KR101290376B1 - A rock mass boring rock apparatus - Google Patents

Abstract

The outer periphery type rock drilling tool according to the present invention absorbs and discharges the excavated rock while excavating the edge of the rock while the rock excavation hammer installed at the front end hits the rock, and the cylindrical rotating body provided with the rock excavation hammer is installed. Rotating by moving forward and unbroken rock in the center as a cylinder and moving forward to excavate the rock, excavate the rock only the edge of the rock excavated to the core shape as it is, only a small amount of excavation Of course, the desired purpose is achieved to improve the excavation efficiency, the excavation time is shortened, the air is significantly shortened, the excavation amount is small, the excavation cost is significantly reduced and the durability life of the excavating equipment is extended.

Description

Outer perforated rock drilling device {A rock mass boring rock apparatus}

The present invention relates to a periphery excavated rock drilling tool, and more specifically, in the excavation of a rock formation such as a rock, the center portion that excavates only the edge of the rock to be excavated without breaking the entire rock is excavated. Existing excavation type rock drilling tools that can be excavated rock rocks, which can be extremely economical by excavating the rock's excavation speed by more than 2 times.

Even in the mountainous terrain formed by rock due to the development of civil engineering technology, it is common practice to make a road through a tunnel through the mountain rather than a road that climbs the mountain.

This rock terrain tunneling is being constructed using a blasting method in consideration of work efficiency.

However, if there is a building on the top of the rock formation, the building is damaged by the impact of the blasting, so it is more expensive than the blasting work and the air is delayed in consideration of the extreme opposition of the residents and national losses. This less probable method is being carried out.

In order to reduce the impact, a method of drilling a reference hole having a diameter of 0.5m, 0.8m, and 1m in a size selected from the rock and applying a force around the reference hole is used to drill a tunnel in the rock. In the drilling of the standard hole is used to excavate the entire method, so a lot of time and cost is required to drill the standard hole was very inefficient.

In order to improve this problem, a core type excavator with diamond powder sintered at the edge of the drilling device has been proposed, but such a core type excavator has a very small drilling range and cannot be used in the field and requires expensive drilling costs. There was this.

In addition, the existing roads are installed at a high height to prevent the damage of the flood, and in order to produce other roads crossing the roads, a method of laying a road through a tunnel in the ground of the existing road is commonly used. In this way, the hydraulic cylinder is used to drill the tunnel while drilling the ground of the road, but if the rock layer is formed in the middle, it stops the work and removes all the equipment and then excavates the rock again. Since it takes a lot of money and manpower and equipment, there was a problem that the air is long.

An object of the present invention is to solve this problem, the operation of the simple structure to excavate the excavation of the rock only the edge and the center remains in the form of the core to achieve the desired purpose with only a small amount of excavation to improve the excavation efficiency Of course, the excavation time is shortened, the air is greatly shortened, the excavation amount is small, the excavation cost is significantly reduced, and the outer periphery type rock drilling tools can be provided that can extend the endurance life of the excavator equipment will be.

It is an object of the present invention to provide a plurality of rock excavation hammers for installing a plurality of excavation tips and excavating a rock, and the plurality of rock excavation hammers respectively installed to be spaced apart from the edge of the outer periphery of the front end. It is achieved by the outer periphery excavated rock drilling device according to the invention comprising a cylindrical rotating body formed with a connecting portion and the hollow space is formed in the center.

The outer periphery type rock drilling tool according to the present invention is manufactured to have a simple structure, and the rock excavation hammer installed at the front end absorbs and discharges the excavated rock while digging the edge of the rock while hitting the rock. Since the hammer is installed by the cylindrical rotating body, it moves forward and the rock is not broken in the center, and it moves forward while excavating the rock. The excavation of the rock is excavated only at the edge and the center remains as core. It is possible to achieve the desired purpose with only a small amount of excavation, thereby improving the efficiency of the excavation, as well as to reduce the excavation time, greatly shorten the air, and to reduce the excavation cost, because the excavation amount is small. There is an excellent effect of extending the life.

1 is a perspective view of an outer periphery excavated rock drilling tool according to a first embodiment of the present invention
Figure 2 is a schematic longitudinal cross-sectional view of the rock excavation hammer installed in the outer periphery type rock drilling tool according to the first embodiment of the present invention
Figure 3 is a longitudinal sectional view showing the operation of the outer periphery excavated rock drilling tool according to the first embodiment of the present invention

As shown in FIG. 1, the outer periphery excavation type rock drilling tool A according to the first embodiment of the present invention is provided with a hammer body 12 that is advanced back and forth with a plurality of excavation tips 11 installed at a tip end thereof. A plurality of rock excavation hammers (1) for excavating the rock and the plurality of rock excavation hammers (1) are respectively installed so as to be spaced apart from the outer periphery of the front end of the front end, and the connecting portion is formed at the rear, and the central part has an empty space. And a cylindrical rotor 2 formed.

The rock excavation hammer 1, as shown in Figure 2, has a structure in which a plurality of excavation tip 11 is installed at the tip and reciprocated by the piston 12, the crushed rock is an air injection hole ( 13 is blown to the rear while being injected through the crushed piece suction portion 14 formed in the rear is to be operated to be discharged to the outside. That is, the rock excavation hammer (1) is a piston in which a plurality of excavation tips 11 are installed at the front end and reciprocated and the air injection holes 13 through which high pressure air is injected extend from the center to the excavation tips 11 at the front. And a hammer casing 10 in which the piston 12 is inserted to surround the piston 12, and the tip of the hammer casing 10 and the excavation tip 11 of the piston 12 are formed. The crushed fragment suction part 14 which suctions high pressure air is provided between the latching projections 11a of the rear side. The width W1 of the excavating tip 11 has a larger area than the width W2 of the cross section of the cylindrical rotor 2 and is excavated by the width of the excavating tip 11 such that the rock drilling excavator 1 Excavation of the rock is made by rotating operation, and the rock (R1) in the center is excavated in such a state, so that the rock remains in the form of a cylinder.

The rock excavation hammer 1 is not described in detail because it has a known configuration.

In this embodiment, the cylindrical rotating body 2 is formed at the front end of the three placement parts 23 are formed so that the three rock hammer excavation (1) is arranged at an angle of 120 °, in the center An empty space 21 in which a central rock R1 is not broken is formed, and a propulsion power body 3 for rotating and propelling the rock drilling excavator 1 and the cylindrical rotating body 2 at the rear thereof; The connecting portion 22 is formed.

The disposition portion 23 is fixed to the main body and the bottom of the rock excavation hammer (1) so that the rock excavation hammer (1) protrudes at the tip.

The connecting portion 22 of the cylindrical rotating body 2 is a female screw is formed at the inner end of the rotating body 2 is screwed to the rotary end 31 of the rock crushing propeller 3, but is not limited thereto. It may be connected by another connection such as a keyway.

The operation of the outer periphery excavated rock drilling tool A according to the present invention having such a configuration will be described below.

First, when a part of the road construction is determined by constructing a tunnel, the rock crushing propeller 3 is first installed at the site to be constructed. Since the installation of the rock crushing propeller 3 is a conventional method, a detailed description thereof will be omitted, and an outer circumferential excavated rock drilling tool A is provided at the rotary end 31 of the rock crushing propeller 3. That is, the connecting portion 22 of the cylindrical rotating body 2 is screwed to the rotary end portion 31 of the rock crushing propeller 3 to terminate the installation of the rock crushing propulsion sheet 3.

In such a state, the rock crushing propeller 3 is operated so that the cylindrical rotor 2 is rotated at regular intervals and the rock drilling excavator 1 fixedly installed at the tip of the cylindrical rotor 2 is moved forward and backward. Only the arm is crushed, and thus the crushed pieces R2 of the crushed rock R are blown backwards by the air spray hole 13, and the crushed pieces R2 thus ejected are excavated in the excavating tip 11 While being sucked and discharged from the rear by the crushed piece suction part 14 installed at the locking jaw 11a at the rear of the back, the cylindrical rotating body 2 is rotated, so that the rock-excavation hammer 1 moves forward while digging only the edge. Therefore, the tunnel is excavated only at the edge and the rock (R1) of the central portion remains as it is, and the excavation speed of the rock is greatly increased, as well as the excavation cost is significantly reduced, and the air is shortened significantly. .

As the rock is drilled by the outer periphery type rock drilling tool A as described above, the steel pipe 4 propelled by the rock crushing thruster 3 is continuously pushed into the excavated rock and the steel pipe is simultaneously excavated. (4) is installed will be the excavation work of the tunnel.

In this way, only the edge of the rock (R) is perforated by the outer periphery rock-type boring mechanism (A) and the central rock (R1) is drilled so as not to be broken, so the drilling speed of the rock is excavating the entire conventional Since more than twice as fast as the excavation speed of the rock is not only shortened the air, of course, because the amount of rock to be excavated is small is the effect of extending the endurance life of the excavator equipment. .

The outer periphery type rock drilling tool according to the present invention will be said to be an industrially applicable invention because it is possible to repeatedly manufacture the same product in a general machine manufacturing industry.

1. Rock excavation hammer 2. Rotating body 3. Rock fracture propeller
11. Excavation tip 12. Hammer body 22. Connection
31. Rotating end

Claims (2)

In the outer periphery type rock drilling tool (A),
The outer periphery type rock drilling tool (A), a plurality of rock excavation hammer (1) for drilling the rock is provided with a hammer body 12 is installed back and forth advancing a plurality of excavation tips 11 at the tip,
The plurality of rock excavation hammers (1) are respectively installed so as to be spaced apart from the outer edge of the front end of the front end and the connecting portion 22 is formed in the center includes a cylindrical rotating body (2) formed with an empty space,
The rock excavation hammer (1), a plurality of excavation tip 11 is installed at the tip and the reciprocating piston is formed so that the air injection hole 13, which is injected with high pressure air is extended from the center to the excavating tip (11) And a hammer casing 10 in which the piston 12 is inserted to surround the piston 12, and the tip of the hammer casing 10 and the excavation tip 11 of the piston 12 are formed. Between the engaging jaw (11a) in the rear is a crushed fragment suction portion 14 is installed, the high-pressure air is sucked,
The cylindrical rotor 2 has a disposition portion 23 to which the rock excavation hammer 1 is fixed at the front end thereof, and an empty space in which the central rock R1 is not broken in the center. 21 is formed, the outer periphery excavated rock, characterized in that the rear portion is formed with a connecting portion 22 connected to the propulsion power body 3 for rotating and propelling the hammer excavation hammer (1) and the cylindrical rotor (2) Perforation apparatus.
The method of claim 1,
The connecting portion 22 of the cylindrical rotating body 2 has a female screw formed at the inner end of the rotating body 2 to be screw-assembled to the rotary end 31 of the rock crushing propeller 3, or a key groove is formed to form a rock crushing propeller. Peripheral excavation type rock drilling tool, characterized in that the assembly is connected to the rotary end 31 of (3)

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