SU618728A1 - Temperature regulator - Google Patents

Description

The invention relates to the field of cooling and temperature stabilization of devices, in particular, to devices for regulating the temperature of a liquid, entering the necks into the channels to cool the heat-producing equipment.

It is known a device for automatic temperature control W containing a hydraulic accumulator connected to a pipeline installed between the heat exchanger outlet and the valve in the pump inlet connected to the main heater. At the output, temperature sensors are installed, one of which is connected through the main power regulator to the main heater, the other to the wetiller, the water compartment, the input of which is connected to the cooling channels of heat-generating devices.

The drawback of the device is that it doesn’t have the accuracy of its operation,

 invention is nominative precision

The goal is achieved by introducing additional temperature sensors, power controllers and heaters into the proposed device. Each additional heater is installed on the pipeline between the main heater and the input of the corresponding heat-treating device and connected via an additional power controller to an additional temperature sensor installed at the input corresponding heat output to tsego 1fibor ..

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The drawing shows a diagram of the proposed V / device.

The device is supplied from the pump 1, the main heater 2, additional heaters 3 and 4, heat exchanger 5, fan 6, hydraulic cooler 7, heat generating devices 8.9 with cooling channels 10.11, connected by pipes 12-17, temperature sensors 18 , 19, additional temperature sensors 20,21, additional power regulators 22,23 and the main power regulator.

The fluid is pumped through pump 1 through pipelines through heaters 2-4 and heat exchanger 5. A hydraulic accumulator 7 is installed to compensate for heat and liquid extensions and create necessary backwater at the pump inlet.

The heat output of the instrument 8.9 with cooling channels 1O, 11 is connected with the other elements of the pipeline. In the common section of the pipeline 13, temperature sensors 18.19 are entered into the liquid, and the heater 2 is turned on and off, respectively, by the power regulator 2 4 and the fan 6, depending on the temperature of the liquid in this section of the pipeline. In the pipeline sections 14, 1b, temperature datacs 20, 21 are entered into the liquid, the signals from which are fed to the power regulators 22, 23, which allow continuous change of the supply voltage of the heaters 3.4 (the arrows indicate the direction of circulation of the liquid).

The fluid temperature at the inlet to the cooling channels 10.11 of the heat generated by the devices 8.9 is controlled as follows. When the pump 1 is turned on, heaters 2-4 are turned on. In the common pipe 13, regardless of the heat generation mode of the devices 8, 9, the temperature of the fluid is maintained within to lAto, and the temperature tj, At is less than the lower limit of statisation specified for any of the group of devices 8.9 (ttt, t 2 ± At-j). The power of the heater 2 is chosen greater than the maximum heat loss from pipelines and system elements to the environment.

If the temperature of the fluid in the common pipeline has reached its highest value i D fco, then the heater 2 is turned off by the temperature sensor 18 at the temperature of the MaMie at the temperature of the fluid in the pipeline 13, the minimum; What is the value of t - Аi-o common heater 2 is turned on again? If the heater 2 turns off after heating heater 2, the temperature of the fluid in pipeline 13 aloids continues to increase due to the heat output of instruments using 8.9, then when it reaches the upper limit t. & t at the command of Temperature Sensor 19 turns on the fan 6, blowing the exchanger 5. After this, the temperature of the liquid begins to fall, and the fan 6 turns off.

The heat removal of the heat exchanger 5 at the highest temperature surrounding the medium is chosen greater than the heat emission of the instruments.

Continuous regulation of the temperature of the liquid at the entrance to the cooling channels 10, 11 of the heat-generating devices 8.9 is carried out according to the temperature

fluids in pipelines 14, 15, in which temperature sensors 20, 21 are installed, which are set to the desired temperature values. These values are higher than the value of t, 4 d-tQ. When about - the clone s

the temperature of the fluid in the piping 14,15 from the set values of t ± At, t lTAtg of the temperature sensors 20,21, the signal governing the operation of the power regulators 22,23, and the supply voltage of the heaters 3,4. The temperature of the fluid in some of the pipelines sang was reduced in comparison with the target value, the supply voltage of the corresponding

the additional heater is increased, which leads to an increase in thermal power released by this heater. In this case, the temperature of the fluid in the pipeline increases. With a higher..nggi controlled in this pipeline fluid temperature compared. with a predetermined value, the supply voltage of the auxiliary electric heater is removed, and the controlled temperature is reduced.

The regulation of the temperature of the fluid entering the cooling channels of the devices is carried out continuously without recording from their heat release regime.

The use of the invention allows to automatically adjust the temperature of the fluid in different ranges simultaneously for a group of heat generating devices.

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Claims (1)

An invention of ycTpxrftcTBo for temperature control, comprising a hydroaccumulator connected to a pipeline installed between the heat exchanger outlet e by a fan and the inlet of the pump connected to the main heater, and the temperature sensors are installed in one of them, one of which is connected through the main power regulator to the main heater , the other is connected to the heat exchanger fan, the inlet of which is connected to the channels to cool the heat sink of the devices, which is currently being used, in order to improve the accuracy The device boilers, additional temperature sensors, power regulators and heaters are introduced into it, with each additional heater installed on the pipeline between the main heater and the input of the corresponding heat-generating device and connected via an additional power regulator to the additional temperature sensor installed at the inlet corresponding heat generating device. Sources of information taken into account in the examination: 1. USSR author's certificate F25 H 5 / O8, ft 21О185, М., cl. 1966.