RU2008024C1 - Device for injections - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has housing comprising syringe with injection needle, drive with interacting spring and pusher as well as locking-discharging device with two ball locks. Pusher has on syringe body split bush and bushing consisting of socket and glass with projections, which can move regarding to socket. Socket and split bush form axial fixed joint. One ball lock interacts with drive pusher, moving glass interacts with socket through other ball lock and by means of its projections passing grooves, carried out in socket and housing. Spring interacts with pusher through moving glass. Projections can be carried out going out overall dimensions of housing and form element in order to control manual device drive. Housing can be carried out as detachable in axial direction and at least one of its parts, socket and bush of locking-discharging device can be carried out of polymer material and can be disconnected in radial direction. Detachable parts of housing and bush are tightened by removable polymer rings. For disassembly of these rings grooves are made on housing and bush. EFFECT: increase of convenience of drug injections.

Description

 The invention relates to the field of medicine and veterinary medicine, in particular to devices for administering drugs to the human or animal body.

 A device for injection is known (Auth. St. N 288872, class A 61 M 5/20, 1969), comprising a housing with a latch, a spring located therein, a sleeve with a syringe and an injection needle. In this design, the sleeve interacts with the spring and is fixed with a latch, and a screw limiter for the depth of puncture of the needle is fixed on the body.

 The disadvantage of this device is that it automatically provides only the introduction of an injection needle into the body to a predetermined depth, while the administration of the drug must be carried out manually by pressing on the piston rod of the syringe, which when used in everyday life is inconvenient and not always possible, since it depends on the location on the body of the injection point, as well as from the physical and psychological state of the injection.

 Closest to the proposed solution is an injection device (Aut. St. N 1634285), comprising a housing with a glass cylinder mounted therein with a cannula, piston, rod and injection needle, a drive with an interacting spring and a movable pusher having a sleeve and movable relative to it in the axial direction, a detachable liner mounted on a glass cylinder, as well as a trigger and trigger device with two ball locks, one of which is installed with the possibility of interaction with a movable pusher with ode, and carried by another interaction releasable liner and bushing.

This device allows you to automatically produce not only the injection needle into the body to a predetermined depth, but also the introduction of the drug. However, it has the following disadvantages that cause inconvenience to use the device:
- to install a syringe with a detachable liner in the device body and to cock the actuator spring, an additional auxiliary device in the form of a sleeve with an inner collar is needed, in which you need to first install the syringe with a detachable liner until the latter stops in the inner collar of the sleeve and which is then inserted into the case so, that the groove of the ball lock located on the detachable insert becomes opposite to the ball located on the pusher, while the auxiliary sleeve acts on the pusher, having a spring until all ball locks of the device are locked;
when conducting automatic injection with this device, there is no visual control over the course of the piston of the syringe, which makes it difficult to determine the moment of completion of drug administration. Therefore, it is necessary to determine the duration of the injection by the length of time (i.e. a stopwatch is required). In addition, the duration of drug administration depends on a combination of many factors, such as the volume of the drug administered, the inner diameter of the injection needle, the depth of the needle injection into the body, the density of this part of the body, etc. All this forces the device to be kept with the needle inserted a little longer in time than required for injection (for guaranteed completeness of the introduction of the entire volume of the drug filled into the syringe). The duration of the procedure increases, which increases the pain of introducing a needle into the body. When vaccinating pets, increasing the duration of the injection can significantly complicate the procedure due to the stress state of the animal. In addition, the lack of visual control over the movement of the pusher does not allow timely identification of possible technical malfunctions of the drive (for example, uneven motion of the pusher with wedging);
- lack of manual adjustment of the drug administration process. This disadvantage limits the applicability of this device. For example, during a course of injections into certain, same parts of the body, "nodes" are formed on the body - small seals and further injections into these areas require increased effort on the piston rod of the syringe. In this case, with this device, the injection time can either increase significantly, or the medicine may not be fully administered due to the lack of force of the drive spring, since it usually counts on a certain force corresponding to the patient’s optimal pain-free flow rate under the most common conditions, i.e. when the body is not sealed. Another need for manual adjustment may arise with the introduction of drugs (for example, rheoperin), which, according to medical requirements, must be administered very slowly and for a long time (about a minute). In this case, the use of this device may harm the well-being and health of the patient;
- from the point of view of safety measures, this device has a dangerous property. After the syringe with the detachable insert is inserted into the housing and the spring of the actuator is cocked, it is necessary to install a pusher movement limiter on the housing. If, prior to the installation of the limiter, the locking and launching device is accidentally hit and the device drive is triggered, then the detachable insert with the syringe, having acquired kinetic energy from movement together with the pusher under the action of the spring force and having the possibility of axial movement in the pusher sleeve, may fall out of the device. In this case, the glass cylinder of the syringe or the injection needle may be damaged, or this person may injure a person near the injector;
- this device has a non-separable design. Any minor or accidental malfunction that occurs inside the case or the trigger and the trigger can permanently disable the entire device, since it cannot be disassembled and repaired, which reduces the reliability of its operation.

 The purpose of the invention is to facilitate and simplify the procedure for injection and increase the reliability of the device.

 This goal is achieved by the fact that in the known device for injection, the pusher sleeve is made up of a sleeve and movable relative to the last glass with protrusions interacting with the sleeve through the ball lock of the trigger and trigger, as well as through its protrusions that pass through those made in the sleeve and body grooves, while the actuator spring acts on the pusher through a movable cup, and the sleeve and the detachable liner form an axially fixed bayonet-type connection. In addition, the protrusions of the movable cup are made beyond the dimensions of the housing with the formation of an element for manual control of the drive of the device, the housing is made detachable in the axial direction and at least one of its parts, as well as the sleeve are made of polymeric material and detachable in the radial direction, -the trigger device includes a sleeve, also made of polymeric material and detachable in the radial direction, and the housing parts and the sleeve are pulled together by removable polymer rings, for dismantling The recesses are made on the housing and the sleeve.

New features of the proposed solutions are:
- implementation of the sleeve of the pusher compound, consisting of a sleeve and movable relative to the last glass with protrusions;
- the interaction of the glass with the sleeve through the ball lock of the locking trigger, as well as through its protrusions passing through the grooves made in the sleeve and the body;
- the implementation of the interaction of the spring with a pusher through a movable cup;
- the formation of an axially fixed connection between the sleeve and the detachable liner.

Additional new features are:
- implementation of the axially fixed connection of the sleeve and the detachable insert according to the bayonet type;
- the implementation of the protrusions of the movable Cup beyond the dimensions of the housing with the formation of the element for manual control of the drive device;
- execution of the housing detachable in the axial direction;
- the implementation of the liner and at least one of the parts of the body of a polymeric material and split in the radial direction;
- supplying the trigger with a sleeve made of a polymer material and detachable in the radial direction;
- fixing between themselves the parts of the housing of the device and the sleeve of the locking trigger by pulling together with polymer rings;
- making recesses on the housing and the sleeve for dismantling the coupling rings.

The implementation of the sleeve of the pusher compound, consisting of a sleeve and movable relative to the last glass with protrusions, interacting with the sleeve through a ball lock of the locking and trigger device, and also through its protrusions passing through the grooves made in the sleeve and the housing, along with the interaction of the spring with the pusher through the movable glass by making the connection of the sleeve of the pusher and the detachable liner motionless in the axial direction and making protrusions of the movable glass beyond the dimensions housing with the formation of an element for manual control of the drive allows the following:
- to install a detachable liner with a syringe in the device and cocking the spring without any additional devices, using your fingers to act on the protruding elements of the movable cup with subsequent installation and securing the detachable liner with a syringe in the sleeve of the pusher;
- make manual adjustments to the process of drug administration by pressing along the piston with your fingers on the elements of the protrusions of the movable glass, increasing the force on the piston of the syringe and accelerating the administration of drugs or slowing down the movement of these elements, slowing down the administration of the medicine, if necessary;
- to carry out visual control of the stroke of the syringe piston by the movement of the protrusions of the movable glass, which allows to determine the moment of completion of the injection and not to delay the procedure;
- improve safety when using the device, because if, after cocking the drive spring and installing the liner with the syringe, the pushrod limiter is not installed and the shutter-release device is pressed, the syringe will not fall out of the device, it will not be damaged and will not cause injury to others, because it will be held in the pusher by an axially integral connection.

 Performing an axially fixed connection between the sleeve and the detachable liner according to the bayonet type allows you to quickly and easily (with two movements) install and secure the detachable liner with a syringe in the drive of the device.

 The execution of the housing is detachable in the axial direction allows convenient access to the sleeve of the pusher for installing a detachable liner with a syringe without the use of additional accessories.

 The execution of the sleeve of the locking and launching device, as well as the sleeve and at least one of the parts of the housing made of polymeric material and radially detachable, simplifies the manufacturing and assembly of parts, because using the molding method in the mold, the parts can be completely prepared , and during assembly, the simplest way is to install a movable glass with protrusions passing through the grooves of the sleeve and the housing.

 The introduction of removable polymer rings that tighten the parts of the sleeve of the locking and launching device and the injector body, as well as making recesses for dismantling the rings on these parts of the body and sleeve, makes it possible to disassemble the device to eliminate a minor or accidental malfunction, which increases the reliability of the device.

 In FIG. 1, 2 and 3 depict sections of an injection device, respectively, in a charged state, at the position of the start of drug administration and at the end of the operating cycle.

 The injection device comprises: axially detachable front 1 and rear 2 parts of the housing in which the syringe is mounted, made in the form of a glass cylinder 3 with a cannula 4, a piston 5, a rod 6 and an injection needle 7; locking trigger device having a sleeve 8, a spring 9, two ball locks with balls 10, 11 and grooves 12 and 13; an actuator with a spring 14 and a pusher consisting of a detachable insert 15 mounted on a glass cylinder 3, and a sleeve 16 and a cup 17 movable relative to it with protrusions 18. The spring 14 interacts with the pusher through a movable cup 17, which interacts with the sleeve 16 through a ball lock 10 and through its protrusions 18, passing through the grooves 19 and 20 made in the sleeve 16 and the housing 2 and extending beyond the dimensions of the housing with the formation of keys 21 for manual control of the drive.

 A detachable liner 15 is fixed in the sleeve 16 axially fixed by a bayonet coupling 22. The sleeve 16 and the rear part 2 of the housing are made of polymer material and are detachable in the radial direction with the plane of the connector passing through the axes of the grooves 19 and 20. The sleeve 8 of the locking and releasing device also made of polymeric material and radially detachable, while it, as well as the rear part 2 of the housing, are pulled together by removable polymer rings 23, for the dismantling of which, recesses 24 are made in the rear part 2 of the housing and sleeve 8 and 25, respectively. To regulate the depth of introduction of the injection needle 7, a regulator 26 is installed on the front of the housing 1.

 A device for injection works as follows. In the cocked position (Fig. 1), the actuator spring 14 is compressed, acts on the movable cup 17, which is locked in the sleeve 16 by a ball lock 10, while the sleeve itself is prevented from moving in the case by a ball lock 11. The syringe with the drug is installed in the detachable liner 15 . Then, when the front part 1 of the housing is removed, the insert 15 with the syringe is installed in the sleeve 16 and secured by axial movement by turning the bayonet joint 22 against axial movement in the sleeve 22. After the front part 1 of the housing is adjusted at a predetermined depth of drug administration by the regulator 26, the injector is ready for injection.

 The end face of the front part 1 of the body, the injector is applied to the body at the injection site, and the sleeve 8 of the locking and starting device is moved in the direction of the front part 1 of the body (Fig. 2). The spring 9 is compressed, the ball lock 11 is opened, the sleeve 16 is released and, under the action of the spring 14, is abruptly moved against the stop in the front part 1 of the housing by the insert 15. Thus, the injection needle 7 is introduced into the body to a depth specified by the regulator 26. In this case, the pusher in the form of an insert 15 with a syringe, a sleeve 16, a glass 17 moved as a whole, since the ball lock 10 was locked and the rod 6 with the piston 5 relative to the glass cylinder 3 was immobile, while no medicine was released from the syringe.

 After the injection needle 7 is inserted into the body at the moment when the insert 15 abuts against the front part 1 of the housing, the ball lock 10 is opposite the groove 12 and squeezed into it by the movable cup 17 under the action of the spring 14. Thus, the ball lock opens and the cup 17 becomes possible move relative to the sleeve 16 under the action of the spring 14, while acting on the rod 6 and the piston 5, squeezing the medicine from the glass cylinder 3 through the injection needle 7 until the piston 5 stops in the cannula 4 (Fig. 3). Injection completed.

 During the injection, visual control of the piston stroke of the syringe and the moment of completion of the drug administration is carried out by the movement of the keys 21 of the movable glass 17. Manual adjustment of the drug administration process, if necessary, is carried out with the fingers on the keys 21.

 After the injection, the front part 1 of the body is removed, by turning around its axis, the insert 15 is released from the bayonet connection 22 with the sleeve 16 and is removed with a syringe to refuel a new dose of the drug.

 The injector drive is cocked. For this, acting with the fingers on the keys 21 of the movable cup 17, the latter is retracted, compressing the spring 14. The back of its protrusions 18, located in the grooves 19 of the sleeve 16, the cup 17 captures the sleeve 16 (Fig. 2) and also moves it back. At the same time, the ball lock 10 is locked and when the groove 13 on the sleeve 16 is opposite the ball lock 11 (Fig. 1), under the action of the spring 9 of the trigger, the sleeve 8 moves back and locks the ball lock 11. The injector is cocked. Further, the whole process is repeated.

 The use of the proposed device for injection allows you to simplify and facilitate the procedure for injection, and also ensures reliable operation of the injector. (56) Copyright certificate of the USSR N 1634285, cl. A 61 M 5/20, 1981.

Claims (7)

 1. DEVICE FOR INJECTION, comprising a housing with a syringe with an injection needle installed in it, a drive with a spring and a pusher made with the possibility of interaction, a locking and releasing device consisting of a sleeve of the first ball lock installed with the possibility of interaction with a movable drive pusher, and the second ball lock, as well as a detachable liner fixed to the syringe, characterized in that the movable drive pusher comprises a sleeve and a glass with protrusions movable relative to it, made with the possibility of interacting with the sleeve through the second ball lock of the trigger, while grooves are made in the sleeve and the housing, the actuator spring is configured to interact with the pusher through a movable cup, the detachable liner and sleeve are fixed axially, the second ball lock is configured to connection of the glass with the sleeve.  2. The device according to p. 1, characterized in that the sleeve and detachable liner form fixed in the axial direction of the bayonet type connection.  3. The device according to claim 1, characterized in that the protrusions of the movable cup are made in a size that extends beyond the dimensions of the housing, with the formation of a manual control element for the drive of the device.  4. The device according to p. 1, characterized in that the housing is made detachable in the axial direction.  5. The device according to p. 4, characterized in that the sleeve and at least one of the parts of the body are made of polymeric material and are detachable in the radial direction.  6. The device according to p. 1, characterized in that the sleeve of the locking trigger is made of a polymer material and is detachable in the radial direction.  7. The device according to paragraphs. 5 - 6, characterized in that the parts of the housing and the sleeve, detachable in the radial direction, are made by strained removable polymer rings, while in the rear of the housing and the sleeve are made recesses.

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