SU761748A1 - Compressor output automatic control system - Google Patents

Description

The invention relates to compressor engineering.

A known system for automatically controlling the performance of a refrigeration compressor, comprising a regulating device with which a starting device is connected in series, connected with the actuator of the regulatory body, and a current regulator of the compressor drive motor with contact groups [1].

The principle of the system is based on switching the control channels from temperature to current and vice versa.

A disadvantage of the known control system is that it does not provide high reliability, since when the compressor has a cooling capacity that significantly exceeds the heat load on it, the specified current and temperature values can be obtained when the actuator is in the middle position and switching from current to temperature control this will not happen. Continuous operation of the compressor in current control mode will lead to an unacceptable lowering of the boiling point and shutdown of the compressor by protective automation devices.

The aim of the invention is to increase the reliability of the system in operation.

This is achieved by the fact that one of the groups of contacts of the current regulator is included in the serial connection of the regulating device ⁵ and the starting device, while the other group of contacts is connected in parallel with the regulating device and in series with the starting device.

In FIG. 1 is a schematic diagram of a system; in FIG. 2 is a diagram of turning on the electric motor; in FIG. 3 - electrical diagram of the system.

The compressor 1 is driven into rotation 15 by the electric motor 2. The current regulator 4.1, which has contacts 4.2 n 4.3, is included in the power supply circuit of the electric motor through the measuring transformer 3. The boiling point, which is an indicator of the compressor's cooling capacity, is controlled by control device 5 - the temperature controller. The control device 5 through contacts 4.2 is included in the electrical circuit of the starting 25 of the device 6, the input of which is supplied with a three-phase AC voltage, and through the contacts 4.3 the power supply is connected to the starting device 7. The load of the starting device 6 30 is an electric motor 8, which is 761748 limit switches 9.1 and 9.2 is integrated in the actuator 10, which controls the regulatory body 11 - blades of the input guide vane (VNA).

The automatic control system operates as follows.

On the control device set the preset value of the compressor cooling capacity (boiling point). With a thermal load on the compressor equal to a given cooling capacity, the control device is balanced and there is no output signal from it. ₄ When the heat load deviates, a constant voltage or ί / ₂ appears at the output of the control device 5, depending on the sign of unbalance. Measuring transformer 3 is used to connect the current regulator 4.1 to the power supply circuit of electric motor 2. Contacts 4.2 and 4.3 of the current regulator have a three-position relay characteristic: at a current higher than the upper setting, contacts 4.3 are closed, at a current located in the “Norma” zone, contacts 4.2 n 4.3 open and at a current less than the lower setting, closed contacts 4.2. In normal compressor operation modes, the consumed current of the electric motor 2 does not exceed the lower setting of the current regulator 4.1, so the contacts 4.2 are closed. If the thermal load on the compressor is less than the specified cooling capacity, a constant voltage C7] appears at the output of the control device 5, which through closed contacts 4.2 is supplied to the starting device 6, which converts the voltage to the power supply voltage of the electric motor 8.

The electric motor is included in the operation and moves the regulatory body 11 in the direction of decreasing compressor productivity (it closes the VNA blades). The electric motor 8 moves the regulating body 11 in the opposite direction according to the signal and _{2 of the} regulating device, when the cooling capacity of the compressor becomes less than the thermal load on it. The electric motor stops and the movement of the regulatory body stops when the refrigerating capacity of the compressor is equal to the heat load. In the extreme open and closed positions, the regulator is stopped by limit switches 9.1 and 9.2.

If the current of electric motor 2 exceeds the value corresponding to the upper setting on the current regulator, the contacts close

4.3, through which from the power supply 7 to the input of the starting device, a constant voltage signal S ₂ , / which turns the electric motor 8 into operation and moves the regulating body 11 in the direction of decreasing compressor productivity (closes the VNA blades), is received. The regulatory body is stopped by limit switch 9.1 in the extreme closed position corresponding to the minimum compressor capacity, or in the intermediate position when the contacts 4.3 open, when the current consumption of the electric motor 2 becomes equal to the upper setting of the current regulator 4.1.

As the compressor operates, the boiling point decreases and the motor current decreases at the same time. When the current becomes equal to the lower setting of the current regulator, the contacts 4.2 will close, and the control of the regulatory body AND will again go to the regulatory device 5.

The inclusion of one of the groups of contacts of the current regulator in the serial connection of the regulating device and the starting device, and the other group of contacts - in parallel with the regulating device and sequentially the starting device, increases the reliability of the compressor in operation.

Claims (1)

Formula invented i'm i A system for automatically controlling the productivity of a compressor, mainly a refrigeration one, comprising a regulating device with which a starting device connected in series with the actuator of the regulatory body and a current regulator of the compressor drive motor with contact groups, characterized in that, in order to increase reliability, in series connection the control device and the starting device, one of the contact groups of the current regulator is turned on, the other is the same group of contacts Keys parallel regulating device and sequentially triggering device. Source of information taken into account during the examination: 1. Uzhansky V. S. Automation of refrigeration machines and installations. - The food industry. M., 1973, p. 61-63. -OM