SU1305373A1 - Unit of air-bladder support - Google Patents

Abstract

The invention relates to mining, namely to the means of fixing the cleaning faces, and increases the adaptability of the lining to the unevenness of the soil and roof. The pneumatic-air support section has the upper 1 and lower 2 supports, to which the bellows 4 located between them is attached. It is designed as interconnected rheino-cord diaphragms 5 with central openings for the passage of air into separate sections and rods I7 placed in the opening x on the peripheral parts of the bellows 4. Toroidal pneumatic shells 7 are located between the adjacent sections of the bellows 4, on the outside of the bellows. When they are supplied with compressed air, they bulge through the soil and roof. The rods 17, moving in the holes, regulate the size of the support in terms of power. If it is necessary to create a large thrust force, compressed air is supplied to the bellows 4. The rubber-cord diaphragms 5 bend and contract between the shells 7. The supports move in a predetermined direction by pneumatic actuators 8 placed in supports 1 and 2 with the possibility of rotation when filling with compressed air , for example, only shells 7. 2 il .. g V), 13 141384615. TS {l, // A / {J // J ///, / {fJ //,///, ///. // /: LU / / /// U Sch / URS // y // /) ///) / 29 and 8 U 61 16 Fig / CO o ate with

Description

The invention relates to mining, namely to the means of fixing the cleaning faces when mining semi-inclined seams of inconstant power with difficult-to-manage roofs, and can be used in ore and mainly coal industry.

The purpose of the invention is to increase the attachment of the lining to the unevenness of the soil and roof.

Figure 1 shows the air-supported beam section, a general view; 2 shows the diaphragm connection assembly.

The pneumatic bolting section and the thrust force to the value specified

20

The upper 1 and lower 2 supports are supported to them with the help of bolts through the metal support bearing capacity.

A cushion 3 is attached to the bellows 4. The keyboard 4 is assembled from rubber-chord diaphragms 5 with central holes rigidly connected to each other, for example, by means of metal rings 6. The outer side of the bellows 4 is placed between toroidal pneumatic surfaces between its adjacent sections; 7 shells. Pneumatic impactors 8 are rigidly mounted in swivel holders 9 placed in supports and 2. To control the calculated air pressure in the bellows 4 and in the cylinders 7 as well as to turn on the cord diaphragms 5 with central openings for the passage of air into individual The bellows sections 4 bend and take the form shown in Fig. 1, while the peripheral portions of the diaphragms 5 are compressed. between the toroidal shells 7, which contributes to higher sealing of the bellows 4.

The support movement in a given direction is carried out due to the operation of the pneumatic actuators 8 and their rotation 30 in the supports 1 and 2 of the support when filling with compressed air, for example, only toroidal pneumatic wraps 7. Exhaust air is supplied through the channels 15 and the chamber 16,

The nozzle 10, the pipelines 11 and the control panel 12 mounted on the metal rings 6 are intended for the operation of the propellers 8. The peak 13

hinged on the upper support 1, 35 contributes to the reduction of schum when

in front of which is placed a pneumatic cylinder 14 for controlling it. In supports 1 and 2, channels 15 and chambers 16 are made to exit the exhausted air after it is exhausted from the propulsion units 8. The mechanism for rotating the propulsion units 8 relative to the supports is not shown. The height adjustment of the support is carried out by

rods 17 with limiters, 45 free-standing toroidal pneumatic mounted in the peripheral holes of the middle diaphragms of the bellows 4.

The work of the lining is carried out as follows.

When supplying compressed air in a tooroidal, pneumatic shells 7, the lining is distributed between the soil and the roof of the excavation with the force of pre-thrust, while

The shells, which, in order to increase its adaptability to the unevenness of the soil and roof, the upper and lower 50 supports are additionally interconnected by means of a bellows made of rubber-cord diaphragms with central and peripheral holes and rods limiters, 1 and lower 2 supports of the support, installed in peripheral ones, are mounted relative to each other under these middle diaphragms, while in any other way, due to the absence of rigid pneumatic shells, they are fixed. The installation angle of the supports is located on the outer side of the bellows, and is made available by the size and unevenness between the diaphragms.

nososti (steps, vshalov, etc.) on the soil and roof of the reservoir. The rods 17, freely moving in the holes in the peripheral portions of the bellows 4, regulate the size of the support according to the thickness of the formation.

Under certain conditions (if you need to create a large effort

expansion) compressed (air is supplied to the internal cavity of elastic sypon-background 4, due to which the cross-sectional area of the supporting elements increases and thus twists.

thrust force to the value determined by the bearing capacity of the support.

supported load bearing.

Diode cord diaphragms 5 with central openings for the passage of air into separate sections of the bellows 4 bend and assume the form shown in Fig. 1, while the peripheral portions of the diaphragms 5 are compressed. between toroidal shells 7,. which contributes to the increased sealing of the bellows 4.

The support is moved in a given direction due to the pneumatic actuators 8 and their rotation in the supports 1 and 2 of the support when filled with compressed air, for example, only toroidal pneumatic belts 7. The exhaust air is exhausted through the channels 15 and the chamber 16,

the work of propulsion 8.

Claims (1)

Formula and h 40 Airtight lining sections, including air percussion propulsion units, which are rigidly fixed in swivel holders mounted in the sockets of the upper and lower supports, between which shells, differing so that, in order to increase its adaptability to uneven ground and roof, the upper and lower The 50 supports are additionally interconnected by means of a bellows made from rubber-cord diaphragms with central and peripheral ports. FIG.