SU1003028A1 - Scanning-type data logging device - Google Patents

Description

(54) DEVICE FOR MECHANICAL CONTROL

Claims (2)

The invention relates to price control devices for automatic control, which can be used in various areas of national economy, for example in the power industry, in power energy blocks at thermal power plants and nuclear power plants. A circulating control device is known which contains a multipoint recording device connected through a switch with group relays to a group of sensors 1. The disadvantage of this device lies in its complexity. As a result, in practice, this leads to additional capital costs and significant operational losses. The closest to the technical essence of the invention is a device for ambient control, containing a recording device with n-point signaling and self-searching mechanisms, equipped with a multi-contact switch connected via a switch with group relays to a group of sensors, a relay switch control unit, memory elements and a trigger system device 21. A disadvantage of the known device is that it has a complex and cumbersome scheme due to the presence of long bonds, the formation of which requires a large amount of non-ferrous metal. The aim of the invention is to simplify the device. This goal is achieved by the fact that in the device for ambient control, which contains a measurement and recording unit, the first output of which is connected to the first input of the memory unit, and the inputs are connected to the corresponding information outputs of the switch, the control unit, the first and second outputs of which are connected to the first inputs the third output to the first control inputs of the switch, and the fourth input to the second input of the memory block, the second and third outputs of the measurement and recording unit are connected to the third and fourth respectively Perm entrances of the memory unit. 31, the first and second outputs of which are connected to the first and second inputs of the control unit, respectively, the second input of the signaling device is connected to the third output of the measuring and recording unit, the second, third and fourth control inputs of the switch are connected to the fourth, fifth and sixth outputs of the control unit, respectively, groups of information inputs of the switch are the inputs of the device, and the control outputs of the switch are connected to the third inputs of the control block. In addition, the switchboard contains groups of relay cells according to the number of groups of information inputs of the switch, the first terminals of the relay windings of odd and even cells of the groups are connected to the corresponding first control inputs of the device, the second terminals of the relay windings of each relay cell are connected to the first and second anodes of the relay elements of this relay cell, the cathodes of the second isolating elements of each relay cell are connected to the first terminals of the corresponding first closing contacts of the relay of each cell, the second output terminals The ports of which are combined and connected to the second control input of the switch, the cathodes of the first decoupling elements of the even relay cells of each group are combined with the cathode of the second converting elements of the odd relay cells of the same group, the information inputs of the switch of each group through the second closing contacts of the relay of the corresponding relay cell groups are connected to the corresponding information outputs of the switch, the cathodes of the first isolating elements of the first relay cell of each group are connected to the corresponding the third control inputs of the switch, the cathodes of the second isolating elements of each group are connected to the fourth inputs of the switch, respectively; the second output of the first closing contact of the last relay cell of each group is connected via the third closing contact of this cell to the corresponding control output of the switch. The drawing shows a diagram of the device. The device contains a pulse generator 1 with contact 1.1, a control unit 2, a pulse distributor 3 with contact 3.1, a switch 4 with contacts 4.1-4.4, a switch 5, groups of 6 relay cells, a first relay cell 7 with contacts 7.1, 7.2 and 7.3 and 7.4 decoupling elements, a relay cell 8 with contacts 8.1, 8.2 and decoupling elements 8.3, 8.4, a relay cell 9 with contacts 9.1 and 9.2 and once 8 times a connecting element 9.3 and 9.4; an relay cell 10 with contacts 10.1-10.3 and decoupling elements 10.4 and 10.5, sensors II, block 12 measurement and registration, switch 13 with contacts 14 and 15, measurement unit 16, alarm mechanism 17 with contacts 18, alarm 19, memory block 20, relay 21 with contacts 21.1-21.3, blocking relay 22 with contact 22.1 and triggering contact 23. The device works as follows. The generator 1 through the distributor 3 generates control signals for switching the relay cells 7-10 in the pears 6 relay cells of the switch 5. The control signals arrive at the odd relay cells 7 and 9 through the disconnecting contact of the distributor 3, and at even relay cells 8 and 10 - through its make contact. In this case, the recovery current, for example, the odd relay cell 7 from the power supply, passes through the contact 3.1, the relay coil, the isolating element 7.3, as well as through the disconnecting with time delay at the moment of starting the device, the contact 1.1 of the generator 1. After excitation, the cell 7 remains of this connection by means of its own closing contact 7.1, through which the switching circuit of cell 8 is also prepared. Shift (switching on) cell 8 and switching off cell 7 occurs when switching contact 3.1 of distributor 3. Similarly, includes the inclusion of other relay cells, for example, 9, etc. groups of relay cells 6. The main closing contacts 7.2-10.2 of cells 7-10 are alternately connected to measurement unit 16 of sensor unit 12 11. Switching control signals to turn on relay cells of a subsequent group of relay cells occurs through the closing contact 10.1 of the last relay cell 10 of the previous one groups of relay cells 6 and the corresponding closed break contact of switch 4, if, when interrogating sensors 11 of the previous group of relay cells 6, there were no deviations of the parameters monitored by these sensors. If there is a deviation of the parameter at any controlled point from the setpoint, the signaling mechanism 17 is activated, the contacts 18 of which are closed in the switching-on circuit of the indicator 19 and the excitation winding of the relay 21 of the unit 20. After the excitation, the relay 21 is held in this state through its own closing contact 21.1 and the break contact 22.1 blocking relay 22 of block 20. When the contacts 21.2 of relay 21 and contacts 10.3 of the last relay cell 10 of any group of relay cells 6 are turned on, switch 4 in block 2 is energized. Switch 4 stays in this state through contact 4.2, opens a circuit between the pulse generator 1 and the distributor 3 disconnecting switch 4.4, turns on the switch 13 of block 12, thus switching the latter into the parameter registration mode, and fixes block 2 in the interview statement of this group by closed contacts 4.1 switches the control signal advancement circuit from the relay cell 7 of the subsequent round of relay cells 6 to the relay cell 7 of this group of relay cells 6. Control valve 3 to switch the relay cells 6 com In this mode, the contacts 5 of the switch 13 through the contact 21.3 of the relay 21 of the unit 20 are closed. The contacts 10 of the last relay cell 10 of the group of the relay cells 6 turn on the alarm 19 after the switch 15 turns on the contact 15 of the block 20. In this case, the contact 22.1 breaks the power supply circuit of the relay 21, which is de-energized, by the contact 21.2 turns off the switch 4. As a result, the circuit between the pulse generator 1 and the pulse distributor 3 is closed, the switch 13 is turned off in block 12, the latter is thus transferred to the parameter polling mode, and the next group of relay cells 6 is connected to control unit 2 via closed cycles of 10.1 of the last relay cell 10 of the previous group of relay cells 6 and open contacts 4.1 (or 4.3) of switch 4. Polling and registration. The parameters of the second and subsequent groups are performed in the same way. The use of the invention makes it possible to simplify the known solution by reducing the cable life span for connecting it to the control object, reducing the hardware cost of the memory block, and simplifying the operation of the device. Claim 1. Device for ambient control, containing a measurement and recording unit, the first output of which is connected to the first input of the memory unit, and the inputs - with the corresponding I11formation (I1 outputs of the switch, the control unit, the first and second outputs of which are connected to the first input. will give a signaling device, the third outputs to the first control inputs of the switch, and the fourth output to the input of the memory block 1, characterized in that, in order to simplify the device, the second and third outputs of the measuring and recording unit are connected Respectively to the third and fourth inputs of the memory unit, the first and second outputs of which are connected to the first and second inputs of the control unit, respectively, the second input of the detector is connected to the third output of the measuring and recording unit, the second, third and fourth control inputs of the switch are connected to the fourth, the fifth and secondary outputs of the control unit, respectively, the information input groups of the switch are device inputs, and the control outputs of the switch are connected to the third inputs of the control unit. 2. The device according to claim 1, stating that the switchboard contains relay groups; cells according to the number of groups of information inputs of the switch; the first terminals of the relay windings of odd and even rpyini cells are connected to the corresponding first control inputs of the device, the second terminals of the relay windings of each relay cell are connected to the anodes of the first and second unions of this relay cell, the cathodes of the second uniting elements of each relay cell are connected to the first terminals of the corresponding first closing contacts of the relay of each cell, the second terminals of which are combined and connected to the second control The switching input of the switch, the cathodes of the first dissociating elements of the even relay cells of each group are combined with the cathode of the second dissociating elements of the odd relay cells of the same group, the information inputs of the switch of each group are connected to the corresponding information outputs of the switch through the second closing relay contacts of the corresponding relay cells , cathodes of the first diverting elements of the first relay. cells of each group are connected to the corresponding third control inputs of the switch, cathodes of the second isolating elements of each rpytnibi are connected to the fourth inputs of the switch, respectively, the second output of the first closing contact of the last relay cell of each group is connected via the third closing contact of this cell to the corresponding control output of the switch . Sources of information taken into account during the examination 1. USSR author's certificate N 583411, cl. G 05 B 23/02, 1974. 2. USSR author's certificate number 679946, cl. G 05 B 23/02, 1978 (prototype).