CS277230B6 - Circuit for indication of high voltage presence on electrical equipment - Google Patents

Abstract

Wiring eliminates the possibility of error in indication light elements in bright light environmental conditions, thereby improving reliability work and safety at work. Signaling is performed both optically by flashing light emitting diodes, so acoustically speaker. The wiring is composed of active and passive components. The basis is the use of timing circuit (10). This timing circuit (10) is involved as a pair of astable multivibrators with outputs on the light-emitting series diodes (D1, D2), and amplifying a third transistor (T3) switching loudspeaker (AM)

Description

The invention relates to the connection of an electronic device for indicating the presence of high voltage on an electrical device.

At present, high-voltage testers with double optical signaling are used for a similar area of application, using a measuring device and an electroluminescent diode, or a glow plug with a spark plug. When measuring in daylight, the optical signaling is not clear and an error may occur.

This disadvantage is eliminated by the connection of an electronic device for indicating the presence of high voltage on the electrical device, the essence of which is that a two-way rectifier bridge is connected between the contact tip and the counter electrode bridged by series connection of Zener diodes to each other, the first output point being connected via a first resistor. base of the first transistor, via the first capacitor to the second output point and via the sensor pad to the emitter of the second transistor, to the first terminal of the fifth resistor and to the positive pole of the power supply, the base of the second transistor and the second terminal of the fifth resistor being connected together via the fourth resistor to the collector of the first the collector of the second transistor, the first terminal of the fifth capacitor, the first terminal of the second resistor, the anode of the first diode, the first terminal of the speaker, the first terminal of the third resistor and the fourteenth, fourth and tenth terminals of the timing circuit are connected, the thirteenth terminal of the timing circuit being with rider a third resistor, the second terminal of which, together with the twelfth and eighth terminals of the timing circuit, is connected via a third capacitor to the neutral connection point, where the second terminal of the fifth capacitor, the second output point, the emitter of the first transistor, the seventh terminal of the timing circuit a timing circuit terminal, via the second capacitor the eleventh timing circuit terminal and the emitter of the third transistor, the second terminal of the second resistor being connected to the second, sixth and eleventh timing circuit terminals, the second resistor slider being connected to the first timing circuit terminal, the cathode of the first diode being connected via a sixth and seventh resistor to the anode of the second diode, which is connected to a cathode with a zero point of connection, a fifth terminal is connected between the sixth and seventh resistors, the ninth terminal of which is connected via an eighth resistor on the basis of a third transistor connected by a collector to the other speaker terminal.

The advantage of connecting an electronic device to indicate the presence of high voltage on the electrical device according to the invention is, in particular, the increased reliability of the signaling of the indicated states. By using two light emitting diodes in flashing mode and a modulated tone of acoustic signaling, the optical and acoustic signaling is very pronounced.

The proposed 77 / connection of the electronic device for indicating the presence of high voltage on the electrical device is shown in the example in the attached drawing.

In the figure, a two-way rectifier bridge D5, D6, D3, D4 is connected between the contact tip DH and the counter electrode E. The bridge is connected by a series connection of a pair of Zener diodes D7, D8 to each other, where the first output point of the bridge is connected via a first resistor R1 based on the first. transistor TI, via the first capacitor Cl on

CS 277230 B6 2 second output point of the bridge and via the sensor pad S to the emitter of the second transistor T2, to the first terminal of the fifth resistor R5 and to the positive pole of the power supply, the bases of the second transistor T2 and the second terminal of the fifth resistor R5 being connected together via the fourth resistor R4 to the collector of the first transistor T1, the collector of the second transistor T2, the first terminal of the fifth capacitor C5, the first terminal of the second resistor R2, the anode of the first diode D1, the first terminal of the speaker AM, the first terminal of the third resistor R3 and the fourteenth, fourth and tenth terminals 14, 4, 10 of the timing circuit 10 are interconnected, the thirteenth terminal 13 of the timing circuit 10 being connected to the slider of the third resistor R3, the second terminal of which together with the twelfth and eighth terminals 12,8 of the timing circuit 10 is connected via the third capacitor C3 to the zero connection point the second terminal of the fifth capacitor C5, the second output point of the bridge, the emitter of the first transistor TI, the seventh terminal 7 of the timing circuit 10 are also connected via the fourth capacitor C4 third terminal 2 of timing circuit 10, via second capacitor C2 eleventh terminal 11 of timing circuit 10 and emitter of third transistor T3, the second terminal of second resistor R2 being connected to second, sixth and eleventh terminals 2, 6, 11 of timing circuit 10, the slider of the second resistor R2 is connected to the first terminal 1 of the timing circuit 10, the cathode of the first diode D1 being connected via the sixth and seventh resistors R6, R7 to the anode of the second diode D2, which is connected by a cathode to the neutral connection point, between resistors R6, R7 a fifth terminal 5 of a timing circuit 10 is connected, the ninth terminal 9 of which is connected via an eighth resistor R8 on the basis of a third transistor T3, which is connected by a collector to the second terminal of the speaker AM.

The indicated voltage from the tested live part of the device is supplied by a contact tip DH, rectified in a rectifier bridge D5, D6, D3, D4 and further passed through a first resistor R1 based on the first transistor T1. After applying this voltage, the first transistor T1 opens, then the second transistor T2 closes due to the voltage across resistors R5 and R4. This supplies voltage from the input part to the display, formed by the connection of the timing circuit 10. This circuit 10 is formed by a double timing circuit known from integrated circuit manufacturers under the designation 556. Alternatively, a connection from two type 555 circuits can be used. and the passive components connected thereto is an astable multivibrator with a frequency determined by the value of the second capacitor C2 and a resistor trimmer formed by the second resistor R2. At the fifth terminal 5 of the timing circuit 10 there is a rectangular signal of a given frequency, for example 0.5 Hz. This signal switches a pair of diodes D1, D2. These are light emitting diodes that flash alternately. There will be a sawtooth voltage at the eleventh terminal 11 of the timing circuit 10. This voltage from the first half of the timing circuit 10 is applied to the second and sixth terminals 2.6 of the timing circuit 10, where it modulates the signal of the second half of the timing circuit 10, which also operates as an astable multivibrator. The frequency of this multivibrator is given by the values of the third capacitor C3 - and the resistor trim-. ru, formed by the third resistor R3. This bond between the two multivibrators creates a tone characteristic of alarm devices; it is amplified by means of a third transistor T3 and fed to an electroacoustic transducer formed by an speaker AM. The power supply is provided by a battery, the positive pole of which is connected to the emitter of the first transistor TI. Battery consumption is conditioned by the presence of voltage at the input of the entire connection. In the idle state, the transistors T1, T2 are closed, so the consumption is practically zero. The functionality of the connection can be verified before each measurement by placing a finger on the sensor surface S. This will supply a positive supply voltage from the battery based on the first transistor TI, thus simulating the situation when testing the presence of voltage on live parts of the device. The function of the device is confirmed by an acoustic and optical signal.

Claims (1)

PATENT CLAIMS Connection for indicating the presence of high voltage on an electrical device, characterized in that a two-way rectifier bridge (D5, D6, D3, D4) is connected between the contact tip (DH) and the counter electrode (E) bridged by a series connection of Zener diodes (D7, D8) opposite each other, the first bridge output point being connected via a first resistor (R1) based on the first transistor (TI), via a first capacitor (C1) to the second output point (2 ') and via a sensor pad (S) to the emitter of the second transistor ( T2), to the first terminal of the fifth resistor (R5) and to the positive pole of the power supply, the base of the second transistor (T2) and the second terminal of the fifth resistor (R5) being connected together via a fourth resistor (R4) to the collector of the first transistor (T1); wherein the collector of the second transistor (T2), the first terminal of the fifth capacitor (C5), the first terminal of the second resistor (R2), the anode of the first diode (D1), the first terminal of the speaker (AM), the first terminal of the third resistor (R3) and the fourteenth, fourth and a tenth timing circuit (14, 4, 10) ( 10) are connected together, the thirteenth terminal (13) of the timing circuit (10) being connected to the slider of the third resistor (R3), the second terminal of which together with the twelfth and eighth terminals (12, 8) of the timing circuit (10) is connected via the third capacitor (C3) to the zero connection point, where the second terminal of the fifth capacitor (C5), the second output point of the bridge, the emitter of the first transistor (TI), the seventh terminal (7) of the timing circuit (10) are also connected via the fourth capacitor (C4) a third terminal (3) of the timing circuit (10), via the second capacitor (C2) the eleventh terminal (11) of the timing circuit (10) and the emitter of the third transistor (T3), the second terminal of the second resistor (R2) being connected to the second, sixth and an eleventh terminal (2, 6, 11) of the timing circuit (10), the slider of the second resistor (R2) being connected to the first terminal (1) of the timing circuit (10), the cathode of the first diode (D1) being through the sixth and seventh resistors (R6, R7) is connected to the anode of the second diode (D2), which is connected to the cathode with a zero connection point, The fifth terminal (5) of the timing circuit (10) is connected to the rotor (R6, R7), the ninth terminal (9) of the timing circuit (10) being connected via an eighth resistor (R8) based on a third transistor (T3) which is connected by a collector. to the second speaker terminal (AM).