TH19329B - Refrigeration control unit - Google Patents

Abstract

DC60 (24/10/46) refrigeration control unit fabricated. Can be poured quantity The precision of the refrigerant that remains within the lubricant can come out. For a short time In order to prevent its foaming Without using too much energy Heater The cold supplied with a compressor driven by an inversion consists of a current sensing circuit which detects the current which is fed to drive the compressor. And control circuit Which controls the compressor Depending on the detection result from the current detecting circuit The control unit was fabricated. For the chiller, it is made to have a special effect. Where there will be a control circuit This will feed a constant voltage and a constant frequency to the compressor when it is started. The compressor's operation is evaluated using the results. Detection from the current detecting circuit And the operating frequency of the compressor will be Controlled using the output from the current detector circuit The chiller control unit was fabricated. Can be poured quantity The precision of the refrigerant that remains within the lubricant can come out. For a short time In order to prevent its foaming Without using too much energy Heater The cold supplied with a compressor driven by an inversion consists of a current sensing circuit which detects the current which is fed to drive the compressor. And control circuit Which controls the compressor Depending on the detection result from the current detecting circuit Little bit, the controller was fabricated. For the chiller, it is made to have a special effect. Where there will be a control circuit This will feed a constant voltage and a constant frequency to the compressor when it is started. The compressor's operation is evaluated using the results. Detection from the current detecting circuit And the operating frequency of the compressor will be Controlled using the output from the current detector circuit

Claims (7)

1. Control the chiller being provided with the compressor being driven. Push with inversion Where there are the following components A current sensing circuit to detect the current being fed to Compressor drive and control circuit for controlling the compressor. Depending on the correct results Check from the current detection circuit A control circuit is formed to feed a constant voltage and frequency. Starts to the compressor during startup. And will evaluate the working mode of The compressor uses the sensing results from the current sensing circuit and controls the operating frequency of the compressor based on the output from the current sensing circuit. The control circuit will increase the voltage a constant amount for a constant time when the compressor is not being used. And later evaluate the operating mode of Compressor, depending on the detection result from the current detection circuit. 2. Refrigeration control unit As stated in claim 1, a control circuit is formed to increase the compressor frequency. When the voltage was increased For a constant time all the units reach the previously set thrust voltage 3. Refrigeration control unit As stated in claim 1, it still consists of a temperature sensing receiver circuit. The value characterizes the temperature which is equivalent to the temperature of the compressor motor. And which the control circuit will Evaluates whether to enter the default frequency. And whether the starting voltage to the compressor or not, depending on the detected result of the temperature sensing circuit. When there is an initial signal Of the compressor 4. Refrigeration control unit As stated in claim 3, the control circuit evaluates whether the temperature characteristic exceeds the preset temperature based on the sensing results from the temperature sensing circuit. After entering the starting frequency and the starting voltage to the compressor. And control the frequency of Compressor when the compressor is not in use 5. Refrigeration control unit As stated in claim 3, the control circuit increases the initial voltage. Where the starting voltage is time constant for all units when The compressor is not being used and will subsequently be evaluated as the temperature characteristic. Is it too much for the preset temperature? Depending on the detection result from the circuit Detect temperature 6. Refrigeration control unit As stated in claim 3, in which the control circuit increases the starting voltage. The constant voltage is constant at all times when the compressor is not in use and is subsequently evaluated as the temperature characteristic. Too much of the preset temperature? And when the temperature characterization value is No more than the preset temperature, the operating mode of A new compressor based on the sensing results from the current detection circuit. 7. Refrigeration control unit. As stated in claim 1, it still consists of an overcurrent protection circuit to intercept the current that is fed to the compressor when the detected result from the current sensing circuit exceeds the current value. 8. Refrigeration control unit. As stated in claim 7, it still includes a display unit to indicate the results of the interception. By protection circuit Overcurrent 9. Refrigeration control unit As stated in claim 1, the control unit is being formed to increase the voltage accordingly. Until the current is sufficient For driving the compressor 1 0. refrigeration control unit As stated in claim 9, where a little regulator is formed to stop increasing the voltage. When the current reaches the level of the current that only Enough to drive the compressor 1 1. Refrigeration control unit As stated in claim 1, a current sensing circuit is formed to detect the conduction of current into the compressor 1. 2. Refrigeration control unit As stated in claim 1, a current sensing circuit is formed to detect the conduction of the current into the wire. The direct current of the inverse element 1 3. Refrigeration control unit As stated in claim 1, the current sensing circuit is formed to detect the inrush from the power source 1. 4. How to control the chiller That was provided with a compressor that was driven Push with an inverse that consists of the following steps It detects the current being fed to drive the compressor and to control the compressor based on the results from the current sensing stage, the control step which is the starting frequency feed step And the starting voltage to the compressor When starting work, the valuation process Compressor operating mode By using the detection results from the detection process Flow and operating frequency control procedures of the compressor using results from Current detection and voltage boosting procedure By constant voltage for time At all When the compressor is not in use And later the valuation process Compressor operating mode By using the detection result from the current detection phase 1 5. Refrigeration control method As stated in claim 14, the control procedure is part of the process of increasing the frequency of the compressor when the voltage is increased to a constant time. Reached the previously set driving voltage 1 6. Refrigeration control method As stated in claim 14, it still consists of a procedure for detecting temperature characterization. Which is equivalent to temperature Of the motor of the compressor And which steps to control will have a part in steps Valuation Whether the starting frequency and starting voltage are entered to the compressor, depending on the detected output of the temperature sensing phase when compressor start signal 1 is present. 7.Control method of refrigeration As stated in claim 16, the control process will involve the evaluation of temperature characteristics that there is Is the value greater than the preset temperature? Depending on the detection results from the procedure Temperature detection After entering the default frequency And the start voltage to Compressor and compressor frequency control When the compressor is not in use