SU822053A1 - Pulse overload monitoring device - Google Patents

Description

(54) DEVICE FOR CONTROLLING PULSE OVERLOADS

Claims (2)

The invention relates to a measurement technique and can be used in information and measurement control systems metsiin and devices. A device for controlling pulse overloads is known, which contains an overload sensor, amplifier, detector, and threshold element. Til The disadvantage of the device is that it does not contain a pulse expander, this does not allow the use of a device for controlling machines and preparations. The closest technical solution to the invention is a device for recording lightning discharges, containing successively connected overload sensors, filter amplifier and detector, to the output of which threshold elements are connected, arranged in order of increasing thresholds, and also power amplifier unit , the power supply unit, the installation unit. In its initial state, the input of which is connected to the output of the power supply unit t2. The drawback of the device is the limited range of output signals, due to the lack of interconnection of the parameters of the input and output signals. -. The purpose of the invention is to expand the range of output signals. This goal is achieved by the fact that a pulse counter overload device containing a successively connected overload sensor, a filter, an amplifier and a detector is connected to the output, which is connected to threshold elements in order to increase the response thresholds, as well as a power amplifier unit, power supply unit. , the installation unit in the initial state, the input of which is connected to the output of the power supply unit, is additionally introduced a pulse former, triggers on the number of threshold elements, two-input elements, and on the number of triggers jers, a delay element, a key element, additional elements and on. the number of triggers except the trigger of a lower trigger threshold, the first input of the pulse generator is connected to the output of the setup unit and the inputs of the triggers whose information outputs are connected to the inputs of the power amplifier unit, the first inputs of the two-input And elements are combined and connected to the output pulse generator, the second inputs of the two-input elements And are connected to the first outputs of the corresponding threshold elements, the outputs of the two-input elements And are connected to trigger inputs, delay elements and a key element are connected in series between the output of the power supply unit and the power amplifier unit, the control input of the key element is connected to the input of the power supply unit, the second output of the threshold element with the smallest activation threshold is connected to the single trigger input of the corresponding trigger, the output which is connected to the second input of the impulse driver, the second inputs of the other threshold elements are connected to the single inputs of the corresponding triggers through And, the decisive inputs of which are connected to the triggers associated with the threshold elements of the lower threshold. The drawing shows a block diagram, a device for monitoring impulse overloads. The device circuit contains a series-connected overload sensor 1, a filter 2, an amplifier 3, a detector 4, to the output of which threshold elements 5-7 are connected with increasing threshold values (three threshold elements are shown in Fig. 1). Each threshold element 5-7 corresponds to triggers 8-10, the outputs of which are connected to the inputs of the power amplifier unit 11 with relay actuators. The inputs are set to zero of the flip-flops 8, 9, and 10 combined with the first input of the pulse driver 12 and connected to the output of the setup unit 13 to the initial state, the input of which is connected with the output of the power supply unit 14. The first inputs of the two-input elements And 15-17 are combined and connected to the output of the driver of 12 pulses, the second inputs of the two input elements and 15-17 are connected to the first outputs of the corresponding threshold elements 5-7, and the outputs of the two-input elements And 15-17 are connected to zero the inputs of the corresponding triggers 8-10. The second output of the threshold element 5, which has the smallest threshold, is directly connected to the single input of the trigger 8, the output of which. connected to the second input of the pulse body 12. The second inputs of the threshold elements 6 and 7 are connected to the single inputs of the flip-flops 9 and 10 through the additional elements And 18 and 19, and the enabling input of the element 18 is connected to the trigger 8, allowing the input element. 19 - with a rigger 9. One of the outputs of the block, which is connected to the block 11 of the power amplifiers through the delay element 20 and the key element 21, whose control input is connected to the input of the power supply block 14. The device works as follows. The input signal in the form of a mechanical pulse process acts on the overload sensor, which produces an electrical signal proportional to the input mechanical process, this signal through the filter 2 and the amplifier 3 is fed to the input of the detector 4, where the alternating signal is converted to unipolar. As the signal increases: at the output of the detector 4 and when it reaches the threshold values, threshold elements 5-7 start to operate sequentially. When the threshold element 5 is triggered, the trigger 8 is set to one state and starts the pulse shaper 12, generating pulses with a repetition period corresponding to the duration of the output-time interval. The pulses from the pulse driver 12 serve to return the trigger 8 to the initial (zero) state. If the input signal is less than the threshold threshold 5, then the inhibit signal from the output of threshold element 5 does not go to the two-input element AND 15, the pulse from the pulse driver 12 passes through the element 15 and sets the trigger 8 to the initial (zero) state. At the output of the trigger 8, in this case, a time interval is formed equal to the period of the pulse of the driver of the pulse 12. If the input signal is greater than the threshold value of the threshold element 5, the prohibition signal from the output of the threshold element 5 prohibits impulses from the driver 12 pulses to the zero input of the trigger 8 through the two-input element And 15. In this case, the trigger 8 will be in one state until the signal at the input of the threshold element 5 decreases to the threshold value and the prohibition from the element 15 is lifted. Then the first pulse passing through the element 15 from the pulse generator 12 will reset trigger 8 into the zero current condition and at the output of the trigger 8, a time interval is formed which is a multiple of the pulse repetition period of the imprinter 12 pulses (due to the duration and repetition period of the input signals). Similarly, time intervals are formed at the output of the flip-flops 9 and 10. Setting the flip-flops 9 and 10 to a single state is possible only if the precursor threshold element was triggered and the time interval associated with the trigger started forming. rum. So, for example, trigger 9 will be set to one state on condition that triggers 8 are triggered and the prohibition is removed from an additional element And 18, and trigger 10 is triggered by trigger 9 and the prohibition is removed from an additional element 39. Reset trigger 9 and 10 V the initial zero state and the formation of multiples of the pulse-following period by the shaper 12 time slots are carried out respectively using two-input elements AND 16 and 17, the output signals from the flip-flops 8-10 are fed to the inputs of the power amplifier unit 11, where re Leading executive elements are formed by the corresponding executive teams. In order to eliminate false executive commands at the time of switching on and off block 14, the power supply voltage to the power amplifiers 11 is supplied through delay element 20 and the key element 21. When power supply 14 is turned on, key element 21 is turned on simultaneously with power supply 14 and the supply voltage enters through a delay element 20 with a delay sufficient to turn on the setting unit 13 to its initial state, the signal from the output of which sets the triggers 8-10 and the pulse shaper 12 to the initial state and holds h uc: -; one state until termination of the device elements and threshold elements 5-7 protsessbv transients caused by switching on power. When the power supply unit 14 is turned off, the key element 2 synchronously removes power from the power amplifier unit 11. At the same time, spurious signals produced by threshold elements 5-6 and triggers 8-10 do not cause false commands at the output of power amplifier unit 11, since the supply voltage on it is insufficient to operate the relay elements. With a small period of pulses of the pulse generator 12 as compared with the duration of the input pulses, the device generates output pulses corresponding in duration to the input signal at predetermined threshold levels. When the pulse period of the pulse driver 12 is comparable with the duration of the input signal, the device operates in the mode of expanding the input pulses to the nearest interval that is a multiple of the specified value. With periodic input effects, the device switches to a constant voltage shaping mode at the output if the input pulses arrive at the pulse with the pulse shaper of 12 pulses, the claims control device for pulse overloads containing a series connected overload sensor, filter, amplifier and detector, to the output which connects threshold elements arranged in order of increasing thresholds, as well as a power amplifier unit, an output unit, an initial state setting unit e, the output of which is connected to the output of the power supply, is e with the fact that, in order to expand the range of output signals, a pulse shaper, triggers by the number of threshold elements, and two-input elements by the number of trigger elements are added to the device , a delay element, a key element, additional elements And by the number of triggers except a trigger of a lower threshold, the first input of the pulse former is connected to the output of the setting unit in the initial state and to the inputs of the setting to zero of the triggers, informational output of which is connected to the inputs of the power amplifier unit, the first inputs of two-input elements And are combined and connected to the output of the pulse shaper, the second inputs of two-input elements And are connected to the first outputs of the corresponding threshold elements, the outputs of the two-input elements And are connected to zero trigger inputs, delay elements and key - the element is connected in series between the output of the power supply unit and the power amplifier unit; the control input of the key element is connected to the input The second output of the threshold element with the smallest trigger threshold is connected directly to the single input of the corresponding trigger, the output of which is connected to the second input of the pulse former, the second outputs of the other threshold elements are connected to the single inputs of the corresponding trigger, through additional elements that allow the inputs of which are connected to Triggers associated with porosity elements of a smaller threshold. Sources of information taken into account in the examination 1. The impactor recorder, model 2503. At Bruhl & Kj атr, there are instruments for analyzing sound, ibratii and data processing. 1978, .979. 2. Authors certificate of the USSR - 546834, cl. G 01 W 1/16, 1975.