SU787670A1 - Air-bladder roof support - Google Patents

Description

(54) PNEUMATIC TYPE MOUNT The invention relates to the mining industry, in relation to the process of mechanized fixing of the bottomhole space during cleaning and development workings. Known pneumonitic lining, issued in the form of sections of box-type, to which the side of the roof and the soil attached pneumatic chamber. Inside one of the sections, a pneumatic jack shifted, made in the form of two corrugated cylinders, is placed. 1 This design does not allow for the coping to adapt to the profile of the carried out development on curvilinear sections. Also known is a pneumocollar cres comprising a hollow body, on the outer side of which an elastic element and a displacement mechanism are installed. 2 The constraints of the structure do not allow the support to adapt to the profile of the cutout curvilinear sections and differs in the complexity of the design. The purpose of the invention is to increase the adaptability of the lining to the profile of the mine output on curved sections and simplify the design. The goal is achieved by the fact that the hollow body is made of separate rings, and the elastic element is made of three coaxially arranged shells that are inextensible in the longitudinal direction, hermetically connected along the perimeter with the rings in their middle part, while the crown and inner shell are fully connected along the edges. m rings. FIG. I shows the location of the blocking on the housing, section A-A in FIG. 2j in FIG. 2 - the position of the pneumatic support in the formulation. The device consists of rings I, outer 2, middle 3 and inner 4 shells (Fig. I). Shells 2, 3 and 4 are connected to each ring of the hollow case I hermetically around the perimeter of the cross-sectional pedestal, forming a horizontal shaft 5 and 6, iiHeBMoaoMKpaTbi of the displacement valve 7 and 8 and pneumatic end. There are 9 chambers located on the Orp supports (Fig. 2) with the equipment mounted on them 10. Rings I have tuckers II.

The device works as follows.

When moving the ring 1 into the pneumatic chamber 5 and the pneumatic combination of the tie 7, compressed air is supplied through fittings 11, while the pressure in the pneumatic chamber 6 and the pneumatic jack of the slide 8 is removed. The reinforcement of the ring advance I consists of the forces arising from an increase in the volume of the pneumatic expansion chamber 7 and an increase in the volume of the pneumatic chamber 5. The ring 1 moves as long as the movement chamber 7 does not take the shape of a torus, while the pneumatic chamber 5 spreads into the walls of the mine . Pneumatic chambers 9 serve to support equipment installed on the extreme rings, such as a monitor monitor or a shuug extraction body, while moving them, and also serve as a support when shifting the adjacent rings of the pneumatic support body. As an example, a hydromonitor 10 is shown on the extreme ring, with which the mine workings are carried out with its attachment being moved by a pneumatic-bolt support. During the movement of pneumatic overlapping lining, the mined retraction can be made by extracting minerals by expanding B1 minerals (by means of a slurry, with: 8T, the recovered minerals in the form of pulp are transported by gravity through the free space inside the pneumatic hollowing rings).

The amount of free space inside. rings determine the outcome of i

working conditions: with coal-free excavation through wells and remote control of a pneumatic support, free space is limited from the conditions of reliable operation of self-flowing transport, and when working in pneumatic support of people, based on mining safety requirements.

The proposed pneumatic bolt provides hermetic protection of the space inside the lining on the side of the lateral rocks, maintains operability at any angle of inclination in the workings and allows reducing material and labor costs for fixing the bottomhole space during cleaning and development workings of at least 0 ,five

RUBNON ton of mined minerals while ensuring safe working conditions.

Claims (2)

1. USSR author's certificate N9 477246, cl. E 21 13 23/16, 1974. 2. USSR author's certificate N9 626221, cl. E 21 b 15/46, 1975 (prototype).