RU2053565C1 - Apparatus for controlling, monitoring and protecting ammonia-type refrigerators - Google Patents

Abstract

FIELD: failure protection circuits. SUBSTANCE: apparatus for controlling, monitoring and protecting ammonia-type refrigerators, having a starter, buttons "Start" and "Stop", a first power source, a second power source, a sound signalling unit and a control unit, having sets of contacts, and indicators of oil pressure difference, pumping pressure, temperature of pumping, water flow through condition and a level of ammonia, two switches, a time relay, a first and a second switch-overs, includes in addition a third power source and an intermediate relay; the control unit includes in addition third and forth switch overs, a multivibrator, a multiplexer, an operation mode indicator, a third switch and an electric stabilizer. The indicators operate with use of light emitting diodes; the switches and the time relay being semiconductive ones. EFFECT: enhanced reliability, simplified structure, ameliorated service conditions and accident prevention degree. 1 cl, 2 dwg

Description

 The invention relates to accident protection circuits performing automatic shutdown and responding to unacceptable deviations from normal electrical operating parameters, as well as to compressor control and regulation devices.

A device for controlling, monitoring, protection and signaling is known, including LED indicators of operating modes, a power converter, a logic converter, electromechanical relays, transistors. The device is designed to control technological processes of cooling, to control the operation of piston and screw single-stage chillers and to protect against unacceptable deviations of technological parameters and to issue alarms [1]
A disadvantage of the known device is the presence of a switch for fault identification, low reliability of the device due to the presence of elements on optocouplers and the use of electromechanical relays in logic and power converters. The presence of a voltage of 220 V in the blocks complicates the maintenance of the device.

 In the known device, the contacts of the sensors are connected to the base circuits of transistors, which, provided that alternating voltages and pickups occur during contact bounce, can damage the control unit. The logic of the device is formed using the contacts of technological sensors connected in parallel to the corresponding input circuits of transistors, which leads to the use of an increased number of contacts in the connectors. In addition, the known device is cumbersome and has large dimensions due to the presence of 127 elements in the block (diodes, transistors, relays, etc.), and it also does not satisfy some of the requirements of production processes: it often fails, it is inconvenient to maintain from -for the need to switch to determine the operating modes of the chiller.

A control and monitoring device is known that contains indicators on thyratrons, an intermediate relay, control buttons, diodes, a power transformer, switches, designed to control the operation of single-stage chillers, to protect against unacceptable deviations of technological parameters and alarm [2]
A disadvantage of the known device is that an AC voltage of 220 V is applied in the unit. The presence of thyratrons in the circuit, the high voltage of their power supply, and intermediate relays have a similar disadvantage as that of the device considered above. The disadvantage is that it is necessary to use the additional "reset" button when an alarm occurs. The emergency operation indicator is continuously on. Placing the device together with the chiller leads to frequent burnout of the relay, burning of contacts during start-up.

 When the compressor is turned on, diodes often burn out in local mode. The device is cumbersome and inconvenient to operate, since there is no single circuit for controlling the compressor from the output connectors.

The closest in technical essence to the proposed device is a control device, control, protection of ammonia refrigeration units, containing a starter, buttons "Start" and "Stop", the first power source, the second power source, the output of which is connected through the contacts of the starter to the compressor motor winding, an audible warning device and a control unit comprising a water flow block contact block, an oil pressure difference block contact, a discharge pressure contact block, a temperature contact block the unit and the contact contact of the ammonia level, in parallel with each of which the same indicator is connected, the first inputs of the first and second keys, respectively, the outputs of which are connected to the inputs of the contact block of the water flow, are connected to the inputs of the contact block of the water flow and the contact block of the difference in oil pressure and a contact block of the oil pressure difference, a time relay, the output of which is connected to the second inputs of the first and second keys, and the first and second switches [3]
A disadvantage of the known device is that the keys of the local control of the magnetic starter are 380 V, and in the control unit are intermediate electromechanical relays, which reduce the reliability of its operation. The thyratrons used in this device have a significant variation in the ignition characteristics and are unreliable in operation. To power them, an additional rectifier is required. This device uses bimetallic timers of a heated type with contacts, which reduce reliability. The device is mounted near the compressor, which creates vibration and an unfavorable air-gas and electrodynamic mode for its operation. The device contains 67 electrical elements, which makes the control unit cumbersome. The need to switch to check operating modes creates inconvenience in servicing the device.

 This is achieved by the fact that the control device, control, protection of ammonia refrigeration units contains a starter, buttons "Start" and "Stop", a first power source, a second power source, the output of which is connected through the contacts of the starter to the compressor motor winding, an audible warning device and a control unit containing a series-connected block contact of the water flow, block contact of the differential pressure of the oil, block contact of the discharge pressure, block contact of the discharge temperature and block contact of the ammonia level, parallel to each and of which the indicator of the same name is connected, the first inputs of the first and second keys, respectively, are connected to the inputs of the block contact of the water flow and the block contact of the oil pressure difference, the outputs of which are connected to the outputs of the block contact of the water flow and the block contact of the oil pressure difference, time relay the output of which is connected to the second inputs of the first and second keys, the first and second switches.

 According to the invention, a third power source and an intermediate relay are introduced into the device, the third and fourth switches, a multivibrator, a multiplexer, an operating mode indicator made on the LED, a third key and a current stabilizer, indicators of water flow, oil pressure difference, discharge pressure are introduced into the control unit the discharge temperature and ammonia level are made on the LEDs, and the keys and time switches are made semiconductor, in the control unit the output of the third key is through the second The third and fourth switches are connected to the inputs of the multivibrator, water flow indicator and time relay, and to the first inputs of the third key and multiplexer, the second input of which is connected to the output of the multivibrator, and the output is connected to the input of the operation mode indicator, the current stabilizer input is connected to the output of the block contact ammonia level and with the second input of the third key, the output of the second switch of the control unit through the “Stop” button connected in series and the first contact of the intermediate relay is connected to the third input of the multipl sora of the control unit, the output of the third power source is connected to the input of the fourth switch of the control unit and to the input of the Start button, the output of which is connected to the third input of the multiplexer and the input of the intermediate relay winding, the output of which is connected to the output of the current stabilizer and the input of the third power source, output the first power source through the second contact of the intermediate relay is connected to the winding of the starter, and through series-connected the first switch of the control unit and the third contact of the intermediate relay e with a sound signaling device.

 In FIG. 1 shows a block diagram of a device.

 The device contains a series-connected block contact 1 of the water flow, block contact 2 of the pressure difference of the oil, block contact 3 of the discharge pressure, block contact 4 of the discharge temperature, block contact 5 of the ammonia level, indicator 6 of the water flow, indicator 7 of the difference of oil pressure , discharge pressure indicator 8, discharge temperature indicator 9, ammonia level indicator 10, also contains a first key 11 and a second key 12, a time switch 13, a third key 14, a second switch 15, a third switch 16, a fourth switch 17, a multivibrator 2 4, multiplexer 18, operating mode indicator 19, first switch 20, Stop button 21, Start button 22, first power supply 23, starter 25, motor winding 26, second power source 27, audible warning device 28, current stabilizer 29 , the first contact 30 of the intermediate relay, the coil 31 of the intermediate relay, the third power supply 32, the second contact 33 of the intermediate relay.

 In the device, blocks 1, 6 and 11, blocks 2, 7 and 12, blocks 3 and 8, blocks 4 and 9, and blocks 5 and 10 are electrically connected in parallel; blocks 32, 17, 1, 2, 3, are electrically connected 4, 5 and 29, and the output of block 29 is connected to the input of block 32. Blocks 14, 15, 16 are electrically connected in series, the second input of block 14 is connected to the input of block 29, and the output of block 16 is connected to the input of block 17. Electrically connected in series blocks 21, 30, 18 and 19, and the input of block 21 is connected to the output of block 15, and the output of block 24 is connected to the second input of block 18, the first input of which is single with the input of block 24 and with the outputs of blocks 13, 14 and 1. The output of block 13 is connected to the second inputs of blocks 11 and 12. The blocks 22 and 31 are electrically connected in series, with the input of block 22 connected to the output of block 32, the input of block 31 connected to the output of block 30, and the output of block 31 is connected to the input of block 32. Blocks 23, 20, 34 and 28 are electrically connected in series, the output of block 23 is connected to the input of block 33, and blocks 31 and 33 are also electromechanically interconnected, i.e. There is no electrical connection between them. The output of block 33 is electrically connected to the second input of block 25, the first input of which is connected to the output of block 27, and the output to the input of block 26, the second input of block 25 in the block itself being connected to the starter winding, and the first input to the contacts of the starter.

 The device operates as follows.

 The switches 15, 16, 17, 20 are simultaneously switched either to the local control position or to the semi-automatic control position. In the local control position of all switches, the first switch 20 is open and no voltage is supplied to the buzzer 28. The multivibrator 24, the multiplexer 18, the time relay 13, the indicators 6, 7, 8, 9, 10, 19, the keys 11, 12 and the current stabilizer 29 are also not supplied with voltage. The coil 31 of the intermediate relay is de-energized.

 When you press button 22 "Start" is supplied from block 32 voltage +24 V to the winding 31, the contacts 30 and 33 are closed, resulting in voltage to the button 31 "Stop" and an alternating voltage of 220 V from the first power supply 23 to the winding of the starter 25, which through its contacts supplies an alternating voltage of 380 V from a second power source 27 to the motor winding 26, which starts to operate in local control mode.

 When the Stop button 21 is pressed, the +24 V voltage disappears from the third power supply 32 on the winding 31, the control circuit of the winding 31 is unlocked by contact 30, and the motor stops because contact 33 de-energizes the winding of the starter 25, which disconnects the motor winding 26 with its contacts. The compressor stops.

 In the semi-automatic control mode, the voltage +24 V is supplied through the switch 17 from the third power source 32 to the multivibrator 24, multiplexer 18, time relay 13, indicators 6, 7, 8, 9, 10 and keys 11, 12 and 14, while in the relay time 13, a time interval 30 is formed, during which a low potential is applied to the second inputs of the keys 11 and 12, as a result of which the keys 11 and 12 bypass the block contacts 1 and 2 and the indicators 6 and 7. This is due to the fact that the block contacts 1 and 2 close, entering into working condition only after 30 s.

 With a working compressor, the remaining block contacts 3, 4 and 5 are closed. After pressing the Start button 22, current will flow through the winding 31.

 Then the contact 30 closes and the current in the winding 31 will go through the button 21 "Stop". As a result, the contact 33 closes and through it from the first power supply 23 an alternating voltage of 220 V is supplied to the winding of the starter 25, the contacts of which supply an alternating voltage of 380 V from the source 27 to the winding 26 of the compressor motor. The compressor is running. At the same time, the switch 20 closes the audio signal supply circuit, which does not work, since the contact 34 is open. The multiplexer 18 does not pass through itself pulses from the multivibrator 24, as a result of which the indicator 19 connected to the output of the multiplexer 18 is lit steadily, which indicates a normal start mode. After 30 s, the relay 13 is activated, as a result of which the keys 11 and 12 open.

 If by this time one of the block contacts 1 and 2 does not close or one of the block contacts 3, 4, 5 opens, the indicator 6, 7, 8, 9, 10 corresponding to these block contacts will light up on it (or them) voltage appears, which opens the third (electronic) key 14 and the voltage 31 disappears on the winding. As a result, contact 33 will open, the engine start circuit will open, the compressor will stop, contact 34 will supply voltage to the buzzer 28, multiplexer 18 will pass pulses through it from the multivibrator 24, as a result of which pulse voltage will be applied to indicator 19, which will indicate an emergency nature start the compressor and its number, since the indicator 19 will blink.

 If by this time all the block contacts 1, 2, 3, 4, 5 are closed, then the indicators 6, 7, 8, 9, 10 will not light up. Key 14 will remain in a conductive state, voltage will flow through it to winding 31, compressor start-up will continue in normal operating mode.

 If during operation any of the contacts 1, 2, 3, 4, 5 opens, then, according to the mentioned order, the compressor will turn off accidentally and sound and light alarms will turn on in the control device (on the control panel).

 The operation of the device is illustrated by the voltage diagrams shown in FIG. 2.

The diagrams along the abscissa axes show the current time t, along the ordinates of the stress ordinates, the indices at which indicate the timing diagrams belong to the outputs of the blocks with the corresponding numbers according to the block diagram of the device shown in FIG. 1. Moreover, the diagrams U ₆ *, U ₇ *, U ₈ *, U ₉ * and U ₁₀ *, marked with an asterisk, indicate that the corresponding voltage was measured not relative to the case (as in all other diagrams not marked with an asterisk), and relative to the input of the corresponding block (i.e., measured parallel to the LEDs).

The time interval from t ₀ to t ₃ corresponds to the local control position of all switches 15, 16, 17, 20.

At time t _{1, the} “Start” button 22 is pressed. The time t ₂ corresponds to pressing the Stop button 21. The time t ₃ corresponds to the beginning of the semi-automatic control mode (transfer of all switches 15, 16, 17, 20 to the semi-automatic control mode) and corresponds to the beginning of the formation of a 30-second interval.

Time t ₄ corresponds to pressing the “Start” button 22 (in semi-automatic control mode). Time t _{5 the} end of the formation of a 30 second interval.

At time t ₆ and further, the opening of the block contact 3 is simulated (respectively, the indicator 8 lights up emergency mode) and the compressor automatically shuts off, the indicator 19 switches to flashing mode and the signal is signaled by an audible warning device 28.

 In FIG. 2 outside the axial lines are shown: constant voltages with a solid line, alternating voltage 380 V with dash-dotted lines, alternating voltage 220 V with dashed lines.

 The design of all blocks of the device is known.

 In the proposed control unit there are no intermediate relays. The device contains an intermediate relay, which is located outside the control unit, installed in the remote control and powered by +24 V circuits, which increases the reliability of the device. The reliability is also enhanced by the presence in the device of a time relay assembled on contactless elements with electronic bypass of the contacts of technological sensors (LEDs). The proposed device contains a current stabilizer for powering the series-connected LEDs and a reinforced electronic switch, the input of which is connected to the extreme points of the LED chain, which ensures stable current through the LEDs, through the contacts of the process sensors, ensures the functioning of the protection and alarm systems using the OR system. It also increases the reliability of the device.

 In the device 41 element, which is one and a half times less than in the prototype, this simplifies the hardware implementation of the device, increases its reliability and improves operating conditions. The weight of the control unit is 1.5 kg, which is an order of magnitude less than the weight of the prototype.

 In the proposed device, the blinking of the LED indicates an emergency start-up or operation, improves its operating conditions, which also contributes to the fact that the control unit is integrated in the remote control installed in a separate room, which helps to reduce the level of vibration and eliminates the need for the constant presence of maintenance personnel in the workshop, where there are factors harmful to human health (ammonia, vibration, noise, etc.). In the proposed device, an indication of the state of the sensor block contacts eliminates the need for manual HANDOVER to detect the fact and place of the accident, which further improves the operating conditions.

 Among the advantages of the proposed device can be attributed to the fact that the local control keys and the entire control unit are under 24 V, which improves safety conditions.

Claims (1)

 CONTROL, MONITORING AND PROTECTION DEVICE FOR AMMONIA REFRIGERATING UNITS, comprising a starter, Start and Stop buttons, a first power source, a second power source, the output of which is connected through the starter contacts to the compressor motor winding, an audible warning device and a control unit containing serially connected block contact of the water flow, block contact of the difference in oil pressure, block contact of the discharge pressure, block contact of the discharge temperature and block contact of the ammonia level, parallel to each of which is connected about the name indicator, to the inputs of the water supply block contact, respectively, of the first and second keys, the outputs of which are connected to the outputs of the water flow block contact and the contact block of the oil pressure difference, a time relay, the output of which is connected to the second inputs of the first and second keys, and the first and second switches, characterized in that a third power source and an intermediate relay are introduced into it, the third and fourth switches, a multivibrator, a multiplexer, an operating mode indicator, are introduced into the control unit d on the LED, the third key and the current stabilizer, indicators of water flow, differences in oil pressure, discharge pressure, discharge temperature and ammonia level are made using LEDs, and the keys and time switches are made of semiconductor, in the control unit the third key output through the second, third connected in series and the fourth switch is connected to the inputs of the multivibrator, water flow indicator and time relay and to the first inputs of the third key and the multiplexer, the second input of which is connected to the output of the multivibrator, the output is connected to the input of the operating mode indicator, the current stabilizer input is connected to the output of the ammonia level contact block and the second input of the third key, the output of the second control unit switch through the Stop button connected in series and the first intermediate relay contact is connected to the third input of the control unit multiplexer, the output of the third power source is connected to the input of the fourth control unit and the input of the Start button, the output of which is connected to the third input of the multiplexer and the input of the intermediate relay winding , Whose output is connected to the output of the current regulator and the inlet of the third power source, the output of the first power source through a second intermediate relay contact connected to the starter winding and connected in series through a first switch control unit and a third intermediate relay contact - with the audible alarm.

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