SU1651316A1 - For developing injection procedure - Google Patents

Abstract

The invention relates to medicine, can be used to teach the technique of injection and improves the degree of objectivity in assessing the correctness of the manipulation. The effect is achieved by the fact that a pressure sensor and a volume sensor, measuring circuits and a two-coordinate recorder are inserted into a device containing a housing with a needle holder and a needle, a piston with a seal placed in the housing. A groove for a volume sensor in the form of a rheostat is made in the side surface of the rod. The rheostat slider is a portion of the surface of the guide sleeve, cut and bent. The conductors of the rheostat are brought out through the radial holes in the rod. A stepped hole is provided along the stem axis. In a part of it with a larger diameter, a pressure sensor is installed in the form of a cylinder with flanges and a blind axial bore. On the lateral surfaces of the cylinder, a tensor Ezistors are glued, and on the free end part, a membrane is fixed through an annular adapter and washers, which is pressed to the end surface of the cylinder by a piston. I il. Q SS (L

Description

The invention relates to medicine and can be used to teach injecting techniques in higher and secondary medical schools, as well as to certify health workers.

The purpose of the invention is to increase the objectivity of the evaluation of the injection.

The drawing shows the device and its block diagram, section aa.

The device contains an injection syringe consisting of a body 1, in which on one end part through

seal 2 is installed needle holder 3. On needle holder 3 is installed injection needle 4. Inside the housing 1 there is a piston with a rod 5 made in the form of a stepped cylinder, the lateral surface of which has grooves 6 located along the cylinder at an angle of 120 °, one of which has a sensor 7 volume of liquid, having the form of a rheostat, and holes 8 for the conductor outlet. Along the axis of the rod 5 there is a stepped hole, in the larger diameter of which a pressure sensor 9 is mounted.

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Sensor 9 has the shape of a cylinder with flanges at the ends and an axial blind hole. On the lateral surface of the cylinder, iO strain gages are glued, which are connected in a bridge circuit. On the end part of the sensor 9 on the side of the hole through the cylindrical adapter 11, washers 12 and 13 are installed, a membrane 14, which is pressed against the end part of the rod 5 by a nut 15 by means of a threaded 4 connection. On the side surface of the nut 15 there is a circular groove in which a seal 16 is installed, which is in contact with the side surface of the body 1 of the syringe, forming a piston. On the other end of the stem 5, the grip 17 is mounted. The guide bushing 18 is mounted on the stem 5 on the grip side 17 by the inner bore, and its side surface is installed in the inner part of the housing 1 in its other end part, cut and bent in this way. which forms three contact sliders 19, which fit into the side grooves 6 of the rod 5, are in contact with them and the sensor 7 located in one of the grooves.

The sensor 7 and the pressure sensor 9 are connected via conductors through the holes 8 to the inputs of measuring circuits 20 and 21, the outputs of which are connected to the inputs of a two-coordinate recorder.

The device works as follows.

The cavity of the device body 1 of the syringe (Fig. 1) collects fluid through the cannula 4 from the vessel by moving the piston rod 5 with the piston to the opposite direction from the needle holder 3. In this case, the sensor 7, located in one of the lateral grooves of the rod 5, moves relative to the guide sleeve 18, comes into contact with the contact sliders 19, changes its resistance, which is measured by the electric circuit 20-, and in the form of a voltage, calibrated in the values of the volume of the collected fluid are recorded horizontally on the two-coordinate recorder 22. Then the needle 4 is introduced into the set and, pressing on the grip 1 7, the fluid contained in the syringe is injected.

The created hydraulic pressure of the fluid through the membrane 14, the adapter 11 is transmitted to the pressure sensor 9, the resistance of the strain is changed.

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resistors 10, which is measured by an electrical gear 21 and in the form of a voltage — calibrated in terms of pressure, are recorded vertically on a two-coordinate recorder 22.

In this way, a curve is recorded on the two-coordinate recorder, showing the dependence of pressure on the flow rate of the injected fluid during the injection time. The nature of the injection is determined by the nature of the curve and the pressure value. According to the curve, it is noted in which Laze in terms of the flow rate of the liquid during its introduction there are the main errors of the injection technique. Such an injection is optimal when the pressure is applied to zero during the entire time the fluid is injected. By further repeated repetitions of these manipulations with self-control on the recorded curve, the operator works out the optimal injection technique.

Claims (1)

Invention Formula A device for testing the injection technique, comprising a cylindrical body, a needle holder with a needle, mounted on the body, a piston with a gasket placed in the body, a rod connected to the piston, fitted with a gripper at the free end and placed in the body. the body of the guide sleeve, which is due to the fact that, in order to increase the degree of objectivity of the injections, a pressure sensor and a volume sensor electrically connected are inserted into it. With their outputs, two measuring circuits and inputs connected to the outputs measuring circuits, a two-coordinate recorder; in this case, in the side surface of the rod there is a groove in which a volume sensor is installed in the form of a rheostat, the slider of which is a part of the surface of the guide sleeve, cut and bent, and the conductors entered through a radial hole in the rod; a stepped hole is provided along the axis of the rod; in a part with a large diameter, a pressure sensor is installed in the form of a cylinder with flanges and a non-through axial hole, strain gauges are pasted on the side surfaces of the cylinder, and on the free end part