SU1274691A1 - Apparatus for sterilization of material - Google Patents

Abstract

The invention relates to medicine and is aimed at reducing the time of material sterilization by increasing the temperature and heating rate while eliminating thermal decomposition and eliminating reheating of the sterilized material before being dispensed, which is achieved by introducing into the device a mode controller connected to its output with the input of a controlled switch, thermostating unit in the mode of delivery of the material, the input of which is connected to the output of the second thermocouple located in the bottom spine and thermally insulated from its walls, while the output - to the input of the setpoint operating mode. 4 il.

Description

YU

05

Claims (1)

This invention relates to medicine, in i: icTHocTH to devices for sterilization - materials used for medical purposes: medical nesses, impurities, narafin, pereozoa 1O1CH material, etc., the invention of the invention - reducing the time of sterilization of material required for iicio temerature. On (|) game. 1 shows the block diagram of the proposed device; in fig. 2 - device, general view; in fig. 3 and 4 - electrical circuit in principle. The device contains a capacitance 1, an electroline device 2, a switch 3, a thermostatic unit 4 in sterilization mode with a thermonar 5, a thermostatic unit 6 in a mode of dispensing sterilized material with i-cpp.) A 7, unit: 1 8 warnings .iinccKcv-o material decomposition with a sensor 9 of critical temperature, setpoint adjuster 10 operating modes of the device and an adjustable switch 11. The operating mode of the device is signaled by the lamp 12, the heater of the light bulb 13 is turned on, the operating mode is set by the toggle switch 14. The tank is installed on the base of the cabinet 15 and closed a lid 16. The space between the heater 2 and the outer liner 17. krppki and cavity 16 are filled with heat insulating material 18. The release of the sterilized material is produced through the drain device 19 imeyushih) komtku 20 switching. The power source of 220 V 50 Hz is connected to the input of the switch 3, the latter supplies power to the control switch 11, which turns on the electric heater 2 of the tank 1. Controlled by the switch; 11 11 receives a signal to the BKjHoi.eiuie off to the | - overheater from the setting device 10 operating modes devices. The operation of the setting device 10 is determined by: node 4 is thermally coupled in sterilization mode with a thermocouple 5, thermostatic unit 6 is in thermostat mode |) with thermocouple 7, node 8 is prevented and thermally decomposed with sensor 9 critical temperature. Thermocouples 5 and 7 are located correspondingly 1-n10 in the middle and lower parts of the tank and are in direct contact with the material to be sterilized. The sensor 9 of the unit 8 is in contact with the most thermally loaded part of the inner surface of the container 1. The device for sterilizing the material works as follows. When the switch 3 and the toggle switch 14 are turned on, the “Sterilization” closes the normally open relay 21 of the relay 22. The coil of the relay 23 is de-energized and its normally closed contact 24 is closed. The second pole of the toggle switch 14 (for manual non-switching of the device into the “Extraction” mode) at the price of the coil of relay 23 is open. Electric heater 2 is connected to the power source by diodes 25 and 26 (which represent a control switch 11). The signal lamp 13 lights up. The material to be sterilized (paraffin, ozokerite) is heated to a sterilization temperature of 110-115 ° C. Sterilization occurs. When the set temperature, controlled by thermocouple 5, is reached, the normally open contact 27 of the thermostatically controlled node 4 in the sterilization mode in the coil of the relay 23 closes. The latter, with the help of its normally open contact 24, becomes self-grabbing. The normally closed contact 28 of the relay 23 opens and the adjustable diodes 25 and 26 disconnect the electric heater from the network. Light bulb 13 goes out. At the same time, the relay 23 closes its normally open contact 29 and thereby switches the installation to the cooling mode of the sterilized material to the dispensing temperature and to further maintain this temperature (55-60 ° C) by the thermosal-node 6 in the dispensing mode of the thermocouple material 7 disconnecting normally closed contact 3 (1 node 6 in the diode control circuit 25 and 26. Contacts 31 and 32 of relay 23 do not turn on the indicator lights 12, indicating the operating mode of the device. Power supply to the lamps 12 and node 8 to prevent thermal Material is supplied from transformer 33. A voltage of 36 V, 50 Hz is fed through a rectifying bridge circuit (diodes 34-37) to the coil of the relay 22, VK.Tyuchennaya to the circuit of the thyrio 38. The rectified voltage from the capacitor 39, which together with the diode 40 being a non-current component filter, fed to the thyristor control circuit 38, the last: 1 opened by the control current flowing through the resistor 41 to the control electrode of the thyristor. Katun1ka pe; ie, the 22 receives power and closes its normally open contact 21 in the control diodes 25 and 26 e. E; 1, the electric heater 2 is ready for switching on. When the temperature of the onset of thermal decomposition of the sterilized material is reached; 1a, set by resistor 42, y1: the balance of the bridge (resistors 42-45 and 47) and the transistor 46 turn off, the input of the horizontal into the diagonal of this bridge opens. The collector current of this transistor creates a voltage drop across the resistor 47, the transistor 48 opens and shunts the thyristor 38, then it closes and the cathode rel-e 22 loses power. Contact 21 is open. Heating prekrankhaetsa. If the surface temperature of the capacitance exceeds the set value, then the unbalance voltage closes the transistor 49, the transistors 46 and 48 are open, the thyristor 38 is closed, the relay coil 22 is disconnected. Contact 21 is open. No heating. Resistor 50 limits the balanced current of the balanced circuit. Diodes 51 and 52 prevent breakdown of the base-emitter transition of transistors 46 and 49 with large bridge imbalances. The resistor 53 limits the current in the circuit of the light bulb 54, signaling the relay 22 to it. The thermal decomposition prevention unit of the material being sterilized ensures that the heater is turned off at a set temperature value with an error of ± 2 ° C. The proposed device allows to increase the heating rate with a simultaneous increase in the sterilization temperature and reduce the time to sterilize the material. Claims An apparatus for sterilizing a material, a container, a switch, an electric heater in thermal contact with a container, a power source, a thermostating unit in the sterilization mode, a controlled switch and temperature sensors, characterized in that, in order to reduce the material sterilization time the temperature required for it by increasing the temperature and heating rate while eliminating the thermal decomposition of the material; work unit, thermostating unit in the mode of dispensing sterilized material, thermal resistance, located in contact with the most thermally loaded part of the vessel wall, prevention unit for thermal decomposition of the sterilized material, while the output of the latter is connected to the first input of the mode setting unit, the output of which is connected to the input of the controlled switch, and the second input of the setter is connected to the output of the thermostating unit in the sterilization mode, the input of the latter is connected to the output of the second sensor The first temperature sensor is located in the upper part of the tank and is also thermally insulated from its wall, with the thermal resistance connected to the input of the thermal decomposition prevention unit of the material to be sterilized. r2OV, 50Hz one (Pus. 1 FIG. 2