CS215543B1 - Appliance for disintegrating the rocks without blasting - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for disintegrating rock without blasting.

Explosives cannot be used in the disintegration of rocks near objects, underground water and medicinal springs and valuable natural formations. The use of heavy hammers on hydraulic excavators is not always possible due to frequent inaccessibility. The manual breaking of rocks by means of hammer blows is slow, laborious and labor intensive. Various rotary cutters, plasma torches and various hydraulic wedges are known for rock disintegration. All these devices then require sophisticated auxiliary equipment and professional operation.

The object of the present invention removes these disadvantages to a large extent and consists in the fact that a pre-drilled bore is provided with a pressure body enclosed in the head by a head, sealed by a lateral gland mounted over the flow channels. The support arm pin is located in the same head and the inlet valve is equipped with an inlet hose and on the side of the head is located the positioning arm pin, where also in the same head there is a current gag. a clamp where both clamps are connected to the power supply lead, and furthermore, the pressure body is provided with buckling tips, with return springs, in the axis of which a cam arm mounted on a swivel rod is mounted in a gland, where the swivel rod is on the outer provided with a pivoting lever with detent and the pressure body is filled with a liquid, conductive medium.

The object of the invention in rock disintegration can be achieved! productivity similar to blasting, but without the destructive effects of the blast wave, it can be used in places completely inaccessible to machines, is safe, for smaller borehole diameters can be transferred and placed manually, requiring no operator or maintenance.

An exemplary embodiment of the present invention is schematically shown in the drawings, wherein Figure 1 shows a cross-section of an embodiment for larger borehole diameters, and Figure 2 shows a borehole.

As shown in Figure 1, an embodiment for larger borehole diameters, a pressure body 1 is inserted into the borehole 26, closed at the upper end by a head 2 provided with an axial seal 4. In the axis of the head 2 there is a support yoke 5 6 of the support arm 7. On the side of the head 2 is located the pin 11 of the positioning arm 12 to the exact insert.

15 of the pressure body 1 into the pre-drilled bore 26 and for its removal after the rock has been uncoupled. At the head of the head 2 there are both a venting valve 8 and an inlet valve 9 connected to the inlet hose 10 of the liquid medium 25. Further, a flow gag 13 with a supply clamp 15 is insulated from the head 2 of the head 2. The current frame 16 is connected to the supply current line 17 together with the supply terminal 15. In the bore holes of the pressure body 1, there are struts 18 with return springs 19, where the struts 18 are biased after inserting the pressure body 1 into the borehole 26 the cam arm 20 mounted on the pivot rod of the cam arm 21, which extends through the head 2, are rotatably mounted in a gland 22 over which the ratchet lock 23 of the pivot rod is disposed with the pivot rod lever 24. In the circumference of the pressure body 1, in the axis of the position of the side seal 3, flow channels 27 are drilled for the flow of the liquid medium 25.

After insertion of the pressure body 1 into the borehole 26, the lever 24 is rotated with the pivot rod 21, whereby the cam arm 20 pushes the abutment tips 18 against the wall of the borehole 26 and the ratchet locking device 23.

Claims (2)

Non-blast disassembly device with pre-drilled boreholes, characterized in that it consists of an intermediate pressure body (1) enclosed at the top by a head (2), provided with a side seal (3), for sealing in a borehole (26) flow passages (27), the head (2) of which is provided with an axial seal (4) and a support bracket (5) and a supporting arm pin (6) mounted therein, wherein a vent valve (8) is located in the same head (2j) ) and an inlet valve (9) provided with an inlet hose (10) and on the side of the head (2) is a pin (11) of the shifting arm (12), which is secured in this way. and from the inlet hose 10, the inner space of the borehole 26 and the pressure body 1 are filled with liquid conductive medium 25, by which this space is completely filled up to the breather valve 8. Next, both valves 8 and 9 are closed. applying current to the power supply line 17. In the liquid conductive medium 25 constituting the resistive component of the current circuit, pressure is generated by heating as the current passes, both by expanding the liquid component of the medium 25 as a function of increasing temperature and partly by converting it from liquid to gaseous component. 18 and through the flow channels 27, presses on the side seal 3, which rises up to the amount required to disassemble the pre-drilled rock and drops sharply when disengaged, relative to the ratio of the small gaseous to the liquid medium 25 so that no explosive pressure wave occurs. The whole device is simple, it can be manually transferred and mounted for drilling of smaller diameters, the volume of liquid medium 25 is only a few liters and a portable transformer or portable motor generator can be used as a current source. INVENTION that the head (2) is housed with a current gag (13), in the insulator insert (14), with a lead terminal (15) and a ground current terminal (16) and both terminals are connected to a power supply lead (17) and in the pressure body (1) there are supported tines (18), with return springs (19), in the axis of which the cam arm (20) mounted on the swivel rod (21) is mounted, in the packing (22), where the swivel rod (21) is provided at the outer end with a pivot lever (24) with a detent (23) and the pressure body (1) is filled with a liquid, conductive medium (25). 2 sheets of drawings