KR100265107B1 - Cutter for cutting rock - Google Patents

Abstract

PURPOSE: A rock sample cutting machine is provided to cut a rock core sample for analyzing the ground according to a testing condition by various angles(90°, 45°, 30°, 15°) to have different lengths and roughness. CONSTITUTION: A rock sample cutting machine(20) having a hydraulic jack(10) having a movable element(11), includes upper and lower plates(21,22), rods(23) standing at corner parts between the upper and lower plates, and a guide plate(24) and a movable plate(25) penetrating the rod between the upper and lower plates, wherein a bottom surface of the upper plate, a top surface of the movable plate and a corresponding position of the guide plate are formed with grooves and slit holes for fixing various kinds of cutters at predetermined angles by bolts.

Description

Rock specimen cutting

The present invention relates to a cutting machine for cutting the specimen, which is a rock core sampled for the analysis of the ground, in accordance with the test conditions, in particular to allow the cutting surface of the specimen to be at various angles (90 °, 45 °, 30 °, 15 °) It is about cutting a rock specimen.

In general, artificial cutting is not required when cutting actual rock specimens, but various types of cutting are required for research experiments.

However, since the actual rock joints have a lot of limitations, the present invention was manufactured to have four types of joint angles (90 °, 45 °, 30 °, 15 °).

The reason for this is that the specimen size is usually 54 ψ, the scale effect (Scale Effect) is present in the rock shear test.

The dimensional effect is that the larger the size of the rock specimen, the smaller the shear strength, compressive strength, modulus of elasticity, etc.

Therefore, if the specimen is cut to 45 °, the shear length is increased by twice the root compared to 90 °.

When cutting the specimen at various angles as described above, a specimen having an artificial joint surface having various roughnesses can be manufactured. The roughness of the joint surface varies with each cutting of the specimen and the cutting angle remains constant if the rock is isotropic.

On the other hand, if the specimen is a square cube can be cut with a straight cutter, if the specimen included in the cutter length will be able to cut.

The necessity of jointing in the present invention will be evident by the permeation test through the rock joint surface below.

The groundwater flow through the rock is dominated by joints along the joint. When performing permeation tests through rock joints indoors, various joint lengths and roughnesses are required.

The rock permeation test is generally performed by putting the rock core 200 into the hollow rod 100 for rock triaxial test as shown in FIG. In this case, a rubber membrane 300 is interposed between the hollow rod 100 and the rock core 200 for watertightness.

Therefore, FIG. 1 shows the case of the rock core 200 jointed at 90 °, 45 °, and 30 ° together, and the permeability coefficient of the specimen according to each case may be known by the following equation.

Q = kiAt

Where Q is the flow rate to the burette, k is the permeability coefficient, i is the equal gradient, A is the cross-sectional area through which water passes, and t is the time.

Accordingly, an object of the present invention is to provide an apparatus for cutting a rock core which is a specimen having various cutting lengths and roughnesses.

In order to achieve the above object, the present invention provides a hydraulic jack, which is provided as a ready-made product, a top and bottom plate, a rod installed upright at an edge between the top and bottom plates, and a guide plate and a movable plate penetrate the rod between the top and bottom plates. It is interposed to be guided.

The movable plate is provided with a bearing in the rod through hole so that the movable plate can be lifted and guided in the rod, and a stopper of a fixed length fixed to both sides of the lower plate to secure a space for mounting the operator of the ready-made hydraulic jack in the lower part thereof. By this, the height of the height can be achieved.

In each of the center corresponding positions of the upper plate and the movable plate, grooves for cutting the 90 ° cutting grooves and grooves that can be cut at 15 °, 30 ° and 45 ° when the rock core is seated in the X direction are formed.

In this case, when the rock core is seated in the Y direction, the cutting angles for the angles may be cut at 75 °, 60 °, and 45 °, respectively.

The grooves are each provided with a cutter having a curvature corresponding to the angle, and inserted into the groove as a pair of upper and lower to fasten and fix the bolt from the upper part of the upper plate and the bottom of the movable plate.

The guide plate also has slit holes having the same structure at positions corresponding to the grooves.

And the upper surface of the guide plate is screwed into each of the guide pins for supporting both sides of the rock core to be seated on the cutter back and forth. This is installed in the X and Y directions in which the core will be installed.

And when the plate is cut, the guide plate allows the rod to penetrate into a hole that is looser than the outer diameter of the rod to achieve good slide cutting even if the face of the plate is uneven, and the bottom of the guide plate is fixed to the guide plate through the movable plate. Intervening with springs.

On the other hand, the upper part of the rod has a threaded portion so that the height position of the upper plate can be adjusted.

1 is a hydraulic test structure diagram.

2 is a perspective view of the present invention.

Figure 3 is a cross-sectional view of the operating state of the present invention.

4 is a plan view of the guide plate;

5 is a plan view showing the groove portion of the upper and lower plate.

6 is a front view of the cutters.

<Explanation of symbols for the main parts of the drawings>

10: Hydraulic Jack 11: Operator

20: jointing 21, 22: top and bottom

22A: Stopper 23: Rod

24: guide plate 24A: guide pin

24B: hole 24C: guide bolt

24D: spring 25: movable plate

25A: Hole 25B: Bearing

B: Bolt A₁, A₂, A₃, A₄: Groove

H₁, H₂, H₃, H₄: Slit hole B₁, B₂, B₃, B₄: Cutter

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings of preferred embodiments.

First, when the configuration of the present invention is described, a hydraulic jack 10 having a movable member 11 provided as a ready-made product as shown in FIG. 2 is provided, and the rock core C can be cut by the hydraulic jack 10. The cutting machine 20 is provided.

The cutting machine 20 is a top and bottom plates (21, 22), the rod 23 is installed in the corner between the upper and lower plates (21, 22) and the guide plate between the upper and lower plates (21, 22) 24 and the movable plate 25 are interposed so as to penetrate and guide the rod 23.

The movable plate 25 is provided with a bearing 25B in the rod through-hole 25A so that the movable plate 25 can be lifted and guided by the rod 23, and the operator 11 of the ready-made hydraulic jack 10 is mounted thereon. The stopper 22A of fixed length fixed to the both sides of the lower plate 22 to achieve the space to be made can achieve the height of the height by the screw adjustment method.

In each of the center corresponding positions of the upper plate 21 and the movable plate 25, a groove A 'for mounting a cutter for cutting 90 ° when the rock core C is seated in the X direction, and 15 °, 30 ° and 45 degrees. Form grooves (A₂, A₃, A₄) that can be cut to °.

If the rock core is seated in the Y direction, the cutting angles for the angles may be cut at 75 °, 60 ° and 45 °, respectively.

The grooves A₁, A₂, A₃, and A₄ are provided with cutters B₁, B₂, B₃, and B₄, each having a curvature corresponding to the angle thereof, so that the upper and lower pairs of upper and lower portions of the upper plate 21 and the movable plate 25 are provided. It is inserted into each of the grooves A ', A2, A3, and A', and fastened and fixed with the bolt B from the top of the upper plate 21 and the bottom of the movable plate 25.

In addition, the guide plate 24 also has slit holes H₁, H₂, H₃, H₄ of the same structure at positions corresponding to the grooves A₁, A₂, A₃, A₄.

In this case, the grooves and the slit holes are different in length, so that the grooves and the slit holes respectively fit only the grooves and the slit holes that fit the cutter, thereby preventing the misassembly and the damage of the cutter and the rock core.

And the upper surface of the guide plate 24 is screwed into the guide pin 24A to support both sides of the rock core (C) to be seated on the cutter before and after each. This is installed in both the X and Y directions in which the rock core C is to be installed. At this time, the guide pin 24A includes at least two or more kinds of diameters different from each other, so that the guide pins 24A may include 54 ψ and 38 ψ which are two conventional types of the rock core C.

When the plate is cut, the guide plate 24 allows the rod 23 to penetrate through the hole 24B, which is looser than the outer diameter of the rod 23, in order to achieve good slide cutting even if the surface of the plate is uneven. The spring 24D is interposed between the guide bolts 24C penetrating from the movable plate 25 and fixed to the guide plate 24.

On the other hand, the upper part of the rod 23 has a threaded portion 23A so that the height position of the upper plate can be adjusted.

In the figure, reference numeral 23B is a set screw for fixing the top plate position, A ₅ is a slotted cutter (not shown) for the cutting slab, H ₅ is the slit hole for the cutter through.

Referring to the operation of the present invention configured as described above are as follows.

First, among the various types of cutters B₁, B₂, B₃, and B₄, as shown in FIG. 5, the cutter B 맞는 suitable for an angle, for example, 45 °, is selected, and the groove A₄ of the upper plate 21 is selected. ) And the cutter B 'are inserted into the groove A' of the movable plate 25 and fixed with the bolt B. At this time, the lower cutter B 'is installed to penetrate the slit hole H' of the guide plate 24.

Subsequently, when the rock core C to be cut is placed between the upper and lower cutters B ', the guide cores are seated between the guide pins 24A.

Thereafter, when the actuator 11 of the hydraulic jack 10 is placed in the center on the lower plate 22, the movable plate 25 is raised.

The movable plate is coupled to the rod 23 with a bearing 25B, so that the upward guide action is smooth, and at the same time, the lower cutter B 'fixed to the movable plate 25 is lifted up, and the guide plate is raised accordingly. The guide plate is also upwardly guided while compressing the spring 24D elastically interposed between the 24 and 24.

At this time, the hole 24B of the guide plate 24 has a margin, and has a function of correcting and grasping the horizontal thickness deviation thereof, particularly when cutting the rock flagstone with a straight cutter.

In this way, the rock core C is cut to have an inclined surface of 45 degrees.

After releasing the hydraulic jack 10, the operator 11 is lowered, and the movable plate 25 and the guide plate 24 which are supporting it are also lowered, at this time by the stopper 22A attached to the lower plate 22. Stop in position

The present invention constructed and operated as described above has an effect of providing an apparatus for cutting a rock core which is a specimen having various cutting lengths and roughnesses.

Claims (7)

A hydraulic jack 10 having a mover 11, and a cutting machine 20 for cutting the rock core with the hydraulic jack 10, the cutting machine 20 having upper and lower plates 21 and 22; The rod 23 is installed upright at the corner between the upper and lower plates 21 and 22, and the guide plate 24 and the movable plate 25 are disposed between the upper and lower plates 21 and 22. The grooves (A _1, A ₂ , A ₃ , A) which are interposed to be guided through and are provided with a plurality of cutters on the bottom of the upper plate, the upper surface of the movable plate, and the guide plate of the corresponding position, respectively. ₄ ) and rock specimens characterized in that it comprises a slit hole (H H, H₂, H₃, H 구비). 2. The grooves A ', A2, A3 and A' of the center corresponding positions of the upper plate 21 and the movable plate 25 and the slit holes H ', H2, H3 and H' of the guide plate 24, respectively. When the rock core (C) is seated in the X direction, the groove (A₁) for mounting the cutter for 90 ° cutting and the grooves (A₂, A₃, A₄) that can be cut at 15 °, 30 ° and 45 °, Rock specimens, characterized in that formed by the corresponding slit holes (H₁, H₂, H₃, H₄). The method of claim 1, wherein the cutter is fixed to the bolt (B) from the top of the top plate and the bottom of the movable plate, having different lengths to fit the grooves (A₁, A₂, A₃, A₄) of different lengths, respectively, A rock specimen cutting machine comprising cutters (B₁, B₂, B₃, B₄), each having a curvature corresponding to the angle. The method according to claim 2, wherein the cutting angles for the 15 ° and 30 ° angles are cut at 75 ° and 60 °, respectively, as the rock core C is seated in the Y direction of the cutting machine 20. Cutting a rock specimen. According to claim 1, The movable plate 25 is provided with a bearing 25B in the rod through hole 25A to be guided up and down in the rod 23, a fixed fixed on both sides of the lower plate 22 in the lower portion Rock specimen cutting, characterized in that the stopper (22A) of the length can be achieved by the screw adjustment method. The upper surface of the guide plate 24 is screwed into the guide pin 24A to support both sides of the rock core (C) to be seated on the cutter from the front and rear, respectively, where the core (C) is installed The rock specimens are installed in both X and Y directions, and the guide pins 24A include at least two or more kinds of diameters different from each other so as to include different diameters of the rock core C. Pickle. 2. The guide plate (24) according to claim 1, wherein the guide plate (24) allows the rod (23) to penetrate through a hole (24B) looser than the outer diameter of the rod (23), and the guide plate (24) penetrates through the movable plate (25) at its bottom. Rock specimen cutting, characterized in that through the spring (24D) to the guide bolt (24C) fixed to the.