SU115592A1 - The method of laying the cable that supplies the mobile electrical unit and device for implementing this method - Google Patents

Description

The known loopback methods for fitting the supply cable in moving electric units and the cable-receiving devices of the drum and bunker type used for this purpose do not provide an adequate cable service life, as a result of which the operation of the electric units is economically unprofitable.

In the described method and the cable-receiving device, this disadvantage is eliminated by using a loop-free, inertialess zigzag system for laying cables of various sections into the cable-receiving device of the platform type.

FIG. 1 shows a side view of an electric tractor with a cable receiving device; in fig. 2 is a diagram of a power transmission and cable receiving device; in fig. 3 - clamp with partial cut, side view.

A cable receiving device consists of a cable box / platform type, cable-handling station 2, cable-laying 3, mechanical compensator 4, swivel boom 5, equipped with two automatic locks 6 with electromagnetic remote control and auxiliary needs generator 7.

The cable receiving device provides a cable-free laying along and across the platform by reciprocating and angular interlacing of the cable layer. It is also possible loop-laying cable across the platform with the fixed position of the support 8 cable layer.

The cable box is designed for installation of various flexible cables of various types and can be installed on the unit in any place (front, rear, middle).

The dimensions of the cable receptacle are determined by the cross-section and the required long cable.

The cable layer serves for forced laying of the cable, 1 in cable No. 115592-2 -

The receptacle is strictly consistent with the speed of the unit.

The drive of the cable-laying mechanism is possible both from the traction engine and from the transmission of the unit and contains two chain drives, a reversible gearbox 9 and a gearbox W of the angular displacement of the cable layer, mounted above the cab.

In the course of operation, the carriage II of the cable-laying machine simultaneously performs reciprocating and angular movements. On the one hand, it is supported on a movable tubular support 8 with two rollers moving along special guides equipped on the sides of the platform, and on the other hand it is supported by roller support 12 of the cable layer by means of the guide 13.

The cable guide is made of pipe. It receives a back-access movement by means of a lead J4 and a finger 15 connected to the roller chain 16.

The automatic reversing of the cable layer by means of a gearbox 9 with an electromagnetic drive is provided for the case of switching from pick-up to cable laying.

The forced spreading and selection of the cable is carried out by a cable-carrying station 2 located on the traction carriage // cable-laying machine, consisting of a direct current electric motor, a reducer, a system of rollers and a pressure device.

The cable, following from the platform and passing through the cage of protective rollers 17, enters the grooved traction wheel 18, which is driven by the motor W by means of a gearbox 20 and a roller chain 21.

In order to provide the necessary frictional force on the grooved wheel, the cabled station has a clamping device consisting of a wedge-shaped belt 22 spanning three rollers arranged along a triangle. The cable is clamped by the inclined belt branch for a quarter of the circumference of the grooved wheel. By means of one of the rollers the required tension of the belt is carried out with the help of a screw with a spring.

From the grooved wheel cable, the cable-laying bar passes through to the block of mechanical compensator 4, which is fixed behind the cab on the channel bar of the boom.

A mechanical compensator serves as a means of smoothing cable jerks caused by external factors, warnings, and thus the possibility of residual deformations occurring in it. It consists of a four-link Chebyshev mechanism, a spring and a block. The maximum stroke of the block is 1600 mm. The stiffness of the spring is consistent with the required cable tension (10-20 kg).

A swivel boom is provided for retracting the cable from the tractor, allowing rotation within 180 ° and having a swivel head included in the automation system.

Selection of the cable is possible both at the front and the side of the boom.

Before postunlenie on the receiving head of the boom cable passes between the two blocks, rigidly attached to the channels of the column. With the lateral arrangement of the boom cable around one of the blocks.

The described cable receiving device provides for lateral two-way distance and cable selection when working with wide-grip machines and side spreading and front cable selection - when working with machines of small width.

To ensure lateral cable selection, the boom is fixed relative to the tractor frame. On the boom, at the appropriate distance from its support, welding of two U-shaped lugs 23 is provided, and on the channels of the boom column - installation of special 1 x bobbiners 6 booms equipped with electromagnetic remote control.

When the boom approaches the retainer, the corresponding eye turns the spring-loaded latch 24 of the retainer, which locks the boom. Locks of both latches have a common electromagnetic drive. 8, the moment of transition of the boom head from the spread out to the pick, or vice versa, the electromagnet is automatically activated, as a result of which the latch is released from the lock and the boom takes the desired position.

The volumetric filling factor with this system of laying is 1.5-2 times higher than with the free laying of the cable in the bunker.

The described system of laying eliminates the possibility of arbitrary looping, pinching and overwhelming of the cable turns in the cable of the heat sinks, which could not be achieved until now in bunker-type cable receptacles.

Subject invention

Claims (6)

1. A method of laying a cable that supplies a mobile electrical unit, characterized in that, in order to increase the service life of the cable, a loop-free, sparking-free zigzag system of laying cable of various sections into a platform-type cable receptacle is used. 2. A cable receiving device for carrying out the method according to claim 1, characterized in that, for the purpose of laying the cable on the platform and spreading it across the field, a traction carriage provided with a grooved traction wheel is used, which is reciprocating from a finger on an infinite chains and at the same time receiving a shift in the transverse direction from a cantilever-fixed carrier, making uniform turns at a given angle when winding and unwinding the cable. 3. The device according to claim 2, characterized in that the carriage interacts with the clamping device of the cable station, consisting of three rollers arranged in a triangle, covered by an endless wedge-shaped belt, which presses the cable on a quarter of the circumference of the grooved wheel. 4. A cable receiving device according to claim 2, characterized in that, in order to reduce the cable running across the field, the boom used in it is rotatable with its automatic fastening in the working position and opening the lock from the remote-controlled electromagnet. 5. A cable receiving device according to claim 2, characterized in that the automatic lock for fixing the working position of the boom consists of U-shaped lugs fixed on it, which include spring-loaded tabs-1, fir-tree retainers fixed on the boom column and opened by an electromagnet, having a push button control located in the driver’s cabin. 6. A cable receiving device according to claim 2, characterized in that, in order to reduce the jerks due to the tractor oscillations, it uses a spring compensator, one end of which is fixed on the tractor frame, and the second - on the outer shoulder of the Chebyshchev four-link link bearing cable roller No {-, s cm