fourth, 950, No. 163, Fifth 024 No. 662, And the German Democratic Republic Patent No. 69, No. 428. Elastically powered syringes are typically simpler in construction and cheaper to manufacture than spring type syringes. Elastic powered syringes are also usually easy to use, Good suitability for single use. However, such a conventional elastic-powered injector has a big drawback that it is necessary to specialize the design shape of the injector, For this reason, it cannot be easily applied to a standard type intravenous injection syringe. Therefore, Small, Self-powered, While maintaining an almost constant flow rate for a long time, Cheap to manufacture, Easy to use, There is still a need for an intravenous dosing device that is suitable for single-use use with standard form intravenous dosing syringes. Not satisfied. [Problems to be solved] Small size, Self-powered, While maintaining an almost constant flow rate for a long time, Cheap to manufacture, Easy to use, It is an object of the present invention to provide an intravenous administration device adapted for use in a single use with a standard type intravenous administration syringe. [Means for Solving Problems] In a broad sense, The present invention is a syringe actuation device (hereinafter, (Also referred to simply as a device), An elastic element in the form of a strap or band, Intravenous syringe (hereinafter, (Also referred to simply as a syringe) a proximal portion that fits into the outlet end of the syringe, It includes a resilient element having a distal end of a syringe plunger and an engageable distal portion. In some preferred embodiments, This device is An eyelet assembly that fits into the outlet end of the syringe, An end cap having a handle or finger grip for engaging the distal end of the syringe plunger. An elastic element coupled to the end cap and the eyelet assembly to seat the eyelet assembly around the outlet end of the syringe. When the end cap is seated on the far end of the plunger, Resilient elements are configured to extend along the length of the syringe between the eyelet assembly and the end cap on each side of the diameter of the syringe. Pre-fill, When the plunger is attached to the syringe with the syringe barrel pulled out, the elastic element is stretched and becomes tensioned, The plunger is biased towards its insertion position. When the plunger is pushed into the barrel of the syringe as the elastic element returns to its unstretched state, The fluid in the syringe barrel is forced out of the outlet end of the syringe. In a first preferred embodiment, the elastic element is an elongated elastic strap, It has a single hole near its one end, Also, in the vicinity of the other end, It has a plurality of holes arranged linearly. The eyelet assembly Like a hollow cylindrical bottle with a thread groove on the outside, Including fittings for mounting, This fitting is Fitted through a single hole at one end of the elastic strap, Also, With the ends of the elastic straps overlapping, Fitted through one of the plurality of holes on the other end side of the elastic strap. An inwardly threaded annular collar is removably screwed onto the end of the fitting, Extend through each end of the elastic strap, Removably lock each of these ends of the elastic strap to the eyelet assembly. The eyelet assembly is optionally It defines an orifice or inner passage having a diameter large enough to accommodate a typical closure for the venous line. The end cap is It includes a short hollow cylindrical sleeve having a closed distal end wall with an annular peripheral flange. The hollow interior of the sleeve It is sized and shaped to receive the circular thumbstrap of the plunger, The inner wall surface of the sleeve is provided with latching means for releasably gripping the thumb rest. From the outer surface of the far end wall of the end cap, With a large central orifice, A ring-shaped handle or finger grip is provided that extends away from the outer surface. Two slots for receiving the elastic straps are formed on each side of the diameter end of the annular peripheral flange of the distal end wall. The elastic strap extends longitudinally from the eyelet assembly to the end cap, One slot in the perimeter flange of the end cap is drilled from the near side to the far side of the perimeter flange. The elastic strap then extends transversely across the outer surface of the distal end wall of the end cap, Penetrate the orifice of the finger grip, Returning to the side near the peripheral flange through the other long hole, From this proximal side, it extends in the longitudinal direction and returns to the eyelet assembly. This device is It is used by attaching it to a syringe that is filled and withdrawn from the plunger. The flow from the outlet end of this syringe is Any suitable outlet end, A convenient lid or It is blocked by a conventional clamp attached to the catheter or conduit attached to the outlet end. The eyelet assembly Insert the threaded fitting through the single hole at one end of the elastic strap, The elastic strap is then attached to the elastic strap by passing through a selected one of the plurality of holes on the other end side of the elastic strap. One of the holes is The choice is based on the size of the syringe to which the device will be attached. The elastic strap is circular, Lock the eyelet assembly by screwing an internally threaded collar onto the fitting. Then Seat the eyelet assembly around the exit end of the syringe, Elastic strap, Extend the thumb rest of the plunger until it is received in the end cap of the device, The elastic strap becomes tensioned and biases the plunger toward the insertion position within the syringe barrel. If you want to release the contents of the syringe, Remove the flow blocking means, Next, The potential energy due to the elastic tension of the elastic strap is released. This potential energy gives a linear driving force to the thumb rest to move the plunger inside the syringe barrel, thereby The contents of the syringe are pushed through the outlet end. Since this driving force has a very small temporal decay rate, The flow rate of contents pushed out of the syringe is until the syringe is almost empty, It will be kept fairly close to its nominal level. In another preferred embodiment, The elastic element comprises a continuous elastic band, The elastic band is provided with a pair of holes facing each other at the diametrical position. Instead of a two-piece eyelet assembly, an integral eyelet is placed around the exit end, This eyelet is inserted into the first one hole of the elastic band. It may be beneficial for the eyelet to have an orifice large enough to receive a typical IV line cap. The end cap is An arc-shaped grip portion extending from the far end wall to the far side, A pair of band guides that face each other at the diameter position and extend radially outward from the far end wall, A knob or button extending from the far end of the grip portion to the far side is included. The elastic band is Pierce the band guide, With the knob or button received in the second hole in the elastic band, Orbit the outer surface of the gripping portion. Yet another specific example is A continuous elastic band provided with a single hole, A slanted fitting that covers the outlet end of the syringe and is removably fitted; A removable band puller (as a replacement for the end cap). Place a beveled fitting at the exit end, Then, it is inserted through the hole of the elastic band. Then attach the band tensioner to the elastic band, Remove the band tensioner after pulling the elastic band to the far end of the plunger. The angled fitting is removed from the outlet end just before use to expose the outlet end. This keeps the outlet end clean. Many modifications may be made to one or more of the above embodiments. As a modification of the second specific example, For example, A second hole in the elastic band, Buttons or knobs can be omitted. In another modification, This is best applied to each of the first and second embodiments, For the end cap, There is a flat distal end wall surface defined between a pair of parallel band guides extending distally of the end cap. In a similar modification, This best applies to the third embodiment, A distal plunger surface is provided having a pair of parallel band guides extending distally. In yet another modification that can be applied to any of the above specific examples, The combination of end cap / band tensioner Removable from elastic strap or elastic band, The end cap, The elastic strap or elastic band can be reused even if it is discarded. In yet another modification that is most applicable to the second and third embodiments, Single times, Not a relatively thick or wide band, Rather, using a pair of relatively thin or narrow elastic bands, Reduces the effort of attaching the device to the syringe. Similar profits It can also be obtained by using an elastic member which comprises a bifurcated elastic strap which is joined at its ends and is perforated respectively. When using, overlap the ends of each elastic strap, Allow the eyelet assembly to pass through any hole. When preparing the syringe for use, Of the bifurcated elastic strap, The major portion forming the loop is pulled over the distal end of the plunger (or the distal surface of the end cap). Yet another modification of the first preferred embodiment is It can be used for large volume syringes that require large actuation forces. This modification includes two elastic straps attached to a single eyelet assembly, Each elastic strap is bonded to a separate end cap. At least one end cap at its distal end, It is modified to have a finger grip or handle with a disc-shaped flat fitting. The fitting is generally shaped and dimensioned like the thumb rest of a syringe plunger. The eyelet assembly is seated on the outlet end of the syringe, One elastic strap attached to the modified end cap, Until the thumb rest of the syringe sits on this modified end cap, It is extended toward the far side. Then the other elastic strap Until the disc-shaped fitting on the modified end cap sits on the other end cap, It is extended toward the far side. From the above description, the present invention is Intravenous injection syringe actuator by elastic force, Easy to use, In standard form, It will be apparent to provide an elastic force IV injector actuation device adapted for use with a wide range of IV injectors. Furthermore, The present invention has a simple structure and low manufacturing cost, Therefore, Easily adapted for single-use (disposable) applications. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view of a syringe actuation device according to a first preferred embodiment of the present invention, It is shown mounted on a standard form of intravenous injection syringe. 2 is a side view of the syringe actuation device of FIG. Here it was removed from the syringe, It is shown rotated 90 degrees along the longitudinal axis of FIG. FIG. 3 is a side view of FIG. 2 taken along line 3-3. 4 is a cross-sectional side view of FIG. 3 taken along line 4-4, The syringe actuator is in an extended position within the syringe. FIG. 5 is an exploded side view of the syringe actuation device according to the first preferred embodiment of the present invention. FIG. 6 is an end view of FIG. 3 viewed from the direction of line 6-6. FIG. 7 is a cross-sectional view of FIG. 3 taken along line 7-7. FIG. 8 is a perspective view of an elastic band configured for use in the second preferred embodiment of the present invention. FIG. 9 shows a second preferred embodiment of the invention attached to a syringe, FIG. 5 is a sectional side view similar to FIG. 4. FIG. 10 is an end view of FIG. 9 viewed from the direction of line 10-10. FIG. 11 is a perspective view of an elastic band constructed for use in a modification of the second preferred embodiment of the present invention. FIG. 12 shows a modification of the second preferred embodiment of the invention mounted on a syringe, FIG. 10 is a sectional side view similar to FIG. 9. FIG. 13 is an end view of FIG. 12 viewed from the direction of line 13-13. FIG. 14 is a partially cutaway cross-sectional side view showing a procedure for attaching a third preferred embodiment of the present invention to a syringe. FIG. 15 shows the elastic element fully attached to the syringe, FIG. 15 is a sectional side view similar to FIG. FIG. 16 is a view of FIG. 14 taken along line 16-16, It is a top view which shows a band tensioning tool. 17 is a view of FIG. 16 as seen from the direction of line 17-17, It is a side view which shows a band pulling tool in a side surface direction. FIG. 18 is a plan view showing a modified form of the band pulling tool. 19 is a view of FIG. 18 as seen from the direction of line 19-19, It is a side view of a band pulling tool. 20 is a side view of a syringe according to a modification of the second preferred embodiment of the present invention. A double elastic band is used here. 21 is a plan view of FIG. 20 viewed from the direction of line 21-21. FIG. FIG. 6 is a plan view of a bifurcated elastic element that can be used in the present invention. FIG. 23 is a plan view of a syringe of the type shown in FIGS. The situation in which the bifurcated elastic element of FIG. 22 is mounted is shown. Figure 24 is a plan view of the syringe of Figure 23 with the bifurcated elastic element fully attached. FIG. 25 shows FIG. 20, 21, 23, FIG. 25 is a partial side view showing a modified plunger portion of 24 syringes. 26 is a plan view of FIG. 25 seen from the direction of line 26-26. FIG. 27 is a side view of a modified end cap for use with the present invention. 28 is a plan view of FIG. 25 seen from the direction of the line 28-28. FIG. 29 is for receiving the present invention, It is a partial cross-sectional side view which shows the example of a change of the syringe with a small diameter. FIG. 30 can be used with the first preferred embodiment, It is the side view which carried out the partial removal of the modified end cap. FIG. 31 is a plan view of FIG. 30 seen from the direction of the line 31-31. 32 is a plan view of a syringe and a first preferred embodiment of the present invention, Here the eyelet assembly is shown in perspective view, The usage of the invention is also shown. FIG. 33 is a side view showing a state in which a modified form of the specific example shown in FIGS. 1 to 7 is attached to a syringe. BEST MODE FOR CARRYING OUT THE INVENTION Referring to the drawings, An elastic force injector actuator 10 according to a first preferred embodiment of the present invention comprises: 1 and 4, with the standard intravenous syringe 12 attached, And in Figure 2, 3, 5-7 are shown separated from the standard type IV syringe 12. Syringe 12 is at its proximal end It has a standard type outlet end 14 for receiving a typical Luer fitting (not shown). From this exit end 14 toward the distant side, A substantially cylindrically shaped syringe barrel 16 extends. Inside the syringe barrel 16, Liquid therapeutic drugs (future Provide a reservoir for "drugs"). A plunger 18 is received inside the syringe barrel 16, It is moved longitudinally between the withdrawal position and the insertion position shown in FIGS. 1 and 4, respectively. The plunger 18 has an actuating portion 19 extending distally from the syringe barrel 16, This working part 19 is flat, It terminates at the location of a substantially circular thumb rest 20. The syringe actuator 10 is An eyelet assembly 22 that fits over and seats around the outlet end 14 of the syringe 12. An end cap 24 that engages the thumb rest 20 of the plunger 18, It includes an elastic element 26 connecting the eyelet assembly 22 and the end cap 24. As best shown in Figures 5 to 7, The eyelet assembly 22 Externally threaded, A bottle-shaped fitting 28, Removably screwed to this fitting 28, An inwardly threaded annular collar 30. The fitting 28 has an axial bore 32, A head 34 having an enlarged diameter, The head 34 includes a central orifice 36 that communicates with the bore 32. As best shown in Figure 4, The end cap 24 is a short cylindrical sleeve 38 having an open proximal end, A closed distal end wall 40 including an annular peripheral flange 42. The hollow interior of the sleeve 38 It is sized and shaped to receive the thumb rest 20 seated against the inner surface of the distal end wall 40. The peripheral flange 42 includes A pair of long guide holes 44 facing each other at the diametrical position are formed. From the inner wall surface of the sleeve 38 toward the inner side in the radial direction, A pair of fingers 46 facing each other at the diametric position extend. These fingers 46 provide a means for releasably or latchingly engaging the thumb rest 20. From the outer surface of the distal end wall 40 of the end cap 24, A ring-shaped handle or finger grip 48 having a large central orifice 50 extends distally. In a first preferred embodiment, as best shown in FIG. The elastic element 26 is an elongated elastic strap, Having a first end 52 and a second end 54, An intermediate portion is provided between the ends. Of the elastic element 26, A single hole 56 is formed near the first end 52, A plurality of linearly arranged holes 58 are formed near the second end 54. The end cap 24 is One of the first end 52 and the second end 54 of the elastic element 26, In one of the elongated guide holes 44 of the peripheral flange 42, The elastic element 26 is attached at a substantially intermediate length position by penetrating the peripheral flange 42 from the near side to the far side. The one end of the elastic element is And then extended across the outer (far side) surface of the far end wall 40, Through the central orifice 50 of the finger grip 48, Then, it passes through the other guide long hole 44 and returns to the near side of the peripheral flange 42. The one end of the elastic element is Until the end cap 24 is positioned in a generally intermediate length position of the elastic element 26, It is pulled through the guide slot 44. The first end 52 and the second end 54 of the elastic element are The single hole 56, With the selected one of the plurality of holes 58, It is detachably attached to the eyelet assembly 22. In detail, As shown in FIG. With the annular collar 30 removed from the fitting 28, Insert the proximal end of the fitting 28 into the single hole 56, With the first end 52 and the second end 54 superposed, Thread through one of the plurality of holes 58 selected based on the size of the syringe to which the device 10 will be attached. Next, the collar 30 Until the first end 52 and the second end 54 of the elastic element 26 become snugly caught between the collar 30 and the head 34 of the fitting 28. Screw on fitting 28. The guide slot 44, through which the elastic element 26 passes, Since it is disposed radially outward of the peripheral flange 42 from the syringe barrel 16, These guide slots 44 and the perimeter flange 42 provide a "bulb", whereby The elastic element 26 is positioned spaced from the syringe barrel 16 as best shown in FIG. Since the elastic element 26 and the syringe barrel 16 are thus separated from each other, The elastic element 26 is prevented from contacting and rubbing against the syringe barrel 16, Also, Movement of the plunger 18 of the syringe is facilitated when the device 10 is used in the following manner. When using the device 10, The syringe 12 is filled with the desired amount of drug, It is shut off from the syringe by conventional means such as a clamp (not shown) on an intravenous line (not shown) connected to the outlet end 14 of the syringe. By blocking the flow from the syringe, The plunger 18 is held in the withdrawn position as shown in FIGS. Then The device 10 Seat the eyelet assembly 22 around the outlet end 14, The outlet end 14 is attached to the syringe by extending through the central orifice 36 of the fitting 28 and the axial bore 32. Then attach the end cap 24, The thumb rest 20 of the plunger 18 sits inside the sleeve 38, Until the edge of the thumb rest 20 engages with the finger 46 for latch engagement. Use the finger grips 48 to pull away. At this position, shown in FIGS. 1 and 4, The elastic element or elastic strap 26 is extended, This tensile force Bias the plunger 18 towards its insertion position. Removing the means to block the flow of drug from the syringe (eg removing the aforementioned clamp) The plunger 18 moves freely toward its insertion position. This free movement is The potential energy stored in the stretched elastic strap 26 is This is because the elastic strap 26 is released as it elastically returns to its non-stretched state. By moving the plunger 18 in the syringe barrel 16 toward the proximal side, The drug in the syringe barrel 16 is discharged from the outlet end 14. Since the damping force of the driving force generated by the elastic strap 26 is extremely small, The flow rate of the drug from the syringe 12 is Until the syringe 12 is empty or almost empty, Maintained at a flow rate fairly close to the preselected nominal flow rate. Syringe 12 It can be filled and stored with the resilient syringe actuation device 10 attached as previously described (with the flow from the syringe suitably blocked). Even if the elastic strap 26 breaks while the syringe 12 is stored (or used), One or both of the latching fingers 46 of the end cap sleeve 38 are kept engaged with the thumb rest 20. The device 10 is held against "pushing" out of the syringe 12 by the energy released by the breakage of the elastic strap 26. Furthermore, Since the end cap 24 and eyelet assembly 22 are securely (removably) attached to the elastic strap 26, If the elastic strap 26 breaks, all parts of the device 10 will be held together. The risk of disassembly or loss of parts is minimal. A syringe actuator 60 according to a second preferred embodiment of the present invention is shown in FIG. 9, 10 is shown. In this second specific example, The elastic element is a continuous elastic band 62, It has a pair of holes 64 facing each other at the diametrical position. An integral eyelet 66 having hollow perforations 68, Is inserted through the first one hole 64, The elastic band 62 is attached to the eyelet 66. The outlet end 14 of the syringe 12 is inserted through and penetrates the perforation 68, Therefore, the eyelet 66 is seated around the outlet end 14. The end cap 70 is With the open side end, A closed distal end wall 74, Including a cylindrical short sleeve 72 having The hollow interior of this sleeve 72 It is sized and shaped to receive the thumb rest 20 of the syringe 12 seated in abutment on the inner surface of the distal end wall 74. From the inner wall surface of the sleeve 72 toward the inner side in the radial direction, A pair of fingers 76 facing each other at the diametrical position are extended. These fingers provide a means for releasably or latching engagement with thumb rest 20. For the end cap 70, A pair of band guides facing each other at a diametrical position are provided. Each band guide is Includes a pair of guide fingers 78 extending radially outward from the distal end wall 74. The guide fingers 78 then bend at substantially right angles to each other, In the meanwhile, a gap is created in which the band 62 can be inserted. The guide finger 78 is The elastic band 62 is positioned away from the syringe barrel. This action is very similar to the action of the elongated guide hole 44 of the first embodiment. An arcuate gripping portion 80 extends distally from the distal end wall 74, The knob or button 82 The grip portion 80 is extended from the far end to the far side. The elastic band 62 passes between the guide fingers 78 and goes around the outer surface of the holding portion 80. The knob or button 82 is received in the second one hole 64 of the elastic band 62, thereby The elastic band 62 is fixed to the grip portion 80 of the end cap 70. A modification of the second concrete example is shown in FIG. 12, 13 is shown. According to this modified example, The elastic actuator 60 'is FIG. 9, The concrete example shown in 10 is The main difference is that the end cap 70 'has no buttons or knobs and thus has a smooth outer surface free of obstructions. Therefore, In this variation, the device 60 'uses an elastic band 62' which requires only one hole 64 'to attach the elastic band to the eyelet 66 in the manner previously described. The elastic band 62 'is A guide finger 78, It is secured to the end cap 70 'by friction in contact with the outer surface of the grip portion 80'. The second specific example shown in FIGS. 8 to 13 is It is used in a manner similar to that of the first embodiment shown in FIGS. In comparison with the first specific example, the second specific example is Although the size range of syringes that can be received is small, The main advantage is the low cost. A third preferred embodiment is shown in FIGS. This third example is Including a continuous band or loop 90 of elastic material, The loop 90 is provided with a single hole 92. The third specific example further includes Inclined, A fitting 94, preferably having a frustoconical shape, A band tensioning device 98, The fitting 94 has a top 95 on the near side, Has a recess 96 at its bottom, The bottom releasably receives the outlet end 14 of the syringe 12. The preferred form of band puller 98 is best shown in FIGS. As shown, The band puller 98 has a handle portion 100, This handle is made of thick wire or tubular plastic, Bent or molded into a U shape, Each end is It terminates with a pair of opposed hook fingers 102 depending. The alternating band tensioners 98 'shown in FIGS. 18 and 19 are Arcuate, Including a handle portion 100 'formed as a strip of plastic or metal, A pair of hanging hook fingers 102 ' Defined by a pair of vertical slots 104 near each end of the strip. The third embodiment of the invention is used as follows. That is, A frustoconical fitting 94, The outlet end 14 of the syringe is inserted into the recess 96 in the base of the fitting 94 and placed over the outlet end 14. Elastic band 90, Insert the top 95 of the fitting 94 into the hole 92 in the elastic band 90, Attached to the proximal end of syringe 12. Then After engaging the elastic band 90 with the band tensioner 94 (94 ') by the hook finger 102 (102'), The elastic band 90 is pulled in the far side direction by the band pulling tool 94 (94 '), Elastic band, As shown in FIG. 15, the syringe plunger 18 is wrapped around the thumb rest 20 and brought into contact with it. When using a syringe, As I explained earlier, Remove the fitting 94, Attach the IV device, Incorporating the elastic band 90, Activate the plunger. This third example is Simple structure and use, And It has the advantage that it can be used with a wide range of conventional syringes. Furthermore, The fitting 94 While keeping the exit end 14 clean, It also facilitates the incorporation of the elastic band 90. 20 to 32, Many modifications and variations are illustrated that can be combined with one or more of the embodiments described above. For example, in FIGS. 25-28, Either the second or the third specific example, In particular, a modification is illustrated which can be beneficially used with the third embodiment. 25 and 26, Illustrated is a modified plunger actuation portion 110 that can be attached to the plunger of a standard type syringe. The modified plunger actuating portion 110 includes: A flat distal end surface 112 defined between a pair of distally extending parallel flanges 114 is included. The flange 114 acts as a guide for the elastic band 90, and The elastic band holds the plunger actuating part 110 from slipping off. The flange or band guide 114, as shown in FIGS. Of the peripheral edge of the plunger actuating portion 110, It is possible to expand radially outward from the portions facing each other at the diametrical position. 20, 21, 23, In another embodiment shown in 24, The plunger actuating portion 110 'has a band guide or flange 114' substantially orthogonal to the distal end surface 112 ', A band guide or flange 114 'is spaced radially inward from the peripheral edge of the plunger actuating portion 110'. 27 and 28, A similar concept is embodied as a removable end cap 120 that fits over the thumbstrap 20 of a standard type plunger. In this specific example, The flat flannel 122 that receives the band It is defined between a pair of parallel band guides 124 extending distally from the distal surface of thumb rest 20. The band guide 124 may be orthogonal to the far surface of the thumb rack 20, Inwardly spaced from the peripheral edge of the end cap 120. The band guide of the end cap is It may also have the spread configuration shown in FIG. Advantageously, the end cap 120 also has a peripheral rim 126 extending proximally toward the end. This peripheral rim 126 defines a proximal seating surface 128 for the thumb rest 20. 20 and 21 illustrate another embodiment that may be beneficially used with the second and third embodiments of the present invention. In this specific example, Rather than a single elastic band At least two, A relatively weak elastic band 130 is used. These two elastic bands are The thinness of the alternative elastic bands facilitates their attachment. In detail, Each elastic band 130 has a hole 132, The outlet end 14 of the syringe is inserted through this hole 132. Since each elastic band is separately extended distally over the working portion 110 'of the plunger, The stretching requires less force than stretching a relatively strong single elastic band. This modification is therefore Suitable for weak people. Similar concepts are shown in FIGS. 24. In this modification, a bifurcated elastic band 140 best shown in FIG. 22 is used. Elastic band 140 includes a pair of relatively narrow parallel elastic band elements 142 separated by a linear gap 144. The pair of elastic band elements 142 are It has a pair of opposite ends 146, at which the elastic band elements are interconnected. A hole 148 is formed in each end 146. The usage of the bifurcated elastic band 140 is shown in FIGS. First, The elastic band 140 is folded to align the end 146 with the hole 148. Spread the elastic band element 142 to open the gap 144, Insert a syringe into this open part, Align the outlet end 14 of the syringe with 148. Thus, As shown in FIG. Two elastic band elements 142 are arranged on opposite sides at the diametrical position of the syringe barrel. Next, As shown in Figure 24, each elastic band element 142 is extended distally over the thumb rest 110 '. As a result, the bifurcated elastic band 140 is It provides the benefits of the dual elastic band of the variation of FIGS. 20 and 21 described above. But, Further in this example, The convenience of using only a single elastic element rather than two elastic bands is also provided. Various embodiments and modifications of the invention include It is intended for use with a wide variety of syringes of various shapes and sizes. For small diameter syringes, the outlet end and syringe barrel diameters are: It may be too small for proper engagement with the eyelet assembly of the first and second embodiments. In FIG. 29, A situation is illustrated in which such a small diameter syringe 150 is modified for use with the present invention. In this modification, The annular bush 152 is attached to the proximal end of the syringe 150. This annular bush 152 acts as an adapter that effectively increases the diameter of the syringe, Providing a bearing surface for abutting the eyelet assembly. The annular bush 152 has a substantially frustoconical shape, A beveled proximal surface 154 to facilitate mounting of the eyelet assembly; It preferably has a stepped bottom 156 that receives and closely conforms to the outer surface of the outlet end and proximal portion of the syringe barrel. 30 and 31 illustrate yet another modification that can be used with any of the above embodiments. In this modified example, A combination of end cap / elastic band tensioner 160 is used. For this combination, An end cap portion 162 having a distal end for mounting the elastic band puller portion 164 is included. The end cap portion 162 and the elastic band tensioner portion 164 are It is beneficially formed as a one-piece part, such as plastic molded. The end cap portion 162 is In order to receive different size thumb rests of the syringe plunger, It has a stepped or stepped diameter. The elastic band tensioner portion 164 is as illustrated in FIGS. It preferably has one shape of the elastic band tensioner of the third embodiment described above. As shown in FIGS. 30 and 31, The elastic band puller portion has a shape similar to the elastic band puller 98 'shown in FIGS. Thus, This elastic band puller part is A pair of vertical hook fingers 170 are defined by a pair of vertical slots 172 near the ends of the elastic band. Arcuate, It has a U-shaped plastic or metal handle portion 168. The combination of the end cap / elastic band tensioner 160 is after use, Separate from disposable elastic band 174 and reuse with new elastic band. 32 shows An example of the use condition in a manner that enables aseptic attachment of the aseptic intravenous administration device to the aseptic syringe 12 is illustrated. In FIG. 32, this method It is illustrated with a syringe actuation device 10 'similar to the first embodiment described above. Here, as the eyelet assembly 22 ', Vein line 180 and lock connector 182, It is necessary to have a sufficient inner diameter for inserting the closing cap 184. While attaching the syringe cap 186 to the syringe outlet end 14, Of the venous line 180, Insert the end with the closing cap into the eyelet assembly 22 ', The length of venous line 180 is pulled through eyelet assembly 22 '. Then remove the syringe cap 186 and the IV line closure cap 184, The locking connector 182 is attached to the outlet end 14 of the syringe. These procedures are reversed when removing the vein related set from the syringe. As shown in FIG. 32, The modified eyelet assembly 22 ' Includes optional fingers 188 for attaching venous line 180 to eyelet assembly 22 '. 33, 34, 35 includes Illustrated is a syringe actuation device 210 for use with variations or modifications of the previously described first preferred embodiment (FIGS. 1-17). This syringe actuator 210 requires a large actuation force, It is particularly well suited for use with large volume syringes 12 ', such as irrigation syringes. The syringe 12 ' An outlet end 14 'of conventional design, Large syringe barrel 16 ', And a plunger 18 'for longitudinal movement within the syringe barrel 16'. Plunger 18 ' Extend far from the syringe barrel, It has an actuating portion 19 'terminating in its distal end at the position of the flat thumb rest 20'. The syringe actuator 210 includes an eyelet assembly 222 that covers and seats around the outlet end 14 'of the syringe 12', The first end cap 224 engages the thumb rest 20 ', The first elastic element 226, Mating with eyelet assembly 222 and first end cap 224, The second end cap 228 Engages a disc-shaped flat fitting 230 at the distal end of the first end cap 224, The second elastic element 232, Joining eyelet assembly 222 and second end cap 228. The first end cap 224 and the second end cap 228 are respectively Finger grip or handle portion 234, Has 236. The eyelet assembly 222 The type described above in connection with FIGS. 5 to 7 is preferred. The first end cap 224 and the second end cap 228 are The first end cap 224 has substantially the same diameter as the thumb rest 20 ', thereby Except that it has a disc-shaped fitting 230 that can fit inside the second end cap 228. The form described above in connection with FIG. 4 is also preferred. The first elastic element 226 and the second elastic element 232 are Except that it is preferable to have only a single hole (not shown) near each of the first and second end portions of each elastic element, The type described above with respect to the first preferred embodiment is preferred. As explained above, Regarding the first preferred embodiment, Using the same means used to attach the end cap 24 to the elastic element 26, Attach the first end cap 224 approximately in the center of the length of the first elastic element 226, The second end cap 228 is mounted approximately in the center of the length of the second elastic element 232. Furthermore, As in the first preferred embodiment, The first elastic element 226 and the second elastic element 232 are each The eyelet assembly 222 is removably mounted in the manner described for the first preferred embodiment and illustrated in FIG. A method of attaching the syringe actuator 210 to the syringe 12 'will be described below. In FIG. 33, the eyelet assembly 222 is It is seated around the outlet end 14 'of the syringe 12' with the plunger 18 'in the withdrawn position. Next, The handle portion 234 of the first end cap 224 is used to extend the first elastic element 226 distally, The thumb rest 20 'of the plunger 18' is seated inside the first end cap 224 as shown in FIG. Next, the second elastic element 232, Extend using the handle portion 236 of the second end cap 228, As shown in FIG. 35, attach the flat distal fitting 230 of the first end cap 224 to the It is seated inside the second end cap 228. This allows the syringe 12 'to have two elastic elements 226, The force applied by 232 is ready for operation. One advantage of the syringe actuator 210 is that The first and second elastic elements 226, 232 jointly provides a large actuation force to move the plunger 18 'to its insertion position. in spite of, First and second elastic elements 226, Since 232 can be of moderate width and thickness, Each of these elastic elements is stretched only by moderate force, The engagement position can be as shown in FIGS. 34 and 35. This allows This syringe actuator 210, which has two elastic elements, It is easier to use than if a single large elastic element were used. As explained above, The present invention For IV syringes, Can be used conveniently, Compatible with a wide range of conventional intravenous injection syringes of a wide range of sizes, Moreover, the structure is simple and the manufacturing cost is low, Suitable for use as a disposable device, It is clear to provide a syringe actuation device with elastic force. Furthermore, The present invention It provides a substantially constant flow rate from the syringe until the syringe is substantially empty. The present invention also provides In some embodiments, the breaking of the elastic element causes the component to Mutually Alternatively, it has features that minimize the risk of sudden disconnection from the syringe. Although the present invention has been described with reference to specific examples, It should be noted that various changes can be made within the present invention.

────────────────────────────────────────────────── ─── Continuation of front page    (31) Priority claim number 08 / 388,382 (32) Priority date February 14, 1995 (33) Priority claiming countries United States (US) (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, M C, NL, PT, SE), AU, BR, CA, CN, F I, JP, KR, MX, NO, NZ, SG [Continued summary] Is done. Each elastic strap (26) has an end cap (2 4) has an intermediate part fixed to it.

Claims (1)

[Claims]   1. Syringe barrel for containing a fluid source and the proximal end of the syringe barrel To move between the outlet end located on the part and the withdrawal and insertion positions Use a plunger that is slidably arranged inside the syringe barrel. Actuating the syringe with a plunger having an actuating portion extending distally therefrom A device for   Eyelet means for seating abuttingly on the proximal end of the syringe barrel around the outlet end. ,   A plunger engaging means for engaging the working portion of the plunger,   Elastic actuating means for elastically coupling the eyelet means and the plunger engaging means And   With the plunger in the withdrawal position, place the eyelet means close to the syringe barrel. The plunger engaging means is seated in contact with the end and the plunger engaging means is the operating portion of the plunger. The syringe with the plunger biased towards the insertion position when engaged with A device for operating.   2. The plunger engagement means includes an end cap, the end cap comprising:   A substantially cylindrical sleeve for receiving the working part of the plunger A proximal end that is dimensioned and open, and   Use the end wall at the far end of the sleeve to allow the working part of the plunger to Seated in contact with the actuating portion of the plunger when received by A device for actuating the syringe of claim 1 having an end wall having a side surface. Place.   3. The actuating portion of the plunger includes a flat member having a peripheral edge, Latch for jar engagement means to releasably retain the peripheral edge of the flat member. An apparatus for actuating the syringe of claim 1 including means.   4. An actuating portion of the plunger for receiving and elastically actuating the elastic actuating means. Guide hand for positioning the moving means away from the syringe barrel of the syringe An apparatus for actuating the syringe of claim 1 including a step.   5. The actuating portion of the plunger includes a flat member having a peripheral edge and an end key. A cap is provided to hold the peripheral edge of the working portion of the plunger releasably. Device for actuating a syringe according to claim 1, characterized in that .   6. The sleeve has an inner wall surface and the latching means is radial from the inner wall surface. A device for actuating a syringe as claimed in claim 1 comprising inwardly extending fingers. Place.   7. The elastic actuating means includes an elastic strap, the elastic strap having a first end. A second end and an intermediate portion between the first end and the second end, the first end End and And the second end is attached to the eyelet means and the plunger engaging means is of the elastic strap. A device for actuating the syringe of claim 1 mounted in the middle section.   8. The eyelet means includes a first eyelet member and a second eyelet member, and the first eyelet member and the second eyelet member. And a second eyelet member connect the first end and the second end of the elastic strap to the first eyelet. May be removably attached to each other for holding between the eye member and the second eyelet member A device for actuating the syringe of claim 7.   9. The first end of the elastic strap has a first hole and the second end of the elastic strap has The end portion has a second hole, and the eyelet means is   Hollow, substantially cylindrical shaped, externally threaded fitting , Sized and shaped to fit through the first hole and the second hole, and A head having an enlarged diameter, the head being aligned with the axial bore. An axial bore and a central orifice having a central orifice in line and in communication, A fitting sized and configured to receive the syringe outlet end in a pierced state. And   An inwardly threaded annular collar for the first end of the elastic strap and A fitting for holding the second end in contact with the head of the fitting. With a collar that is detachably screwed onto the wing,   For operating a syringe according to claim 8 comprising apparatus.   10. The second hole in the fitting should be linearly aligned with the second end of the elastic strap. A device for actuating the syringe of claim 9 which is one of the plurality of second holes in a row. Place.   11. The plunger engagement means includes an end cap, the end cap comprising:   A substantially cylindrical sleeve for receiving the working part of the plunger And the proximal end that is open with the dimension and shape of   With the end wall at the far end position of the sleeve, the working part of the plunger Sit down against the working part of the plunger when received by the sleeve An end wall having an inner surface,   Means for attaching the end cap to the middle portion of the elastic strap,   A device for actuating the syringe of claim 7 comprising.   12. The end wall includes a peripheral flange, and the end cap of the end wall is elastically strapped. The means for attaching to the middle part of the A first elongated hole and a second elongated hole which are formed in a regular shape and are opposed to each other at a diameter position of the peripheral flange. An apparatus for actuating the syringe of claim 11 including.   13. The elastic actuating means removes itself from the eyelet means and the plunger engaging means. Fixed elasticity, continuous elasticity An apparatus for actuating the syringe of claim 1 including a band.   14． The plunger engagement means includes an end cap, the end cap comprising:   A substantially cylindrical sleeve for receiving the working part of the plunger And the proximal end that is open with the dimension and shape of   With the end wall located at the far end of the sleeve, the working part of the plunger Sit down against the working part of the plunger when received by the sleeve An end wall having an inner surface,   Elastic band secured to the end wall to secure the elastic band to the end cap Fixing means,   A device for actuating the syringe of claim 13 comprising:   15. Elastic band fixing means face each other at a diameter position extending radially from the end wall And a pair of first and second guide fingers that are respectively connected to each other. A pair of guide fins spaced apart to receive the elastic band between the id fingers. 15. A device for actuating the syringe of claim 14 including a hanger.   16. Syringe barrel for containing a fluid source, with proximal end Syringe barrel, the outlet end of the syringe barrel near the end, and the withdrawal position. And slidable inside the syringe barrel to move between insertion positions The plunger disposed in the operating part that extends far from the syringe barrel A device for operating a syringe, comprising: a plunger having   Make a continuous elastic band and detachably attach it to the outlet end of the syringe. An elastic band comprising outlet end engaging means for attaching,   When the elastic band is detachably attached to the outlet end, it can be detached from the elastic band. Engage and thereby pull the elastic band distally to pull the elastic band Band tensioning means that can be seated in a state of abutting the operating part of   A device for actuating a syringe comprising.   17． The outlet end engaging means is sized and shaped to receive the outlet end of the elastic band. An apparatus for actuating the syringe of claim 16 including an aperture.   18. Band tensioning means   A band engaging portion,   A handle portion attached to the band engaging portion,   A device for actuating the syringe of claim 16 including.   19. The handle portion is a U-shaped member having a U-shape as a whole, and a pair of opposite ends A U-shaped member having a portion, the band engaging portion each of said corresponding pair of ends. For operating a syringe according to claim 18 including fingers projecting from each other apparatus.   20. U-shaped member having a pair of opposite ends A flat strip, with each finger near each of the opposite pair of ends 19. Actuating the syringe of claim 18 defined by the slot in the strip of Device.   21. Band tensioning means   A plunger engaging means for engaging the working portion of the plunger, A plunger engaging means including a distal end for attaching a door engaging portion. A device for actuating the syringe of claim 18.   22. The plunger engagement means includes an end cap having a stepped inner diameter. A device for actuating the syringe of claim 18.   23. The outlet end engaging means includes a slanted flap that can be removably attached to the outlet end. Fittings that are sized to fit through the holes in the elastic band. Note of any of claims 17, 18, 19, 21, 22 including A device for operating a firearm.   24. Further comprising a continuous first elastic band and a continuous second elastic band , The band pulling means detachably engages the first elastic band and the second elastic band. Of the first elastic band and the second elastic band can be individually pulled distally. The seat is stretched so that it can be seated in contact with the operating part of the plunger. A device for actuating a syringe in the range 16, 17, 18, 19, 20, 21. Place.   25. Further comprising a continuous first elastic band and a continuous second elastic band , The band pulling means detachably engages the first elastic band and the second elastic band. As a result, the first band and the second band are individually pulled farther and the 24. The method according to claim 23, wherein the operating portion of the engine A device for operating a firearm.   26. Syringe barrel for containing a fluid source, with proximal end The syringe barrel and the outlet end located at the proximal end of the syringe barrel, and withdraw Slidably disposed inside the syringe barrel for movement between the insertion and insertion positions. A plunger with a working part that extends distally from the syringe barrel. A device for actuating a syringe comprising a lander,   Band guide means on the working part of the plunger,   An elastic element that can be removably attached to the outlet end, extended to the far side and And an elastic element that sits in contact with the operating part of the plunger between the guide means. Including   The elastic element is   A bifurcated elastic strap, with a pair of parallel straps separated by a linear gap. A first end including a trip element, the pair of strip elements being overlapped And a second end, each of the first end and the second end being an outlet of a syringe. A bifurcated elastic strap having holes sized and shaped to receive the ends Including   Fold the bifurcated elastic straps over each other and connect the holes at the first end and the second end to each other. The exit end through each of these holes by aligning It is also possible to pull each strip element individually far and For actuating a syringe adapted to be seated in contact with the working part of the .   27. The band guide means is integral with the working part of the plunger. Device for operating 6 syringes.   28. The working portion of the plunger includes a substantially flat distal surface, The guide means comprises a pair of substantially parallel band guide elements, said far surface Claims including a pair of band guide elements extending substantially distally from Device for actuating 27 syringes.   29. The actuating portion of the plunger has a peripheral edge and the band guide element is The diametrical position of the surrounding edge portion is expanded outward in the radial direction from portions facing each other. Device for operating 8 syringes.   30. The actuating portion of the plunger has a peripheral edge and the band guide means is Spaced radially inward from the surrounding edge and on the distal surface of the working portion of the plunger 29. A device for actuating the syringe of claim 28 which is substantially orthogonal.   31. Replace the end cap that can be removably engaged with the working portion of the plunger. Included in claim 26 A device for operating a syringe.   32. The end cap includes a substantially flat distal surface and the band guide means , A pair of substantially parallel band guards extending substantially distally from the distal surface. An apparatus for actuating the syringe of claim 31 including an id element.   33. The end cap has a peripheral edge and the band guide element is directly adjacent to the peripheral edge. 33. A syringe according to claim 32, which diverges radially outwards from radially opposed portions. Device for operating the.   34. The end cap has a peripheral edge and the band guide element has a half of the peripheral edge. 33. A casting according to claim 32, which is radially inwardly spaced and substantially orthogonal to the far surface. A device for operating a firearm.   35. Syringe barrel for containing a fluid source, with proximal end The syringe barrel and the outlet end located at the proximal end of the syringe barrel, and withdraw Slidably disposed inside the syringe barrel for movement between the insertion and insertion positions. A plunger with a working part that extends distally from the syringe barrel. A device for actuating a syringe comprising a lander,   An eyelet assembly releasably engageable with the outlet end,   A first elastic element and a second elastic element mounted on the eyelet assembly;   A first end cap attached to the first elastic element;   A second end cap attached to the second elastic element;   Including   When the eyelet assembly engages the outlet end of the syringe, the first elastic element is moved distally. The end cap with the distal end of the working portion of the plunger. Engage in contact,   When the eyelet assembly engages the outlet end, pulls the second elastic element distally Then, the second end cap is in contact with the distal end of the working portion of the plunger. A device for actuating a syringe adapted to engage.   36. Each of the first elastic element and the second elastic element is attached to the eyelet assembly. A first end cap having a pair of ends attached thereto, wherein the first end cap is an elastic spring of the first elastic element. The second end cap is attached approximately centrally to the length of the trap and has a second end cap. The elastic element is attached to the elastic strap approximately at the center of the length of the elastic strap. Device for actuating the syringe in box 35.   37. Each of the first end cap and the second end cap has a handle portion. Apparatus for actuating the syringe of claim 35.   38. Each of the first end cap and the second end cap has a handle portion. Apparatus for actuating the syringe of claim 36.   39. The handle portion of the first end cap is Substantially disc-shaped, positioned and dimensioned to receive the end cap Device for actuating a syringe according to claim 37, including a fitting .   40. The handle portion of the first end cap receives the second end cap. Includes a substantially disk-shaped fitting, positioned and dimensioned accordingly A device for actuating the syringe of claim 38.   41. The far end of the working part of the plunger has a substantially disc-shaped thumb rest And the disk-shaped fitting has the same diameter as that of the thumb rest. Device for actuating a syringe according to claim 39.   42. The far end of the working part of the plunger has a substantially disc-shaped thumb rest And the disk-shaped fitting has the same diameter as that of the thumb rest. A device for actuating a syringe according to claim 40.   43. Syringe barrel for containing a fluid source, with proximal end The syringe barrel and the outlet end located at the proximal end of the syringe barrel, and withdraw Slidably disposed inside the syringe barrel for movement between the insertion and insertion positions. A plunger with a working part that extends distally from the syringe barrel. A method for actuating a device for actuating a syringe comprising a lander So,   (A) Eyelet assembly attached to the first elastic strap and the second elastic strap Make the first elastic strip The trap is attached to the first end cap and the second elastic strap is attached to the second end cap. Pigeon attached to the end cap, the first end cap having a distal end Providing an eye assembly,   (B) seating the eyelet assembly around the exit end;   (C) Set the working part of the plunger to the withdrawal position and let the fluid flow from the outlet end. In the closed state, the first elastic strap is attached to the syringe barrel and the plunger. Extend the distant side along the length of the working part of the Engaging the far end of the working portion of the jar in a state of abutting,   (D) The second elastic strap is attached to the length of the syringe barrel and the working portion of the plunger. The second end cap of the first end cap by extending it distally along the depth direction. Engaging with the distal end in a state of abutting,   (E) releasing the closed state of the fluid flow from the outlet end,   A method for actuating a device for actuating a syringe configured by.   44. The working part of the plunger terminates in a disk-shaped thumb rest, The step of extending the sex strap is such that the first end cap abuts the thumb rest. 44. A device for actuating a syringe according to claim 43 including the step of engaging in a stationary manner. Method for operating.   45. The distal end of the first end cap has a substantially disk-shaped fitting Terminating at the step of extending the second elastic strap with the second end cap. Engaging the disk-shaped fitting in abutment with the disk-shaped fitting. A method for actuating a device for actuating a syringe in a range of requirements 44.   46. The disc-shaped fitting has a diameter approximately equal to that of the thumb rest 46. A method for actuating a device for actuating a syringe according to claim 45.