RU2152227C1 - Jet injector - Google Patents

Abstract

FIELD: medicine, in particular, jet injectors for performing mass injections of various medicinal preparations. SUBSTANCE: jet injector has casing incorporating piston, power block with piston blocking mechanism and activate button, and injection nozzle fixed on casing by means of clamping nut. Sleeve with partition wall provided with central opening is mounted in clamping nut bore. Film is attached to end surface of partition wall so as to close central opening at side adjacent to nozzle by means of washer mounted in nut bore. Such construction of jet injector eliminates transmission of infection from one person to another. EFFECT: simplified construction and increased quality of performing mass injections. 4 cl, 3 dwg

Description

 The invention relates to medical equipment and can be used for mass jet injection.

 When conducting mass jet injections, the urgent task is to completely eliminate the transmission of infection from one person to another (including HIV).

 Known needleless injector containing a housing, inside of which is located a piston, a power unit, a nozzle. A nozzle is attached to the nozzle end of the housing. The nozzle is made in the form of a removable sleeve, inside of which a protective partition with a central hole is made.

 The piston, interacting with the power block, sucks the drug from the bottle and pushes it through the nozzle. The jet of the drug formed by the nozzle passes through the Central hole of the protective walls of the nozzle (RF patent N 2008932 IPC A 61 M 5/30, 03.01.90,).

 The disadvantage of this needleless injector is that the protective baffle of the nozzle does not completely protect the nozzle from getting sprayed tissue fluid resulting from an impact and crushing it on the patient’s skin surface. The aerosol is sucked into the nozzle as in a cavity with a lower pressure, deposited on the nozzle, violating its sterility. As a result, the reliability of protecting the patient from aerosol infection of the tissue fluid of the previous patient is very low.

 The needleless injector is deprived of this drawback (RF patent N 2108117 IPC A 61 M 5/30, 01/28/91 - prototype).

 The injector comprises a housing with a piston inside it, a power unit with a piston lock mechanism and a release button, an injection nozzle. A bottle and a handle are installed on the body. An anti-infection nozzle is installed on the nozzle end of the housing, made in the form of a sleeve with an internal protective partition, which forms a nozzle chamber between itself and the end of the injection nozzle. In the protective partition of the anti-infective nozzle, a central hole is made for the passage of the drug stream.

 The nozzle chamber is communicated with a special channel with the atmosphere. The presence of a channel communicating with the atmosphere of the nozzle chamber prevents the penetration of tissue fluid aerosols onto the nozzle.

 However, this injector does not guarantee the exclusion of cross infection for the reason that the hole in the inner septum is constantly open. Therefore, it is impossible to completely exclude the possibility of penetration through it of the smallest particles of tissue fluids from the injection site, since during the injection there is a "rebound" of the particles of the jet of the medicinal product that have lost their kinetic energy.

 The objective of the present invention is to ensure the guaranteed exclusion of cross-infection during mass injection.

 The problem is achieved in that in a needleless injector containing a housing with a nozzle and a clamping nut, in the bore of which there is a sleeve with an internal partition, in which a central hole is made, and the nozzle chamber is communicated with a special channel with the atmosphere, a thin a film covering the central hole of the partition, fixed by means of a washer installed (with an interference fit) in the bore of the sleeve.

 The film can be fixed to the partition by thermal fusion around the periphery. A conical bore is made in the sleeve with the apex of the cone in the direction of the nozzle, into which a support plug with a central hole is installed.

 This solution allows the frontal part of the jet of the drug to “pierce” the film and the cross sections of the puncture and the jet coincide over the expiration of the prescribed dose of the drug, which eliminates the possibility of penetration of any particle towards the nozzle. This ensures a complete guarantee of elimination of cross-infection.

 The proposed technical solution can be used when conducting massive intradermal, subcutaneous and intramuscular injections.

 To ensure high quality subcutaneous and intramuscular injections, a removable support plug with a central hole is provided in the injector design, which provides sufficient tissue compression at the injection site. The plug is installed in the conical bore of the sleeve.

 Design options for single use and for repeated reuse with intermediate sterilizations are presented.

The proposed device is presented in the drawings, where in FIG. 1 shows a needleless injector with adjustment for intradermal mode and an elastic film fixed to the septum, in FIG. 2 shows the setting of a needleless injector for subcutaneous and intramuscular regimen; FIG. 3 shows a design variant of a needleless injector with a removable film (re-sterilized), where:
1 - injector body;
2 - the piston;
3 - injection nozzle;
4 - bottle;
5 - clamping nut;
6 - sleeve;
7 - baffle baffle;
8 - the Central hole of the sleeve;
9 - film;
10 - washer;
11 - supporting plug;
12 - the Central hole of the stub.

The needleless injector comprises a body 1 (Fig. 1) inside of which a piston 2 is placed, a power unit with a piston lock mechanism and a release button (not shown in the drawing), an injection nozzle 3. A bottle 4 for a medicine is placed on the body 1. The nozzle 3 is fixed on the housing 1 by a clamping nut 5. In the bore of the clamping nut 5, a sleeve 6 is installed with a partition 7 with a central hole 8. A film 9 with a thickness of 0.003 ... 0.1 mm is fixed on the end surface of the partition 7 (from the nozzle side).
Depending on the embodiment (one-time - FIGS. 1 and 2 or re-sterilized in FIG. 3), the film 9 is mounted on the end surface either by thermal fusion on the periphery with a one-time embodiment, or by means of a washer 10, which is installed with an interference fit in the bore of the sleeve 6 when re- sterilized embodiment.

 When performing intradermal injections, the injector is pressed against the surface of the skin with the end face of the sleeve 6 (Fig. 1). In this case, the bore of the sleeve, relying on the skin, forms it under the required (for intradermal injection) radius of the sphere.

 When performing subcutaneous and intramuscular injections, the injector is pressed against the skin by the end face of the sleeve 6 with a support plug 11 installed in its conical bore with a central hole 12.

 When injecting, the trigger mechanism unlocks the piston 2. The power unit presses on the piston 2, as a result of which the piston moves and pushes out the medication located in the under-piston space through the nozzle 3.

 The process of expiration of a given dose of the drug.

 In this case, the jet pierces the film 9 and then penetrates to a predetermined depth (intradermally, subcutaneously, intramuscularly) into the patient’s tissue.

 The proposed injector allows for high-quality mass jet injections, while ensuring the exclusion of transmission of infection from one person to another.

Claims (4)

 1. A needleless injector containing a housing with a nozzle and a clamping nut, in the bore of which there is a sleeve with an internal partition, in which a central hole is made, and the nozzle chamber is in communication with the atmosphere, characterized in that a thin one is installed on the surface of the partition from the nozzle side a film covering the central opening of the septum.  2. The needleless injector according to claim 1, characterized in that the film is removable and secured with a washer.  3. The needleless injector according to claim 1, characterized in that the film is fixed to the partition by thermal fusion on the periphery.  4. The needleless injector according to claim 1 - 3, characterized in that a conical bore is made in the sleeve with the tip of the cone in the direction of the nozzle, into which a support plug with a central hole is installed.

Images