CZ305238B6 - Connecting gear of needle with piston for safety syringe - Google Patents

Abstract

The connecting gear (101) according to the present invention consists of a piston (1) front projection (11) and a shaped axial cavity (21) in a needle hub (2), wherein the front projection (11) is performed on the front portion of the piston (1) and comprises a misaligned section (111). A profiled axial cavity (21) with a narrowed entrance (211) is performed opposite to the front projection (11) in the needle hub (2). The piston (1) front projection (11) is performed as a prismatic configuration coming, in both the piston (1) and syringe (100) axes, perpendicularly from the center of the piston (1) face (10) by the perpendicular section (110) thereof and continuing in 15 to 25 percent of its length by the misaligned section (111), with misalignment in the range of 10 to 20 degrees. The misaligned section (111) exhibits from the point of starting misalignment a narrowed section (1111) with a thinned cross section with respect to the perpendicular section (110), in the area of its cross section by 35 to 50 percent. The length of the narrowed section (1111) makes 80 to 120 percent of the perpendicular section (110) length. A full section (1112) of the piston (1) front projection (11) misaligned section follows up in the forward direction the narrowed section of the piston (1) front projection (11) misaligned section (111), wherein the cross section of this full section (1112) corresponds to the piston (1) front projection (11) perpendicular section (110). At the point of transition between the narrowed section (1111) of the piston (1) front projection (11) misaligned section (111) and the full section (1112) of the piston (1) front projection (11) misaligned section (111) following up therewith, there is performed a obliquely backward extending and in bend springing pin (1113), reaching in the state of elastically reduced misalignment of the misaligned section (111) of the piston (1) front projection (11) to an angle of at the most 5 degrees from the syringe (100) axis, by its free end , to a distance, from the piston (1) front projection (11) perpendicular section (110), whereby the distance is by 1 to 2 mm greater then the least radius of the narrowed entrance (211) in the narrowed inlet section of the needle hub (2).

Description

Needle coupling with plunger for safety syringe

Technical field

The present invention relates to syringes with a protected insertion of a needle inside the syringe, in a situation after injection of the injected substance, in particular for the safe storage of the syringe in the waste and at the same time preventing the reuse of the syringe and needle. It is mainly a device for connecting the plunger of the syringe with the needle, resp. with the hub of the needle, whereby the needle can be retracted into the cavity in the syringe barrel for use with the syringe, where it is then securely stored and at the same time the needle cannot be withdrawn by normal handling.

BACKGROUND OF THE INVENTION

Many embodiments of safety syringes are known in the art, whereby securing the needle for use of the syringe is solved by pulling it into the cavity in the barrel of the syringe. The retraction occurs in such a way that after the syringe content has been dispensed upon injection of the injected substance, the syringe plunger is connected to the needle by a further forward movement. with the needle hub, and the subsequent retraction of the plunger, the needle retracts into the cavity in the syringe. To save space, the plunger rods are either broken off after retraction of the needle by retracting the plunger protruding from the rear of the syringe from the cylinder cavity, or the plunger is pushed again into the cylinder cavity of the syringe, opening in the syringe barrel, it is deformed by bending, which is then stored in a smaller space, and is also with high safety and secured against re-ejection and also against reuse. At the same time, personal injury to the needle of the syringe is avoided at all times during the handling of the syringe and after it has been put into the waste, since the needle is reliably stored inside the syringe barrel during further handling associated with the waste disposal.

In the known constructions described, one of the important constructional nodes is the device or lock used to connect the front part of the syringe plunger with the needle, that is to say, the hub of the needle, where the hub is during the actual working or operating time. the application phase of use of the syringe is reasonably firmly seated in the front opening of the syringe barrel, and must be released from the syringe barrel during the subsequent safety pulling of the needle into the syringe barrel. Therefore, it is necessary, on the one hand, to hold the cartridge in the front opening of the syringe barrel sufficiently strong and thus secured against ejection of the cartridge during injection, where the internal pressure acts on the cartridge out of the syringe, and on the other cartridges with the walls of the front opening of the syringe could release the force pulling the cartridge into the cylinder of the syringe, which in turn must not be too great to be transmitted by a coupling or lock formed between the front of the plunger and the needle hub; stroke of the piston while the piston continues to move in the direction of the initial displacement of the applied substance by the working movement of the piston.

In order to ensure a reliable connection of the front part of the piston with the hub of the needle, many embodiments of the respective coupling devices are currently known. There is always a requirement for a noticeable resistance to occur at the start of the piston's interlock stroke, indicating that the next piston stroke is already interfacing with the needle hub, but the additional increased resistance at the locking stroke itself must not be too high, the operator feels that the locking stroke, which has been completed or cannot be completed and thus the action as a whole would not be completed by gripping the needle, could not be drawn back into the cavity in the syringe barrel by the backward movement of the plunger. secured against further personal injury or reuse.

To solve the described situation, several different solutions of said construction node for connecting the front part of the piston to the hub of the needle are known at present, where, for example, the piston design is present

With a front projection which is adapted to penetrate the hole in the hub of the needle and is retained there on the principle of a reverse hook, so that in retraction it no longer protrudes from the hub, but instead draws the entire cartridge into the cavity of the syringe barrel. To ensure that the needle tip is outside the front opening in the syringe barrel when the needle is drawn into the cylinder, constructions for tilting the needle after it is drawn into the barrel are known. In the known solutions, the needle tilt is carried out by offsetting, respectively. by inclined formation of either the front or the opening of the plunger, or by increased clearance in connection of the plunger protuberance with the needle hub, where it then relies on the withdrawal of the retracted needle by its own weight. Many of these known solutions quite reliably perform their function, but always remain one of the critical points of such a design to tune the optimum compromise between sufficient signal resistance in the needle gripper at the start of the coupling step and not disproportionately high resistance during the grip action. In fact, if the first signal resistance is too low, the plunger is often connected to the needle hub when the plunger is pushed out before the injected substance is sucked in and then the needle is already drawn into the syringe, thereby destroying the syringe. If the resistance at the actual capture action is too high, the action is often not performed and the syringe is not secured for use.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a safety syringe catching device where the signaling resistance would be sufficient and the locking resistance would not be disproportionately high. It is desirable that the described resistors can be additionally modified according to specific requirements, for example with different syringe dimensions with different passive and displacement resistors, since these additional operating resistors must be able to tune the above-described signal resistor and locking resistor in an optimal relation. The mentioned modification should be feasible without necessity to change the principle of the whole construction, ie with the help of only partial, mostly dimensional modifications. The basic requirement is the simplicity of the construction and at the same time the technological demands for the production of the individual parts of the lock, which is important not only to achieve low production costs, but also to reliably maintain the highest shape accuracy of the individual lock components. For example, in the case of highly complex molded parts, although they can be manufactured by the commonly used plastic injection molding technology, there is a higher occurrence of rejects, which necessitates a more complicated quality control system and thus increases production costs in addition to the risk of poor manufacturing.

SUMMARY OF THE INVENTION

These disadvantages of the prior art are substantially reduced and the object of the invention, which is to optimize the signaling and locking resistance, while at the same time constructing using the simplest possible shape of the lock itself, is solved by the needle coupling device of the safety syringe. the coupling comprises a forward piston projection and a shaped axial cavity in the needle hub, wherein the front piston projection is formed on the front part of the piston and includes an offset portion, and a shaped axial cavity with a narrowed inlet formed in the needle hub in the needle hub; consists in that the front projection of the piston is formed as a prismatic formation, extending, in the axis of the piston and the syringe, perpendicularly from the center of the piston face with its perpendicular part and after 15 to 25% of its total length continuing misaligned part, mo of 10 to 20 degrees, wherein the offset section has a weakened section having a weakened cross-section, which is weakened relative to the perpendicular portion, by 35 to 50% over its cross-sectional area, and the weakened section has a length equal to 80-120% of the length of the perpendicular portion, followed by a forward portion of the front portion of the front portion of the front end of the plunger with a cross section of the full portion corresponding to the cross-section of the front portion of the front end of the plunger. of the front piston projection and the downstream gas portion of the front part of the front piston projection is formed obliquely backwardly extending and flexurally resilient, extending, in a state of resiliently reduced misalignment of the front part of the front piston projection to an angle of not more than 5 angular degrees The free end of the syringe is at a distance from the axis of the perpendicular portion of the forward protrusion of the plunger, which distance is 1 to 2 mm greater than the smallest radius of the tapered inlet in the tapered inlet portion of the needle hub. Advantageously, the inlet of the shaped axial cavity of the hub of the needle has an internal extension beyond the tapered inlet portion comprising a backing surface of annular shape perpendicular to the axis of the syringe with a largest radius of 1 to 2 mm greater than the smallest radius of inlet tapered inlet portions of the needle hub. Preferably, the backwardly extending and flexurally resilient darkness has at its free end a backward chamfer, forming a backward tip portion at its edge farther from the syringe axis. It is also advantageous if the full section of the offset portion of the front protuberance of the piston has at its free end a front chamfer, forming the front tip portion at its edge closer to the axis of the syringe. Preferably, the still narrowed inlet into the needle hub cavity exhibits an outwardly widening conical attack. Finally, it is also advantageous if the tapered inlet of the tapered inlet into the shaped axial cavity of the needle hub has a radius at its inlet edge greater than the distance of the tip of the front tip portion of the full section of the offset portion of the front protuberance of the piston from the axis of the syringe. Advantageously, the cross section of the front projection of the piston has a square shape. In some situations, particularly when a noticeable increase and duration of resistance is required prior to the return of darkness into the needle hub cavity, it is preferred that the cross-section of the anterior projection of the piston is oval, elliptical or circular with cross-sectional area ranging from 80 to 95 % of the inner passage area of the needle hub outlet sleeve. In all the alternatives described above, it is still advantageous, especially to facilitate manufacturing technology, when a transverse bore of a flat prismatic square cross-section is formed in the needle hub above the plane of the back support surface in the axial cavity of the needle hub.

This achieves the creation of a needle hub lock, wherein both the lock action parts, both the front piston projection and the shaped axial cavity in the needle hub, have a simple shape and reliable function, while providing a first signal resistance before the end of the piston stroke, in the situation where the free end of the piston protrusion enters the axial cavity in the needle hub, and then the resistance increases as the cross-section for the extruded fluid flow is reduced after the front piston protrusion enters the shaped axial cavity of the needle hub and finally in the bending of the resilient darkness into the shaped axial cavity of the needle hub, the resistance is further increased, whereupon the free end of the darkness snaps into the widening of the axial cavity of the needle hub and rests on the backing surface in this shaped axial cavity. by pulling in the needle d o cavities in the syringe barrel.

Clarification of drawings

The present invention is described in more detail and explained in an exemplary embodiment, also with reference to the accompanying drawings, in which Fig. 1 is a safety syringe in cross-sectional vertical section, with a piston, wherein the front projection of the piston is seen in side view; then the same section, but with the piston rotated so that the front projection of the piston is in front view, and FIG. 3 is a side view of the needle hub itself, in a position where the transverse cavity is visible as through-front, Fig. 6 shows the same needle hub itself in an oblique side top view, and finally, Fig. 7 shows an enlarged cross-sectional vertical cross-section of the needle hub corresponding to Fig. 5, where it is now added, but in a side view , by the forward projection of the piston, in a situation where the oblique back protruding bending spring is deflected to its locking position, and At the same time, this tm is supported on the back abutment surface in the shaped axial cavity of the needle hub, whereupon FIG. 8, which corresponds to FIG. 7, but with the piston face and the protuberance of the piston removed, 9, which corresponds to FIG. 7, but this time with the front face of the piston with its front projection being shown.

DETAILED DESCRIPTION OF THE INVENTION

The needle coupling device of the safety syringe according to the present invention is here exemplified such that the coupling device 101 consists of a front projection 11 of the piston 1 and a shaped axial cavity 21 in the needle hub 2, wherein the front projection 11 of the piston 1 is formed therein. and includes a misaligned portion 111, and against the front projection 11 of the piston 1

A shaped axial cavity 21 with a tapered inlet 211. is formed in the hub 2 of the needle. It is essential that the front projection 11 of the piston 11 is formed as a prismatic formation extending, in the piston axis 1 and the syringe 100, perpendicularly from the center of the piston face. with its perpendicular portion 110 and, in this case, after 20% of its total length, continuing with the angled portion 111. at an angle of 15 degrees here, the angled portion 111 having a weakened section 1111 with a weakened cross-section from the starting point. in this case a weakened, in relation to the perpendicular portion 110, in its cross-sectional area by 40% and wherein the weakened portion 1111 here has a length equal to 100% of the length of the perpendicular portion 110, followed by the weakened portion 1111 a full section 1112 of the offset portion 111 of the front projection 11 of the piston 1 with a cross section of this complete section extends forwardly 1112, corresponding to a perpendicular portion 110 of the front projection 11 of the piston 1, wherein at the transition point between the weakened section 1111 of the offset portion 111 of the front projection 11 of the piston 1 and the adjacent full section 1112 of the offset portion 111 1113, intervening here, in a state of resiliently reduced misalignment of the offset portion 111 of the front protrusion 11 of the piston 1 to an angle of 5 angular degrees from the axis of the syringe 100, with its tip of its retraction tip 11132 to a distance this distance being here 2 mm larger than the smallest radius of the tapered inlet 211 in the tapered inlet portion of the shaped axial cavity 21 of the needle hub 2. The upstream portion of the shaped axial cavity 2 ± of the hub 2 has an inner extension 212 behind the upstream portions including an annular backing surface 2120 perpendicular to the syringe axis 100 with a largest radius here of 2 mm greater than the smallest radius of the upstream port parts of the shaped axial cavity 21 of the hub 2 of the needle. Advantageously, the obliquely extending and flexurally resilient darkness 1113 in the exemplary embodiment has here a free end 11131 at its free end, forming a return tip portion 11132 at its edge farther from the axis of the WO syringe. In this exemplary embodiment, there is also an arrangement where, at the free end of the full section 1112 of the offset portion 111 of the front projection 11 of the piston I, a front chamfer 11121 is formed, forming a front tip portion 11122 at its edge closer to the syringe axis 100. In a preferred embodiment, the tapered inlet 211 into the shaped axial cavity 21 of the hub 2 has an outwardly widening cone 2111. This tapered inlet 2111 of the tapered inlet 211 into the needle hub 21 has a radius greater than its distance at its inlet edge 2110. the front prong portion 11122 of the free end of the full section 1112 of the offset portion 111 of the front projection 11 of the pistons 1 from the axis of the syringe 100. In the embodiment described, there is a construction where the cross section of the front projection 11 of the piston 1 has a square shape. In a situation where a noticeable increase and duration of resistance were required before entering the obliquely extending and flexing spring 1113 into the shaped axial cavity 21 of the hub 2 of the needle 2, the cross-sectional area of the front projection 11 of the piston 1 would be oval, elliptical or circular. the cross-sectional area of which would preferably be in the range of 80 to 95% of the area of the inner through-section of the exit sleeve 22 of the needle hub 2. To facilitate manufacturing, a transverse bore 23 of a flat prismatic square cross section is formed in the needle hub 2 above the plane of the back support surface 2120 in the axial cavity 21 of the needle hub 2.

Thus, even in this exemplary embodiment, a needle hub lock is achieved, wherein both the lock action elements, both the piston front projection and the shaped axial cavity in the needle hub, have a simple shape and reliable function while providing a signal resistance before the end of the stroke piston, generally during the following operation of the device. The free end of the front piston boss at the end of the liquid ejection from the syringe barrel cavity extends into the shaped axial cavity in the needle hub, and then, with a relatively larger cross-section of the front piston boss, the resistance increases. the piston protrusion into the shaped axial cavity of the needle hub is reduced, and finally when the oblique backwardly extending and flexing biasing darkness enters the shaped axial cavity of the needle hub, the resistance is further increased, after which the free end of the darkness The reciprocating piston is supported on the reciprocating support surface in this shaped axial cavity, whereby it can follow, by reciprocating the piston, to draw the needle into the cavity in the syringe barrel. By resiliently deflecting the inclined portion of the front of the plunger from the axis of the syringe, the retracted needle hub and this needle also deviate from the straight direction. the bottom of the syringe barrel and thus the needle cannot be removed from the syringe barrel cavity

The needle may bend at most at a higher pressure force, causing the needle to deteriorate, which is desirable.

Industrial applicability

The device of the present invention is useful for the construction of a syringe where increased safety against reuse of the syringe is required and for safe storage and disposal of the used syringe also a safe storage of the needle within the syringe barrel.

Claims (9)

PATENT CLAIMS A syringe needle coupling device, wherein the coupling device (101) consists of a forward projection (11) of the piston (1) and a shaped axial cavity (21) in the needle hub (2), wherein the forward projection (11) is formed on the front a piston (1) and includes an offset portion (111), and a shaped axial cavity (21) with a tapered inlet (211) is formed in the needle hub (2) against the front projection (11), characterized in that the front projection (11) the piston (1) is formed as a prismatic formation extending, in the axis of the piston (1) and the syringe (100), perpendicularly from the center of the face (10) of the piston (1) with its perpendicular portion (110) and 15 to 25% of its total length continuing the offset portion (111) with an offset of 10 to 20 angular degrees, the offset portion (111) having a weakened section (1111) with a weakened cross-section, weakened relative to the perpendicular portion (110) from the starting offset in your desktop 35 to 50% and wherein the weakened portion (1111) has a length equal to 80 to 120% of the length of the perpendicular portion (110), after which the weakened portion (1111) of the offset portion (111) of the front projection (11) of the piston (1) further forward is a full section (1112) of the offset portion (111) of the front projection (11) of the piston (1) with a cross section of this full section (1112) corresponding to the cross section of the perpendicular portion (110) of the front projection (11) of the piston (1); at the transition point between the weakened section (1111) of the offset portion (111) of the front projection (11) of the piston (1) and the adjacent full section (1112) of the offset portion (111) of the front projection (11) of the piston (1) a bending spring (1113) extending, in a state of resiliently reduced misalignment of the offset portion (111) of the front projection (11) of the piston (1) to an angle of no more than 5 angular degrees from the axis of the syringe (100); perpendicular part (110) a front projection (11) of the piston (1), the distance being 1 to 2 mm greater than the smallest radius of the tapered inlet (211) in the tapered inlet portion of the needle hub (2). Coupling device according to claim 1, characterized in that the inlet of the shaped axial cavity (21) of the needle hub (2) has an inner extension (212) behind the tapered inlet portion (211), comprising a backing support surface (2120) perpendicular to the axis of the syringe (100) having the largest radius of 1 to 2 mm greater than the smallest radius of entry of the tapered inlet portion (211) of the needle hub (2). Coupling device according to claim 1 or 2, characterized in that the backward and flexurally resilient darkness (1113) has at its free end a bevel (11131) forming a return tip portion (11132) at its edge farther from the axis of the syringe (1113). 100). Coupling device according to one of claims 1 to 3, characterized in that the full section (1112) of the offset portion (111) of the front projection (11) of the piston (1) has at its free end a front chamfer (11121) forming the front tip portion (11122). ) at its edge closer to the axis of the syringe (100). -5 CZ 305238 B6 Coupling device according to one of Claims 1 to 4, characterized in that the tapered inlet (211) into the shaped axial cavity (21) of the needle hub (2) has an outwardly widening taper (2111). 5 Coupling device according to claims 4 and 5, characterized in that the tapered inlet (2111) of the tapered inlet (211) into the shaped axial cavity (21) of the needle hub (2) has a radius greater than the distance at its inlet edge (2110). the tip of the front tip portion (11122) of the full section (1112) of the offset portion (111) of the front projection (11) of the piston (1) from the axis of the syringe (100). io Coupling device according to one of Claims 1 to 6, characterized in that the cross-section of the front projection (11) of the piston (1) has a square shape. Coupling device according to one of Claims 1 to 6, characterized in that the cross-section of the front projection (11) of the piston (1) is oval, elliptical or circular, the cross-sectional area of which is 15 in the range of 80 to 95% of the area of the inner through cross-section of the exit sleeve (22) of the needle hub (2). Coupling device according to one of Claims 1 to 8, characterized in that the needle hub (2) has a transverse through hole (23) of a flat prismatic square cross section, namely 20 above the plane of the back support surface (2120) in the shaped axial cavity (21) of the needle hub (2).