SU1275785A2 - Relay switching device - Google Patents

Abstract

This invention relates to automation and telemechanics. The purpose of the invention is to reduce energy consumption. The relay switch contains an OR 1 element, an electromagnetic relay 2 with a closing contact (K) 4, a power source 3, a reset button 5, a limiting diode (OD) 6 and cells 7, each of which includes a remote switch (DP) 8 with write windings and disconnecting and closing K 14, control button with K 9 and 10, OD 1T, two capacitors 12 and 1.4, and resistor 13. The goal is achieved by disconnecting DP 8 from source 3 before the breaking time of K 4 relays 2. While depressing the DP control button 8 all cells 7 go to the state when K 14 is open and will stop Electricity consumption from source 3. 1 Il. The invention is an I device improvement according to the author. No. 784U18. cl

Description

The invention relates to automation and telemechanics and can find pri-.

the voltage across the capacitor 12 and the rebound winding will reach the magnitude of friction in switching installations for various purposes to turn on a specific actuating relay with the obligatory preliminary disconnection of the previously turned on relay in any arbitrary order.

The aim of the invention is to reduce energy consumption.

The drawing shows a structural electrical diagram of a relay switch.

The relay switch contains an OR element 1, an electromagnetic relay 2, a power source 3, a make contact 4 of an electromagnetic relay 2, a reset button 5, a limit diode 6 and cells 7, each of which contains a remote switch 8 with record and end windings, the main contact 9 of the button control, additional contact 10 of the control button, the limiting diode 11, the capacitor 12, the resistor 13, the make contact 14 of the remote switch 8 and the capacitor 15.

The relay switch operates as follows.

In the initial state, the first cell 7 is turned on ·, thus closing contact 14 remote switch 8 is closed, while the other cells Eseh zamy- _t repentieth contact 14 remote switch 8 is open. To change the position of the relay switch, press the control button of another cell and fix it in this state.

The capacitor 12 will be charged from the power supply 3 through the circuit: minus the power supply 3, the main pin 9 of the control button, the lining of the capacitor 12, the element OR 1 winding of the electromagnetic relay 2, plus the power supply 3. The closing contact 4 of the electromagnetic relay 2 closes due to the flowing charge current of the capacitor 12 and connects the minus bus of the power supply 3 to the cells 7, as a result of which the current passes through the making contact 14 of the remote switch 8 to the parallel connected rebound winding and the capacitor 15. The closing contact 14 of the remote switch 8 will open when the genius of the contact group of the remote switch 8, and a further 5 movement of the make contact 14 of the remote switch 8 will occur due to and capacitor 12 to the coil hanging up, bringing the normally open contact 14 Distan insulating switch 10 8 to complete the fixed prlozheniya.

After a time equal to the operating time constant of the electromagnetic relay 2, it will open the closing contact 4 of the electromagnetic relay 2, while the capacitor 12 is fully charged.

Thus, the remote switch 8 is disconnected from the power supply 3 before the break of the make contact 4 of the electromagnetic relay 2, and a similar ratio of the switching time is normal. Therefore, when the control button is pressed 25, the remote switches 8 of all cells 7 will go into the state when the make contacts 14 of the remote switch 8 are open (in this case only one cell was turned on) and the power consumption from the power supply 3 stops (i.e. the capacitor 12 is charged to the voltage of the power source 3 ₃₅ power).

By releasing the control button, additional contact 10 of the control button closes the discharge circuit of the charged capacitor 12 in the circuit: plus power supply 3, additional contact 10 of the control button, capacitor plate 12, limit diode 1.1, recording coil of remote switch 8, plus power supply 3.

As a result of this, the remote switch 8 of this cell 7 enters an operating state in which the make contact 14 of the distance ₅ 0 of the switch 8 is closed (i.e.

the operational state of cell 7 and the readiness to hang up for the next switching of the relay switch.

Claims (1)

The invention relates to automation and telemechanics and can be used in switching installations for various purposes to turn on a certain executive relay with a mandatory preliminary shutdown of a previously switched on relay in any arbitrary order. The aim of the invention is to reduce power consumption. The drawing shows a structural electrical circuit diagram of a relay switch. The relay switch contains the element OR 1, the electromagnetic relay 2 power supply 3, the closing contact 4 of the electromagnetic relay 2, the reset button 5, the limiting diode 6 and the cells 7, each of which contains a remote switch 8 with recording windings and disconnecting, the main contact 9 of the button control, auxiliary contact 10 of the control button, a limiting diode 11, a capacitor 12, a resistor 13, a closing contact 14 of the remote switch 8, and a capacitor 15. (. The relay switch operates as follows. In the initial state and whose 7 is in the on state, the closing contact 14 of the remote switch 8 is closed, and in all other cells the closing contact 14 of the remote switch 8 is open. To change the position of the relay switch, press the control button of the other cell and fix e6 in this state. The capacitor 12 will be charged from the power source 3 via the circuit: minus power source 3, the main contact 9 of the control button, the cover of the capacitor 12, the OR element 1 winding of the electromagnetic relay 2, plus the source 3 meals. The closing contact 4 of the electromagnetic relay 2 is closed due to the flowing charge current of the capacitor 12 and connects the bus minus the power supply source 3 to the cells 7, as a result of which the current passes through the closing contact 14 of the remote nepeKjno4a body 8 to the parallel-connected disconnect winding and the capacitor 15. the tactile contact 1; the 4-distance switch 8 is opened when the voltage on the capacitor 12 and the winding of the switch reaches the contact value of the contact group of the remote switch 8, and the further movement of the closing contact 14 is the remote peveklyuchatel 8 will occur due to discharge of capacitor 12 to the coil-hook, bringing the normally open contact 14 of the switch 8 to remote complete fixed position. After a time equal to the constant operation time of the electromagnetic relay 2, it will open the closing contact 4 of the electromagnetic relay 2, while the capacitor 12 is fully charged. Thus, the remote switch 8 is disconnected from the power source 3 before the opening of the closure contact 4 of the electromagnetic relay 2, and this switching time ratio is normal. Therefore, when the control button is pressed, the remote switches 8 of all cells 7 will enter the state when the closing contacts 14 of the remote switch 8 are open (in this case only one cell was turned on) and the power consumption from the power source 3 (i.e., capacitor 12 charge dils up to the voltage value of the power supply source 3). Releasing the control button, the auxiliary contact 10 of the control button closes the discharge circuit of the charged capacitor 12 through the circuit: power supply source 3, auxiliary contact 10 of the control button, capacitor plate 12, limiting diode 1.1, remote switch recording winding 8, plus power supply 3 . As a result, the remote switch 8 of this cell 7 enters a working state in which the closing contact 14 of the remote switch 8 is closed (i.e. the operating state of the cell 7 and ready to wake-up for the next switching of the relay switch. Invention formula # 784018, characterized in that, in order to reduce power consumption, in each. 312757854 the cell has a common output of a control button with a common output of a reset button, and a capacitor is connected to a resistor of a limiting diode and a four-way electromagnetic relay, which closes through an additional contact of a contact button, a winding switch, and a closing contact is remotely connected to the common output of a push button up-5 ° and parallel to the control The winding release of the connection of the capacitor is connected.