RU175893U1 - START-UP PROTECTIVE DEVICE FOR INDUSTRIAL REFRIGERATOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely, devices for starting, automatic power management and automatic shutdown of electrical devices, for example, an industrial refrigerator with an unacceptable deviation of the operating parameters from the set ones, and can be used to ensure normal operation of the refrigerator when powered by a low voltage. The start-up protective device for an industrial refrigerator contains temperature sensors, a voltage sensor and sensors current, the outputs of which are respectively connected to the inputs of the comparators of the upper and lower voltage levels and the first current comparator, the output of which is connected through the first logical element OR, connected in series with the first block of time delay, to the input of the switch, the outputs of which are connected to the block of information and to the second logical an OR element connected by its output through the RCD control unit to the RCD input connected to the power input of the refrigerator, characterized in that it is equipped with an autotransformer with a coil, divided into working and starting sections, a second current comparator, a maximum voltage comparator, two inverters, two AND logic elements, the first inputs of which are connected to the input pulse generator, the second to the upper comparator and low voltage comparator, respectively, and the third to the corresponding inverters, and the outputs to the entered reverse register, the second time delay block, a switch and four relay blocks, while the output of the second current comparator through subsequently connected to the second time delay unit and the switch is connected to the RCD, and the power inputs of the switch are connected to the terminals X and F of the starting section of the autotransformer winding connected to the voltage sensor, the terminals A, B, C, D of the working sections of the autotransformer winding are connected respectively to the outputs of the first, the second, third and fourth relay blocks, the control inputs of which are connected to the outputs of the reverse register, while the control inputs of the first and fourth relay blocks are additionally connected with According to the first and second inverters, the output of the voltage sensor is connected to the input of the comparator of the maximum voltage level, the output of which is connected to the inputs of the first logical OR element and the switch, and the power output of the current sensor is connected to the power inputs of the first, second, third, and fourth relay blocks. The inventive utility model can improve performance, such as reliability and the ability to quickly troubleshoot.

Description

The utility model relates to the field of electrical engineering, namely, devices for starting, automatic power management and automatic shutdown of electrical devices, for example, an industrial refrigerator with an unacceptable deviation of the operating parameters from the set ones, and can be used to ensure normal operation of the refrigerator when powered by a low voltage.

As an analogue of the proposed utility model adopted "Protective shutdown device" (patent for utility model 119933 RU CL. H01H 71/00, priority 06.04.2012). This device contains a differential current sensor, a comparison device, a device status indicator, an actuator with a key in the control circuit, a time delay circuit for the leakage current, a circuit for overvoltage and a power circuit. This device provides emergency shutdown of equipment in the event of abnormal situations, including when an unacceptable change in the voltage of the supply network. It is also possible to delay the operation of the device in the presence of a leakage current and to indicate the status of the equipment (on / off). The disadvantages of this device are the limited number of controlled operating parameters and the status of the connected equipment, namely, the refrigerator will not be automatically turned off in the event of an unacceptable deviation from the set operating parameters (current, voltage, temperature) There is no diagnostic indication of the device's operation, which allows to determine the cause of the disconnected object from power. Power management is not provided during the start-up and operation of the equipment. As a prototype of the proposed utility model adopted "Protective information device" (patent for utility model 161347 RU, CL H2N 3/32, priority 11/17/2015). This device contains temperature sensors, a voltage sensor and a current sensor, the outputs of which are respectively connected to the comparators of the upper and lower voltage levels and the first current comparator, the output of which is connected through the first logic element OR, connected in series with the first block of time delay, to the input of the switch, the outputs which are connected to the information block and to the second logical element OR, connected by its output through the RCD control unit (leakage current simulation block) to the RCD input connected with a power input of refrigeration unit. The known device provides automatic shutdown of the refrigerator in the event of an unacceptable deviation from the specified operating parameters (current, voltage, temperature) and allows automatic diagnostics to quickly eliminate damage. However, in the known device when starting the compressor, the current consumed by the compressor increases to 3-5 Ip. Therefore, at the time of starting the compressor, the voltage at the output of the autotransformer decreases, and the start-up process is delayed. This leads to overheating of the compressor of the refrigerator and a possible fire. Another disadvantage of this device is the inability to operate the refrigerator at low voltage, for example, up to 140 V. Thus, the use of a known device, for example, for comprehensive protection of the refrigerator cannot provide emergency shutdown of equipment in all kinds of abnormal situations and thus does not provide the necessary reliability of the device .

The objective of the claimed utility model is to create a start-up protective device capable of ensuring the operation of an industrial refrigerator with both high and low voltage and prevent overheating of the compressor during start-up.

This object is achieved in that the start-up protective device of an industrial refrigerator containing temperature sensors, a voltage sensor and a current sensor, the outputs of which are respectively connected to the comparators of the upper and lower voltage levels and the first current comparator, the output of which is connected through the first logical element OR, connected in series with the first block of time delay, to the input of the switch, the outputs of which are connected to the information block and to the second logical element OR connected to its output The OOD through the RCD control unit to the RCD input connected to the power input of the refrigerator is equipped with an autotransformer with a winding divided into working and starting sections, a second current comparator, a maximum voltage level comparator, two inverters, two logical elements AND, the first inputs of which are connected to the input pulse generator, the second to the upper comparator and the lower voltage comparator, respectively, the third to the corresponding inverters, and the outputs to the entered reverse register, the second a time delay unit, a switch and four relay blocks, while the output of the second current comparator through the second time delay unit and the switch connected in series is connected to the RCD, and the power inputs of the switch are connected to the terminals X and F of the start section of the autotransformer winding connected to the voltage sensor, conclusions A, B, C, D of the working sections of the autotransformer winding are connected respectively to the outputs of the first, second, third and fourth relay blocks, the control inputs of which are connected to reversible register strokes, while the control inputs of the first and fourth relay blocks are additionally connected to the first and second inverters respectively, the output of the voltage sensor is connected to the input of the comparator of the maximum voltage level, the output of which is connected to the inputs of the first logical OR element and switch, and the power output of the current sensor connected to the power inputs of the first, second, third and fourth relay blocks.

The technical result is to improve the operational characteristics of an industrial refrigerator, in particular, to increase reliability.

The essence of the utility model lies in the fact that the proposed circuit of the device is constructed in such a way that the maximum values of the operating parameters are monitored, exceeding which causes an emergency power off, the admissible supply voltage is monitored and maintained, and the compressor overheating is excluded due to the implementation of the forced start start up.

In FIG. 1 shows a part of the circuit of the device; 2 - the second part of the circuit device.

The start-up protective device comprises an autotransformer 1 with a winding divided into working and starting sections, respectively having terminals A, B, C, D and X, F, voltage sensor 2, as well as current sensor 3 and temperature sensors 4. 5. designed accordingly to control the temperature of the compressor and the device as a whole. Voltage sensor 2 is connected to comparators 6, 7, 8 of the upper, lower, and maximum voltage levels, current sensor 3 is connected to current comparators 9, 10, and temperature sensors 4 and 5 are connected respectively to comparators of the first and second temperature sensors 11, 12. The device also contains two logical elements OR - 13 and 14, two logical elements AND - 15 and 16, time delay blocks 17, 18, inverters 19, 20, reverse register 21, pulse generator 22. relay blocks 23, 24, 25, 26 , switch 27, switch 28, information unit 29, control unit Nia RCD 30 standard tripping device further RCD 31, display unit 32, the radio modem 33, a power unit 34, designed to supply electronic components, blocks 35 and the reference voltage 36.

The proposed device operates as follows. The voltage of the supply network is supplied through the current sensor 3 and relay blocks 23, 24, 25, 26 to the input terminals A, B, C, D of the autotransformer 1. A voltage sensor 2 is connected to the output X of the autotransformer 1, and the input of the RCD 31 is through the opening contact of the switch 27 At the output of the voltage sensor 2, a constant voltage is generated, the value of which is proportional to the value of the alternating voltage supplied through the RCD 31 to the refrigerator. The voltage sensor 2 signal is fed to the inputs of the comparators 6 - lower voltage level and 7 - upper voltage level. The second inputs of these comparators are supplied with the settings voltage from the reference voltage block 35. If the voltage in the mains is significantly reduced, then the lower voltage comparator 7 switches, which opens the “I” circuit 16 and allows the signal from the pulse generator 22 to pass to one of the inputs of the reverse register 21. From the outputs of the register 21, control signals are alternately supplied to the relay blocks 23, 24, 25. 26, in accordance with this, the outputs A, B, C, D of the working sections of the autotransformer winding 1 will be switched so that the voltage at its output increased. When the rated voltage value is reached, the comparator 7 switches and closes the “I” circuit 16, the signal of the pulse generator 22 does not go to the input of the reversing register 21. The control voltage of a certain output is fixed on the register 21, and the voltage at the output of the autotransformer 1 is also fixed 21 is limited by the inverter 20. If the voltage at the output of the autotransformer 1 is significantly higher than normal, then the comparator of the upper voltage level 6 switches, the “I” circuit 15 opens, pulses t of the generator 22 pass to another input of the reverse register 21, a shift occurs in the opposite direction, and using the relay blocks 23, 24, 25, 26, the outputs of the working sections A, B, C, D of the autotransformer winding 1 are switched so that the output voltage decreased to a nominal value. The shift limit of the register 21 in the opposite direction is limited by the inverter 19. If the voltage in the mains increases to the maximum allowable, then the voltage at the input of the comparator of the maximum voltage level will increase 8. The latter will switch to one of the inputs of the first logical element "OR" 13 and to the corresponding input_switch 28, a control signal will be given. The output signal of the OR element 13 starts the first block of time delay 18, which closes the switch 28 with its output signal for a certain period of time during which the value of the mains voltage can drop to an acceptable level. In this case, the information block 29 does not respond to a short-term voltage change in the mains. If the resulting increase in the mains voltage is long and exceeds the delay time set by the block 18, then the output of the switch 28 will be set to a high voltage level, which through the second logical element "OR" 14 is fed to the input of the control unit of the RCD 30, from the output of which a command is sent to disconnect the RCD 31, and the refrigerator turns off. In addition, this emergency situation is recorded by the information block 29, will be marked by the display unit 32 and reported to the control room using a radio modem 33.

If the maximum permissible current value is exceeded, the signal level of the current sensor 3 supplied to the first input of the current comparator 10 will exceed the level of the setpoint supplied to the second input of the comparator 10 from the reference voltage block 36 and corresponding to the permissible maximum current value. The comparator 10 switches and the high-level output voltage is supplied to the OR circuit 13 and the switch 28. The first time delay block 18 is triggered by the high-level output voltage, which closes the switch 28 by a low-voltage output for a certain period of time, during which the current value may decrease to nominal, and the voltage at the output of the current comparator 10 will again correspond to a low current level. This occurs when the compressor is turned on, when the current during start-up increases by 3-5 times relative to the nominal value. In this case, at the input of the element "OR" 14, a low voltage level is maintained. Disconnect RCD 31 does not occur. If the voltage corresponding to the increased current value has not decreased during the time controlled by the time delay unit 18, then a high voltage level will be applied to the input of the OR element 14 from the output of the switch 28. Accordingly, a high voltage level will be supplied to the input of the UZO 30 control unit, which will lead to the operation of the UZO 31 and disconnection of the refrigerator from the mains. This emergency situation is recorded by the information block 29, will be marked by the display unit 32 and reported to the control room using a radio modem 33.

When the compressor temperature is exceeded, the signal from the output of the sensor 4 is fed to the input of the temperature comparator 11. The setpoint voltage from the reference voltage unit 36 is applied to the second input of the comparator 11. The comparator 11 is switched and a high level voltage is set at its output, which is applied to one of the inputs of the element OR ”13 and switch 28. At the output of the“ OR ”13 circuit, a high level voltage is set, which starts the time delay unit 18, while the switch 28 closes for a certain period of time, during at which the temperature value may drop to the nominal value, and the voltage at the output of the temperature comparator 11 will correspond to a low level. If the compressor temperature has not decreased, the switch 28 opens and a high-level output voltage is supplied to one of the inputs of the OR element 14. Accordingly, a high-level voltage is set at its output, which is fed to the input of the RCD 30 control unit, which causes the RCD 31 to trip. and disconnecting the refrigerator from the mains. Accordingly, this emergency will be recorded in the information block 29, will be marked by the display unit 32, and reported to the control room using the radio modem 33. A similar process occurs when the temperature of the device as a whole is exceeded. The voltage at the output of the temperature sensor 5 increases, the voltage at the input of the temperature comparator 12 increases, which switches and the high-level output voltage is supplied to the input of the OR element 14. The high-level output voltage starts the UZO 30 control unit, which leads to the operation of the RCD 31 and disconnecting the refrigerator from the mains. Accordingly, this emergency will be recorded in the information block 29, will be marked by the display unit 32, and reported to the control room using a radio modem 33.

When the compressor starts, the current consumed by the compressor increases to 3-5 Ip. The autotransformer winding 1 is usually calculated at 1.3Ip. Therefore, at the time of starting the compressor, the voltage at the output of the autotransformer 1 decreases and the starting process is delayed. This leads to additional heating of the compressor. To exclude the influence of the voltage drop at the output of the autotransformer 1 only at the time the compressor starts, the starting section of the winding is connected. The connection process occurs in the following order. At the time of starting from the current sensor 3, a voltage proportional to the starting current is supplied to the input of the second current comparator 9, the input of which is supplied with the setpoint voltage from the output of the reference voltage block 35. The comparator 9 switches and starts the second time delay block 17, the switch 27 is activated, which connects start-up section of the autotransformer winding 1 for the compressor acceleration time, set by the time delay unit 17. After the compressor accelerates, the current consumption decreases to Ip, respectively, the current comparator 9 raschaetsya the initial state, the output of the time delay unit 17 is set a low voltage level, the switch 27 is closed, it returns to its original state and disconnects the starter section of the autotransformer winding 1.

The proposed start-up protective device allows to increase operational characteristics by performing a protective automatic shutdown of the refrigerator due to unacceptable deviations from the set operating parameters and reliable operation of the industrial refrigerator both at high and low voltage, excluding overheating of the compressor of the refrigerator during start-up.

Claims (1)

A start-up protective device for an industrial refrigerator containing temperature sensors, a voltage sensor and a current sensor, the outputs of which are respectively connected to the inputs of the comparators of the upper and lower voltage levels and the first current comparator, the output of which is connected through the first logical element OR, connected in series with the first block of the temporary delays to the input of the switch, the outputs of which are connected to the information block and to the second logical element OR connected to its output through the control unit О to the input of the RCD connected to the power input of the refrigerator, characterized in that it is equipped with an autotransformer with a winding divided into working and starting sections, a second current comparator, a maximum voltage comparator, two inverters, two logical elements And, the first inputs of which are connected to input pulse generator, the second to the upper comparator and the lower voltage comparator, respectively, the third to the corresponding inverters, and the outputs to the entered reverse register, the second a time delay lock, a switch and four relay blocks, while the output of the second current comparator through the second time delay block and the switch connected in series is connected to the RCD, and the power inputs of the switch are connected to the terminals X and F of the start section of the autotransformer winding connected to the voltage sensor, the outputs A, B, C, D of the working sections of the autotransformer winding are connected respectively to the outputs of the first, second, third and fourth relay blocks, the control inputs of which are connected to the output reverse register, while the control inputs of the first and fourth relay blocks are additionally connected to the first and second inverters respectively, the output of the voltage sensor is connected to the input of the comparator of the maximum voltage level, the output of which is connected to the inputs of the first logical OR element and switch, and the power output of the current sensor connected to the power inputs of the first, second, third and fourth relay blocks.

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