RU5729U1 - DEVICE FOR PROCESSING BIOLOGICAL TISSUES - Google Patents

Abstract

1. A device for treating biological tissues, comprising a drive mechanism, a gas outlet line, a chamber with a working piston and a return spring connected to a suction and pressure lines of liquid provided with shut-off valves, the pressure line of the liquid being connected to the nozzle system, and the suction line of the liquid and gas the line is connected to a container with medicinal fluid, characterized in that the drive mechanism is pedal and connected to the working piston, the pressure line is connected with lovoy system via gidrorukav, wherein the nozzle system comprises a nozzle body and forming element located on the side gidrorukava.2. The device according to claim 1, characterized in that the forming element is made in the form of a clock support with a hole diameter of 0.2 - 0.3 mm. The device according to claims 1 and 2, characterized in that the nozzle system is connected with a hydraulic sleeve, for example, by means of a threaded connection, while the inner diameter of the nozzle body is 0.8 - 1.6 mm. 4. The device according to claims 1 to 3, characterized in that the nozzle system is connected to the pressure line of the fluid through the handle. 5. The device according to claims 1 to 4, characterized in that the suction line is equipped with a shut-off tube with a strainer. 6. The device according to claims 1 to 5, characterized in that it includes a socket for accommodating a container with medicinal fluid.

Description

The utility model relates to medical equipment and is intended for primary treatment of wounds in a hospital and field conditions.

Known hydraulic needleless injector containing a housing, inside which there is a working cylinder, channels for supplying and discharging working fluid, interconnected by a check valve, a charger and a power spring, while the valve cavity of the check valve is connected to the charging device, the valve is connected to the working cylinder , and the power spring is located in the housing of the charger 1.

Also known is a needleless injector containing a cocking cylinder with a spring-loaded rod and piston, a drug delivery system, a hydraulic pedal drive having a tank and a spring-loaded plunger, a hydraulic line connecting the hydraulic cylinder to the tank and the sub-plunger cavity of the hydraulic pump, while the capacity of the hydraulic pump is connected to the sub-plunger cavity of two in one of which a check valve is installed, and in the other, a double-acting spring-loaded check valve connecting the hydraulic line to the tank and the sub-valve alternating cavity of the hydraulic pump 2.

Closest to the proposed is a needleless injector containing a housing, a drive mechanism, a nozzle mounted on the housing, a container for a drug, a trigger and a check valve, and the drive mechanism is made in the form of two spring-loaded pistons mounted to move towards each other 3.

The disadvantage of this design is the weak hydrodynamic effect of the washing fluid on the wound surface due to insufficient active pressure of the jet.

The purpose of creating a utility model is to provide the ability to create a jet of medicinal fluid with an active pressure force sufficient to effectively treat purulent wounds, to increase the area of atraumatic surface treatment of deep purulent wounds in complex topographic anatomical zones.

To achieve the goal, in a device for treating biological tissues containing a drive mechanism, a gas outlet, a chamber with a working piston and a return spring connected to a suction and pressure lines of liquid equipped with shut-off valves, the pressure line of the liquid is connected to the nozzle system, and the suction line of the liquid and the gas outlet is connected to a container with medicinal fluid, the drive mechanism is pedal and connected to a working piston, while the nozzle system includes rpus nozzle and the mold member located on the side hydraulic hoses.

It is envisaged that the forming element is made in the form of a clock support with a hole diameter of 0.2-0.3 mm.

The nozzle system is connected to the pressure line of the fluid through the handle.

The suction line is equipped with a suction pipe with a strainer.

In addition, the device includes a slot for accommodating a container with medicinal fluid.

The figure shows a General view of the proposed device.

The device contains a drive mechanism 1, a gas outlet 2, a chamber 3 with a working piston 4 and a return spring 5. The chamber 3 is connected to the suction 6 and pressure 7 fluid lines equipped with shut-off valves 8. The pressure pipe 7 of the liquid is connected to the nozzle system 9 through a hydraulic hose 10 with a handle 11. The pressure line 7 is equipped with an intake pipe with a strainer 12. The device is equipped with a socket 13 for accommodating the tank

14 with drug fluid. Nozzle system 9 includes a housing

15 and the forming element 16. The nozzle system 9 is connected to the handle Ni with a hydraulic sleeve 10 by means of a nut 17.

The device operates as follows.

A standard 500 ml medical bottle of medicinal fluid is installed in slot 13, into the cork of which a gas outlet 2 and a suction tube with a strainer 12 are placed.

When you press the pedal 1, the piston 4 moves to its highest position. Under the action of the return spring 5, the piston 4 moves to its original position. In this case, a vacuum discharge is created in the chamber 3, which contributes to the filling of the chamber 3 through the intake pipe with a strainer 12, the suction line 6 and its shut-off valve 8 with medicinal fluid from a standard medical bottle 14.

Subsequent pressing of the pedal pushes a portion of the medicinal fluid into the pressure line 7 and through the hydraulic hose 10 to the nozzle system 9. Passing through the forming element 16, for example, an hour support, the stream of medicinal fluid becomes solid. When passing through the housing of the nozzle system 15, the jet, under the action of gravity, deviates from the axis of the housing 15 and touches its walls, while losing solidity. After that, the jet exits through the opening of the nozzle body 15 in the form of a shower. Strength of the active pressure of the obtained jet 28-30 g.

The proposed device enables dosed infiltration of inflammatory tissues with an antiseptic solution to a depth of 20 mm, allows gyrodynamic effects on the wound surface, thereby contributing to the rejection (leaching) of fragments of necrotic tissue and increasing the sanitizing effect of the procedure.

A model of the proposed device for processing biological tissues, manufactured and tested in laboratory conditions, allows us to achieve this goal and to obtain a stream of medicinal fluid with an active pressure of 28-30 g. The design of the device provides the convenience and ease of use and maintenance.

Claims (6)

1. A device for treating biological tissues, comprising a drive mechanism, a gas outlet line, a chamber with a working piston and a return spring connected to a suction and pressure lines of liquid provided with shut-off valves, the pressure line of the liquid being connected to the nozzle system, and the suction line of the liquid and gas the line is connected to a container with medicinal fluid, characterized in that the drive mechanism is pedal and connected to the working piston, the pressure line is connected with lovoy system via gidrorukav, wherein the nozzle system comprises a nozzle body and forming element located on the side hydraulic hoses.  2. The device according to claim 1, characterized in that the forming element is made in the form of a clock support with a hole diameter of 0.2 - 0.3 mm  3. The device according to claims 1 and 2, characterized in that the nozzle system is connected with a hydraulic sleeve, for example, using a threaded connection, while the inner diameter of the nozzle body is 0.8 - 1.6 mm.  4. The device according to claims 1 to 3, characterized in that the nozzle system is connected to the pressure line of the fluid through the handle.  5. The device according to claims 1 to 4, characterized in that the suction line is equipped with a shut-off tube with a strainer. 6. The device according to claims 1 to 5, characterized in that it includes a socket for placing a container with medicinal fluid.