SE455956B - PROCEDURE AND DEVICE FOR SPLITING STONE - Google Patents

Description

455 956 and at the other end is provided with a valve which is clamped in the locked position by means of a safety pin. As the pressure in the elastic hose rises, it expands radially outwards so that the hose is pressed against the borehole wall. When the pressure has risen high enough, the valve's safety pin is broken, whereby air jets from radially directed holes in the valve flow out into the borehole and the pressure impulse generated by the air jets together with the pre-pressure pressure splits the stone.

The disadvantage of such a cleavage method, however, is that the generated acute pressure pulse produces a cleavage comparable to an explosion, whereby rock fragments are easily thrown around, and the cleavage does not always take place under sufficient control.

From the Swedish application document H01 706, a hydraulically driven mechanical wedge is known, in which two wedge-shaped jaws and a wedge movable between them function as a splitting rod. A hydraulic cylinder pushes the wedge between the jaws, whereby the pressure caused by the jaws splits the stone.

The disadvantage of such a splitting method is that as a result of the uneven wall of the borehole, a point-shaped force arises between the rigid jaws and the hole wall, which splits the stone in an uncontrolled manner. The object of the present invention is to provide a method which eliminates the above-mentioned disadvantages and which enables an accurate control of the splicing. This is achieved by means of the method according to the invention, which method is characterized in that the splitting rod is expanded radially by compressing a piece of press made of elastic material axially in the hole.

According to the invention, a cleavage process is provided which, in a borehole, despite its possible unevenness, produces an evenly distributed pressing action, since the compression piece made of elastic material is able to adapt to the irregularities in the borehole wall.

The pressing effect can be increased evenly until the stone splits, because this pressing action is achieved as a result of a radial expansion of the elastic pressing piece, when the pressing piece is increasingly compressed axially in the hole. In this way, no acute, oversized power discharge takes place, which could lead to the ejection of rock fragments in the vicinity and to an uncontrolled fission.

The invention also relates to a tool for carrying out the method described above and this tool is characterized by what is stated in claim 2.

The tool according to the invention is simple in construction and can be easily automated.

The invention will be described in more detail below with reference to the enclosed drawing, in which Figures 1 and 2 show an advantageous embodiment of a splitting tool according to the invention, partly in axial section, arranged in a borehole before the splitting resp. after the cleavage. Figure 3 shows a connection of several tools to the same pressure source.

The splicing tool shown in Figures 1 and 2 mainly comprises a splitting rod 1 and a hydraulic cylinder 2 attached thereto. Instead of a hydraulic cylinder, another generally known power device can also be used.

The splitting rod I comprises a cylindrical rod 3, one end of which has a head Å which is wider than the rod, and a tube 5, through which the rod 3 slides with a small clearance and a hollow-shaped press piece 6, which is located between the head Å and the tube. 5 and through which the rod 3 extends. The head H forms an annular support surface ka, which abuts against one end surface of the press piece, and the tube 5 forms a support surface Sa, which abuts against the other end surface of the piece.

The head Å, the pipe 5 and the piece 6 form at rest a cylindrical surface, the diameter of which is slightly smaller than the diameter of a hole 8 to be split in the stone 7 to be split.

The hydraulic cylinder 2 comprises a body 9, which is rigidly attached to said tube 5, and a piston 10, which is rigidly attached to the rod 3.

A cylinder space 11 is connected by means of a tube 12 via a conventional actuating valve 13 to a source of pressure medium.

The press piece 6 is made of such an elastic material that the press piece can be deformed without, however, being compressed substantially to its volume when it is compressed by external forces. Suitable materials are e.g. rubber of various kinds and polyurethane. 455 95-6 The splitting tool is used as follows: The rod 1 of the tool is inserted into the hole drilled in the stone to be split so that the press piece 6 will be in its entirety inside the hole. Thereafter, the hydraulic pressure is coupled to the cylinder space 11, the piston moving upwards relative to the body and pushing the rod 3 correspondingly upwards relative to the pipe 5. As a result, the press piece will be compressed axially between the support surfaces ha and Sa, the press piece correspondingly extends radially outwards to abut with its entire mantle surface close to the borehole wall. As the hydraulic cylinder pulls the rod upwards, it rises due to the action of the radially expanding press piece against the stone directed press pressure. When the pressing pressure exceeds the breaking strength of the stone, the stone is split. Then the pressure is switched off from the cylinder space, whereby the rod slides back to its initial position by the action of the elastic press piece, so that the splitting rod is ready to be inserted into the following borehole. The splitting tool is very simple in its construction and function and thanks to the elastic press piece, the pressing force directed towards the stone by means of the splitting tool can be distributed evenly over the entire wall surface of the borehole despite any irregularities in the hole. For the splitting of the stone, no greater force is used than what the breaking strength of the stone requires in each individual case, so no explosive splitting takes place, but the breaking can be kept strictly under control.

According to Figure 3, when using a pressure medium, several splitting rods can be connected to the same source of pressure medium, e.g. for detaching a boulder of a certain shape. For each implement 1, Z a current control valve 15 can be connected. Without a current control valve, the implement expands slightly more at the point where the breaking begins, at the same time causing a small temporary pressure drop in the other implements. This makes the cleavage smooth in a way. When using pressure control valves, the pressure drop does not affect the other tools, but their compressive force remains unchanged and the splitting takes place more strongly.

The drawing and the accompanying description are only intended to illustrate the idea of the invention. For its details, the method according to the invention and the tool for its execution can vary within the scope of the patent claims.

Claims (6)

15 20 25 30 35 g 455 956 A method for splitting a stone, according to which a hole (8) is drilled in the stone (7), a splitting rod (1) is fitted in the heel, which is provided with a radially expandable press piece <6), which is power-driven for to exert a stone breaking strength exceeding press force on the half wall, characterized in that the press piece (6) is elastically expanded radially by the material (6) of the press piece being compressed axially in the hole. 2. A method according to claim 1, characterized in that a plurality of cleavage elements <1) are connected to the same power source (14) and that the press pieces (6) are expanded simultaneously. Stone splitting tool comprising a splitting element (1) with two mutually axially displaceable counterparts (4, 5) and a force device (2) attached to the splitting rod for displacing the counter pieces, characterized in that between the splitting rods counterparts (4, 5) are provided with a press piece (6) of elastic material so that a mutual displacement of the counterparts compresses the press piece material separately and expands it radially. 4. An implement according to claim 3, characterized in that the press piece (6) is hollow and encloses a rod-shaped body (3) extending through a tubular body (5) supported by the body (9) of the power device and is connected to the drive means (10) of the power device, both bodies having annular etching surfaces (4a, 5a) which abut against the corresponding end surfaces of the press piece. 5. An implement according to claim 3 or 4, characterized in that the press piece (6) consists of a deformable but substantially uncompressible material in its volume. Tool according to any one of claims 3-5, wherein the power device (2) is pressure media driven, characterized in that the power device (2) is provided with a flow control valve (Sat) for maintaining the expansion force which affects the pressure gauge (6).