RU142303U1 - STATIONARY SINGLE-POLE VOLTAGE INDICATOR - Google Patents

Abstract

1. A stationary single-pole voltage indicator containing a base, a conductive element in contact with the current-carrying bus of the controlled object, an electronic unit, at least one light source and a cover, characterized in that the cover is made with windows for the passage of light radiation in different directions. 2. The indicator according to claim 1, characterized in that at least one window is made on the front and at least one side of the cover, each of which is located above the light source and is closed by a transparent element for the passage of light flux. . An indicator according to any one of claims 1 and 2, characterized in that the lid covering the electronic unit and the radiation source is made of a thermoset or thermoplastic material and preferably has the shape of a rectangular parallelepiped. 4. The indicator according to claim 1, characterized in that it is configured to implement light emission in a pulsed mode. The indicator according to claim 1, characterized in that the base is made of non-conductive material. The indicator according to claim 5, characterized in that thermoplastic or thermosetting plastic is used as a non-conductive material. The indicator according to claim 1, characterized in that the conductive element is made in the form of a plate of aluminum or copper alloy with at least one hole in the plate for a bolt or screw for mounting the indicator on the object. The indicator according to claim 1, characterized in that the light source is made in the form of one LED or several LEDs, the radiation of which has a different, preferably inter

Description

The utility model relates to means for controlling hazardous factors in the electric power industry, which do not have batteries and use the energy of the electric field of power lines, and can be used to alert personnel of the presence of voltage on current-carrying busbars of distribution devices of overhead power lines by applying pulsed light signals.

Known portable voltage indicator ST97, (Internet site http://locus.ru/store/13500/13569/13578/?pos=391)

The mentioned indicator is used to check the presence of voltage at the poles of the mast switches without lifting to the support and disconnecting the switch. The voltage sensor is raised to the switch using an insulated rod ST33 or ST19 and brought to the pole of the fuse of the mast switch. The presence of voltage can also be determined on an insulated core by touching the insulation with a signaling device.

The indicator is portable and not intended for stationary use.

Known passive voltage indicator Visi Volt. Internet site http://yandex.ru/yandsearch?text= Passive%20indicator%20voltage%20Visi%20Volt&I

The indicator is single-pole and is fixed with cable ties to wires with any type of cross-section, both insulated and non-insulated. It has a vertical orientation and an LCD screen.

When voltage is applied, a black image in the form of a zigzag of lightning appears on the light-green screen of the indicator, which is formed using materials that change their optical properties under the influence of an electric field of a certain intensity.

The indicator has several disadvantages:

- the presence of an information screen located only in one plane;

- to distinguish a signal of danger is possible only at close range, due to the fact that the black zigzag of lightning on the background of the screen is poorly distinguishable at a distance;

- constantly lit display screen, less distinguishable than a flashing light signal.

Known Device for indicating voltage IN 3-10-00 UHL3.1.

The device consists of a display unit, three resistive communication electrodes and a set of connecting cables. The monitored voltage is supplied to the display unit from the primary circuit through three resistive communication electrodes. The communication electrodes are attached (with electrical contact) between the housing and the corresponding phase and are connected to the display unit by connecting cables.

The disadvantage of this device is that it is suitable for installation only on new switchgears.

In addition, for connecting to live busbars, the device must be equipped with a set of connecting cables.

The closest in technical essence to the claimed indicator is a device described in the description of patent No. RU 2294542 "Method for determining the presence or absence of voltage in existing electrical installations."

The device consists of two structurally separated, radio-connected blocks: the working part and the indicator part.

The working part consists of a hook-shaped contact tip, which makes galvanic contact with a current-carrying wire and a converter that converts the energy of the electric field of the tested object into a high-frequency signal.

The indicator part of the device is made in the form of a device fixed to the handle of an insulating rod, located in the field of view of the operator. The indicator part receives via radio channel a high-frequency signal from the working part and converts it into light and / or sound signals that notify the operator of the presence of voltage at the tested object - in the electrical installation.

The disadvantage of the device should include the fact that it is. firstly, it is not stationary, but portable, and, secondly, it consists of two nodes that are interconnected via radio communications.

The objective of the utility model is to create a single-pole indicator to warn personnel about the presence of voltage on live busbars operating in automatic pulse mode, with the possibility of its stationary installation directly on busbars and with the possibility of delivering light signals in different directions.

The problem is achieved due to the fact that in a stationary single-pole voltage indicator containing a base, a conductive element in contact with a current-carrying bus, an electronic unit, a source of pulsed light radiation and a lid covering the electronic unit and the radiation source, according to a utility model, the lid is made with windows, directed in different directions for the passage of light radiation in different directions.

The base of the indicator is made of non-conductive material.

The conductive element is made in the form of a plate of aluminum or copper alloy with at least one element for mounting the indicator on the object and is interconnected with a non-conductive base.

For mounting the indicator on the busbar, a hole in the conductive plate for a bolt or screw is provided.

The indicator electronic unit is mounted on a conductive element or on a non-conductive base.

The light source is made in the form of a single LED.

In addition, the light source can be made in the form of several LEDs, the radiation of which has a different, preferably mutually perpendicular, direction.

The lid covering the electronic unit and the radiation source is made of thermosetting or thermoplastic plastic and has the shape of a rectangular parallelepiped.

At least one window is made on the front and at least one side of the lid, each of which is located above the light source and is closed by a transparent element for the passage of light from the light source.

The base and the cover are provided with fixing elements, which make them inseparable, made, for example, in the form of latches.

The technical result achieved is that the light of the indicator has a different, preferably mutually perpendicular, direction, allowing personnel to distinguish hazard information when installing such an indicator on both horizontal and vertical sections of busbars.

The essence of the utility model is illustrated by the drawing, which shows the indicator in axanometric projection.

The stationary single-pole voltage indicator does not have its own power source. The operation of the indicator is carried out by converting the energy of the electric field of the busbar, in the presence of voltage, into light energy.

The indicator contains a base 1 of non-conductive material, for example, thermoplastic or thermosetting plastic, a conductive element 2 in contact with a current-carrying bus (not shown), inseparably connected to the base 1 in the process of pressing the base.

The conductive element 2 is made in the form of a plate of aluminum or copper alloy.

To mount the indicator on the object in the current-carrying element, one or two holes 3 are made for a bolt or screw.

The energy of the electric field of a live busbar is converted into light energy by an electronic unit 4 located inside the indicator and mounted on a non-conductive base 1. Unit 4 is closed by a cover 5.

The light radiation source is made in the form of a single LED or several LEDs 6 and 7, the radiation of which has a different, preferably mutually perpendicular, direction.

The lid covering the electronic unit 4 and the radiation sources 6 and 7 is made of thermoset or thermoplastic plastic and has the shape of a rectangular parallelepiped.

At least one window 8 and 9 is made on the front and at least one side of the cover 4, each of which is placed above the light source 6 or 7 and closed by transparent elements 10 and 11 for the passage of light from the light source radiation.

To make one-piece connection of the base and the cover, the cover 5 is provided with four locking elements in the form of latches 12 included in the corresponding windows in the base 1 (not shown).

The indicator is used as follows.

In the finished assembled form, the indicator is mounted on a live bus bar by means of two or one bolt or screw.

Using an electronic unit, the energy of the electric field of the busbar is converted into light energy emitted by the LEDs in a pulsed mode in various, preferably mutually perpendicular, directions. This allows the operator to observe a warning signal that the tire is energized before starting work on both vertical and horizontal sections of the tires.

Claims (9)

1. A stationary single-pole voltage indicator containing a base, a conductive element in contact with the current-carrying bus of the controlled object, an electronic unit, at least one light source and a cover, characterized in that the cover is made with windows for the passage of light radiation in different directions. 2. The indicator according to claim 1, characterized in that at least one window is made on the front and at least one side of the cover, each of which is placed above the light source and is closed by a transparent element for the passage of light . 3. The indicator according to any one of claims 1 and 2, characterized in that the lid covering the electronic unit and the radiation source is made of a thermoset or thermoplastic material and preferably has the shape of a rectangular parallelepiped. 4. The indicator according to claim 1, characterized in that it is configured to implement light emission in a pulsed mode. 5. The indicator according to claim 1, characterized in that the base is made of non-conductive material. 6. The indicator according to claim 5, characterized in that thermoplastic or thermoset plastic is used as a non-conductive material. 7. The indicator according to claim 1, characterized in that the conductive element is made in the form of a plate of aluminum or copper alloy with at least one hole in the plate for a bolt or screw for mounting the indicator on the object. 8. The indicator according to claim 1, characterized in that the light source is made in the form of a single LED or several LEDs, the radiation of which has a different, preferably mutually perpendicular direction. 9. The indicator according to claim 1, characterized in that the base and the cover are provided with fixing elements for their permanent connection, made, for example, in the form of latches.

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