SU1344913A1 - Front-loading unit - Google Patents

Abstract

The image1) refers to equipment for the mechanization of the excavation of minerals. The goal is to improve the management of the unit on seams with unstable roofs. For this, base 10 is made telescopic. The latch (RF) 15 of the base 10 is connected by a hinge 16 to the lower house of the fencing 8. The hydraulic cylinder (HZ) 17 is placed with the base part of the base 10 and its HF 15, the rod of which is connected to HF 15. The piston cavity of HZ 17 is connected to the working cavities HZ 13, 14 shifting. In the case of the absence of a roof over the top - stone and, consequently, the absence of spreading of the uprights 12, the base with conveyor belts 2 and 3 is delivered to the bottom. Then, the RF 15 is moved with the fence 8 hinged on it to the base part of the base 10. The RF 15 can be moved along the entire length of the bottom at the same time, and section-down from the bottom up. 2 Il. A-A & (L with 1B 15 / ui.Z CAD 4 4: ii CD CO

Description

The invention relates to the mining industry and can be used in units for mining powerful inclined and steep seams,

The purpose of the invention is the improvement of up. unit on seams with unstable roof.

Figure 1 shows a General view of the unit; Fig. 2 is a section A-A in Fig. 1 (with a scheme of connecting hydraulic jacks).

The unit consists of lining sections 1 interconnected by the front and rear themselves, an executive body, for example, the upper 2 and lower 3 conveyor points, lugs of coupling A and 5, each lining section consists of upper 6, cover 7, fencing 8, the telescopic wall .9 installed on the base 10, which has an opening. In the opening there is a shoe 11 connected by a hydroresistant 12 with a top 6. Between the sliding part of the telescopic wall 9 and the overlap 7 there is an upper hydraulic jack 13 of the movement. A lower hydraulic jack 14 of the advancement is installed between the bayamak 11 and the base part of the base 10. The base 10 is made by a telescopic, the movable part 15 by the hinge 16 is connected to the lower end of the guard 8. For the telescopic base 10 is moved the hydraulic cylinder 17 is installed, while its rod is connected to the sliding part 15 of the base 10, and the cylinder is fixed on the base part of the base 10. The piston cavity of the hydraulic cylinder 17 is connected to the supply line 18 and to the working cavities of the hydraulic jacks of the advancement slide 13 and 14 through the disconnecting element

 nineteen.

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The unit works as follows.

Under normal roof, hydrostats 12 are unstuck. The supply of the working fluid to the hydraulic jacks of the advances 13 and 14 takes place at the bottom of the base; the cutting is performed by conveyor circles 2 and 3. At the same time, the hydraulic cylinder 17 is disconnected from the supply line 18 by the disconnecting element 19, and the telescopic base extension 15 works in concert with the base 10. After the complete nick, the conveyors 2 and 3 work the formation along its entire capacity. Then the conveyor wheels 2 and 3 return to their original position.

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group moving of sections begins. After which the cycle is repeated.

However, there are cases when there are no 6 roof sections above the tops of 6 several roof sections. Then the hydraulics 12 do not have a thrust in the roof. In this case, the shut-off element 19 is placed in the open position. When the supply is switched on, the working fluid enters simultaneously all the hydraulic jacks of the shifters 13 and 14 and the hydraulic cylinders 17 along the entire length of the bottom, the feed rate is regulated from the control panel. Slide jacks are prepared to tighten sections. At the same time, initially, all the liquid enters the jacks for shifting those sections where there is no thrust, since the loads on these jacks are minimal. The forces developed in the piston cavity of the hydraulic cylinders 17 repel the base part of the base 10 from the sliding part 15 and the dam, the base with conveyor 2 and 3 is delivered to the bottom even in the absence of thrust. By supplying the working fluid to the rod cavity of the hydraulic cylinder 17, we move the sliding part of the base with the guard 8 hingedly fixed on it to the base part of the base 10. At the same time, moving the sliding parts of the base can be made along the entire length of the slab simultaneously and sectionally upwards . Then, the sections that have a thrust are pulled. Thus, you need to work until the appearance of the possibility of thrust into the roof, then turn off the supply of working fluid to the hydraulic jack by shutting off element 19,

Claims (1)

Invention Formula A frontal action unit containing an actuator mounted on a telescopic wall, which is connected by upper slider jacks with overlapping support sections, each of which includes a top slider, connected to a stand, with a shoe mounted in the base opening, a barrier and a lower slider jack, different By the fact that, in order to improve the control of the unit on seams with an unstable roof, the base of the caddish of the support section is made telescopic in the plane of movement. and its sliding and base parts are interconnected by means of a hydraulic cap, the piston cavity of which is connected to the working cavity and the traveling mobile means by means of a disconnecting element, while the lower end of the guard is hinged on the sliding part of the base. 1 Editor I. Segl Nick Compiled by V.Ponomareva Tehred L. Oliynyk Proofreader L. Pilipenko Order 4898/33 Circulation 452 Subscription VNIIPI USSR State Committee for Inventions and Discoveries .113035, Moscow Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4