RU162427U1 - CURRENT DEVICE - Google Patents

Abstract

The utility model relates to devices that provide an electrical connection of an oil pipeline or gas pipeline to serving technological equipment and can be used, if necessary, to connect the pipeline, including the existing one, to the electrochemical protection system. Improving the reliability and usability of the device is achieved due to the fact that the base is made in the form of a flexible plate bonded with inserts of magnetic material. The plate consists of one or more layers of foil. The contact output of the electrical conductor is located on the bottom surface of the base. A layer of flexible non-conductive material may be applied to the upper surface of the base. 1 ill., 1 n.p. f-ly

Description

Power supply device

The utility model relates to devices that provide electrical connection of an oil pipeline or gas pipeline to serving processing equipment. It can be used, in particular, if it is necessary to connect the pipeline to the electrochemical protection system in places where it is impossible to fasten the contacts on the pipe body by welding due to safety requirements. The device can also be used when measuring voltage on the surface of the pipe and, if necessary, grounding the pipeline.

A device for placing a container for a charging socket in a motor vehicle according to the RF patent for invention No. 2526722, H01R 13/40, 2014 is known. An opening is made in the body sheet of the vehicle into which a container for a charging socket is inserted. The opening is surrounded by an internal frame that contains a support protrusion having a retaining edge extending around the perimeter with a connecting protrusion. On the connecting protrusion of the frame, the container is also tightly held by the protrusion. The disadvantage is the need to make an opening in the contacted body, which is unacceptable for a working pipeline.

Known Chinese patent for invention CN No. 203007422, C23F 13/06, 2013. "Magnetic fastening of the cable of the cathodic protective device to the offshore platform." The magnetic cable mount includes a mounting magnetic sleeve, a metal core, a cable trough, in which the cable is fixed with fixing bolts on the base, which is made in the form of a plate covering the body of the magnetic sleeve and the inner cable mounting location. The disadvantage is the lack of a designed place for the output contact of the cable, which leads to the need to use an additional clamping unit, which in turn must be attached to the platform.

As the closest analogue to the claimed technical solution, the electrode attachment node was selected according to the utility model certificate No. 12469, H01R 13/40, 2000, comprising a housing with a socket, a spring contact element and an electrode with a contact. A slit is made in the front part of the housing for mounting the electrode, and a seat for the fixed part of the electrode is made in the lower part. The spring contact element is mounted with the possibility of vertical movement and impact on the electrode contact in such a way that the fixed part of the electrode is elastically pressed against the seat of the socket. The downside is 2

the need to attach the housing itself to the object on which the electrode should be fixed and the complexity of such mounting without making holes or welding, which are unacceptable for an existing pipeline due to safety requirements and reliability of the pipeline. In addition, the use of a large number of connections of parts does not provide sufficient reliability of the device and the electrical contact.

The technical task of the utility model is to increase the operational properties of the current-carrying device.

The technical result consists in increasing the usability and reliability of the current-carrying device while ensuring the safety of its attachment to the pipeline.

The technical result is achieved in that in a current-carrying device containing a base with an electric conductor fixed thereon having a contact output, according to a utility model, the base is made in the form of a flexible plate consisting of at least one layer of foil, and from the base installation side the product is equipped with inserts of magnetic material, the contact output of the electrical conductor is located on the surface of the base from the side of its installation on the product, and the electrical conductor is fixed to another overhnosti base.

A layer of flexible non-conductive material may be applied to the surface of the base from the side of fixing the electrical conductor.

The technical result is achieved due to the fact that the base is made in the form of a flexible plate of one or more layers of foil with inserts of magnetic material. When applied to a flexible surface, the flexible plate is shaped into the corresponding cylindrical surface, which contributes to the full fit of the interacting surfaces. The ability to give a curved shape to the surface of the plate is provided by performing it from foil. The full fit of the interacting surfaces, in turn, ensures maximum contact of the magnetic inserts with the metal surface of the pipe and contributes to the reliable fixing of the power supply device to its surface. An electrical conductor is located on the upper surface of the base. The end of the electric conductor is brought to the hole in the base, its contact exit is located on the bottom surface of the base, i.e., on the side of the plate facing, when installed, to the surface of the pipeline. Thanks to the flexibility of the base and the presence of magnetic inserts, a reliable 3

the contact of the electrical conductor with the surface of the pipe. At the same time, there is no need to use the complex design of the mount, there is no need to violate the integrity of the surface of the pipeline or the use of welding. The usability of the device, the reliability of the created electrical contact are improved while ensuring the necessary requirements for the safe operation of the pipeline. A layer of flexible non-conductive material may be deposited on the upper surface of the base, in which an electric conductor is mounted, fixed on the base, which increases the reliability of the device and the reliability of its operation.

The figure 1 shows a current-carrying device in section.

The figure 2 presents a top view of the current-carrying device.

The figure 3 presents an axonometric image of a current-carrying device.

The current-carrying device consists of a base 1, on which an electric conductor 2 is fixed, an insert 3 of magnetic material, a contact output 4 of the electric conductor 2, a layer of non-conductive material can be applied to the base 1.

A conductive device operates as follows.

If it is necessary to quickly connect the pipeline to the electrochemical protection system, the insulation is removed from the pipe, the area on the pipe is cleaned at the place of future contact. Next, a conductive device is applied to the surface of the pipe, the base 1 of the device is shaped to repeat the shape of the surface of the pipe, and the device is attached to the pipe using inserts 3 of magnetic material. When this contact output 4 of the electrical conductor 2 is in contact with the surface of the pipe, providing electrical contact between the pipe and the electrical conductor 2 connected to the electrochemical protection system and closing the electrical circuit. Next, the installed device is poured with bitumen on top. In other cases, a layer of flexible non-conductive material, such as rubber or silicone, may be applied to the upper surface of the base 1. The coating applied to the surface of the base 1 protects the device and the connection point of the electrical conductor 2 from damage and environmental influences. The base 1 of the device is a flexible plate consisting of 1-4 layers of copper foil, 0.4 mm thick. Inserts 3 of magnetic material are attached to the base 1, inserts 3 can also be installed in the holes of the base plate 1. For fastening the device to the body of the gas pipeline, usually 3 to 4 are used

5 magnetic inserts. According to the rules of technical operation of electrical installations, the contact contact resistance should not exceed 0.05 ohms. During use of the device with a contact transition resistance of 0.01 Ohm at a current of 100 A, contact heating is not observed.

Thus, the utility model allows to increase the reliability and convenience of mounting and use of the current-carrying device.

Claims (2)

1. A current-carrying device comprising a base with an electric conductor fixed thereon having a contact terminal, characterized in that the base is made in the form of a flexible plate consisting of at least one layer of foil, and is equipped with inserts of magnetic material from the side of its installation on the product wherein the contact terminal of the electrical conductor is located on the surface of the base from the side of its installation on the product, and the electrical conductor is fixed to another surface of the base. 2. A current-carrying device according to claim 1, characterized in that a layer of flexible non-conductive material is applied to the surface of the base from the fixing side of the electrical conductor.

Images