RU2401668C2 - Automatic injector - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine and is used for injections of liquid medications, performed by patients themselves, as well as in giving first medical aid in conditions of emergency situations, in war conditions and to people injured in catastrophes, accidents and natural disasters. Automatic injector contains case with located in it ampoule with medication, safety device and needle-holder with injection needle, whose other opposite end is made with possibility to puncture ampoule surface, trigger mechanism and piston. Needle-holder is made in form of two connected cylinders of different diametre. Cylinder of larger diametre is provided with ring groove and butt end site. Safety device is made in form of hollow cylindrical stepped plug, whose smaller cylinder on lateral internal surface is connected with external surface of needle-holder and rests on its butt end site. Wall of smaller cylinder under action of force applied during injection, has possibility to round butt end site of needle-holder and slide along its ring groove walls. Ampoule represents corrugated reservoir and is located between butt end planes of piston and safety device. Larger cylinder of needle-holder is connected with its guide part, interacting with case. Ampoule, piston, safety device and needle-holder are installed successively and coaxially and have possibility of simultaneous movement along case axis.

EFFECT: invention ensures reliable protection against untimely and accidental puncture of ampoule and introduction of medication to patient in corpore.

5 cl, 2 dwg

Description

The invention relates to medicine and is used for injection of liquid drugs carried out by a patient on his own. An automatic injector can be used in the provision of first aid in emergency situations, in military conditions and for victims of catastrophes, accidents and natural disasters, as well as in situations where medical care is not available, but urgent administration of the drug is required.

The prior art includes rechargeable automatic injectors for liquid medicines, which include, for example, the device according to Russian patent No. 2131748. The injector described herein comprises a cylinder with a syringe assembly including an ampoule, a needle, a piston with a rod, and also an ejector for ejecting the syringe assembly, introducing a needle, and displacing the liquid drug. The design of this device allows reloading with ampoules, i.e. is reusable. However, it does not provide protection against inadvertent operation and unproductive waste of the drug, which is especially important when administering expensive drugs.

When creating an automatic injector, according to the USSR author's certificate No. 1424852, the task was to prevent spontaneous administration of the drug; for this, an additional glass with an opening in the bottom, installed with the possibility of axial movement, and an eccentric arrangement of the holes of the glass and body were introduced into the device design. The pusher is installed in the housing with the possibility of interaction of the shoulder with the bottom of the glass or housing. However, in this design there is no emphasis on the glass, which does not exclude the loss of medicinal media with premature connection of the injection needle to the ampoule. In addition, both the glass and the case have large dimensions, which is inconvenient when using such an injector.

The task of simplifying and improving ease of use is solved in the design of the automatic injector described in USSR patent document No. 1093345. The injector contains a stopper consisting of collet grips mounted on a push rod and interacting with the end face of the nozzle. The nozzle part is located so that it partially enters the housing and is mounted with the possibility of axial movement, fixing ring protrusions are made on the interacting surfaces of the nozzle part and the housing, the trigger element is made in the form of a hollow cylinder with protrusions at one end, and the housing has windows for the passage of these protrusions . However, this design does not allow reliable protection of the user from involuntary operation, it is complex, the injector is large.

The closest analogue is the automatic injector according to the patent of Russia No. 2181057, the creation of which solves the problem of increasing reliability by improving the sterility and tightness of the ampoule during long-term storage, the design dimensions are reduced. The known injector contains a trigger mechanism with a spring drive, an ampoule, an injection unit. The ampoule is made of elastic material in the form of a ball with a welded neck. The working end of the spring-loaded rod is made in the form of a hemisphere. The ampoule is placed in the support sleeve of the injection needle assembly. The upper end of the support sleeve is also made in the form of a hemisphere. The trigger mechanism includes a rod with a collet head and a spring drive, a safety bracket with a protrusion included in the groove of the collet head of the rod, and a bellows with a bottom configured to puncture the injection needle.

The disadvantages of this design include the loss of medication due to incomplete emptying of the ampoule made in the form of a sphere, as well as due to the possibility of involuntarily piercing the ampoule with an injection needle, the low adaptability of the device itself due to the presence of parts of complex shape.

The claimed invention is aimed at solving the problem of creating an automatic injector, which provides reliable protection against premature and involuntary piercing of the ampoule, complete emptying of the ampoule when administering the medicine to the patient, simplification of the manufacturing technology and use of the automatic injector having small dimensions.

The technical result achieved by using the invention is to increase the reliability of protection against premature and involuntary piercing of the ampoule and ensure the full administration of the drug.

The problem is solved due to the fact that in an automatic injector containing a housing with an ampoule with a medicine, a fuse and a needle holder with an injection needle, the reverse end of which is designed to puncture the surface of the ampoule, and the trigger mechanism uses a piston, the needle holder is made in the form two mating cylinders of different diameters, a cylinder of a larger diameter is equipped with an annular groove and an end face, the fuse is made in the form of a hollow cylindrical step sleeve, smaller the first cylinder of which, on the lateral inner surface, is mated with the outer surface of the needle holder and rests on its end face, and the wall of the smaller cylinder under the action of the force applied during injection has the ability to bend around the end face of the needle holder and slide along the walls of its annular groove, the ampoule is a corrugated container and placed between the end planes of the piston and the fuse, the larger needle holder cylinder is connected to its guide part interacting with the housing, and amp Ula, piston, fuse and needle holder are installed sequentially and coaxially and have the ability to simultaneously move along the axis of the housing.

To ensure centering, the guide part of the needle holder is provided with longitudinal ribs, and the piston is made in the form of a hollow cylinder with a bottom having sealing rings on the outside.

Reliability of protection against premature piercing of the ampoule is increased due to the fact that the fuse is supported by the end face of the needle holder, and the piston and corrugated container are made of elastic material.

Protection against unintentional operation is increased due to the fact that the width of the end face of the needle holder is 0.05-0.5 of the wall thickness of the smaller fuse cylinder.

The invention will be better understood from the description with reference to the position of the drawings, where Fig. 1 shows a general view of an automatic injector, and Fig. 2 shows a sectional view of an automatic injector (without a trigger).

The automatic injector 1 comprises a housing 2 with an ampoule 3 with a medicine 4 located therein, a fuse 5 and a needle holder 6 with an injection needle 7. The piston 8 borders on the ampoule 3 along the end surface 16. The needle holder 6 is made in the form of two mating cylinders: a smaller diameter 9 and larger diameter 10. The cylinder of larger diameter is equipped with an annular groove 11 and an end platform 12, made at the boundary between the cylinders 9 and 10 in the place of their mating. This platform 12 serves to support the fuse 5. The fuse 5 is made in the form of a hollow cylindrical stepped sleeve 13, the smaller cylinder 14 of which is connected to the outer surface of the needle holder 6 on its lateral inner surface and is supported by its wall 23 on its end face 12. The larger cylinder 10 the needle holder 6 is connected to its guide part 19, which interacts with the housing 2. The ampoule 3 is an elastically corrugated container and is placed between the end planes 16 and 17 of the piston 8 and the fuse 5. Am Ula 3, piston 8, fuse 5 and the needle holder 6 are installed in the housing 2 of the injector 1 sequentially and coaxially and can simultaneously move along the axis 18 of the housing 2. The guide part of the needle holder 6 is provided with longitudinal ribs 19, which serve to better center and facilitate the movement of the needle holder 6 in case 2. The piston 8 is connected to the trigger mechanism (not shown in FIG. 2) and is made in the form of a hollow cylinder 20 with a bottom 21 having sealing rings 22 from the outside. Fuse 5, piston 8 and corrugated container pools 3 are made of elastic material. The width of the end face 12 of the needle holder 6 is 0.05 - 0.5 of the wall thickness 23 of the smaller cylinder 14 of the fuse 5. This ratio allows long-term storage of the auto-injector 1 while providing reliable protection against involuntary operation and loss of operability of the device as a result of drug loss, and in operation provides reliable operation of the injector and the introduction of the drug to the patient in full.

Automatic injector is used as follows.

When the trigger (not shown) is pressed on the piston 8, the latter acts on the corrugated ampoule body, which is located between the end surfaces 16 and 17 of the piston 8 and the fuse 5. The ampoule 3 moves with the piston, fuse, and needle holder along the axis 18 of the injector 1 body 2 until the needle holder 6 reaches the bottom of the housing 2, the needle 7 thus pierces the bottom 24 of the housing 2 and leaves it, and the fuse 5, ampoule 3 and the piston 8 continue to move. Under the force exerted by the injection, the wall 23 of the smaller cylinder 14 of the fuse 5 bends around the end face 12 of the needle holder and slides along the walls of its annular groove 11. The reverse end 25 of the needle 7 pierces the elastically elastic surface of the ampoule 3, and the medicine from the cavity of the ampoule 3 along the channel of the needle 7 enters the injection site.

When testing the design of the injector with various ratios of the parameters of the elements of the needle holder and the fuse, the applicant found that the ratio from 0.05 to 0.5 is optimal for ensuring the operability and reliable prevention of premature piercing of the ampoule by the ratio of the width of the end face of the needle holder and the wall thickness of the smaller cylinder of the fuse.

The invention has the following advantages:

Provides reliable protection against premature and involuntary piercing of the ampoule.

Provides complete administration of the drug and completely eliminates its loss.

Technologically and easy to use.

It has a small size.

Provides long-term storage of ampoules and drugs without loss.

It does not require additional time to prepare for work.

It can be used by both medical personnel and an untrained user.

Claims (5)

1. An automatic injector comprising a housing with an ampoule containing medicine, a safety device and a needle holder with an injection needle, the reverse end of which is capable of puncturing the surface of the ampoule, and a trigger,
characterized in that a piston is inserted into it,
the needle holder is made in the form of two mating cylinders of different diameters, the larger diameter cylinder is provided with an annular groove and an end plate,
the fuse is made in the form of a hollow cylindrical stepped sleeve, the smaller cylinder of which is connected to the outer surface of the needle holder along the lateral inner surface and rests on its end face, and the wall of the smaller cylinder under the influence of the force applied during injection has the ability to bend around the end face of the needle holder and slide along the walls its annular groove,
the ampoule is a corrugated container and placed between the end planes of the piston and the fuse,
the larger needle holder cylinder is connected to its guide portion cooperating with the body,
and the ampoule, piston, fuse and needle holder are installed sequentially and coaxially and have the ability to simultaneously move along the axis of the housing. 2. The automatic injector according to claim 1, characterized in that the guide part of the needle holder is provided with longitudinal ribs. 3. The automatic injector according to claim 1, characterized in that the piston is made in the form of a hollow cylinder with a bottom having sealing rings on the outside. 4. The automatic injector according to claim 1, characterized in that the fuse, piston and corrugated container are made of an elastic material. 5. The automatic injector according to claim 1, characterized in that the width of the end face of the needle holder is 0.05-0.5 of the wall thickness of the smaller fuse cylinder.

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