RU193997U1 - Device for winding and unwinding a cable outside the cabinet of a submersible pump control station - Google Patents

Abstract

The proposal relates to the oil and gas industry, namely, cable winding and unwinding devices on the body of a submersible pump control station. A device for winding and unwinding a cable outside the cabinet of a submersible pump control station, including cable clamps for winding and unwinding installed on the outside of a cabinet made in the form of a rectangular hollow prisms with submersible pump controls inside, doors closing the windows and outputted through the input sections to the outside for power connection to external power supply and power cables for connecting to the submersible pump. The cabinet is portable and equipped with bottom-adjustable height supports to prevent swings after installation. The staples are made U-shaped, attached at the top and bottom of the narrow sides of the cabinet and bent up and down U-shaped ends, respectively. For the convenience of operation, the brackets on one side of the cabinet are designed to interact when winding with a power cable, and on the other with a power cable. The places for winding the brackets are made round with a diameter excluding breakage of the cable cores during winding and unwinding, and at a distance from the edges of the cabinet, excluding protruding beyond it after full winding. The upper brackets are designed to be gripped by hands when carrying. The proposed device for winding and unwinding the cable outside the cabinet of the submersible pump control station allows it to be used in portable cabinet designs, located in a convenient location for the control cabinet and protects against cable breakage during transfer and tipping over. 1 ill.

Description

The proposal relates to the oil and gas industry, namely, cable winding and unwinding devices on the body of a submersible pump control station.

A device for winding and unwinding a cable (ed. St. SU No. 1636315, IPC B65H 75/34, H02G 11/02, published on January 23, 1991 in Bull. No. 11), comprising a drum mounted on a shaft with two flanges and a composite neck formed by arched elements, the ends of which are mounted on the flanges with the possibility of changing the position along the radius, and the drive located on the side of one of the flanges, and the flange of the drum on the side opposite to the location of the drive is made integral with a connector in a concentric circle with through holes and a slot for output beginning cable in the upper part, while the device is additionally equipped with detachable couplers with both flanges along their periphery, couplers installed along the generatrix of the cylindrical surface, and a disk disconnectably connected to the composite flange and having a through hole located in accordance with the location of the through hole of the flange.

The disadvantages of this device are the complexity of manufacture and low reliability of its design due to the presence of a large number of complex, expensive, small and precisely mating parts, which in the field of application can cause big problems with use.

The closest in technical essence is the control station for submersible electric pumps (patent for PM RU No. 23912, IPC E21B 43/00, H05K 5/00, published on July 20, 2002 in Bull. No. 20), which is a two-section double-sided service cabinet containing an introduction switch-disconnector, power device, three measuring voltage transformers, contactor, three measuring current transformers, device for monitoring the insulation resistance of the system; secondary windings of the transformer - motor winding cable, in the upper, smaller control compartment Nia, equipped with a small door, has a control device as a digital controller and the front panel controls and indicators; in the lower power compartment there is a switch for the end electric blocking of the main door and automatic switches for the power device and voltage measuring transformers; a cable entry section is installed on the upper part of the rear panel of the station building, on the rear wall of which connection terminals are installed; on the lower part of the rear panel of the station building there are two brackets with cable fasteners, the cabinet is mounted on the base, which is made in the form of two support posts, right and left, each of which has a box-shaped shape, a main door and a small door that allows access to the front panel controls and indications are equipped with locks and have a tight seal, and the input of the insulation resistance control system of the secondary transformer windings - the motor cable-winding is brought to the high-voltage reference and an insulator located on the rear panel of the station housing in the zero-wire input compartment, at the bottom of which there is a cable hatch, the rear wall coincides with the rear panel of the station housing, and the front is openable, as well as a compartment with a terminal block designed for connection of the telemechanics system and external sensors, support legs of the base from below are connected by two corners; the display elements are equipped with a hood and on the small door, opposite the display elements there is a sealed window made of transparent material, and the power device, three voltage measuring transformers, a contactor, an input switch-disconnector, three current measuring transformers and a system insulation monitoring device are secondary.

The disadvantages of the brackets for winding and unwinding the cable located at the bottom rear of the cabinet are that they are designed for stationary installation of the cabinet with winding and / or unwinding only at the time of installation of the cabinet due to which they are located in a hard-to-reach and inconvenient place with no control when moving, also the brackets are made without taking into account the thickness of the cable and the possibility of tipping, which can lead to breakage of the inner cores of the cable when carrying and tipping.

The technical task of the invention is the creation of a device for winding and unwinding the cable outside the cabinet of the submersible pump control station, which allows it to be used in portable cabinet designs, located in a convenient location for monitoring with protection against core breakage during transfer and tipping.

The technical problem is solved by a device for winding and unwinding the cable outside the cabinet of the submersible pump control station, including brackets for winding and unwinding the cable installed on the outside of the cabinet, made in the form of a hollow rectangular prism with submersible pump controls located inside, closing windows with doors and led out through input sections outward with power for connecting to external power supply and cables for connecting to the submersible pump.

What is new is that the cabinet is portable and equipped with bottom-height-adjustable supports to prevent swaying after installation, and the brackets are made U-shaped, attached at the top and bottom of the narrow sides of the cabinet and curved U-shaped ends respectively up and down, for the convenience of the bracket on the one side of the cabinet, they are designed to interact when winding with a power cable, and on the other hand, with a power cable, and the places for winding the brackets are made round with a diameter eliminating the breakage of the cable cores during winding and unwinding, and at a distance from the edges of the cabinet, excluding the protrusion beyond its borders after full winding, while the upper brackets are made with the possibility of grabbing hands when carrying.

In FIG. 1 shows a diagram of a device (front view).

In FIG. 2 shows a diagram of a device (side view).

The device for winding and unwinding the cable 1 and 2 (Fig. 1) outside the cabinet 3 of the submersible pump control station (not shown) includes brackets 4, 5, 6 and 7 for winding and unwinding the cable 1 installed outside the cabinet 3, made in the form of a hollow a rectangular prism with submersible pumps located inside the controls (not shown), closing the window 8 (not shown), doors 8 and brought out through the input section 9 to the outside with power 1 for connecting to an external power supply (not shown) and supplying 2 for connecting cables to the submersible pump. Cabinet 3 is portable and equipped with bottom-adjustable 10 supports to prevent swings after installation on the surface. The brackets 4, 5, 6, and 7 are made U-shaped, fastened, respectively, above and below the narrow sides 11 and 12 of cabinet 3 and bent U-shaped ends, respectively, up and down. For convenience, the corresponding brackets 4, 6 or 5, 7 on one side 11 of the cabinet 3 are made with the possibility of interaction when winding with a power cable 1, and on the other 12 with a power cable 2. Winding places staples 4, 5, 6 and 7 are made round with a diameter d, excluding the breakage of cable conductors 1 or 2 during winding and unwinding, and at a distance h (Fig. 2) from the edges of the cabinet 3, excluding protruding beyond it after full winding. The upper brackets 4 (Fig. 1) and 5 are made with the possibility of grabbing hands when carrying.

Structural elements and technological connections that do not affect the operability of the device, in FIG. 1 and 2 are not shown or shown conventionally.

The device operates as follows.

Upon completion of the work of submersible pumps, the control station is turned off. To do this, the doors 8 (Fig. 1) of the cabinet 3 are torn off using handles 13, turning around the hinges 14, turn off the power with a toggle switch (not shown), close the doors 8, disconnect the power wire (not shown) connected to the power cable 1 by connector 15. Disconnect the connectors 15 and 16 of the corresponding cables 1 and 2 from the power wire and the supply wire (not shown) connected to the submersible pump. Cables 1 and 2 are wound on the respective brackets 4, 6 and 5, 7 from the sides of the respective sides 11 and 12. Since the diameter d of the brackets 4, 6 and 5, 7 at the place of winding of the corresponding cables 1 and 2 on them is sufficient to prevent broken wires cables 1 and 2, then their damage is completely absent. After that, two people take the upper brackets 4 and 5 with their hands and transfer the cabinet 3 to a new installation location or to a transport (not shown). If, in the case of carrying the cabinet 3, it will fall or tip over during installation, since the handles 4, 5, 6 and 7 are located at a distance h (Fig. 2) from the edges of the cabinet 3, excluding the protrusion of cables 1 outside it (Fig. 1) after full winding, their damage is eliminated caused by falling when cables 1 and 2 fall under the action of the edges of the cabinet 3. At a new installation location or in transport (not shown), the cabinet is installed on the surface and by adjusting the outreach of supports 10 (for example, bushings , screwed onto threaded pins, pins with op orams screwed into the threaded holes of the cabinet 3, etc.) ensure that the cabinet 3 does not swing.

The proposed device for winding and unwinding the cable outside the cabinet of the submersible pump control station allows you to use it in portable cabinet designs, located in a convenient location for control and protects against cable breakage during transfer and tipping.

Claims (1)

A device for winding and unwinding a cable outside the cabinet of a submersible pump control station, including brackets for winding and unwinding a cable mounted on the outside of a cabinet made in the form of a hollow rectangular prism with submersible pump controls located inside the doors, closing the windows with the doors and forcing power out through the input sections external power supply and cables for connecting to the submersible pump, characterized in that the cabinet is portable and equipped with a height-adjustable bottom with supports to prevent swings after installation, and the brackets are made U-shaped, attached at the top and bottom of the narrow sides of the cabinet and bent U-shaped ends respectively up and down, for the convenience of operation, the brackets on one side of the cabinet are designed to interact when winding with a power cable and, on the other hand, with a power cable, and the places for winding the brackets are made round with a diameter eliminating the breakage of the cable cores during winding and unwinding, and at a distance from the edges of the cabinet, excluding protruding beyond it after we are completely heel, the upper brackets are arranged to grip hands to carry.

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