SU825994A1 - Shaft roof support hydraulic prop - Google Patents

Description

(54) HYDRAULIC STAND OF MINE MOUNT

The invention relates to mining dyes, and can be used in mechanized racks for providing increased prefrush hydraulic struts. A hydraulic stand is known, comprising a housing, a split, dividing housing into piston and rod cavities, a pumping system connected by: a piston cavity to a stand with a pressure pipe with a check valve and a hydroaccumulator, and the stand has a reservoir tank with a level sensor connected to the pump system and connected to the rod end of the rack 1.. However, such a rack has a complex structure. Closest to the offer is a hydraulic shaft support, which includes a cylinder, a sliding part, a hydraulic lock, a safety valve and a hydraulic accumulator with a throttle 2. The disadvantage of this hydraulic stand is that it does not provide increased preliminary thrust. The purpose of the invention is to provide an improved preliminary thrust of a hydraulic post and its operation in a predetermined mode of increasing resistance. , To achieve this goal, the hydroaccumulator is equipped with an inlet valve with a pusher, made with a throttle located along its axis. The hydroaccumulator is made with a removable sectional upper part of variable volume. The drawing shows a hydraulic strut. Hydraulic post includes cylinder 1, rod 2g. hydraulic lock with safety valve 3 and 4 valves with automatic charging valve, hydraulic accumulator 5 connected by means of throttles 6 with a piston strip; Tew 7 hydraulic racks. The throttle is made in the inlet valve 8 pusher. The inlet valve 8 serves to turn off and turn on the hydraulic accumulator 5 when the pressure in the hydrostatic pressure drops or rises, i.e. controls the operation of the hydroaccumulator during the execution of technological operations hydroresistant. Upon initial strut expansion, the inlet valve B opens at the moment of creating a predetermined pressure in its piston cavity 7 Somewhat less than the nominal pressure created by the pump station, and connects the piston cavity 7 of the strut through the throttle b to the hydraulic accumulator 5 containing the pressure of the previous strut expansion .

After the end of the thrust, the hydraulic rack continues the slow flow of fluid from the hydroaccumulator, ra 5 into the piston cavity 7 of the hydraulic post. This is achieved by selecting the size of the opening of the throttles, 6, which is chosen in such a way as to ensure the minimum flow rate from the hydroaccumulator 5 per unit time, so that over a period of time determined by the beginning of the opening by the pusher of the intake valve 8, opened at a lower pressure than the nominal thrust, to set the resistant thrust resistance (before switching the distributor spool) to prevent substantial discharge of the hydroaccumulator 5.

After the distributor valve is switched, the flow of fluid from the hydroaccumulator of the torus 5 into the piston cavity of the hydraulic post continues until the pressure equalizes, which ensures an increased spread of the hydraulic post. When a hydraulic post and a pressure increase in it during drawdown of the rack, a part of the fluid flows into the hydroaccumulator, which, on the one hand, recharges it, and on the other hand, ensures the operation of the hydroresistance in a given mode of increasing resistance. This is achieved by compressing a predetermined volume of gas in the hydro accumulator 5. It is advisable to carry out the upper part of the hydroaccumulator 5 removable sectional. If each section contains a gas at a predetermined pressure, the change in the volume of the hydroaccumulator is performed by connecting or disconnecting the sections.

When unloading the rack and moving the support section, the pressure in the piston cavity 7 decreases sharply and the inlet valve 8 closes, preventing the discharge of the hydroaccumulator 5, the fluid in which is under the pressure preceding the discharge. At the next thrust, the cycle repeats.

Thus, by ensuring the exchange of fluid between the piston cavity 7 of the hydraulic post and the hydraulic accumulator 5, the preliminary expansion of the hydraulic post is achieved by continuously adjusting the pressure build-up mode.

Claims (2)

1. Hydraulic shaft support, comprising a cylinder, a pull-out part of a hydraulic lock, a safety valve, and a hydraulic accumulator with a throttle, characterized by By the fact that, in order to create an increased pre-thrust and operation of the hydraulic stand in the mode of increasing resistance, the hydroaccumulator is equipped with an inlet valve with a pusher designed with a throttle located along its axis. 2. The rack according to claim 1 is distinguished by the fact that the hydroaccumulator is made with a removable sectional upper part of a variable volume. Sources of information taken into account in the examination 1 ... USSR author's certificate 657176, cl. E 21 D 15/44, 1976. 2. USSR author's certificate No. 461228, cl. E 21 D 15/44, 1972 (prototype). rt t h  A