RU2025135C1 - Method for injection by means of jet injector - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method for injection by means of jet injector consists in that force spring of trigger mechanism is cocked, simultaneously, injector hydraulic cylinder is filled with liquid preparation, cock for compressed air supply is opened to pneumatic nozzle of injector and to pneumatic trigger valve. Then injector is installed on patient body by means of support of pneumatic nozzle. In this event, jet kinematic energy of compressed air flowing from pneumatic nozzle presses patient body surface from pneumatic and hydraulic nozzles and, simultaneously, contracts surface blood vessels. After this, trigger bottom is used to open pneumatic trigger valve and compressed air is fed to pneumatic cylinder; piston in this cylinder is moved to act with it on piston of hydraulic mechanism. In this case, potential energy of compressed spring is converted into kinematic energy of jet of liquid preparation displaced from hydraulic cylinder through hydraulic nozzle which is located inside pneumatic nozzle. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to the field of medicine - to methods for administering medications directly to the patient's body.

 Various injection methods are known. The syringe method of introducing medications into the soft tissues of the patient’s body is widespread. Along with many advantages, it has a significant drawback - the ability to transfer syringe infections with insufficient sterilization of syringes and needles to them. Currently, the only way to deal with syringe infections is to use disposable syringes. The use of disposable syringes is associated with high costs of human and material resources for the manufacture and disposal of these syringes.

 Known inkjet injection method. According to this method, the potential energy of a compressed spring in a needleless injector is transferred to the piston of a hydraulic cylinder, which, when it moves, compress the liquid medication in the hydraulic cylinder and expel it from it under pressure through a hydraulic nozzle. The kinetic energy of the liquid jet destroys the soft tissues of the patient’s body at the point of contact with the nozzle exit, the medication penetrates the soft tissues and, thus, injects. A disadvantage of the known inkjet injection methods is that during the injection there is direct mechanical contact between the nozzle support sleeve or the nozzle itself and the patient’s body. As a result, it is possible to transfer particles of blood emerging from the destroyed superficial blood vessels of the patient from his body to the injector nozzle, and then to the body of another patient at the site of the next infection, and his infection, in particular, the AIDS virus.

 Of the known closest to the technical nature of the inkjet injection methods is the method implemented in BI 8 needleless injector. According to this method, a sterile sleeve is installed on the injector nozzle before the injection, the injector is installed by lightly pressing the nozzle perpendicularly onto the patient’s body, the trigger button is pressed with the finger of the medics. Thus, the spring of the hydraulic mechanism is released, the potential energy of the compressed spring is transferred through the piston to the liquid medication in the hydraulic cylinder, the potential energy of the liquid is increased by increasing its pressure, and then the potential energy is converted into kinetic energy at the nozzle exit. The kinetic energy of the liquid jet destroys the soft tissues of the patient’s body, thereby introducing the medication into it - they inject.

 The disadvantage of this inkjet injection method is that during the injection, the nozzle (or its sleeve) compresses the soft tissues of the patient’s body, simultaneously compresses the superficial blood vessels, and the static blood pressure in the vessels increases. If the compressed blood vessels are destroyed by a jet of medication or the pressure on the patient’s body decreases with the nozzle after the injection is completed, it is possible to release blood particles on the surface of the patient’s body at the injection site. As a result, if the medical personnel violate the requirements to replace the nozzle sleeve with a sterile one, after each patient it is possible to transfer blood particles to the body of another patient on the details of the injector. As a result, he may become infected with an infection in the blood of the first patient, in particular, the AIDS virus. When carrying out mass injections, for example, when vaccinating the population, mass infection is possible. This disadvantage significantly limits the possibility of using the known inkjet injection method, thereby eliminating the significant advantages of this method compared to the syringe method.

 The aim of the invention is to exclude the possibility of transmission of infection during mass injections by the jet method.

 This goal is achieved by the fact that before the injection, the spring of the injector trigger is cocked, the valve for supplying compressed air to the injector to the pneumatic nozzle and the pneumatic drain valve is opened on the compressed air line, the supports of the pneumatic nozzle are installed on the patient’s body, while the compressed air from the pneumatic nozzles squeeze the patient’s body surface from the injector nozzle, then open the pneumatic trigger valve, supply compressed air to the pneumatic cylinder, the pressure is compressed a pneumatic rotary air cylinder moves the piston, which produces the descent of the spring and trigger mechanism carried jet injection medicine through the hydraulic injector nozzle, which is placed concentrically inside the air nozzle.

 The positive effect of this inkjet injection method is contained in the exclusion of mechanical contact of the injector nozzle at the injection site with the patient’s body, during and after the injection by squeezing the patient’s body from the nozzle with the kinetic energy of the compressed air jet before, during and after the injection, before discharge the injector from the patient’s body to a distance that excludes hit of blood particles on the injector parts.

 An additional positive effect of the method is the exclusion of the possibility of an injection in the absence of compressed air, because in this case, the release of the power spring of the hydraulic mechanism is carried out by the piston of a pneumatic cylinder, which is moved by compressed air after feeding it to the pneumatic nozzle.

A comparative analysis found that this object has new significant features that characterize the sequence of new actions on material objects - absent from the prototype, namely:
open the tap on the compressed air line;
supplying compressed air to the pneumatic nozzle and simultaneously to the release valve;
with a jet of compressed air, squeeze the surface of the patient’s body from the nozzle of the injector and simultaneously squeeze the surface blood vessels at the injection site with the same stream of compressed air;
open the trigger pneumatic valve;
compressed air is supplied through the release valve to the pneumatic cylinder;
move the piston in the pneumatic cylinder with compressed air;
carry out the descent of the power spring of the injector by the piston of the pneumatic cylinder.

 The presence of significant distinguishing features of this object and their absence from known analogues and prototype allows us to consider the proposed technical solution satisfying the criterion of "novelty."

 In FIG. 1 shows a schematic diagram of the design of the injector for injection according to the proposed method; in FIG. 2-3 - an arrangement of the supports and nozzles of the injector relative to the patient’s body during the injection, section.

 The injection according to the method is as follows.

 Before the injection, the power spring of the trigger 1 is cocked, while the hydraulic cylinder 2 through the check valve 3 is filled with liquid medicine from the vessel 4, the pneumatic valve 5 is opened, thereby supplying compressed air from the line 6 to the pneumatic nozzle 7 and to the pneumatic start valve 8 The injector is attached to the patient’s body by means of supports 9 on the pneumatic nozzle 7, while a stream of compressed air from the pneumatic nozzle 7 is used to squeeze the patient’s body surface from the pneumatic nozzle 7 and from the hydra nical nozzle 10. Then, press button 1, which opens a pneumatic valve 8 and the compressed air is supplied to pneumatic cylinder 10. Move the compressed air piston of a pneumatic cylinder 11 which acts on the trigger 1, and release the power spring. The potential energy of the compressed spring when it acts on the piston of the hydraulic cylinder 2 is converted into kinetic energy of the jet of the medicinal product when it is displaced from the hydraulic cylinder 2 through valve 5 and the hydraulic nozzle 10.

 In the method, the piston of the pneumatic cylinder performs the function of a trigger button, the movement of which, when pressed with a finger of a medical professional, will release the trigger spring. The compressed air line is connected to a high pressure source, for example a compressed air cylinder, through a standard reduction gear, or to a centralized low pressure compressed air network.

 Thus, the use of an inkjet injection method eliminates the possibility of transmission of infection, including the AIDS virus, since with this method it is not possible to transfer blood or lymph particles released from the patient’s body at the injection site. At the same time, the possibility of an injection by unscrupulous medical personnel in the absence of compressed air is excluded.

 The loss of a part of the kinetic energy of the jet of a medicinal product when it passes through the air between the nozzle exit and the patient’s body can be compensated for by a corresponding increase in the potential energy of the compressed trigger spring by changing its elastic properties or geometric dimensions.

Claims (1)

 METHOD FOR CARRYING OUT AN INJECTION WITH A NECKLESS INJECTOR, which consists in loading the power spring of the trigger of the injector, installing the injector with a hydraulic nozzle on the patient’s body and injecting it by pressing the trigger, characterized in that, in order to exclude the possibility of infection transfer during the injection into soft tissues by squeezing the surface of the patient’s body from the nozzle, before pressing the shutter button, they act on the skin with a stream of compressed air from a pneumatic nozzle located around the guide avlicheskogo nozzle.

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