RU195971U1 - Carpool injector stem - Google Patents

Abstract

The stock for a karpulny injector belongs to details of medical tools. The device is made in the form of a rod-shaped body with a pusher piston of the carpula, a finger stop and a limiter for the return stroke of the rod. The carbule piston pusher is located on the head of the stem body. A finger rest is formed on the tail of the stem body. The stem return stop is located on the head of the stem body. The destruction of the capsule and the disengagement of the stem with the body of the injector during the aspiration test are prevented. Improved injection safety. 9 s.p. f-ly, 10 ill.

Description

The utility model relates to medical instruments, namely, devices for subcutaneous, intramuscular, intraosseous or intravascular injection into the body of liquid media, including drugs. The technical solution is intended primarily for local anesthesia in dentistry and for use in the field of cosmetology.

The safety and effectiveness of the injection depends on the accuracy of the needle entering the blood vessel. In particular, modern technologies of local anesthesia involve the use of highly concentrated substances, the entry of which into the vascular bed can cause the development of emergency conditions. For this reason, it is important to prevent intravascular administration of local anesthetics. To exclude unintentional entry of the needle into the lumen of a blood vessel or, conversely, for injection strictly into the channel of the vessel, an aspiration test is preliminarily performed. One of the practical methods for conducting an aspiration test is to pull the injector rod in the opposite direction by 1-2 mm immediately after the puncture to create negative pressure in the carpulus. The appearance of blood in this solution of the injector means that the needle enters the blood vessel and, for example, for the safe administration of a local anesthetic, the doctor should shift the point of injection.

From the patent document RU 2663645 C1 of 08/07/2018, a carpul injector containing a rod is known. The known rod is made in the form of a rod-shaped body with a pusher piston of the carpula, a finger stop and several stoppers for the return stroke of the rod in the form of paws. In this case, the pusher piston pusher is placed on the head of the stem body, the finger rest is formed on the tail of the stem body, and the stroke return stops are located on the central part of the stem body. These restrictors work at the final stage of the injection procedure, making it impossible to reuse the injector. The injector according to RU 2663645 C1 is designed to perform an aspiration test at the initial stage of injection, however, the stroke of the rod is not limited, which, when excessive force is applied to the rod, can lead to the exit of the carpula piston beyond its cylinder, as well as to disassociation of the rod with the body an injector, which as a result reduces the safety level of the injection.

A technical issue to be addressed is improving injection safety.

The technical result provided by this useful model is to prevent the destruction of the capsule and the disengagement of the rod with the injector body during an aspiration test.

The technical result is achieved due to the fact that the rod for the karpulny injector is made in the form of a rod-shaped body with a pusher piston pusher, finger rest and limiter for the return stroke of the rod. In this case, the pusher piston pusher is placed on the head of the stem body, and the finger rest is formed on the tail of the stem body. Moreover, the return stroke limiter is located on the head of the stem body.

In the particular case of the implementation of the utility model, the return stroke limiter is located on the lateral surface of the rod body in the immediate vicinity of the pusher piston of the carpula.

In another particular case, the rod return limiter is placed at a distance not exceeding 10 mm from the front edge of the stem head part.

Also, in the particular case, the limiter of the return stroke of the rod is made in the form of an elastic tab, one end of which is connected to the body of the rod, and the other end is free and in the normal state is deflected towards the tail of the rod.

In the particular case, the rod return limiter is made in the form of a movable spring-loaded ratchet tooth connected to the rod body.

In a particular case, a recess is made in the body of the rod, in which a limiter for the return stroke of the rod is fixed.

In a particular case, the size of the recess is selected from the condition that it fully accommodates the specified stopper when it is pressed against the body of the rod.

Also in the particular case, the limiter of its return stroke contains working elements symmetrically located relative to the longitudinal axis of the rod.

In another particular case, the finger rest is made in the form of a ring or in the form of a saddle.

The essence of the device is illustrated by the following drawings, which show as examples some of the possible rod designs for a carp injector.

FIG. 1-3 - rod for karpulny injector (options for the execution of the stem head A-F, side view and front view).

FIG. 4 - rod disposable injector.

FIG. 5 is a variant of a carbule injector (side view in cross section).

FIG. 6 - alternatives for the carpul injector.

FIG. 7-10 - karpulny injector in the process.

The rod is an integral part of the karpul injector and serves to set the piston in motion with the muscular force, whereby an aspiration test is carried out first and then liquid medium is introduced into the body from the karpula.

Shown in FIG. 1 rod 1 is made in the form of a rod-shaped body, the length of which is many times greater than its width, less than the diameter of the cylinder of the carpula.

The rod 1 contains a finger stop 2, the pusher 3 of the piston of the carpula and tabs 4 as limiters for the return stroke. For the legs 4 in the body of the rod 1 a neck is made.

The pusher 3 is a part of the rod 1 and is characterized by a supporting surface, which serves to transfer force from the rod to the piston of the carpula and to communicate to this piston of translational motion. In addition, part of the pusher 3 is a harpoon tip 5 for fixing in the rubber body of the piston and giving it a return movement if necessary. The functional role of the supporting surface of the pusher 3 is played by the front end of the body of the rod 1 (as, for example, in embodiment A of the rod head in FIG. 1), which is directly in contact with the piston of the carpula, or the developed front surface of the tip in the form of a disk element 6 (variant B of the head on Fig. 2). The supporting surface of the pusher in embodiment C of the head in FIG. 2 form the conical surface of the fixing tip 7 and the ledge of the body of the rod 1, adjacent to the root part of the neck of the rod. The pusher 3 of the piston of the carpula is located on the head of the stem 1.

The tabs 4 are made elastic to give them mobility relative to the body of the rod 1, their root ends are connected to the body 1 of the rod, and the free ends are deflected towards the tail of the specified rod. The tabs 4 are fixed in the immediate vicinity of the front end of the body of the rod 1 at an empirically selected distance not exceeding 10 mm from the front edge of the head of the rod 1, since when carrying out an aspiration test, the head part of the rod 1 is predominantly located (the part of the rod 1 in region I in Fig. 1). From the conditions of manufacturability, the legs 4 are placed on the lateral surface of the neck of the rod 1. These legs are mounted on the body 1 of the rod symmetrically relative to its longitudinal axis (Fig. 3). Preferably, the stem contains additional tabs 8 to prevent reuse of the injector, fixed in the recess on the central part of the stem 1. The dimensions of the mentioned necks and recesses are selected from the condition that they fully accommodate the legs 4 and 8 when they are pressed against the body 1 of the rod. In an alternative embodiment of the rod 1, the rod return limiter comprises a movable spring-loaded ratchet tooth oriented along the longitudinal axis of the rod, with the wide side of said tooth facing the tail end of the rod. The tooth is configured to function similarly to the said legs.

The finger rest 2 is a holder for the thumb, made in the form of a ring (Fig. 1 and 4), a saddle or other shape that provides the possibility of both translational and return stroke of the rod 1. The finger rest 2 is formed on the tail of the rod 1.

All of these elements are associated with the body of the rod 1, which is made in the form of a single part that does not have separate components, from polypropylene by extrusion molding or from metal, or consists of assembly units that are inextricably interconnected by assembly operations and are in functional structural unity .

In addition to the rod 1, the karbul injector includes a housing consisting of a cylinder 9, paired finger stops 10 and 11, a support sleeve 12 of the rod 1, and a carrier sleeve 13 with a nipple adapter 14 for attaching a double-edged karpulny needle (Fig. 5).

The cylinder 9 is made with a cavity for carpules. To enable visual inspection of the capsules, a viewing window is formed in this cylinder, or the housing is made of optically transparent glass or plastic. The cylinder 9 contains threaded or bayonet elements on its outer and inner walls.

Finger stops 10 and 11 are holders for the index and middle fingers of the right hand, and respectively serve to enable the forward and backward movement of the rod 1 relative to the cylinder 9. The stops 10, 11 are formed on the proximal part of the cylinder 9.

The bushings 12, 13 are made of channel, with threaded or bayonet elements for fixed connection with the mating elements of the cylinder 9, respectively, on the proximal and distal parts of the injector body. The diameter of the channel of the sleeve 12 corresponds to the diameter of the rod 1, and the size of the channel of the sleeve 13 is sufficient to pass the tube of the needle. An annular rim 15 is made in the distal part of the sleeve 12, bounded by a ledge of a thicker wall of the sleeve 12 in its central part.

The inner surface of the channel of the body is made tapering towards the proximal part of the injector so that the cavity for the carpule stepwise passes into a smaller working cavity for the limiter of the return stroke of the rod 1 and in the supporting channel of the sleeve 12 for this rod. The cavity for the capsule is bounded from the distal end of the injector by the bottom of the barrel of the cylinder 9, and from the proximal end is bounded by the edge of the rim 15 of the sleeve 12. The width of the working cavity for the return stroke limiter of the rod 1 is determined by the depth of the rim 15 along the longitudinal axis of the injector. The dimensions of the working cavity for the legs 4 are preferably selected from the condition of free return in this cavity of the said legs by 1-3 mm. The proximity of the pusher 3 of the piston of the carpula and the legs 4 is dictated by the need to give the working cavity for the legs 4 of the smallest possible longitudinal size in the injector body limited in length.

Alternative embodiments of the injector body are shown in FIG. 6. The steps of the channel of the housing are made directly in the body of the cylinder 9 in the form of protrusions 16, 17. The support channel for the rod 1 is formed directly in the main material of the cylinder 9. In the variant G, the protrusion 16 is segmented, and in the variant H this protrusion is made solid.

With local anesthesia in dentistry, the device operates as follows.

A karbul 18 is placed inside the cylinder 9 and the inlet of the housing is closed with a sleeve 13 (Fig. 7) or sleeve 12, depending on the design of the injector. The rod 1 is inserted into the support channel of the housing intended for it, press on the rod 1 and feed it forward. While passing through the support channel of the housing, the elastic tabs 4 are pressed by the walls of the specified channel to the body of the rod 1, due to the shape of the tabs 4 and their location on the neck or in the recess of the rod 1, these tabs do not impede the progressive advancement of the rod 1, which ensures smooth progress. Upon entering the working cavity for the rod 1 return stroke limiter, the legs 4 move to their normal position (Fig. 8) and open as much as possible to the sides, when the reverse force is applied to the rod 1, the legs 4 rest against the protrusion stopping them 17 (or the ledge next to the inner edge of the corolla 15 of the sleeve 12), making further reverse movement of the rod 1 impossible, since the location of the tabs 4 on the body of the rod 1 is chosen so that these tabs do not interfere with the aspiration test, but are included in the work at the boundary of the permissible matters of rod movement 1. The harpoon tip 5 enters the rubber body of the piston 19 of the karpula 18 and is securely self-fixed in it. The cone of the tip 7 works in the same way, being fixed in the aspiration recess of the piston 19 for which it is intended, and the tip in the form of a disk element 6 only touches its front surface of the piston 19. The supporting surface of the pusher 3 abuts against the piston 19, between the tabs 4 and the protrusion 17 or ledge next to the corolla 15, a gap of 2-3 mm is formed, sufficient for an aspiration test. A karpulny needle (not shown) is screwed onto the nipple adapter 14, which at the same time pierces the rubber stopper of the karpula 18 with its tube. After that, the injector is ready for operation.

To conduct an aspiration test, the rod 1 is slightly pulled back, giving a return stroke, as a result of which the harpoon tip 5 or the cone of the tip 7 pulls the piston 19 of the karpula 18. In the case of a tip in the form of a disk element 6, an aspiration test is carried out by pulling the rod 1 with a sharp backward movement , as a result, a vacuum is created between the piston 19 and the disk element 6, under the action of which the piston of the carpula 18 follows the rod 1. In this case, the reverse force is transmitted to the cylinder of the carpula, which abuts against amu a protrusion 16 or a halo region 15 of the sleeve 12. Since further movement of the cartridge cylinder 18 is impossible, the entire force is transmitted as the piston 19, movement of which relative to the cartridge cylinder inside of the cartridge creates a negative pressure. If the tip of the karpulny needle fell into a blood vessel, then the blood will enter the karpula 18 and stain its contents. During visual inspection of the carpula 18, the doctor will conclude that the aspiration test is positive and that the injection conditions, in particular, the injection site, need to be changed. When the greatest effort is applied to the stem 1, the joint work of the tabs 4 and the protrusion 17 (or a similar ledge forming the corolla 15) reliably protects this rod from excessive return movement that can exceed the thickness of the piston of the carpula 19 of the carpula 18, which completely eliminates the risk of the piston 19 falling out of karpuli 18, as well as the disconnection of the rod 1 with the injector body, which increases the reliability of the injector during the aspiration test and increases the safety of the injection procedure. Moreover, the inclusion in the structure of the rod 1 more than one tab 4 mounted on the body 1 of the rod symmetrically relative to its longitudinal axis, further increases the reliability of the device. Ensuring a smooth stroke of the rod 1, free return of the legs 4 during the aspiration test, allow the doctor to better control the stroke of the rod 1 due to the ability to exert the minimum necessary force, which positively affects the integrity of the carpula and injector, and also contribute to the safety of the injection.

After the doctor makes sure that the puncture was made into muscle or bone tissue, he presses the rod 1 and gives it a translational movement in the direction of injection, the carpula rests on the bottom of the cylinder 9 or sleeve 13, restricting the movement of the capsules along the longitudinal axis of the injector. The piston 19 squeezes the anesthetic through the needle into the patient’s tissue (FIGS. 9, 10). When trying to return the rod 1 to its original position, the legs 8 abut against the protrusion 17 or the ledge in front of the rim 15, blocking the further return movement of the rod 1 and reuse of the injector.

As a result, injection safety is further enhanced.

Claims (10)

1. A rod for a karpul injector made in the form of a rod-shaped body with a pusher piston pusher, a finger stop and a limiter for the return stroke of the rod, while the pusher pusher karpula is placed on the head of the body of the rod, a finger stop is formed on the tail of the rod body, characterized in that rod return stop is located on the head of the rod body. 2. The stem according to claim 1, characterized in that the limiter of its return stroke is located on the lateral surface of the stem body in the immediate vicinity of the pusher piston of the carpula. 3. The stem according to claim 1, characterized in that the limiter of its return stroke is placed at a distance not exceeding 10 mm from the front edge of the head of the stem. 4. The rod according to claim 1, characterized in that the limiter of its return stroke is made in the form of an elastic tab, one end of which is connected to the body of the rod, and the other end is free and in the normal state is deflected towards the tail of the rod. 5. The stem according to claim 1, characterized in that the limiter of its return stroke is made in the form of a movable spring-loaded ratchet tooth connected to the body of the rod. 6. The stem according to claim 4 or 5, characterized in that a recess is made in the body of the stem, in which a limiter for the return stroke of the rod is fixed. 7. The stem according to claim 6, characterized in that the size of the recess is selected from the condition that it fully accommodates the specified stopper when it is pressed against the body of the stem. 8. The rod according to claim 1, characterized in that the limiter of its return stroke contains working elements symmetrically located relative to the longitudinal axis of the rod. 9. The stem according to claim 1, characterized in that the finger rest is made in the form of a ring. 10. The stem according to claim 1, characterized in that the finger rest is made in the form of a saddle.

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