RU85668U1 - VOLTAGE INDICATOR - Google Patents

Abstract

1. A voltage indicator comprising a serially connected contact tip, an indicator, a current-limiting element and a metal electrode placed in a plastic case, characterized in that the indicator is made in the form of an optoelectronic device and a protective element mounted parallel to each other and connected at common points with the contact - a tip and with a current-limiting element. ! 2. The voltage indicator according to claim 1, characterized in that it is equipped with a threshold element connected by its outputs to a current-limiting element and to a metal electrode. ! 3. The voltage indicator according to claim 2, characterized in that the metal electrode is made in the form of a contact tip, which is placed in an additional plastic housing and is connected to the threshold element by a connecting wire. ! 4. The voltage indicator according to claim 3, characterized in that the protective element is made in the form of an optoelectronic device.

Description

The utility model relates to the field of electrical engineering, more specifically to the technique of measuring electrical quantities, in particular, voltage indicators, and can be used as the main electrical protective means for determining the presence or absence of voltage on live parts of electrical installations with voltage up to 1000 V.

Known bipolar voltage indicator UNNU-1, having as indicators LEDs and designed to check the presence or absence of voltage in electrical installations up to 1000 V DC (with indication of polarity) and alternating current industrial frequency of 50 Hz (Catalog of OJSC "Plant RETO", Moscow, Part 1. Electrical protective equipment, p. 3).

The disadvantages of this device include the inability to determine the phase of the AC network in a single-pole mode.

Known bipolar voltage indicator ELIN-1 S3 IP-M, having as indicators of voltage constant (with indication of polarity) and alternating current LEDs, and as a phase indicator - a gas discharge neon lamp (Catalog of Energozashchita LLC, Yerevan, http: //www.energozashita.am/Produkciya/ukazatelinapnizkovoltnie/pdf/1(n).pdf).

The disadvantages of this device include the weak glow of a neon lamp when determining the phase of the AC network.

Also known is the two-pole voltage indicator UNNU-1M-F, which has LEDs as indicators of DC voltage (with indication of polarity) and alternating current, and a gas discharge neon lamp as a phase indicator (Catalog of AOOT Electropribor, Yerevan, 2008/2009 G.G., p. 5).

The disadvantages of this device include the weak glow of a neon lamp when determining the phase of the AC mains, as well as the phase indication voltage of 90 V, in accordance with the requirements of the “Instructions for the use and testing of protective equipment used in electrical installations” it should not exceed 50 V.

In addition, the UNN-1 S3 IP single-pole voltage indicator with an autonomous power supply is known, having a bright pulsed light indication using LEDs, a sound indication, the possibility of self-testing and designed to determine the phase of an alternating current network (Catalog of Energozashchita LLC, Yerevan city ,

http://www.energozashita.am/Produkciya/ukazatelinapnizkovoltnie/pdf/1(n).pdf).

The disadvantages of this device include the presence of an autonomous power source that requires periodic replacement, as well as a large number of pointer circuit elements.

The closest in technical essence to the claimed technical solution is a single-pole indicator screwdriver INO-500, containing a serially connected contact tip, the indicator is a gas discharge neon lamp, a quenching resistor and a metal electrode placed in a plastic probe housing (http: // www. etpribor.ru/docums/doc2/2_2/ino500.html).

The disadvantage of this device is the weak glow of a neon lamp when determining the phase of the AC network.

The technical result that can be achieved using the proposed utility model is to increase the brightness of the indicator while maintaining the simplicity of the device circuit.

The specified technical result is achieved due to the fact that the voltage indicator contains a serially connected contact tip, an indicator, a current-limiting element and a metal electrode located in a plastic case, while the indicator is made in the form of an optoelectronic device and a protective element mounted parallel to each other and connected to common points with a contact tip and with a current-limiting element.

In this case, the voltage indicator can be equipped with a threshold element connected by its outputs to the current-limiting element and to the metal electrode, and the metal electrode can be made in the form of a contact tip, which is placed in an additional plastic case and connected to the threshold element by a connecting wire.

In addition, the protective element can be made in the form of an optoelectronic device.

The essence of the utility model is illustrated by drawings.

Figure 1 shows a structural diagram of a voltage indicator;

figure 2 is the same with a threshold element;

figure 3 is the same with a metal electrode mounted in an additional housing.

The voltage indicator (Fig. 1) is placed in a plastic probe housing 1 and contains a contact tip 2, an indicator 3, a current-limiting element 4 and a metal electrode 5 connected in series. The indicator 3 is formed in parallel by an optoelectronic device 6 and a protective element 7. Connected the tip 2 is connected to the first common point 8 formed by the first terminals of the optoelectronic device 6 and the protective element 7. The second terminals of the optoelectronic device 6 and the protective element 7 form the second common point 9, connected connected to the first output of the current-limiting element 4. The second output of the current-limiting element 4 is connected to a metal electrode 5. To increase the value of the display voltage in order to prevent false alarms, a threshold element 10 (Fig. 2) connected between the second output of the current-limiting limit can be entered element 4 and a metal electrode 5. The metal electrode 5 can be made in the form of a contact tip 11 (Fig.3), placed in an additional plastic housing probe 12 and connected to edinitelnym wire 13 to the second terminal of the threshold element 10 is located in the housing 1, the dipstick.

As an optoelectronic device 6, for example, a light emitting diode can be used, which provides a distinctly visible indicator light even at a current of several tens of microamps.

As a protective element 7 can be used, for example, a diode connected counter-parallel to the optoelectronic device 6.

As a current limiting element 4, for example, a resistor can be used.

As the threshold element 10, for example, a bi-directional zener diode or two counter-in-series zener diodes with the same stabilization voltage can be used.

The voltage indicator works as follows.

When the contact tip 2 touches the phase wire of the AC network and touches the metal electrode 5 with the operator’s hand, a capacitive current flows through the pointer circuit, causing the optoelectronic device 6 to glow. The protective element 7 limits the reverse voltage to the optoelectronic device 6.

When the threshold element 10 is installed in the circuit, the luminescence of the optoelectronic device 6 starts at a higher voltage, determined by the unlock voltage of the threshold element 10, but not exceeding the maximum permissible value of 50 V.

The implementation of the metal electrode 5 in the form of a contact tip 11, placed in the housing-probe 12, allows you to expand its functionality, while in single-pole mode, the voltage indicator works similarly to the indicators shown in figure 1 and figure 2. The networks are touched to the phase wire by a contact tip 11 located in the plastic probe housing 12. By hand, they are touched by a contact tip 2 located in the probe housing 1. At the same time, the convenience of using the pointer is increased, since the optoelectronic device 6 is close to the eyes of the operator and is more distinguishable. In bipolar mode, the voltage indicator is connected by terminals-tips 2 and 11 to the phase and neutral wires of the network. In this case, an active current flows through the pointer circuit, determined by the current-limiting element 4 and causing the glow of the optoelectronic device 6. The protective element 7 limits the reverse voltage to the optoelectronic device 6.

The protective element 7 can be made in the form of an optoelectronic device, turned on in parallel with the optoelectronic device 6. This allows you to determine the presence of voltage in the DC network with the polarity indicated. At the same time, when the pointer is connected in a single-pole or two-pole mode to an alternating current network and if there is voltage in it, both optoelectronic devices light up. Determination of the presence of voltage in the DC network is performed in a bipolar mode. At the same time, one of the optoelectronic devices glows, depending on the polarity of the applied voltage.

The proposed utility model, in comparison with the prototype and other known technical solutions, has the advantage of increased brightness of the indicator while maintaining the simplicity of the device circuit, which increases its operational and technical and economic indicators.

Claims (4)

1. A voltage indicator comprising a serially connected contact tip, an indicator, a current-limiting element and a metal electrode placed in a plastic case, characterized in that the indicator is made in the form of an optoelectronic device and a protective element mounted parallel to each other and connected at common points with the contact - a tip and with a current-limiting element. 2. The voltage indicator according to claim 1, characterized in that it is equipped with a threshold element connected by its outputs to a current-limiting element and to a metal electrode. 3. The voltage indicator according to claim 2, characterized in that the metal electrode is made in the form of a contact tip, which is placed in an additional plastic housing and is connected to the threshold element by a connecting wire. 4. The voltage indicator according to claim 3, characterized in that the protective element is made in the form of an optoelectronic device.