SU1126694A1 - Hydraulic wedge device for demolishing large-size objects - Google Patents

Abstract

HYDRO-WEDGE DEVICE FOR DESTRUCTION OF MONOLITHIC OBJECTS, including a hydraulic cylinder with a power piston with a rod, an inlet pipe for supplying the working fluid and an annular bore on its internal cylindrical surface from the inlet branch pipe, an expansion wedge connected to the rod, sliding cheeks and a grease assembly, a contact connecting accessories. cheeks by the working fluid in the form of a cumulative chamber, a supply channel in the piston, a rod and a wedge, connecting the accumulation chamber through a check valve with contacting surfaces wedge and cheeks, and devices for injecting the working fluid from the accumulation chamber into the feed channel, characterized in that, in order to reduce metal consumption and simplify the design of the device, the accumulation chamber is placed in the piston and communicated with the cavity of the hydraulic cylinder through the lateral channels the surface of the piston at a distance from its end on the side of the annular groove, less than the height {of the latter, and the device for (/) injecting the working fluid into the supply channel is made in the form of an elastic membrane installed on the face surface of the piston from the side of the inlet nozzle and separating the storage chamber from the cavity of the hydraulic cylinder.

Description

The invention relates to mining and construction ,; namely, to devices for separating blocks from an array along a line of bore-holes and for breaking down oversize. Known hydroclinic devices. for destruction of monolithic objects including a hydraulic cylinder with a power piston with a rod and a discharge nozzle, a spacer wedge associated with the rod, sliding cheeks and a device for lubricating the contacting surfaces of the wedge and cheeks with supply channels Cl The disadvantage of the device is the complexity of the device for lubrication. The closest to the invention of the technical essence and the achieved result is a hydroclinic device for the destruction of monolithic objects, including hydrocylin with a power piston with a rod, an inlet pipe for supplying the working fluid and an annular boring on its inner cylindrical surface from the inlet side, spacer wedge associated with the rod, split cheeks and lubrication unit of the contacting surfaces of the wedge and cheeks with the working fluid in the form of a storage chamber, feed channel n the piston, stem and wedge, connecting accumulating chamber through a return valve with contacting surfaces of the wedge and cheeks, and devices for injecting the working fluid from the accumulating chamber into the supply channel 2 The disadvantage of this device is also due to the complexity of the design of the lubricant. The non-oil cutter is made in the form of a piston with a rod, installed with the power piston and having a diameter equal to the diameter of the power piston. Such a construction is difficult to manufacture, since it requires precise treatment of the surfaces of its piston and rod and ensuring their alignment with the power piston and the cylinder liner. In addition, in order to hold the piston of the shutter in the upper position, a return spring is needed, which is an additional detail complicating the shutoff valve. The purpose of the invention is to reduce metal consumption and simplify the design of the device. To achieve this goal, in a hydroclinic device for the destruction of monolithic objects, including a hydraulic cylinder with a power piston with a rod, an inlet pipe for supplying the working fluid and an annular boring on its inner cylindrical surface from the inlet pipe side, a wedge associated with the rod, sliding cheeks and a lubrication unit for the contacting surfaces of the wedge and cheeks by the working fluid, in the form of an accumulation chamber, supply channel in the piston, rod and wedge, connecting the accumulation chamber through a check valve with contacting surfaces of the wedge and cheeks, and a device for injecting the working fluid from the accumulation chamber into the feed channel, the accumulation chamber is placed in the piston and communicated with the hydraulic cylinder cavity through channels extending to the lateral surface of the piston at a distance from its end from the annular side the groove is less than the height of the latter, and the device for injecting the working fluid into the supply channel is made in the form of an elastic membrane mounted on the end surface of the piston on the side of the inlet nozzle and the accumulating chamber from the cavity of the hydraulic cylinder. The drawing shows the proposed device, a longitudinal section. The device consists of a hydraulic cylinder 1 with a power piston 2 with. a stem 3, an inlet nozzle 4 and an annular bore 5 on its inner surface, an expansion wedge 6 connected with the stem 3, sliding cheeks 7 and a node; lubrication of the contacting surfaces of the wedge 6 and the cheeks 7 with the channels 8 and 9 "The lubrication unit consists of a tool 10 for injecting oil placed on the piston 2 from the side of the piston cage, on the supply channel 11 with a check valve consisting of a ball 12 with a spring 13. The feed channel 11 passes through the piston 2 and the rod 3 and communicates the lubrication unit with the supply channels 8 and 9. The accumulation chamber is made in the form of a cavity 14 in the body of the piston 2, closed with an oil injection device in the form of an elastic elastic end membrane 15 and communicated through and radial channels 16 with a piston cavity. For fixing the piston 2 with the rod 3 in the upper extreme position, the rod 3 has a flange 17. The device operates as follows. It is inserted into the pre-drilled hole and installed as shown in the drawing. Then, the working fluid (mineral oil) is fed under pressure through the nozzle 4 through the gap between the piston 2 and the upper cover of the hydraulic cylinder 1, the annular bore 5 and the through channels 16 enter the accumulation chamber 14 and fill it. After the chamber 14 is filled, the piston 2 with the rod 3 and the wedge B moves downwards.

Claims (1)

HYDRO-KEY DEVICE FOR DESTRUCTION OF MONOLITHIC OBJECTS, including a hydraulic cylinder with a power piston with a rod, an inlet pipe for supplying a working fluid and an annular bore on its inner cylindrical surface from the inlet pipe side, an expansion wedge connected to the rod, sliding cheeks and a lubricating unit for the contact surfaces of the wedge and cheeks with a working fluid in the form of a storage chamber, a supply channel in the piston, rod and wedge, connecting the storage chamber through a check valve with the contacting surfaces of the wedge cheeks, and devices for injecting the working fluid from the storage chamber into the feed channel, characterized in that, in order to reduce the metal consumption and simplify the design of the device, the storage chamber is located in the piston and communicates with the hydraulic cylinder cavity through channels extending onto the side surface of the piston at a distance from its end from the side of the annular groove, smaller than the height of § the latter, and the device for injecting the working fluid into the feed channel is made in the form of an elastic membrane mounted on the end surface spine of the piston from the inlet pipe and · separating the collection chamber from the hollow cylinder. Од Од Од Од Од © 5 © nU