SU1744751A1 - Device for signalling about presence of water in electric installation - Google Patents

Abstract

The device is used to protect and signal electrical installations that are air-ventilated with air cooling in a water cooler. The device contains a pulse generator 1, a capacitor 2, a sensor 3, a diode 4, a core of 5 pulses, a relay 6, a one-shot 7, the inputs of which are combined and connected to the cathode of a diode 4, element 8, an actuator 9 made in the form of a one-shot with a restart and indicator 10. Generator 1 generates negative-polarity rectangular pulses of duration tn via capacitor 2 to sensor 3. If during an electrical installation operation under normal conditions, the output of sensor 3 due to, for example, electromagnetic interference to the input the counter 5 and the relay 6 receive, for example, two pulses of positive polarity, the first of them will cause the output of the relay 6 to form a pulse, after which the one-shot 7 sets the core 5 to its original state, due to which time t ПТ next (third) impulse of interference will not lead to emergency operation of the device. 2 Il. Yo

Description

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The invention relates to electrical engineering, in particular, to devices for protection against accidents of electrical installations, and can be applied, for example, in the protection of electric generators that have air ventilation with air cooling in a water cooler.

A device for monitoring electrical equipment malfunction is known, comprising one or more sensors for isolating a signal carrying information about the state of the equipment. The output signals of the sensors are received at the corresponding comparators, comparing their values with the values of the reference voltages. Comparator outputs are connected to the counter inputs, the outputs of which are connected to the inputs of the digital comparison circuit, which, comparing the output digital code of the counter with a certain predetermined digital code, generates a malfunction signal if the codes do not match.

The drawbacks of the device are its constructive complexity, due to the complexity of the digital comparison circuit, as well as the possibility of meter failures when the device operates in conditions of a high level of interference.

The closest to the invention is a device for signaling the presence of water in an electrical apparatus, comprising a sensor with outputs connected to the alarm relay inputs that is connected to a power source, an indicator connected to the relay output, and four electromagnetic relays , And element, time relay and two-position switch, through which the winding of the first relay is connected to the output of the alarm relay, while the first winding terminal of the second electric current is connected to the first output of the power source a rotary relay through the break contact of the time relay and the parallel first contacts of the first and second electromagnetic relays in parallel, the first winding pin of the third electromagnetic relay through the time relay contacts connected in series, the second contact of the second electromagnetic relay and connected in parallel by the break contacts of the electromagnetic first relay and own first closing contact, the first output of the power supply of the pulse counter via serially connected orders An open time relay contact and second make contacts of the second and third electromagnetic relays, the first output of the power circuit

time relay through the third closing contact of the third electromagnetic relay, the first winding terminal of the fourth electromagnetic relay through its own closing contact, and the second winding terminals of the second, third and fourth electromagnetic relay and the second terminals of the pulse counter power supply circuits and the time relay are combined and connected to the second power supply terminal while the inputs of the pulse counter and the time relay are combined and connected to the first output of the power source via the second closing contact of the first relay, the outputs pulses and time relays Meters withstand connected to first and second inputs of the AND gate, whose output is connected to a first terminal of the fourth relay coil, closing contacts which are device yield.

The device is based on the principle of forming a signal at its output by counting the number of pulses that occur at the output of the alarm relay over a set period of time, for example, after passing three pulses in seven seconds, as indicated in the description.

However, when a device operates under conditions of high interference, it is not rare that, for the first seven seconds, two impulses arrive at the pulse counter input, for example, which does not naturally lead to an emergency response of the device, but a third impulse received after some time increases the content. the counter per unit and generates a false signal of Avariya in the absence of water in the electrical apparatus, since the counter after the passage of the first two pulses was not set to the initial state. This disadvantage reduces the reliability of the device. In addition, the structural complexity of the device, due to the presence of a large number of electromechanical devices and the connections between them, further reduce the reliability of the device as a whole.

The purpose of the invention is to improve the noise immunity and reliability of the device.

The goal is achieved by the fact that the alarm device for the presence of water in the electrical installation, which contains a pulse counter and a time relay, whose inputs are combined, an indicator, a sensor, one of the terminals of which is connected to a terminal for connection to the common electrical installation wire, is an AND element connected to the output of the pulse counter, and the other with the output of the time relay, the executive body, the input of which is connected to

the output element And, additionally equipped with a pulse generator, a capacitor, a diode and a single vibrator, the input of which is connected to the output of the time relay, and the output - to the input of setting the pulse counter to the initial state, the output of the pulse generator through a capacitor connected to the second output of the sensor and the anode of the diode, the cathode of which is connected to the input of the pulse counter, and the input of the indicator is connected to the output of the actuator, which is designed as a one-shot with a restart.

The introduction of new elements and their proposed connection to the remaining elements of the device makes it possible to formulate emergency pulses, as well as to avoid false alarms of the device due to the periodic installation of the counter to the initial state.

FIG. 1 shows a block diagram of the device; Fig. 2 shows stress plots.

The device for signaling the presence of water in the electrical installation contains a pulse generator 1, a capacitor 2, a sensor 3, one of the terminals of which is connected to a terminal (not labeled) for connecting to the common wire of the electrical installation, a diode 4 connected by an anode to a second terminal of the sensor 3, to which through the capacitor 2 is connected to the output of the generator 1 pulses; a pulse counter 5, time relays 6, whose inputs are combined and connected to the cathode of diode 4, a one-shot 7, whose input is connected to the output of time relay 6, and the output to the installation input of the pulse counter 5 to the initial state, as well as series-connected elements 8 And, the Executive body 9, made in the form of a one-shot with a restart, and the indicator 10, the element 8 And one input connected to the output of the counter 5 pulses, and the other with the output of the relay 6 time.

The pulse generator 1 can be made according to the self-oscillating multivibrator circuit; 5 pulses counter - on a serial microcircuit, for example K155IE2; time relay 6 and one-shot 7 - according to the standby multivibrator circuit on a microcircuit, for example, K155AG1 or K155AGZ, and executive body 9 - on a K155AGZ microcircuit, which is a single-vibrator with the ability to restart with a new starting pulse before the end of the output. The design of sensor 3 is determined by the operating conditions of the electrical installation and its design, and in the simplest case, any two-electrode sensor can be used as sensor 3, for example, a segment

a coaxial cable, one end of which is placed in the place of electrical installation where it is necessary to control the appearance of water, and the other is connected to the device: the central core of the cable to the junction point of the capacitor 2 and diode 4, and the braid to the common drive.

The device works as follows.

When the power is supplied at a certain time, the generator 1 generates rectangular pulses of negative polarity with a duration of tu, supplied through the capacitor 2 to the sensor 3. If

there is no water at the location of sensor 3, then the resistance value between the electrodes of sensor 3 is large and the passing of the diode 4 prevents further passage of the pulses,

As a result, at the input of the indicator 10 there is a low voltage level (hereinafter, the logical zero level), signaling the operation of the electrical installation in normal conditions (Fig. 2, O-ti). If a

at a time ti at the location of the sensor 3 through the Vits water, this will lead to the fact that, due to its electrical conductivity, the common connection point of capacitor 2 and diode 4 after some

the electrical resistance of water between the electrodes of sensor 3 (usually 1-2 kΩ) will be connected to the common bus, i.e. in this case, the capacitor 2 and the sensor 3 form a differentiating circuit with a constant time

,(one)

where C is the capacitance of the capacitor 2;

R is the electrical resistance of water between the electrodes of the sensor 3, and it is always possible to choose such a duration tu of the output pulses of the generator 1 so that the relation

45

K fO, 1 - 0,3

tu

(2)

as a result, when pulses arrive at the input of the differentiating circuit, formed in this case by capacitor 2 and sensor 3, alternating pulses will be generated at its output. It is obvious that the pulses of positive polarity (Fig.2, U4,) through diode 4

arrives at the inputs of the counter 5 and the time relay 6, the first of which will lead to the formation at the output of relay 6 (FIG. 2, U4, t2) of a positive polarity pulse (hereinafter referred to as logic level 1), the duration of which may, for example, be within

p T f (n + 1) T,

(3)

where T is the period of the output pulses of the generator 1;

n - the conversion factor of the counter 5.

If counter 5 has a conversion factor, for example, equal to n 3, then at some time point ta at its output, a pulse (FIG. 2, U2, Ua, Tz) is transmitted through element I 8 to the input of a single vibrator 9, since at the second input of the element 8 at this time there is a level of logic 1 (FIG. 2, IM, ts), as a result of which the one-shot 9 at time t4 will form a pulse of duration

t nt

(four)

and at the output of the relay 6, after some time, the logic level O (Fig. 2, U4,) is set according to condition (3), and according to the negative differential output voltage of the relay 6, the one-oscillator 7 will form a short pulse, setting the counter 5 to the initial position. Received at time t4, the output pulses of the generators 1 in the presence of water will lead to the repetition of the described processes for a period of time X2-t3 (figure 2, Ui-U4, te) and the third pulse from the output of the counter 5 restarts the one-shot 9, which will begin to form a new pulse according to condition (4), thereby preserving at its output the level of logic 1 (Fig. 2, Us, ts), while indicator 10 will continue to signal an electrical installation malfunction. Obviously, this signal (Us) can be used to programmatically or immediately stop an electrical installation,

If during the operation of an electrical installation in normal conditions from the output of sensor 3 due to, for example, electromagnetic

0 5

0

5 0 5 0

five

interference on long connecting conductors to the inputs of counter 5 and relay 6 receives, for example, two pulses of positive polarity, the first of them will cause the output of relay 6 to generate a pulse, at the end of which the one-shot 7 sets the counter 5 to its original state Due to this, the next (third) interference impulse received after a certain time t rt will not lead to the emergency operation of the device.

Thus, in comparison with the prototype, the proposed device has a higher noise immunity due to the elimination of cases of overflow of the counter. The reliability of the device has increased, since it has become structurally simpler and does not contain electromechanical elements.

Claims (1)

The invention The device for signaling the presence of water in an electrical installation, contains a pulse counter and a time relay whose inputs are combined, an indicator, a sensor, one of the terminals of which is connected to a terminal for connecting to a common electrical installation wire, And element, one input connected to the output of a pulse counter, and the other, with a time relay output, an executive body, whose input is connected to the output of the element I, characterized in that, in order to increase the noise immunity and reliability of the device, it additionally provides but by a pulse generator, a capacitor, a diode and a single vibrator, the input of which is connected to the output of the time relay, and the output is connected to the input of setting the pulse counter to the initial state, the output of the pulse generator is connected via a capacitor to the second output of the sensor and the anode of the diode, the cathode of which is connected to the input pulse counter, and the input of the indicator is connected to the output of the executive body, which is made in the form of a one-shot with a restart. Re