SU1200352A1 - Time relay - Google Patents

Abstract

TIME RELAY containing the power supply, the negative pole of which is connected to the common bus, and the positive pole through the disconnecting contact of the button - to the current-limiting resistance of the resistor, the second output of which is connected to the common bus through the closing contact of the switch and the same type of cascades and series-connected load resistor and switching element, and the second terminals of the load resistors are combined and connected to the junction point of the break contact and current limit ivayuschego resistor vgoody second switching elements connected to a common bus. the input of the first cell is connected to the connection point of the current-limiting resistor and the closing contact of the switch, and the outputs of all previous cascades are connected to the inputs of subsequent cells, the outputs of the time of the master cells are connected to the control input of the switching element, characterized in that the possibility of sequential fbirovanie signals at specified intervals of time and memorizing the on state and turn on the coefficient of 9 useful action It uses time master cells, each consisting of two resistors, two capacitors, a two-terminal with negative resistance, in parallel with which a diode is connected, the cathode of which is connected to the common bus through the first capacitor and the anode to the second resistor the first resistor is the cascade output of the previous element, and the second output of the second capacitor is the output of the master cell and is connected to the common bus through the second resistor.

Description

The invention relates to automation and electrical engineering and can be used in time delay devices.

The aim of the invention is to enhance the functionality and increase the efficiency by providing a consistent generation of signals at predetermined, time intervals — the half of the arrival of a command pulse signal and a reduction in the energy consumption in the initial state.

Nd FIG. G shows the principal electronic circuit of the time relay; on .fig. 2 ° - diagrams acting Ojix n & the outputs of the cell signals.

The time relay consists of a series of successively connected cascades of a time relay, each of which has input 2 and output 3, and terminals 4 are combined. The device is powered from power supply 5. Each stage 1 contains master cells consisting of capacitors 6 and 7, resistors 8 and 9, a two-terminal with negative resistance on the dynistor 10, a switching element, such as thyristor II, a load resistor 12 and a diode 13. The capacitor 6 is connected to one terminal with A common bus, and another through parallel connected dynistor 10 and a diode 13 - with a connection point of a capacitor 7 and a resistor 8; the second output of a capacitor 7 is connected through a resistor 9 to a common bus and to a control electrode of the thyristor 11; the second output of the resistor 8 is connected to the input 2. In addition, the time relay contains a button 14 and a resistor I5 in series with the opening contacts and closing contacts of a switch 16 connected to a common bus.

The time relay works as follows.

In the initial state, the switch 16 is open, the capacitors 6 and 7 of each stage 1 are charged to the voltage of the power source 5 via resistors 8 and 9, the input bus 2, the resistor I5 and the diode 13. The distor 1O and the thyristor 11 are turned off, the load element 12 de-energized and the time relay in this state does not consume current.

At time t (Fig. 2a), switch 16 closes, the voltage on bus 2 becomes zero, capacitor .6 becomes de-energized, because diode 13 is displaced in the direction opposite to its conductivity, and capacitor 7 begins to discharge through switch 16, resistors 9 and 8 (the resistance of the resistor 8 is significantly greater than the resistance of the resistor 9). As the capacitor 7 discharges, the voltage between the leads of the dynistor 10 increases. At time t (Fig. 2b), this voltage reaches the magnitude of the switching voltage of the dynistor 10, the voltage

5 on it, after switching on abruptly, the positive potential of the lower plate of the capacitor 6 through the dynistor 10 and the capacitor 7 is applied to the control electrode of the thyristor 11, which is turned on and the load resistor 12 is under voltage of the power source 5.

After switching on the thyristor 11 of the first cell, at output 3 of the previous one

5 cells of the time relay and at the output 2 of the subsequent cell of the relay of time 1, the voltage becomes zero, as a result, after some time specified by the parameters of the second cell of the relay 1 time, the second cell will work and the second load will be connected to the power supply voltage (moment time t, fig. 2c) at the moment of time 1g (. (fig.2g), a third similarly will work

5 cells, etc. After the last time-activated relay 1 (t is shown in Fig. 2e), all the load resistors 12 will be energized.

In this state, all time 1 relays consume only the current whose power is required for the load cell, i.e. The efficiency of the proposed time relay is almost close to one.

five

To return all relays 1 time, it is necessary to momentarily interrupt the voltage at the terminals, 4, for example, by briefly pressing 0 3. button 14 when the switch 16 is open. After that, capacitors 6 and 7 recharge to the power supply 5 and the time relay returns to its original state, in which the power taken by the cell

5 time relays, approaching zero.

I

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Claims (1)

TIME RELAY, containing a power source, the negative pole of which is connected to the common bus, and the positive pole through the opening contact of the button is connected to a current-limiting resistor, the second output of which is connected through the closing contact of the switch to the common bus, and η are of the same type of cascades consisting of timing cells and in series connected by a load resistor and a switching element, and the second terminals of the load resistors are combined and connected to the connection point of the NC contact and current-limiting resistor, the second terminals of the switching elements are connected to a common bus, the input of the first cell is connected to the connection point of the current-limiting resistor and the closing contact of the switch, and the outputs of all the previous stages are connected to the inputs of the subsequent cells, the outputs of the timing cells are connected to the control input of the switching element, characterized in that , in order to expand the functionality by providing the possibility of sequential formation of signals at predetermined time intervals and storing in In the closed state and increase the efficiency, it uses time-consuming cells, each consisting of two resistors, two capacitors, a two-terminal with a negative resistance parallel to which a diode is connected, the cathode of which is connected to the common bus through the first capacitor, and the anode is connected to the first resistor and the second capacitor, and the second output of the first resistor is the output of the cascade of the previous element, and the second output of the second capacitor is the output of the timing cell and of the second resistor connected to the common bus. >