SU945969A1 - Timer - Google Patents

Description

(5) TIME RELAY

one

The invention relates to digital monitoring and control devices and can be applied in industrial automation systems.

Time relays are known that contain a pulse counter, the input of which is connected via a key to a pulse generator, and an output to a decoder input, a trigger, an unequal element, whose inputs are connected to an input terminal and a trigger output, and an output to a control key input, and the OR element, and the decoder outputs are connected to the trigger inputs and through the OR element. To the reset input of the counter Dl, the disadvantage of this device is the difficulty of adjusting the time delay, because this requires either the decoder soldering or a complex switch.

The closest technical entity is a time relay containing a pulse counter, the input of which is connected to a pulse generator via an account resolution key, and an output via a decoder to the trigger inputs, and an inequality element connecting the input terminal and the trigger output to the control input of the key permissions, and the trigger outputs are connected to the reset input of the counter through the drivers and the OR element, two frequency adjusters, two input keys, two inhibit cells, while the frequency adjusters are connected to the reg input Correcting the frequency of the generator the cut input keys, the control inputs of which are connected to the inequality element inputs through the prohibition cells, the other inputs of which. 20 are connected to the input terminal.

Claims (2)

In this relay, the time delay for the appearance and removal of the output signal is described by the expression. itsn /, i. where n - the number of dial counter; f is the frequency of the generator pulses In the processes of orientation and assembly of products, where similar devices are widely used and without the presence of which can not be. a substantial increase in performance, it is necessary to obtain time delays with a change in the interval from 1 to 110 s. From this it is hardly blowing that in order to increase the time delay it is necessary either to reduce the frequency of the generated pulses, or to set the number n to be greater in magnitude. Because of the main number of applied -generators, simple RC-generators are widely used, However, obtaining several frequencies in the limits of a few hertz by these devices, as a rule, is associated with practical difficulties. Due to the required increase in the RC circuit, their overall dimensions increase dramatically, and the instability of the generated pulses increases. Another way to extend the time interval is to increase the number n of the set by the counter. However, even at n equal to several thousand hours, the total number of elements included in (Pilot and decoder will be significant, which will complicate the device. The purpose of the invention is to increase the exposure time. The goal is achieved by the fact that in the time relay that contains an element of unevenness, connecting the input terminal and the trigger output to the key input, two frequency controlors connected via input keys to the first input of the pulse generator, and the control inputs of the input keys are connected to the inputs of the inequality element through the driver of the pulse generator is connected to the first pulse generator, the second input of the controlled pulse generator to the second input of the pulse generator and the output of the account enable key, and the third input to the inverting output of the driver, the output of the controlled pulse generator is connected via a fogger 69.4 to the first input of the element I, the second input of which is connected to the output of the pulse generator, and the output to the trigger input. Figure 1 shows the structures "t, on the electrical circuit of the device; Fig. 2 shows timing diagrams for the operation of the device, at points a, b, c, and diagrams of output voltages, respectively, of a pulse generator, controlled by a pulse generator, and a driver. The time relay contains a non-equal element h / gust 1 that implements the function -j UU -f- C UQ and connects the input terminal 2 and the output of the trigger 3 to the control input of the key, setters 5 and 6 frequencies,: input switches 7 and 8, prohibition cells 9 and 10, realizable functions, respectively, controlled pulse generator 11, driver 12, element 13, pulse generator 14. The device works as follows. If there is no input signal U on terminal 2, trigger 3 is set to O and output signal 0 (2 is equal to O,: When a signal appears (J output signals of inequality element 1 realizing the function and signal 4 of prohibition cells 10 equals uU r r U U, becomes the keys are opened at the same time, 7. To the first inputs of the generators 11, k through the switch 7, the voltage comes from the setpoint generator 5 (Jc, where the frequency of the generator pulses is equal, and to the second inputs through the switch 4 signalU to form the bursts of pulses. After filing signal generators produce the first in-phase m waiting for a and rectangular pulses of equal duration (fig. 2a, b), and a former 12 generates a rectangular pulse with a duration c, equal to the pulses of the generators 11 and 13 (FIG. 2c), on the leading edge of the pulse of the controlled oscillator 11. the current forming the pulse by the shaper 12 from its inverting output to the third input of the controlled generator P receives a signal to prohibit the output of the next pulse. From here, the next pulse from the next pulse occurs with an additional bias. occurs until the pulses of the generator and the driver 12 do not coincide in time. Let us define the time interval T as the time delay for the appearance of T and the removal T | 2 of the output signal, the beginning of which coincides with the moment of giving the control signal U, and the end with the process of coincidence of the pulses of the generator 14 and the formation of bodies 12 (Fig. 2a, at). The time interval expressions for the bursts of impulses received respectively from the generator I and the shape of the world 12 are of the form T Shp-1) t (ms) (PM; From the condition of equality of the time integrals /, w () (); NUMBER of periods pv pulses received from the generator 14, is equal to -fQsQ, where O. is the signal duty cycle. The coincidence in time of the pulses at the inputs of the element And 13 is accompanied by the transition of the trigger 3 to the tilted state. The output signal ki is equal to G, At-neeeeepoce of the trigger 3 1, the output signals of elements 1 and 10 become equal O, and the keys k and 7 are closed. the signal O - element of inequality 1 opens the key L, and the cell E whose output signal is equal., Un opens the key 8. From the setpoint generator, the first inputs of the generators 11 and 14 receive the voltage UQ, at which the frequency of the generator pulses is r2, and the second inputs are the signal and the formation of bursts of pulses. The completion of the formation of the BpeMeHHOf-o interval T is accompanied by the flip-flop of trigger 3 and O, the switching of keys 4 and 8 to the closed state, the return of the device to its initial position Avitus of Chl-. Thus, in the proposed relay, the delay time is increased by changing the signal's duty cycle, where this parameter is provided by a pulse generator. Currently, there are simple pulse generators with a signal duty cycle of several thousand. Due to this, it was possible to get a simple device that provides a time delay in. interval 1-1-10 s. The invention The time relay containing the inequality element, which connects the input terminal and the trigger output with the key input, two frequency controllers connected via input keys to the first input of the pulse generator, and the control inputs of the input keys are connected to the inequality element inputs through the prohibition cells shaper, characterized in that for the purpose of magnitude | and time delays, a control pulse generator and an I element are entered into it, the first input of the controlled pulse generator is connected to the first input of the pulse generator, the second time of the controlled pulse generator to the second input of the pulse generator and output key resolution, and the third input - to the inverting output of the driver,. exit. The controlled pulse generator is connected via the shaper to the first input of the element I, the second input of which is connected to the output of the pulse generator, and the output to the trigger input. Sources of information taken into account during the examination 1. USSR author's certificate No. 627579, cl. H 03 K 5/73, 18.05.77. 2. USSR author's certificate number 714637, cl. H 03 K 5/13, 15.06.78.