SU852335A1 - Injector for lymphography - Google Patents

Description

spacer on the rod 5. The pusher 4 through a mechanical spring-loaded contact in contact with the stem 6 of the syringe 7 installed in the socket of the thermostat 8. The thermostat 8 contains a heating element 9, the actuator 10, the adder 11 signals and setpoint 12 temperature. The syringe 7 is connected via a catheter 13 to an injection needle 14, on which a temperature sensor 15 and a pressure sensor 16 are fixed.

The electrical output of the temperature sensor 15 is connected to the controlled input of the thermostat 8, and the electrical output of the pressure sensor 16 is connected to the actuator controller 17, to which the pressure setting device 18 is also connected.

The injector works as follows.

The injector is connected to a power source, the thermostat 8 is turned on, and the desired fluid temperature is set using the temperature setpoint 12. The syringe 7, the catheter 13 and the sensors 15 and 16 are filled with the injected liquid, after which the syringe 7 is placed in the nest of the thermoplate 8.

In accordance with the viscosity of the injected fluid and other requirements related to the conditions and tasks of the upcoming injection, the rate of fluid injection is set using the pressure setting device 18.

When the temperature of the fluid reaches the value set by the temperature setting device 12, the electric motor 1 is switched on, which, through the gearbox 2 and the lead screw 3, drives the pusher 4 and the stem 6 of the syringe 7 which is abutting it into translational motion. At the time of the appearance of fluid in the injection needle 14, the engine is stopped, the injection needle is inserted into the lymphatic vessel and its position is fixed.

After that, the motor 1 is switched on again and the further process proceeds automatically.

The signal from the temperature sensor 15 is fed to the input of the adder of the signals of the thermostat 8, is compared with the signal from the temperature setting unit 12 and the difference between them is fed to the executive mechanism 10, which turns on or off the heating element 9, thereby maintaining the temperature set by the setting unit 12 fluid detected by the sensor 15).

When the fluid pressure changes, the signal from the pressure sensor 16 is fed to the input of the control element of the actuator regulator 17, compared with the signal from the pressure setting device 18, and the amplified difference of the signals goes to the winding of the electric motor 1, the rotation speed of which increases or decreases depending on the sign the difference of these signals. Accordingly, the speed of movement of the pusher 4, the syringe stem 6 and, consequently, the rate of fluid injection into the vessel changes.

A new and fundamentally important feature here is the introduction of temperature and pressure feedbacks into the injector, which provide greater reliability of information about the actual state of the portion of fluid introduced into the vessel due to the location of the sensors in the immediate vicinity of the injection needle 14. that the pressure and temperature in the channel of the sensor unit may differ significantly from the corresponding values at other points in the system, for example, in a syringe.

The positive effect of the proposed design is to provide the best conditions for the safe introduction of fluid into the lymphatic vessels, prevent their ruptures, and create comforts in operation and maintenance that do not require the operator's intense attention.

Claims (2)

1. An lymphography injector containing a syringe mounted on a thermostat equipped with a setpoint and a temperature sensor, an actuator for turning off the heating element, an electromechanical actuator for moving the syringe rod, a catheter with an injection needle, in order to prevent vascular rupture during lymphography It is equipped with a sensor, a setting device and a pressure regulator, the inlet of which is connected to the sensor and a setting device of pressure, and the output is equipped with an electromechanical drive for moving the syringe rod, At the same time, the sensor and the setpoint device are connected via an adder to the actuator to turn off the heating element, and the pressure and temperature sensors are installed on the injection needle. 2. The injector according to claim 1, characterized in that the temperature sensor is made in the form of a thermocouple. Sources of information taken into account in the examination 1. Injector “Cordis (USA), Cordis Corporation (Cat No. 404-102, 149-1639, Rev I), 1976.