RU222405U1 - Measuring probe - Google Patents

Abstract

The utility model relates to additional equipment for testing equipment and measuring instruments and can be used to connect instrumentation to the object under test, in particular to the terminal devices of power supply facilities when monitoring the serviceability of grounding in a given area. The technical result of using the utility model is to simplify monitoring of the resistance of grounding lines with an enameled or oxidized contact surface. The technical result is achieved by the fact that the measuring probe consists of a hollow insulating body, in which a pin is installed by means of an insulating sleeve and elements of the contact group with signal output to an external device are located, electrically connected to the pin, while it is equipped with a control unit and at least one an insulator for fastening elements of the contact group in the housing, the pin is made of conductive material with a hardness of at least 58 HRC, and on at least one of its outer surfaces it has a cross notch consisting of a main one, made at an angle of 65°, and an auxiliary one, made at an angle of 45 ° to the pin axis.

Description

The utility model relates to additional equipment for testing equipment and measuring instruments and can be used to connect instrumentation to the object under test, in particular to the terminal devices of power supply facilities when monitoring the serviceability of grounding in a given area.

There are known devices designed to measure the resistance of a grounding device, containing a working part - a measuring probe and a tip. A disadvantage of the known devices is the difficulty of carrying out measurements due to the fact that preliminary preparation of the surface is necessary to ensure sufficient electrical contact of the tip of the measuring probe with the conductor being tested.

The device closest to the proposed utility model and taken as a prototype is a probe (Patent SU 978246 published on November 30, 1982). The known device is intended for connecting instrumentation and measuring instruments to the test object and is based on a design of a pin secured by means of an insulating sleeve in an insulating housing, which also houses (via at least one insulator) the elements of the contact group and their control unit. In this case, the pin is electrically connected to the elements of the contact group, which are connected to the control unit and are designed to carry out power transmission between the pin and the external control and measuring device in the required mode.

The disadvantage of the probe in question is the difficulty of monitoring the resistance of grounding lines that have a natural oxide or artificially applied enamel layer on their surface, which reduces the surface of the electrically permeable contact. In this case, correct measurement of controlled quantities is possible only after preliminary work on removing the electrically impermeable coating using special equipment and materials.

The technical problem solved by the proposed utility model is the creation of a measuring probe.

The technical result of using the utility model is to simplify monitoring of the resistance of grounding lines with an enameled or oxidized contact surface.

The technical result is achieved by the fact that the measuring probe consists of a hollow insulating body, in which a pin is installed by means of an insulating sleeve and elements of the contact group with signal output to an external device are located, electrically connected to the pin, while it is equipped with a control unit and at least one an insulator for fastening elements of the contact group in the housing, the pin is made of conductive material with a hardness of at least 58 HRC, and on at least one of its outer surfaces it has a cross notch consisting of a main one, made at an angle of 65°, and an auxiliary one, made at an angle of 45 ° to the pin axis.

In fig. Figure 1 shows a diagram of the measuring probe.

The measuring probe consists of a hollow insulating body (1), made of any polymer dielectric material, for example, plastic, in which a contact group (2) is installed, fixed in the insulating body (1) through an insulator (3), made of any dielectric material, for example, ebonite. In this case, the insulator can be multi-component and not only secure the contact group (2) in the insulating housing (1), but also separate one or more of its structural elements. A pin (5) is installed in the housing (1) through an insulating sleeve (4), which is electrically connected to the contact group (2). The pin (5) is made of any conductive material with a hardness of at least 58 HRC, for example, from tool carbon steel of grades U13/U13A/13X, and has a cross notch (6) on at least one of its outer surfaces. The cross notch is a main notch made at an angle of 65°, and an auxiliary notch made at an angle of 45° to the pin axis. A control unit (7) is mounted in the insulating housing (1), which is electrically connected to the contact group (2). For communication with external devices, a signal output (8) is mounted in the insulating housing (1), which is electrically connected to the contact group (2).

The proposed measuring probe works as follows.

The signal output (8) is connected to the common connection point between the measuring voltage source and the current indicator. Then they grasp the insulating body (1) with one hand so that the thumb is directed towards the cross notch (6) on the pin (5), but does not extend beyond the insulating body (1) towards the pin (5). In this case, one of the fingers of the involved hand touches the control unit (7). Next, the pin (5), with the surface on which the cross notch (6) is applied, is brought to the test object and the oxide layer or enamel is removed from the surface of the test object using reciprocating movements. In this case, the insulating sleeve (4) provides the mobility of the pin necessary to prevent destruction of the body of the test object or the structure of the measuring probe. After removing the outer layer from the surface of the test object, the pin (5) is brought into fixed contact with the test object, the control unit (7) is pressed and the insulation resistance of the test object is measured. Press the control unit (7) and electrically connect the instrument being used and the object under test through the pin (5), contact group (2) and signal output (8). The insulator (3) and the insulating sleeve (4) reduce interference during measurements and additionally ensure safety during measurements. When the measurements are completed, the pressure on the control unit (7) is released, the pin (5) and the test object are opened.

The proposed measuring probe has proven itself well when carrying out work to monitor the serviceability of grounding that is subject to corrosion and/or coated with enamel. Its use significantly reduces labor costs for performing work, thanks to the ability to quickly clean the surface of controlled grounding lines. In particular, the proposed measuring probe was used to connect the MRU-101 and MRU-105 measuring systems to the terminal devices of power supply facilities when measuring the resistance of grounding devices at the facilities of the Engineering and Technical Center - a branch of Gazprom Transgaz Nizhny Novgorod LLC.

Thus, the proposed useful model of a measuring probe makes it possible to simplify monitoring the resistance of grounding lines with an enameled and/or oxidized contact surface due to the fact that the pin is made of conductive material with a hardness of at least 58 HRC, and has a cross pattern on at least one of its outer surfaces. notch, main - at an angle of 65°, auxiliary - at an angle of 45° to the axis of the pin, which ensures the removal of the electrically impermeable coating immediately before taking measurements without preliminary work using additional materials.

Claims (1)

A measuring probe consisting of a hollow insulating body in which a pin is installed by means of an insulating sleeve and elements of a contact group with signal output to an external device are located, electrically connected to the pin, while it is equipped with a control unit and at least one insulator for fastening the elements of the contact group in a housing, characterized in that the pin is made of conductive material with a hardness of at least 58 HRC, and on at least one of its outer surfaces has a cross notch consisting of a main one, made at an angle of 65°, and an auxiliary one, made at an angle of 45° to pin axis.

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