SU1657640A1 - Device for breaking off rock from a rock mass - Google Patents

Abstract

The invention relates to mining and construction, and m. used for the separation of rocks from the array. The purpose of the invention is to simplify the design of the device and optimize the implementation modes of the pinning elements. The hydraulic cylinder body 1 with a piston with a rod 5 has an end ferrule 2 in which pin elements (E) 3 are installed with the possibility of radial expansion in one plane 3. The inner ends E 3 are supported on the working faces of the expansion wedge (K) 4 associated with the rod 5 On the working faces of К 4 in one plane there are radial sockets (D) 7 under O 3. The portions of the faces K 4 of one orientation from its top to D 7 are parallel to the longitudinal axis K 4. After the device is installed in the hole and the fluid is fed into the hydraulic cylinder 1 K 4 pushes and presses oblique edges E 3 corresponding to the orientation that radially advancing to, are embedded in the rock. With the approach of Г 7 to Э 3, they are buried in Г 7. Resistance to the movement of К 4 decreases and it moves forward faster when passing the G 7 of level Э 3 The latter in all orientations are dynamically moved apart and, penetrating into the rock, break away. 2 hp f-ly, 3 ill. 4W

Description

The invention relates to the destruction of rocks and can be used in excavating workings in hazardous areas and replacing drilling and blasting operations for the extraction of valuable building materials.

The aim of the invention is to simplify the design of the device and optimize the modes of embedding the pinning elements.

FIG. 1 shows a device in a borehole, a longitudinal section: in FIG. 2 shows section A-A in FIG. one; in fig. 3- wedge, side view.

The device comprises a hydraulic cylinder body 1, in the end cage 2 of which the fastening elements 3 are mounted with the possibility of radial expansion, supported by internal ends on the working faces of the spacer wedge 4. The latter is connected with the piston rod 5 of the hydrocline. The fitting 6 serves to supply the working fluid to the piston cavity of the hydraulic cylinder. On the working faces of the wedge 1 in the same plane, radial sockets 7 are made under the inner ends of the elements 3. The working faces of the wedge of different orientation planes are made with different angles of inclination. The sections of the working faces of the wedge orientation b from the wedge top to the sockets 7 are parallel to the longitudinal axis of the wedge. Nests 7 are an attachment for dynamically expanding the elements 3.

The device works as follows.

The device is placed in the ready-made hole and set at a predetermined depth. After that, a fitting 6 is pressurized under fluid pressure. Filling the piston chamber of the hydraulic cylinder, the fluid acts on the shank of the spacer wedge 4, which, moving, introduces the elements 3 of orientation a into the rock,

due to the inclination of the working faces orientation a.

After the orientation elements a are maximally inserted into the rock, the nests of the spacer wedge 4 coincide with the elements 3. As a result, an unloading moment is created, after which the further introduction of the wedge creates dynamic loading simultaneously into two groups of orientation elements a and b,

Claims (3)

1. A device for the separation of rock from the massif, including a hydraulic cylinder with a piston with a rod, a spacer wedge associated with the rod, pinning elements oriented in the same plane, associated with the hydraulic cylinder piston with the possibility of radial separation and supported by internal ends on the working edges of the wedge , a device for dynamically extending the pinning elements, characterized in that, in order to simplify the design of the device and optimize the modes of insertion of the pinning elements, the device for dynamic The engines are made in the form of radial sockets located in the same plane on the working edges of the wedge with the possibility of entering into them the inner ends of the pinning elements with the partial extension of the wedge. 2. The device according to claim 1, characterized in that the working faces of the wedge of different orientation planes are made with different angles of inclination. 3. The device according to claim 2, that is, so that the working faces of the wedge of one orientation plane are parallel to the longitudinal axis of the wedge in the sections from its top to the radial sockets. Aa Fig.Z