SU1069058A2 - Device for protection of load and power source - Google Patents

Abstract

1. DEVICE FOR LOAD PROTECTION AND POWER SUPPLY on auth. No. 922968, characterized in that, in order to improve the level of unification of the device, the first and second serial circuits are introduced, each of which consists of a winding, a switch and an alternating resistor, while the first circuit is connected; the second circuit is parallel to the indicator element connected parallel to the second resistor, the winding of the first circuit is shunted by a capacitor, and the winding of the second circuit is connected according to the control winding. 2. The device according to claim 1, of which is that the first resistor is made variable. SG5 SO O 00

Description

 The invention relates to the protection of power sources and loads in communication systems and nodes, automation and telemechanics, and can be used to protect loads and current sources ((voltage) when they fall outside the allowable limits. According to the main bus. No. 922958 a device is known for protecting the load and the power source, having two control inputs containing a reed switch, the movable contact of which is connected to the first pole of the source, the fixed contact of the disconnecting pair through the first resistor is connected to the second pole of the source. the cycle of the closing pair is connected to the first control hole of the source and its second pole through the second resistor, parallel to which turn on the indicator element, an additional reed switch and two indicator elements, the first of which is connected parallel to the first resistor and the second parallel to the load, and the first the reed switch is connected to the first resistor through the disconnecting and with the load through the closures of the additional clock of the additional reed switch SC. The disadvantage of this device is the low level of unification due to the inability to use the device to protect loads and sources with different values of the scale of parameters less than a norm - form - large norms, because the device does not have the ability to adjust these parameters. The purpose of the invention is to increase the level of unification. devices. The goal is achieved by introducing into the device the first and second successive circuits, each of which consists of a winding, a nepeKJiiotel and a variable resistor, first the circuit is connected parallel to the splitting contacts of the additional reed switch, and the second circuit is parallel to the indicator element connected in parallel to the second resistor, the winding of the first circuit is bridged by a capacitor, and the winding of the second circuit is connected according to the control winding. In addition, the first resistor is variable. devices. The device contains a source of 1 litany, Winding 2 control, reed switch 3, additional reed switch 4, trans. resistor 5 (variable), second resistor b, indicator elements 7 Less than normal, 8 Normal n 9 More HopMsj, load 10 and control inputs 11 and 12 of power supply 1. The first series circuit consists of a winding 13, a variable resistor 14 and a switch 15. The winding 13 is shunted by a variable capacitor 16. Switch 15 has three positions: two workers and one neutral (not shown), in which the first circuit is disconnected from the reed switch 4. The second series circuit consists of a winding 17, a switch 18 and a variable resistor 19. The switch 18 has two positions: Closed and Open. When the switch 18 is closed, the winding 17 is turned on according to the winding 2, When the switch is closed .18, the winding 17 is turned on according to the winding 1. When the switch 18 of the second is open, the series circuit is disconnected from the device. The first pole of source 1 is connected via a variable resistor 5 with a fixed disconnecting contact of the reed switch 4, a control input 12, a second input of the switch 15 and the input of the indicator element 7 Less than normal, through the load 10-- with the closing contact of the reed switch 4 and the input of the indicator element 8 Norm, through a resistor 6 - with a control input 11, a closing contact of the reed switch 3, the beginning of the winding 17 and the input of the indicator element 9. The second source 1 through the control winding 2 (or directly, if the winding 2 is connected in parallel with the load) Dinen with a movable disconnecting contact of the reed switch 3, the fixed disconnecting contact of which is connected to the first input of the switch 15 and to the movable contact of the reed switch 4, and the reed switch 4 has a lower magnetizing actuation force than the reed switch 3. The first output of the shifter 15, combined with its third -through, through the winding 13 and the variable resistor 14 is connected to the tstorm output of the switch 15, depending on the position of the switch 15, the winding 13 can be activated on the winding 2 according to (the position of the switch 15 shows Tr noting (switch position shown in the drawing by solid lines) or being disconnected (this position of switch 15 is not shown), End of winding 17 through switch 18 and variable resistor 19 connected to the outputs of indicator elements 7-9 and the first pole of source 1, Switch 18 or closes the circuit of the winding 17 from the fixed);, the contact of the reed switch 3 or opens it is shown in the drawings. The windings 2, 13, 17 are common to both reed switches 3 and 4. If necessary, switches 15 and 18 can be used s jumpers. The device works as follows. In the initial state, when the value of load 10 and source 1 is less than normal and disconnected winding 17 and winding 13 (switch 15 in Disabled position; not shown), the operation of the device is similar to that of a known device, except that variable resistor 5 in the circuit: the second pole of the source 1, the winding 2, break contacts of reed switches 3 and 4, in parallel connected resistor 5 and element 7 Less than normal, input 12, first. source pole 1. In this case, element 7 is turned on and in source 1, input 12 restores the value of the power parameter to normal. The minimum value of the resistor 5 is determined by the smallest permissible current through the contacts of reed switches 3 and 4. If switch 15 is in the on state, then for parameter values less than the norm of the first circuit, the sequential circuit bridges by opening the reed switch contacts 4. Let switch 15 switch the first and the second outputs, i.e. the winding 13 is turned on opposite side mark 2, and the switch 18 is open. Then, under normal conditions of load 10 and source 1, the current passing through winding 2 causes the reed switch 4 to set up, creating a circuit: the second pole of source 1, winding 2 disconnecting contacts of the reed switch 3, closing contacts of the reed switch 4, parallel connected load 10 and element 8 , first pole of source 1 Now disconnecting contacts of the reed switch 4 do not shunt the first series circuit and current flows through it: the second pole of source 1, winding 2 disconnecting contacts of the reed switch 3, - first input of switch 15, first output of switch 15, winding 13, parallel It has a capacitor 16, a variable resistor 14, and a second switch output. 15, the second input of the switch 15, the variable resistor 5, the first pole of the source 1. Since windings 2 and 13 are now turned on, and the magnetomotive actuation force of the reed switch 3 is constant, the condition JaWj-J-15NX / Ai cp- five ,. where Oj, is the winding currents 2, and 13; V2., I The number of turns of the windings 2 and 13, respectively; Ijs.j - recursion of the reed switch 3. The current in the winding 13 is controlled by a resistor 14, the minimum value of which is chosen so that, on the one hand, to exclude the operation of the element 7, and on the other - to minimally shunt the load 10. The number of windings 13 is chosen hot so that the product J-tj i V / jj overlaps the required parameter adjustment range along the boundary is above the norm. When the winding 13 is turned on oppositely in relation to winding 2, winding 17 is disconnected (switch 18 is open. As soon as the source 1 (or load 10) parameter values become so that the condition zV + is fulfilled, i.e. , the reed switch 3. operates, the winding 13 is de-energized and the load 10 is disconnected from the source 1. At the same time, element 9 of the Majority is triggered, the input 11 of source 1 closes, which is restored by a signal at input 11. If switch 15 is in the position shown m in the drawing is dotted, then winding 13 is turned on according to winding 2 and the trigger condition of the reed switch 3 appears so - const. That is, the reed switch J ((which corresponds to a higher norm value) occurs at lower values of source parameter 1 (load 10V. At This switch 18 must be closed, because when the reed switch 3 is triggered, the winding 13, turned on, de-energizes and, if you do not compensate for the jWij four turns, the reed switch 3 will return to its original state and the operation will be repeated. The compensation function is performed by the winding 17, turned on according to the winding 2 through the closing contacts of the reed switch 3. The selection of the parameters of the winding 17 is made from the condition OA% W ", where is the current; -. - the number of turns of the winding 17,

five . 10690586

Variable capacitor 16, shun-nym proposed device can

tying winding 13, intended for use with loads (center of feed. windings 13 for temporary nikami), having different tolerances switch reed switch 3, when the first parameters, which increases the level

the circuit is disconnected from the source 1. Ta- its unification in more than two

CIM way, compared with the famous iMisa.

Claims (2)

1. DEVICE FOR PROTECTION OF LOAD AND POWER SUPPLY by ed. No. 922968, distinguished by the fact that, in order to increase the level of unification of the device, the first and second series circuits are introduced, each of which consists of a winding, a switch and a variable resistor, while the first circuit is connected in parallel with the disconnect contacts an additional reed switch, and the second circuit is parallel to the indicator element connected in parallel with the second resistor, and the winding of the first circuit is shunted by a capacitor, and the winding of the second circuit is turned on according to the control winding. 2. The device according to claim 1, characterized in that the first. Resistor is made variable.