SU1714118A1 - Hydraulic plant - Google Patents

Abstract

The invention relates to mining protrusion and is intended for hydraulic extraction of coal. The goal is to increase the reliability of the unit. The unit contains an executive body 1 connected by cables 11,12 with a movement mechanism. The movement mechanism contains polyspasts with blocks 6.8 and hydraulic cylinders (HZ) 4.5 of their spacing between them with covers 7 installed in the ends of the bodies. Blocks 8 pivotally mounted on pistons x 9,10. Blocks 6 are hinged on the inside of the Covers 7, Cables 11,12 are fixed on the inside of the covers 1 and bend around the blocks 6,8 inside the HZ 4.5 cases. In the pistons x 9,10 on the inner side of the covers 7 are made radial grooves. Blocks 8 are located in the grooves. Pressure of the working fluid is applied to the cavity of the HZ 5. The piston 10 moves to the right, pulling the cable 12. The executive body is pressed against the face. 1 Cp., 3 Il. I / / '' //////////////////// ^ /////// ^ /////////////// ^ ^^ SLS //////// у //////////, '//////// ^ ^^^^ 00 00 > & Fig. 1

Description

The invention relates to the mining industry and is intended for hydraulic extraction of coal.

The purpose of the invention is to increase the reliability of the unit.

Figure 1 shows the jetting unit, a General view; figure 2 - node I in figure 1-; on fig.Z - section aa in figure 2.

The hydromonitor assembly includes an actuator 1 of the hydromonitor type, connected by means of a flexible hose 2 to a high-pressure waveguide 3, a mechanism for moving the actuator 1 along the bottom, made in the form of two polyspasts with hydraulic rods 4 and 5 extending them in the ventilation and accumulating tunnels . Blocks 6 of the polyspasts are hinged on the inside of the covers 7 installed at the ends of the cylinders 4 and 5, and blocks 8 of the polyspasts are hinged at the ends of the pistons 9 and 10 of the cylinders 4 and 5. Cables 11 and 12 spanning the blocks 6 and 8 inside the cylinders of the cylinders 4 and 5, with one end secured to the actuator 1, and the other to the inside of the caps 7 of hydraulic cylinders 4 and B by means of the clutch 13. The cables It, 12 pass through the seals of the caps 7. To reduce the length of the cylinders 4 and 5 on the ends of the pistons 9 : And 10 are made radial prot 14, the inner side of the covers 7 are made with radial grooves 15. in which the blocks 6 and 8 are placed. The mechanisms 16 for feeding the unit to the face are connected to the housings of hydraulic cylinders 4 and 5 by connecting elements 17. For convenience of controlling the operation of the unit, the hydraulic cylinder 4 is structurally made of a larger diameter, than the hydraulic cylinder 5, while the hydraulic cylinder 5 in this case works as a hydraulic spring.

The jetting unit operates as follows.

Through the conduit 3 through the flexible hose 2 high-pressure water is fed from to the nozzles of the executive body 1. Executive, body 1 process the face of the entire thickness of the reservoir. In the rod cavity of the hydraulic cylinder 5, the pressure of the working fluid from the oil station is constantly applied. The print piston 10stremats to the right, tensioning the cable 12 and pressing the actuator 1 to the face. To move the actuator 1 along the bottom of the rod end of the hydraulic cylinder 4 serves

working fluid from the oil station. In this case, the piston 9 of the hydraulic cylinder 4 together with the blocks 8 starts to move to the right and with the help of the cable 11 moves the actuator 1. At the same time, the piston 10 of the hydraulic cylinder 5 together with the blocks 8 starts to move with the cable 12 connected to the executive body 1, while the piston 10 overcomes the pressure of the working fluid in the rod end of the hydraulic cylinder 5, since the area of the piston 9 is larger than the area of the piston 10.

The fluid from the rod end of the hydraulic cylinder 5 is displaced into the oil station. At the end of the working stroke of the executive body 1 of the rod, the cavity of the hydraulic cylinder 4 is connected to the drain. Since the pressure of the working fluid is constantly applied to the rod cavity of the hydraulic cylinder 5, the piston 10 with blocks 8 begins to move to the right, opening the polyspast of the hydraulic cylinder 5. The cable 12, retracting into the hydraulic cylinder 5, moves the actuator 1 down. In this case, the piston 9 of the hydraulic cylinder 4 is moved to the left with the help of the cable 11. The polyspast hydraulic cylinder 4 is reduced. Then the cycle is repeated. The machine is fed to the face by means of a feed mechanism 16 by means of traction elements 17. Winches or power hydraulic cylinders can be used as feed mechanisms 16.

Formula aiz found and

Claims (2)

1. A hydromonitor unit, including an actuator, connected by cables to a movement mechanism containing tackles with blocks, and their sliding cylinders with covers installed at the ends of the cases, characterized in that, in order to increase the reliability of the unit, each tackle unit is hinged on the piston the hydraulic cylinders of its extension and on the inside of the hydraulic cylinder cover, and each cable is fixed on the inside of the hydraulic cylinder cover and bends around the blocks of the polyspast inside the hydraulic cylinder body . 2. The unit according to claim 1, characterized in that radial grooves are made in the piston of each hydraulic cylinder and on the inside of its cover, and the polyspast blocks are placed in the grooves. FIG. 2 FIG. H