SU1218104A1 - Hydraulic wedge device - Google Patents

Description

The invention relates to mining, namely to hydrocline devices for breaking oversize and separating blocks from an array along a line of bore holes.

The aim of the invention is to reduce the laboriousness of operating the device by optimally using the volume of the liquid chamber.

FIG. 1 shows the proposed device, a general view; in fig. 2 shows section A-A in FIG. one.

The device comprises a power cylinder 1 with a piston 2 and a rod 3, a spacer wedge 4, two sliding cheeks 5 connected to the hydraulic cylinder 1, a device for injecting fluid into the working cavity of the hydraulic cylinder, consisting of a sleeve 6, a plunger 7, a return spring 8 and a return valve 9 with spring 10, driven in the form of an engine 11 having an eccentric 12, a liquid supply nipple 13 and a liquid return nipple 14 with a shutoff valve 15, an accumulation tank 16 and an elastic separation sleeve 17 that separates the accumulator tank 16 ntsentricheskie air 18 and liquid chamber 19 communicated with the supply pipe 13 and pnevmomagistralyu 20 through control valve 21 and the compressed air supply pipe 22. A chamber 19 formed by the wall 23 of the elastic separating sleeve 17 and the casing 24 is connected with the supply nozzle 13, and with the air line 20 through the nozzle 22 and the valve 21 - the chamber 18 of the tank 16 formed by the wall 23 and the wall 25 of the hydraulic cylinder. On the inner surface of the casing 24 are made along the entire length of the longitudinal grooves 26 with a width less than the thickness of the elastic separation sleeve 17, and a depth greater than its double thickness. The grooves 26 are interconnected by an annular groove 27 with the width and depth of the same as those of the longitudinal grooves 26. The groove 27 communicates with the cavity of the fluid supply pipe 13. A pipeline 28 is provided for returning the device to its original position.

air supply to the rod end of the hydraulic cylinder 1.

The device works as follows. The tool body (wedge 4 and cheek 5) is inserted into the hole drilled in the rock. Then, when the shut-off valve 15 is open, air is supplied from pneumatic transmission 20 through valve 21 and pipe 22 to chamber 18. Compressed air expands elastic hose 17, oil from camera 19 0 through longitudinal grooves 26, annular groove 27 and feed pipe 13 is displaced into the working cavity of the hydraulic cylinder 1 and through the piston 2 and the rod 3, the accelerated (preparatory) movement of the wedge 4. As soon as the movement of the wedge 4 5 stops (visually controlled), the valve 15 closes and the oil is injected into the working cavity of the hydraulic cylinder 1 By means of the plunger 7 driven from the engine 11 through the eccentric 12. When the required pressure is reached in the hydraulic cylinder, the rock is destroyed.

To bring the device to its initial position, the valve 15 is opened, the chamber 18 is communicated through the pipe 22 and the valve 21 with the atmosphere, and the thrust chamber of the hydraulic cylinder 5 of the cylinder 1 through the valve 21 and the pipe 28 with the air line 20. At the same time, the oil from the hydraulic cylinder 1 through the pipe 14 The return is forced into chamber 19.

The application of the invention allows to improve the operational properties of the device, since in it, when air is supplied to the tank, no folds form on the elastic separation sleeve, and the oil does not get stuck, which contributes to a more complete displacement of the liquid from the tank. The oil is consumed rationally, there is no need to increase the volume of the tank and the weight of the device. In addition, the maintenance effort is reduced.

The implementation of the longitudinal grooves connected by an annular groove, d on the inner surface of the outer wall of the tank contributes to the complete displacement of the fluid through one supply nozzle.

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25

(rig 2

Claims (1)

A HYDROCLINE DEVICE, including a power hydraulic cylinder with a piston and a rod, a spacer wedge connected to the rods, and sliding cheeks connected with the hydraulic cylinder, an accumulation tank formed by a casing concentrically mounted on the hydraulic cylinder, an elastic sleeve separating the accumulation tank into concentric liquid and chambers, a device for pumping liquid into the working cavity of the hydraulic cylinder with a drive, a pipe for supplying compressed air to the air chamber with a control valve, and supply pipes and returning the liquid from the liquid chamber, characterized in that, in order to reduce the complexity of the operation of the device by optimally using the volume of the liquid chamber, the liquid chamber is located between the casing and the elastic sleeve, while longitudinal grooves and the associated grooves are made along the entire length of the casing and an annular groove in the fluid supply pipe. 1