SU1668577A1 - Device for cutting trenches - Google Patents

Abstract

This invention relates to penetration means in narrow trench soils. The goal is to increase the performance and reliability of the device in operation. Using a guide post, a traction mechanism and a suspension device 9 placed on the base machine, a working body, made in the form of drums 7, is lowered into the well. Rock-breaking tools 8 are fixed on the outer surface of each drum 7, and the rotor and stator are inside the common shaft 12 . The rotor is made in the form of a disk 13 rigidly connected along the outer circumference with the drum 7. Concentric windings 14 are placed on the end surfaces of the disk 13 and the stator magnet disks 15 contacting with them are fixed on the shaft 12. When applied to the motor windings via cable 11, an alternating current is created that causes the electromagnetic moment to rotate the working member. 2 Il.

Description

The invention relates to the penetration of narrow trenches in soils when constructing impervious curtains, erecting wall structures in the soil.

The aim of the invention is to improve the performance and reliability of the device in the development of narrow trenches without increasing the transverse dimensions of its working body,

Fig, 1 shows the device, a general view; figure 2 - view And figure 1 in the section.

The device for developing trenches includes a base machine, a guide post 1 with an airlift 2, connected by a corrugated pipe 3 to a compressor unit 4 and attached by means of a movable collar 5 to a working member b, made in the form of two or more drums 7, on the outer surface of which the cutting tools 8, working bodies 6 are connected by means of a suspension 9 with a traction mechanism 10, a power cable 11 with an electrical installation and mounted on hollow shafts 12 with the possibility of vertical reciprocating motion and The planes of rotation of the drums 7 are at an angle to each other in order to cover the gap formed between the drums by fastening them with their supporting shafts 12, on which they rotate, to the clamp 5 and the suspension 9 between them, and thus achieve the destruction of the soil across the entire width of the working zone of the working body 6, and inside the drum 7 of the working body 6 is placed the face asynchronous electric motor, the rotor of which is made in the form of a disk 13 rigidly connected along the outer circumference with the drum 7. On the face surfaces ited of the disc 7 has a concentric winding 14 and is configured with two rigidly fixed on a hollow shaft circular magnetic circuit of the stator 15 with three-phase winding 16 and the hollow space of the drum 7 filled with cooling liquid and is sealed using a sealing device 17.

The device for developing trenches works as follows.

The pioneer trench is filled with mud in the form of pulp, a well is drilled with a depth equal to the depth of the future trench, and a diameter greater than the diameter of the airlift along with the guide post. A guide post 1 with an airlift 2 is lowered into the well. Vertically downwards along the guide post 1 vertically downwards by means of the traction mechanism 10 and the suspension 9 is lowered into the pioneer trench working member 6. A three-phase alternating current flows through cable 11, causes a concentric rotating magnetic flux. This flux in the concentric short-circuited windings 14 of the rotor induces an alternating current, which, when interacting with

the concentric-rotating magnetic flux creates an electromagnetic moment that rotates the rotor with the drum 7 fixed to it with cutting tools 8. The presence of two disk magnetic circuits 15

makes it possible to reduce transverse electromagnetic forces and thus reduce the likelihood of the sticking effect of the rotor 14 to the magnetic conductivity 15 of the stator. Design

a rotor in the form of a disk magnetic circuit allows replacing an unreliable articulated circuit and obtaining a uniformly distributed load throughout its active zone, rather than on separate links and closed electromagnetic coupling, which leads to an increase in the performance and reliability of the device.

Claims (1)

The invention The device for the development of trenches 0 including a base machine with a traction mechanism, a guide rack with an airlift and a movably mounted working body, the drive of which is designed as an asynchronous motor and connected by bending 5 links with the traction mechanism, in order to improve performance and reliability in the operation of the device in the development of narrow trenches without increasing the transverse dimensions of its working body, the latter is made in the form of a drum with a shaft, on the outer surface of which rock cutting tools are fixed, and inside it a rotor and a motor stator are mounted on the shaft, while the rotor is made in the form of a disk rigidly connected to the outside a contour with a drum, and concentric windings and disk stator magnetic cores rigidly fixed on the shaft are placed on the end surfaces of the disk. 1