SU1703826A1 - Pneumatic support unit - Google Patents

Abstract

The invention can be used in the treatment and development workings. The purpose of the invention is to increase the stability of the pneumatic support section with a significant change in the thickness of the reservoir being extracted under conditions of negative temperatures. In the section of the pneumatic support between the base 1 and the slab 9, the overlap is installed in two rows of air bellows (PB) 2. On the slab 3 of the stabilizing mechanism installed between PB 2, there are horizontal guides with sliders 5 and pneumatic compensators 7 associated with them Four pairs of rods 6 are hinged with one end on the slide 5, and the other respectively on base 1 and slab 9, which connects the middle rows of PB 2. When the section is moving, the air pressure in PB 2 is absent and pneumatic compensators 7 sec. zhats. At the flow rate of the section, air is supplied simultaneously to PB 2 and pneumatic compensators 7. 2 Il. ate with

Description

The invention relates to mining, in particular to the construction of roof supports installed in mine workings or in a developed lava space, and can be used in underground mining of coal and other deposits with a stratum of mineral deposits by a long pillar mining system.

The aim of the invention is to increase the stability of the section of the pneumatic lining with a significant change in the power of the removed formation in conditions of negative temperatures.

Figure 1 presents the lining section, General view; figure 2 is a section aa in figure 1.

The support consists of a base 1, on which two rows of pneumocylinders are installed 2. Between the pneumatic cylinders 2 there is a plate of the stabilizing mechanism 3. which has horizontal guides 4. On the guides 4, sliders 5 are mounted that articulate the overlap and the base 1 on two sides with four pairs of rods 6. The guides 4 are equipped with pneumatic compensators 7, which are corrugated hollow pneumatic shells connected via hoses 8 to the pneumatic support system and connected to the sliders 5. Section overlap is made in e plate 9, connecting the centers of two rows of bellows 2. The rods 6 are hinged on both sides of the bellows at one end on the slide 5, and the other - respectively on the base and the plate 9 overlapping.

Section pneumatic lining works as follows.

In the initial position, when there is no air in the air tanks 2, the pneumatic compensators 7 are compressed and the section is ready for movement. After air supply to the pneumatic cylinders 2 section bursts between the soil and the roof. At the same time, through hoses 8, air is supplied to pneumatic compensators 7, which interact with the sliders 5. The sliders 5 move along the guides 4 and do not allow the pneumatic cylinders to lose stability. Since the pressure in the pneumatic compensators 7 is exactly the same. as in pneumocylinders 2, the displacement of the sliders 5 will be approximately the same. which increases the stability of the lining section during filling of the pneumocylinders 2 with air and during operation. To keep the pneumocylinders 2 from being displaced in the longitudinal direction under pressure, they burst between the overlap and the base 1. The parameters of the extension of the section of the pressure support are determined by the size of the rods 6 in height.

Claims (1)

Claim Section of pneumatic support, including the base with pneumocylinders located on it and a stabilizing mechanism. the plate of which is placed between the pneumatic cylinders, and the power elements are located on both sides of the plate, characterized in that, in order to increase its stability with a significant change in the power of the removed layer at low temperatures, the pneumatic cylinders are installed in two rows, the centers of which are connected to each other on top by means of the plate floor slab stabilizing mechanism is made with horizontal rails and is connected to the floor slab and the base by means of sliders installed in horizontal rails, and h Four pairs of rods that are pivotally mounted on both sides of the air balloons with one end on the sliders and the other on the base and the floor slab, respectively, while the power elements of the stabilizing mechanism are made in the form of pneumatic compensators mounted on rails and connected with sliders.