KR101892094B1 - method for noise-free rock splitter using driving equipment with simultaneous jobs - Google Patents

Abstract

The present invention relates to a vibration-free method for splitting a rock using a mechanized equipment. A fixing bracket connected to the front of a driving body capable of performing autonomous driving through a track or a wheel is installed with a variable means so as to simultaneously or sequentially perform operation of at least one of a distance adjusting portion, a rotation portion, and an angle adjusting portion such that at least two expansion units connected to a body portion are able to perform three dimensional movement. The expansion units perform three dimensional movement individually so as to be parallel to a horizontal angle and a vertical angle of perforation holes formed on a cut surface, respectively such that the at least two expansion units are simultaneously entering to the inside of the perforation hole.

Description

[0001] The present invention relates to a vibration-free rock splitter using simultaneous operation in multiple holes,

The present invention is applicable to a fixed bracket connected to the front of a traveling body capable of autonomous travel through a track or a wheel, through at least one of a distance adjusting unit, a rotating unit, and an angle adjusting operation, The two or more expanding units connected to each other are allowed to move in three dimensions, and the expansion unit is three-dimensionally moved in parallel to the horizontal direction and the vertical direction of the perforation holes respectively formed in the incision surface, The present invention relates to a vibration-free rock cutter method using an autonomous equipment capable of simultaneous operation in a plurality of perforation holes for simultaneously entering the inside of a hole.

Various civil engineering works or construction works remove various types of ground, and in the case of removing the ground of the trencher, a general heavy equipment such as a fork-crane is applied. However, the removal of the rock mass, which is difficult to apply these general heavy equipment, A crushing operation is performed or a crushing apparatus using hydraulic pressure is applied.

At this time, the crushing work using the explosives may cause civil complaints due to excessive vibration, noise, stones, and dust, and there is a fear of damage to peripheral structures and safety accidents, and therefore, the use thereof in urban areas is extremely limited.

In order to overcome the problems of the crushing operation using such explosives, a crushing device using hydraulic pressure has been introduced, and as a method thereof, a continuous approaching rock cutter method is disclosed in Japanese Patent No. 765938.

However, in the rock cutter method as described above, since the reference block having the concave groove is prepared and the rocker bit is attached to the rock block to continuously form the holes, the free surface is formed to increase the working time, So that the post-work can be easily performed and the work load is increased.

In order to solve such a problem, the applicant of the present invention has proposed a rock incision method in Japanese Patent No. 1258866. As shown in Fig. 1, A free space 170 is formed which has at least one free surface P so as to have a width, a length and a depth.

The free space 170 is formed when the arm S is pierced by using any one of a chain saw, a water jet and a drill. When the drill is used, The free surfaces P having the same width, length and depth are formed integrally with each other by using a chain saw or a water jet.

Subsequently, a plurality of perforation holes 100 are formed at arbitrary positions in the arm S on a predetermined interval along the circumference of the free surface P, and the expansion unit 200 is inserted into the perforation hole 100 And the high pressure fluid is supplied to the expansion unit 200 from the pressure device 300 so that the space between the perforation hole 100 and the perforation hole 100 is cut so that the incision line L .

However, in the rock-breaking method as described above, the operator must directly insert the expansion unit 200, which is a heavy product, into the perforation hole 100 located at a high altitude, thereby causing a safety accident as well as an increase in workload.

In addition, the plurality of expansion units 200 may be connected to a heavy equipment at the same time, but in this case, the individual perforation holes 100 do not coincide precisely, which makes the work impossible when the equilibrium is not met.

It is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to quickly access a desired construction site by means of anisolation, to prevent safety accidents by mounting an expansion unit, And it is possible to make the construction easy regardless of the position of the perforation hole through the adjustment of the interval and the fine gap and to perform the simultaneous operation in the plural perforation holes that can maximize the incision area by a single process And to provide a vibrationless incision cutting method.

In order to achieve the above object, at least one of a distance adjusting unit, a rotating unit, and an angle adjusting operation is simultaneously or sequentially operated on a fixed bracket connected to the front of a traveling body capable of autonomous travel through a track or a wheel And two or more expansion units connected thereto via variable means installed are allowed to move in three dimensions. Each of the expansion units is three-dimensionally moved in parallel to the horizontal direction and the vertical direction of the perforation holes respectively formed in the incision surface The present invention is to provide a vibration-free rock cutter method using an autonomous equipment capable of simultaneously operating two or more expansion units in a plurality of perforation holes for simultaneously entering the inside of the perforation hole.

The variable means may include at least one of a distance control unit, a rotation unit, and an angle control unit. The at least one of the distance control unit, the rotation unit, and the angle control unit may be operated simultaneously or sequentially. And to provide a rock incision method.

The distance adjusting unit may be configured to adjust the length of a multi-end when supplying hydraulic or pneumatic pressure as in the operation of the crane, and the rotating unit is configured to rotate the mounting plate as part of the operation of the forklift, The present invention is to provide a vibration-free rock cutter method using an autonomous equipment capable of simultaneous operation in a plurality of perforation holes having a configuration in which an operating part is hinged and a cylinder in which a hydraulic or pneumatic operation is operated is connected,

In addition, the traveling body includes a moving part and an adjusting part integrally connected to each other, a fixing bracket is connected to the front of the adjusting part, and a distance adjusting part is connected to the front of the fixing bracket such that the angle is adjusted through the angle adjusting part, Wherein a plurality of expansion units are connected to the front side of the distance adjusting unit through the angle adjusting unit and the rotation unit so that the mounting plate can rotate and adjust the angle, And to provide a vibration-free rock excavation method using an autonomous equipment capable of simultaneous operation.

The traveling body has a structure in which the moving part and the adjusting part are integrally connected, a fixing bracket is connected to the front of the adjusting part, and a plurality of distance adjusting parts, which are angularly adjusted through the angle adjusting part like a crane, The present invention also provides a method for excavating a vibration-free rock by using an aspheric apparatus in which a plurality of perforations are connected to an expansion unit having fine angle adjusting means through an angle adjusting unit and a rotating unit.

The fine angle adjusting means may include a first frame connected to the mounting plate by a first hinge, a second frame connected to the body by a second hinge, and a plurality of spring members The first and second hinges are installed to be positioned in a direction intersecting with each other. The body portion is provided with a support plate having a fixing groove on one side thereof, which can be simultaneously operated in a plurality of perforation holes to which the expansion unit is connected And the stopper is fixed by a stopper formed at a fixed portion of the mounting plate, and the stopper is provided with a non-vibrating rock plate incision To provide a method.

In addition, when the expansion unit is constituted so as to expand the tube made of rubber material or to project the cylinder by operating with air pressure using fluid such as water or high pressure oil or air, it is possible to perform simultaneous operation in plural holes And to provide a vibration-free rock cutting method using an autonomous equipment.

In addition, the variable means connected to the mounting plate is provided with a vibration-free rock cutter using a voluntary apparatus capable of performing simultaneous work in a plurality of perforation holes in which a moving block moving by a ball screw or a cylinder is connected to change its position .

As described above, according to the present invention, it is possible to quickly approach a desired construction site by means of the self-extinguishing, and to prevent safety accidents by mounting an expansion unit, which is a heavy product, It is possible to easily carry out the construction regardless of the position of the perforation hole and to maximize the incision area by a single process.

1 is a schematic view showing a conventional rock cutter method.
FIG. 2 is an operational state diagram of the rock incision method according to the present invention. FIG.
FIG. 3 and FIG. 4 are longitudinal and longitudinal work states showing a rock cutter method according to an embodiment of the present invention, respectively.
5 is an operational state view showing a rock incision method according to another embodiment of the present invention.
FIGS. 6 and 7 are respectively a horizontal and vertical work state diagram showing a rock cutter method according to another embodiment of the present invention.
8 is a horizontal work state view showing a rock cutter method according to another embodiment of the present invention.

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

3 and 4 are respectively a horizontal and vertical work state diagram illustrating a rock incision incision method according to an embodiment of the present invention. FIG. 5 is a perspective view of the rock incision incision method according to the present invention. FIGS. 6 and 7 are respectively a horizontal and vertical work state view illustrating a rock cutter method according to another embodiment of the present invention. FIG.

The present invention is characterized in that a distance bracket (51), a rotating part (55) and an angle adjusting part (57) are operated in a fixed bracket (30) connected to the front of a traveling body (10) capable of autonomous travel through a track or a wheel The two or more expansion units 90 connected thereto via the variable means 50 installed for simultaneous or sequential operation enable three-dimensional motion, respectively.

At this time, the expansion unit 90 moves three-dimensionally in parallel to the horizontal angle H and the vertical angle V of the perforation holes S formed in the cut surface 20, respectively, So that the unit 90 enters the inside of the perforation hole S at the same time.

In addition, the expansion unit 90 is operated by hydraulic pressure using fluid such as water or high-pressure oil or pneumatic pressure using air to expand a tube made of a rubber material or to project the cylinder, The fixing bracket 30 is connected to the front of the adjusting part 13 in such a manner that the moving part 11 which travels freely along a track or the like and the adjusting part 13 connected to the upper side thereof are integrally connected.

The variable means 50 is installed such that at least one of the operation of the distance adjusting unit 51, the turning unit 55 and the angle adjusting unit 57 is performed simultaneously or sequentially .

In addition, the distance adjusting unit 51 is configured to be capable of adjusting the length of a multi-end when supplying hydraulic or pneumatic pressure as in the operation of the crane.

In addition, the rotation unit 55 is configured to rotate the mounting plate as in the partial operation of the forklift.

Subsequently, the angle adjusting portion 57 is configured such that the operating portion is hingedly connected to a cylinder in which hydraulic or pneumatic actuation is performed, such as the operation of a fork-lift, to adjust the angle.

3 and 4, there is provided a distance control unit 51 such as a crane, which is angularly adjusted through an angle adjusting unit 57, in front of the fixed bracket 40 connected to the front of the traveling body And the mounting plate 60 is connected to the front of the distance adjusting unit 51 through the angle adjusting unit 57 and the rotating unit 55 so that the mounting plate 60 can rotate and adjust the angle.

At this time, a plurality of expansion units (90) are connected to the front of the mounting plate (60) through fine angle adjusting means (80).

5, each of the expansion units 90 connected to the mounting plate 60 is installed to be variable about the mounting plate through the position changing unit 40, and the position changing unit 40 , A ball screw or a moving block 41 which is moved by the cylinder 43 are connected to be installed to change the position.

6 and 7, a mounting plate is connected to the front of the fixing bracket 30 so as to be rotatable forward of the tournament front part 56, and an angle adjusting part 57 such as a crane is mounted on the mounting plate And a fine angle adjusting means 80 is provided in front of each of the distance adjusting portions 51 through an angle adjusting portion 57 and a rotating portion 55 The expansion unit 90 is connected.

6 and 7, the fine angle adjusting means 80 includes a first frame 82 connected with the first hinge 81 and a second frame 82 connected to the body 84 A second frame 88 connected to the second hinge 86 and a plurality of spring members 87 supported on the first and second frames, respectively, This is possible.

At this time, the first and second hinges are installed so as to intersect with each other, and the expansion unit (90) is connected to the body part.

Subsequently, the fine angle adjusting means 80 is provided with a support plate 91 having a fixing groove 92 on one side thereof, and the support plate is fixed to the fixing portion 70 provided on the mounting plate 60 or the distance adjusting portion And is fixed by a stopper 74 formed.

At this time, the stopper 74 allows the fine angle adjusting means to be engaged and detached through the fixing plate 74a and the variable plate 74b.

The fine angle adjusting means 80 may adjust the tilting angle of the tilting portion 90 provided at one side of the distance adjusting portion 51 so that the expansion unit 90 can be entered corresponding to the forming angle of the perforation hole S 59 and the entry angle adjusting unit 58 so as to be adjustable in length, such as a crane, and is provided with a boom 83, which is rotated about the end surface of the boom, And an expanding unit 89 is connected to the crushing angle adjusting unit so that the crushing direction of the perforation hole can be set.

The distance adjusting unit 51, the angle adjusting unit 57 and the rotating unit 55 of the variable means are installed so as to be operated simultaneously or sequentially, and are provided with a horizontally inclined 17 and a vertically inclined 18 So that the expansion unit can easily enter the hole through the variable means.

The operation of the present invention constructed as described above will be described.

As shown in Figs. 2 and 7, the present invention is configured such that a plurality of expansion units 90, which maintain a constant interval in the horizontal direction, are connected to one traveling body 10, The rocks which simultaneously enter the plurality of perforation holes S formed in the incision surface 20 for excavation to form the free surface P are cut by non-vibration to form a tunnel or the like.

At this time, the free surface P is formed by the chain saw 19, which is also frequently used for the efficiency of the operation, or the guide unit for forming the free surface of the Japanese Patent No. 10-1404683, Is formed by a perforator (not shown).

In addition, a plurality of expansion units 90 are connected to a fixing bracket 30 for mounting the traveling body 10 in front of the traveling body 10 to be simultaneously moved with the traveling body 10.

At this time, the traveling body 10 is configured such that the moving unit 11 that autonomously travels in a track or the like and the adjustment unit 13 connected to the upper side thereof are integrally connected to each other, 30 are connected, a plurality of expansion units 90 are simultaneously moved.

The expansion unit 90 is installed in the fixing bracket 30 so that at least one of the operation of the distance adjusting unit 51, the rotating unit 55 and the angle adjusting unit 57 is performed simultaneously or sequentially And is connected thereto through the variable means 50 to enable three-dimensional motion.

That is, the expansion unit 90 is arranged in the horizontal direction (H) and the vertical direction (V) of the perforation hole (S) formed in the cut surface (20) So that two or more expansion units 90 are simultaneously mounted to the inside of the perforation hole S.

In addition, the expansion unit 90 includes a rubber tube or a cylinder that expands by hydraulic pressure or pneumatic pressure. The expansion unit 90 expands or protrudes when power is transmitted from the outside, thereby transmitting a hypothetical force toward the free surface in the perforation hole, Shredding.

At this time, at least one of the operation of the distance control unit 51, the rotation unit 55, and the angle control unit 57, which are respectively provided in at least one of the variable units 50, It is possible to adjust the desired three-dimensional position by controlling the distance, the angle, and the rotation.

In addition, the distance adjusting unit 51 may be configured to adjust the multi-end length when supplying hydraulic or pneumatic pressure as in the operation of the crane, the rotating unit 55 may be configured to rotate the mounting plate as part of the operation of the forklift, The control unit 57 has a configuration in which the operating unit is hingedly connected to a cylinder in which hydraulic or pneumatic operation is performed, such as the operation of a fork-lift, so that the angle is adjusted.

3 and 4, the expansion unit of the present invention can be used by installing a mounting plate 60 to which a plurality of expansion units 90 are simultaneously connected to one end of a distance adjustment unit connected to a traveling body .

That is, a distance control unit 51, such as a crane, which is angularly adjusted through an angle control unit 57 is connected to the front of the fixed bracket 30 connected to the front of the traveling body, 51 are connected to the mounting plate 60 through an angle adjusting portion 57 and a rotating portion 55 so as to be rotatable and angularly adjustable.

At this time, a plurality of expansion units 90 are connected to the front of the mounting plate 60 through the fine angle adjusting means 80 to finely move left, right, up and down so as to adjust the three- The expansion unit is more easily mounted through the fine angle adjustment means.

5, each of the expansion units 90 connected to the mounting plate 60 is installed to be variable around the mounting plate through the position changing means 40, It is easy to cope.

6 and 7, the expansion unit of the present invention can be used by connecting a plurality of distance control units to a single fixed bracket connected to a traveling body, respectively, and connecting expansion units 90 to the respective ends thereof .

A plurality of distance adjusting portions 51 whose angle is adjusted through an angle adjusting portion 57 like a crane are connected to the front of the fixing bracket 30, The expansion unit 90 having the fine angle adjusting means 80 is connected through the angle adjusting unit 57 and the rotating unit 55.

The fine angle adjusting means 80 includes a first frame 82 connected to the mounting plate 60 or the first hinge 81 of the distance adjusting unit 51 and a second frame 82 connected to the body 84, A second frame 88 connected to the first frame 86 and a plurality of spring members 87 supported on the first and second frames, respectively.

At this time, the first and second hinges are installed in a direction intersecting the first and second hinges, and the first and second hinges are rotated in the lateral and longitudinal directions to adjust the fine intervals to facilitate the mounting and demounting.

In addition, when the support plate 91 having the fixing groove 92 is provided on one side of the fine angle adjusting means 80, the support plate is attached to the stopper 74 formed on the fixing portion 70 of the mounting plate 60 So that the expansion unit can be easily engaged and disengaged.

The fine angle adjusting means 80 is connected to the tilting portion 59 provided on one side of the distance adjusting portion 51 so as to rotate up and down and to the left and right And a crushing angle adjusting unit 89 that rotates about the end surface of the boom and is provided with a boom 83 whose length is adjusted like a crane while being rotated so as to correspond to the forming angle of the perforation hole S So that the expansion unit 90 is rotatably connected to the crushing angle adjusting unit so that the crushing direction of the crushing hole can be set.

At this time, the stopper 74 is connected to the fixing plate 74a through the variable plate 74b, so that the expansion unit can be separated when the variable plate is moved in one direction. When the variable plate is moved in the other direction, .

10 ... traveling body 20 ... incision plane
30 ... fixed bracket 51 ... distance adjusting portion
55 ... rotation part 57 ... angle adjustment part
60 ... mounting plate 90 ... expansion unit

Claims (9)

At least one of the distance control unit, the rotation unit, and the angle control unit may be simultaneously or sequentially operated on the fixed bracket connected to the front of the control unit of the traveling body capable of autonomous travel through the track or wheel while the moving unit and the control unit are integrally connected. The two or more expansion units connected to each other via the variable means installed are allowed to move in three dimensions,
And a distance adjusting unit for adjusting the angle of the fixing bracket is connected to the front of the fixing bracket through an angle adjusting unit such as a crane. The mounting plate is connected to the front of the distance adjusting unit through an angle adjusting unit and a rotation unit,
Wherein a plurality of expansion units are connected to each other through fine angle adjusting means at the front of the mounting plate so that the two or more expansion units are arranged in parallel to the horizontal and vertical angles of the perforation holes respectively formed in the cut- So as to be simultaneously mounted on the inside of the perforation hole,
The fine angle adjusting means may include a first frame connected to the mounting plate by a first hinge, a second frame connected to the body portion by a second hinge, and a plurality of spring member combinations supported by the first and second frames, respectively Lt; / RTI &
The first and second hinges are installed so as to be positioned in an intersecting direction,
An expansion unit is connected to the body portion,
Wherein the expansion unit comprises a rubber tube or a cylinder which expands or protrudes by hydraulic pressure or air pressure,
Wherein the fine angle adjusting means includes a support plate having a fixing groove on one side thereof,
The support plate is fixed by a stopper formed on a fixing part provided on one side of the mounting plate,
The stopper is a vibration-free rock cutter using a self-aligning device capable of simultaneous operation in a plurality of perforations installed to be coupled and separated through a fixed plate and a variable plate. 2. The apparatus according to claim 1, wherein the variable means comprises at least one of a distance control unit, a rotation unit, and an angle control unit. A vibration - free rock incision method using an autonomous equipment. [2] The apparatus of claim 1, wherein the distance adjuster is configured to adjust a multi-end length when supplying hydraulic or pneumatic pressure as in the operation of the crane,
The rotating portion is configured to rotate the mounting plate as in a part of the operation of the forklift,
Wherein the angle adjusting unit is configured such that a cylinder in which an oil pressure or a pneumatic operation is operated is connected to adjust the angle, such that the operation unit is hingedly connected to the forklift while the operation unit is hinged. Method. delete delete delete At least one of the distance control unit, the rotation unit, and the angle control unit may be simultaneously or sequentially operated on the fixed bracket connected to the front of the control unit of the traveling body capable of autonomous travel through the track or wheel while the moving unit and the control unit are integrally connected. The two or more expansion units connected to each other via the variable means installed are allowed to move in three dimensions,
The mounting bracket is connected to a front portion of the fixing bracket through a rotating portion to adjust the rotation angle of the mounting plate. A plurality of distance adjusting portions, such as a crane,
An expansion unit having fine angle adjusting means is connected to the front of each of the distance adjusting units through an angle adjusting unit and a rotating unit to perform three dimensional motion in parallel with the horizontal and vertical angles of the perforation holes formed in the cut- To be mounted on the inside of the hole at the same time,
The fine angle adjusting means may include a first frame connected to one side of the distance adjusting unit by a first hinge, a second frame connected to the body by a second hinge, and a plurality of spring members , ≪ / RTI >
The first and second hinges are installed so as to be positioned in an intersecting direction,
An expansion unit is connected to the body portion,
Wherein the expansion unit comprises a rubber tube or a cylinder which expands or protrudes by hydraulic pressure or air pressure,
Wherein the fine angle adjusting means includes a support plate having a fixing groove on one side thereof,
The support plate is fixed by a stopper formed on a fixing part provided on one side of the mounting plate,
The stopper is a vibration-free rock cutter using a self-aligning device capable of simultaneous operation in a plurality of perforations installed to be coupled and separated through a fixed plate and a variable plate. At least one of the distance control unit, the rotation unit, and the angle control unit may be simultaneously or sequentially operated on the fixed bracket connected to the front of the control unit of the traveling body capable of autonomous travel through the track or wheel while the moving unit and the control unit are integrally connected. The two or more expansion units connected to each other via the variable means installed are allowed to move in three dimensions,
The mounting bracket is connected to a front portion of the fixing bracket through a rotating portion to adjust the rotation angle of the mounting plate. A plurality of distance adjusting portions, such as a crane,
Expansion units having micro angle adjusting means are connected to the front of each of the distance adjusting units so that they are simultaneously moved three dimensionally in parallel to the horizontal and vertical angles of the perforations formed in the incision surface so as to be simultaneously mounted on the inside of the perforation hole ,
The fine angle adjusting means includes a tilting portion and a tilting portion. The fine angle adjusting means includes a tilting portion and a tilting portion. And a crushing angle adjusting unit for adjusting crushing angle,
Wherein the expansion unit is rotatably connected to the crushing angle adjusting unit,
The expansion unit is a vibration-free rock cutting method using an autonomous equipment capable of simultaneous operation in a plurality of perforation holes made of rubber tubes or cylinders which are expanded or protruded by hydraulic pressure or pneumatic pressure. 2. The apparatus according to claim 1, wherein the mounting plate is installed so that the expansion unit is displaced through a position changing means further connected to one side thereof,
Wherein the position changing means is connected to a moving block moving by a ball screw or a cylinder to change a position of the moving block.

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