SU1661732A1 - Object temperature regulator - Google Patents

Abstract

This invention relates to automatic regulation and can be used in the chemical industry in the manufacture of rubber products and polymeric materials. The purpose of the invention is to increase the efficiency and accuracy of the device. The device contains a coolant circuit connected to object 1 with heater 2, cooler 3, circulation pump 4, first 5 and second 6 three-way switching valves installed respectively at the coolant inlet to object 1 and leaving the object, bypass lines 7 and 8 of the heater and a cooler, forming a recuperative heat exchanger 9, a cooling water supply valve 10, a heat carrier temperature sensor 11 mounted on a heater 2 and connected to a heat carrier temperature controller 12, a temperature sensor 13 the object tours connected to the object temperature controller 14 associated with the valve 10, and the block 15 of the actuators of the valves 5 and 6. 1 Cp f-ly, 1 ill.

Description

2 and connected to the controller 12 of the temperature of the coolant, the sensor 13 of the temperature of the object connected to the controller 14 of the temperature

an object associated with the valve 10, and a block 15 of the actuators of the valves 5 and 6. 1 Cp f-crystals, 1 sludge.

This invention relates to an automatic control and can be used in the chemical industry in the manufacture of rubber products and polymeric materials.

The purpose of the invention is to increase the efficiency and accuracy of the device.

The drawing shows the proposed device.

The device contains an object 1, a coolant circuit with a heater 2, a cooler 3, a circulation pump 4, the first 5 and the second 6 three-way switching valves installed respectively at the coolant inlet to the object 1 and leaving the object, bypass lines 7 of the heater and 8 coolers forming a recuperative heat exchanger 9, a cooling water supply valve 10, a heat carrier temperature sensor 11 mounted on a heater 2 and connected to the first 12 heat carrier temperature controller associated with the heater Lem 2, an object temperature sensor 13 connected to a second object temperature controller 14 connected to valve 10, as well as a valve actuator unit 15, 5 and 6, the output of the circulation pump connected to the heater inlet and through a bypass line 7 - with valve 5, and the inlet of the pump 4 is connected to the outlet of the cooler and through the bypass line 8 to the valve 6.

The device works as follows.

In the warm-up mode, when the temperature in the object 1, measured by the temperature sensor 13, is below the Minimum setting of the object temperature controller 14, the block 15 of the actuators generates control signals for the first 5 and second 6 three-way switching valves, in which the coolant circulates around the circuit: circulation pump 4 - heater 2 - first three-way

0

five

0

five

50

S5

switching valve 5 - object 1 - second three-way switching valve

6- bypass line 8 cooler. The heating of the object 1 is carried out by a coolant, the temperature of which is measured by the sensor 11 of the temperature is maintained by the controller 12 of the temperature of the coolant by turning on and off the heater 2 according to a pulsed proportional-integral-differential law. The valve 10 of the cooling water supply is closed. The hot coolant, passing through the recuperative heat exchanger 9 through the bypass line 8, heats the fixed coolant located in the bypass line 7. The temperature of the coolant in the bypass lines 7, 8 is equalized and, therefore, preparing for a smooth transition from the mode warming up to the steady state of thermal equilibrium.

In steady-state mode, when the temperature in object 1, measured by temperature sensor 13, is higher than the minimum setting, but below the maximum setting of the object temperature controller 14, the actuator unit 15 generates control signals for the first 5 and second 6 three-way switching valves, at which coolant circulates around the circuit; circulation pump 4 - bypass line

7- heater 2 - first three-way switching valve 5 - object

1 - the second three-way switching valve 6 - bypass line 8 of the cooler. The heat carrier temperature controller 12 is disconnected from the heater 2. The cooling water supply valve 10 is closed. A heat carrier with a constant temperature is circulated in the bypass lines 7, 8, which form a recuperative heat exchanger.

In the cooling mode, when the temperature in the object is 1, it is measured

0

-I f .Ц J П

45-, -

sensor 13 to.m. of the turbine, higher than the installation; Maximum of the temperature regulator 14 of the object; block 15 of the actuating mechanisms generates control signals for the first 5 and second 6 three-way switching valves, in which the coolant circulates around the circuit: circulation pump 4 - bypass line 7 of the heater 2, the first three-way switching valve 5 - the object 1 - the second three-way switching valve 6 - the cooler 3. The cooling water supply valve 10 is open. The object 1 is cooled by the coolant cooled in the cooler 3. The coolant temperature controller 12 is disconnected from the heater 2. The cold coolant passes through the recuperative heat exchanger 9 through the bypass line 7 and cools the fixed heat carrier located in the bypass line 8. Occurs temperature equalization of the coolant in the bypass lines x 7 and 8 and, therefore, preparation for a smooth transition from cooling to steady thermal equilibrium.

The transition from the cooling mode to the heating mode, and vice versa, occurs automatically through the thermal equilibrium zone (steady state) when the coolant with constant M7 × 26

Claims (2)

1. A device for controlling the temperature of an object, comprising a coolant circulation circuit, including first and second three-way switching valves, one of which is installed at the coolant inlet into the object, and the second is at the coolant outlet from the object, a circulation pump, a heater connected to the first temperature controller connected to the coolant temperature sensor, the coolant connected to the second temperature controller connected to the object temperature sensor, characterized in that, in order to increase it is equipped with controllable bypass lines of the heater and cooler, the bypass line of the heater is connected to the outlet of the circulation pump and the first three-way switching valve, and the bypass line of the cooler is connected to the inlet of the circulation pump and the second three-way switching valve. 2. A device according to claim 1, characterized in that, in order to increase the accuracy of the device, the bypass lines of the heater and cooler form a recuperative heat exchanger.