KR20010097841A - A Steel Tube Pipe Cutting Unit Using Robot and Method - Google Patents

Abstract

The present invention relates to a steel pipe pile cutting device using a robot, in particular, by using a robot equipped with a magnetic force generating means, a driving means and a torch to cut the steel pipe pile to a certain length, to enable the recycling of the steel pipe pile and An apparatus for cutting steel pipe piles using a robot which facilitates movement, comprising: a compressor and a plasma cutting machine for ejecting a high-temperature plasma ionized by an arc on a highway;

Drive means for driving the torch along the inner periphery of the steel pipe pile is formed of a torch for cutting the steel pipe pile by the plasma by the arc discharge and connected to the output terminal of the compressor and plasma; A pile cutting robot having magnetic force generating means for providing a magnetic force such that the torch and the driving means are in close contact with the pile;

And a power supply means for supplying power to the compressor, the plasma, and the pile cutting robot.

Description

A steel tube pipe cutting unit using robot and method

The present invention relates to a steel pipe pile cutting device using a robot, in particular, by using a robot equipped with a magnetic force generating means, a drive means and a torch to cut the steel pipe pile to a certain length, to enable the recycling of the steel pipe pile and equipment It relates to a steel pipe pile cutting device using a robot, characterized in that to facilitate the movement of.

In general, foundation pile construction is preceded by foundation pile construction for bearing capacity of the ground.

The piles used in the basic construction are mainly used for steel pipe piles, H beams, and concrete piles.In order to embed the piles or H beams, there is a method of forming a hole with an excavation drill and embedding them. The method of embedding is used, and when the type work of the pile is completed, the foundation is made to be excavated to a predetermined depth at which the foundation work is performed.

That is, after removing the pile exposed to the ground with an oxygen cutter, the soil was dug up to a certain depth, and the method was repeatedly removed to remove the soil using the oxygen cutter.

However, such a file cutting system has a problem that the construction period is long because the file is not sculpted or recycled because the file is cut while digging soil, and the file is frequently cut.

Therefore, a method of avoiding occasional cutting and recycling the cut file has been reviewed. Hereinafter, the technique as described above will be described.

In other words, the more advanced method of cutting the steel pipe pile with reference to Figure 1 as follows.

1 is performed by a pile cutting machine as an embodiment of a conventional steel pipe pile cutting apparatus.

The pile cutting machine is a type of internal cutting by a face cutter. The pile cutting machine includes a control box (1) installed on the ground with a hydraulic pump (2), and is installed at the end of the type pile (P). (1) the drive motor (3), the rotary joint (4) and plate (5) connected to the hydraulic pump (2), the shaft connected to the plate (5) and rotated by the drive motor (3) (6), a driving force transmission device (9) for transmitting the driving force of the driving motor (3) to the shaft (6), a chuck (8) for fixing the device composed of the components to the pile (P), and Rotating shaft 9 connected to the shaft 6 in multiple stages, the end of the rotary shaft 9, the support roller 11, the cutting device 10 including the cutter 12, and the hydraulic It is composed of a hydraulic line (13) connected to the pump (2) to operate the cutting device (10).

The cutting method of the file by the file cutting device of such a structure is demonstrated.

First, the cooling water W is filled in the pile P before the pile cutting device is installed in the pile P.

The cooling water (W) is for cooling the cutting device 10 to fill more than about 1M from the cutting device 10, the cutting position of the pile (P) where the cutting device 10 is located at about 8M or more from the end of the file It becomes a point.

The amount of coolant (W) varies depending on the pile depth of the pile, but water tanks and two or more workers should always reside. If water trucks cannot be entered, water pumps are installed to work.

In addition, considering that the diameter of the pile P is about 500-600 mm and considering a large number, the amount of cooling water to be filled is, of course, a considerable amount (about 10 tons or more).

When the cooling water filling operation is completed, the cutting device is installed in the pile, and the cutting device 10 installed in the pile is locked to the filled cooling water (W).

When the control box 1 is operated in this state, the cutting device 10 is rotated by the driving motor 3, and the developing operation of the cutting device 10 is performed by the hydraulic pump 2.

That is, the driving force of the driving motor 3 is to rotate the cutting device 10 connected to the end of the rotary shaft 9 through the driving force transmission device 7, the shaft 6, the rotary shaft 9 and The hydraulic pressure of the hydraulic pump 2 is transmitted to the cutting device 10 through the hydraulic line 13 to develop the support roller 11 and the cutter 12 in close contact with the inner circumferential surface of the pile P.

Therefore, the cutting of the pile is made by the cutter 12 that is pressed against the inner circumferential surface of the pile, and the heat generated at this time is cooled by the cooling water W to protect the cutting device 10, and also the cooling water. The function of the coolant is to enable a more improved cutting operation.

When the cutting of the pile is completed, the cutting device is dismantled from the pile, the pile on the cut part is extracted from the ground, and the next operation is to dig to the end depth of the remaining type pile.

After excavating to a predetermined depth, reinforcement work of reinforcing bars and foundation work by concrete placing are performed.

By the way, the conventional method for cutting the steel pipe pile, particularly the cooling water supply method at the time of cutting had the following problems.

In other words, before the pile cutting device is installed in the pile P, the filling of the cooling water W in the pile P is very inefficient, especially when the surrounding environment is not satisfactory to find a water supply source. There was a problem.

In order to solve this problem, the Republic of Korea invention 98-3409 has been applied,

It is equipped with a hydraulic pump is installed on the ground, the control box is installed on the end of the type pile, the drive motor connected to the controller box, the rotary joint and plate connected to the hydraulic pump, connected to the plate and driven A shaft rotated by a motor, a driving force transmission device for transmitting a driving force of a driving motor to the shaft, a chuck fixing the device composed of the parts to a pile, a rotating shaft connected to the shaft in multiple stages, and the rotating shaft In the pile cutting device comprising a cutting device including a support roller and a cutter to be configured at the end of the,

Cooling water supply device of the basic pile cutting machine, characterized in that the water nozzle spray system for automatically supplying and supplying the cooling water to the cutting portion of the pile cutting device, configured to spray the cooling water to the cutting portion only during cutting It is automatically sprayed and supplied to the cutting part during cutting, so that it is not affected by the surrounding environment of the water supply source, and can greatly reduce the amount of water used, and it is not necessary to install additional equipment such as water pump and resident of many workers. It provides an effect.

However, the invention of the invention is also related to the supply of cooling water, these equipments cut the pile to a certain height on the ground surface and then put the cutting machine into the pile to cut and draw the file, the equipment of the cutting machine is heavy Because it must be mobilized, the work efficiency is lowered, there is a problem that the cost is relatively expensive.

In other words, in order to insert the cutting machine using the conventional cooling water into the work, first, a file needs to be cut by a certain height, and if the cut file is less than or equal to a certain length, there is a problem in that it is impossible to recycle the actual cutting machine. In order to cool the kerning machine in the cutting of the pile to be added to it, the working equipment is increased, and as a result, the cutting time of one pile is relatively high, resulting in an increase in air.

The present invention is to solve the above problems, to manufacture a robot equipped with a magnetic force generating means, a driving means and a torch, and to move the robot inside the file to fix using a magnetic force generating means, using a driving means By rotating the inner circumference of the pile at a constant speed, a plasma is formed between the inner circumference of the pile and the torch to cut the steel pipe pile.

As a means for achieving the above object,

The present invention provides a compressor and a plasma cutting machine for ejecting plasma ionized by arcs on a highway;

A drive unit connected to an output terminal of the compressor and plasma and configured to drive the torch along the inner circumference of the steel pipe pile; A pile cutting robot having magnetic force generating means for providing a magnetic force such that the torch and the driving means are in close contact with the pile;

And a power supply means for supplying power to the compressor, the plasma, and the pile cutting robot.

Figure 1 is an embodiment of a conventional steel pipe pile cutting device.

Figure 2 is a steel pipe pile cutting device system configuration of the present invention.

Figure 3 is a perspective view of the robot used to cut the steel pipe pile of the present invention.

Figure 4 is an exemplary view of the robot support pedestal installation of the present invention.

5 is an exemplary view showing a state in which the robot of the present invention is cutting a file.

Explanation of symbols on the main parts of the drawings

100: file cutting robot 110: torch

120: drive means 130: camera

140: lighting means 150: auxiliary wheel

160: wheels for leads 170: buffer means

180: turnbuckle 200: steel pipe pile

300: pedestal

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

Figure 2 is a steel pipe pile cutting device system configuration of the present invention.

Figure 3 is a perspective view of the robot used to cut the steel pipe pile of the present invention.

Figure 4 is an exemplary view of the robot support pedestal installation of the present invention.

5 is an exemplary view showing a state in which the robot of the present invention is cutting a file, as shown in FIG.

The present invention includes a compressor (20) and a plasma cutting machine (30) for ejecting plasma ionized by arcs on a highway;

It is connected to the output of the compressor and the plasma cutting machine 30 torch 110 for cutting the steel pipe pile 200 by the plasma by the arc discharge, and the wheel is driven by the motor rotational force formed in the form of the inner circumference of the steel pipe pile A pile cutting robot (100) having a driving means (120) for advancing the torch along with the magnetic force generating means for providing a magnetic force such that the torch (110) and the driving means (120) are in close contact with the pile;

And a power supply means 40 for supplying power to the compressor 20, the plasma cutting machine 30, and the pile cutting robot 100.

The present invention configured as described above is provided with an air compressor 20 and a plasma cutter 30 in advance, and also a power supply device 40 for supplying power to the air compressor 20 and the plasma cutter 30 in advance. Must be provided.

The air compressor 20 and the plasma cutting machine 30 are connected to a torch installed in the pile cutting robot 100 and are essential equipment for cutting the steel pipe pile by high temperature plasma by arc discharge.

In the present invention, the robot for cutting the pile 100 is inserted into the steel pipe pile 200, the predetermined length (about 20 to 30 m) is lowered and close to the inner peripheral surface of the steel pipe pile 200 by the action of the magnetic force generating means. In the state of the air compressor 20 and the plasma cutting machine 30 from the high pressure (5 ~ 6kg / ㎠) air and a large current (120A) is provided to the robot, the torch 110 is installed in the robot 100 The high temperature plasma is formed and sprayed to cut the pile 200.

In this case, the file cutting robot 100 rotates the inner circumference of the file at a constant speed, and when the first rotation is completed, the cutting of the file is completed, and the cutting file 200 is removed to the outside using a drawing device.

When using the present invention as described above, since the steel pipe pile cutting operation is made without using excessive equipment, the working speed can proceed very quickly.

That is, conventionally provided with a cutting device for cutting the file by the cutter, and to use the coolant to block the heat generated during the cutting of the file by the cutting device, the water feeder must be additionally entered, the cutting device While there is a problem in the transfer of equipment because of the high weight, the present invention does not require a separate cooling means because it uses a plasma cutting machine, because the equipment is simple and the size of the robot is very small It's much easier on the go.

In addition, since the conventional equipment is very heavy, in order to cut the file using the conventional equipment, a step of cutting the file to the ground height is added in advance, but since the robot of the present invention is light, even the file that rises from the ground can be easily It is possible to move the robot up to the upper part of the pile and drop it inside the pile to proceed with cutting the pile.

On the other hand, in the present invention, in order to facilitate the inflow of the robot, by installing a support plate 300 having a wire winding device 310 to the upper end of the pile and connecting the pile cutting robot 100 to the wire of the wire winding device 310 The robot 100 gradually descends into the pile 200 by loosening the wire 311.

That is, the support plate 300 is provided with a wire winding device 310 and a motor 320 connected to the wire winding device 310 to control the flow of the wire by mechanical power, and the forward and reverse rotation of the motor A motor output control switch 330 is provided that switches rotation.

In addition, the support plate 300 is a control switch may be installed bar, the rotary switch for controlling the rotation of the driving wheel 340, the control switch 350 for flowing the auxiliary wheel for magnetic force blocking and the camera on-off switch ( 360) is further included.

On the other hand, the file cutting robot of the present invention is provided with a magnetic force generating means, the magnetic force generating means may use a permanent magnet, an electromagnet may be used, in the present invention used a permanent magnet having a low magnetic force.

The permanent magnet should be in close contact with the robot 100 of the present invention to the steel pipe pile 200, it is preferably about 3000 gauss, attached to the lower panel of the robot, when the robot is attached to the pile by a certain length Maintain state.

The pile cutting robot includes a motor and an auxiliary wheel 150 for raising the vehicle body, and a lead wheel 160 for leading to the top of the robot so that the pile cutting robot may be detached from the magnetic force after cutting the steel pipe pile. You must install it.

This is because it is difficult to remove the robot from the steel pipe pile 200 without using the auxiliary wheel 150, because the magnet of the present invention has a very strong magnetic force, to the steel pipe using the auxiliary wheel 150 After separating the robot from the lifting wheel to the upper portion of the pile using the wheel 160 and the auxiliary wheel 150.

In addition, the pile cutting robot of the present invention further comprises a buffer means 170 including a spring on one side of the panel constituting the robot to maintain a constant distance between the torch portion 110 and the pile inner peripheral portion, which is a steel pipe This is because the inner circumference of the pile 200 is uneven, and when the buffer means 170 of the present invention is provided, the distance between the torch unit 110 and the inner circumference of the pile is increased because the robot can correct the unevenness of the bending during rotation. Maintained constant, steel pipe cutting operation using a torch can be easily made.

In addition, the present invention was to cut the file using a robot regardless of the diameter of the file bar for this purpose, the file cutting robot of the present invention can be bent at a constant angle according to the arc angle (curvature radius) of the file. In order to be divided into three parts to combine, for this purpose, by connecting the two sides of the two sides with a turnbuckle 180 to adjust the lift angle of the side portion around the middle portion.

That is, when the file cutting operation is made by inserting the robot inside the file as in the present invention, since the robot 100 should adhere to the file, the angle of bending the robot should be different according to the size of the file. In the robot is divided into three and divided into pieces to be rotated by a predetermined length by the turnbuckle 180 around the base plate.

In addition, the robot 100 of the present invention captures the image using the camera 130 for the inside of the file, the lighting means 140 for providing illumination to the inside of the file, and the lighting means 140 and the camera 130. It further comprises a display device 50 for displaying the displayed screen.

The reason for preparing the camera 130, the lighting means 140 and the display device 50 as an additional option in the present invention, the opaque gas generated while cutting the steel pipe 200, and the soil outside the steel pipe water This is because it is difficult to observe the inside of the steel pipe precisely due to the water vapor generated in the case. If cutting the steel pipe 200 of low depth, the cutting work can be performed while the naked eye is observed with the naked eye. This can be difficult to grasp.

Therefore, if the camera 130, the light supply device 140 and the display device 50, as in the present invention, it is possible to easily recognize the cutting situation of the file from the ground, it is possible to easily carry out the next drawing operation .

As described above, the present invention allows the steel pipe pile to be cut to a certain length by using a robot equipped with a magnetic force generating means, a driving means, and a torch, thereby increasing the possibility of recycling the steel pipe pile as compared to the conventional apparatus, and further improving the equipment. Simplification provides the effect of facilitating the movement between files to be cut.

Claims (10)

A compressor and a plasma cutting machine for ejecting the plasma ionized by the arc on a highway; Drive means connected to the output of the compressor and the plasma cutting machine for cutting the steel pipe pile by the plasma by the arc discharge and the wheel is driven by the motor rotational force to advance the torch along the inner circumference of the steel pipe pile; A pile cutting robot having magnetic force generating means for providing a magnetic force such that the torch and the driving means are in close contact with the pile; Steel compressor pile cutting device using a robot, characterized in that it comprises a compressor and plasma, and a power supply means for supplying power to the pile cutting robot. The method of claim 1, By connecting the pile cutting robot with a wire to install the wire winding device to allow the robot to descend slowly into the pile by the unwinding of the wire, and the support plate for mounting the wire winding device to allow the robot to flow in a stable state. Steel pipe pile cutting device using a robot. The method of claim 2, The support plate is connected to a wire winding device for controlling the flow of the wire by mechanical power, a motor output control switch for switching the forward and reverse rotation of the motor, a rotary switch for controlling the rotation of the driving wheel, Steel pipe pile cutting device using a robot characterized in that it further comprises a control switch and a camera on-off switch for flowing the auxiliary wheel for magnetic force blocking. The method of claim 1, The magnetic force generating means is a steel pipe pile cutting device using a robot, characterized in that any one selected from a permanent magnet or an electromagnet magnetized by the power supply. The method of claim 1, The pile cutting robot further includes a camera for photographing the inside of the pile, an illumination supply device providing illumination in the pile, and a display device for displaying a screen photographed using the illumination supply device and the camera. Steel pipe pile cutting device using a robot. The method of claim 1, The pile cutting robot, the steel pipe pile cutting device using a robot, characterized in that further comprises a buffer means for maintaining a constant distance between the torch and the pile inner peripheral portion. The method of claim 1, The pile cutting robot is a steel pipe pile cutting device using a robot, characterized in that further comprising a motor and an auxiliary wheel for raising the vehicle body, and a wheel leading to the upper portion to remove the magnetic force to the outside after cutting the steel pipe pile. . The method of claim 1, The pile cutting robot is divided into three parts so as to be able to be bent at a constant angle according to the arc angle (curvature radius) of the pile, and for this purpose, two sides of both sides are connected by a turnbuckle to both sides of the middle part. Steel pipe pile cutting device using a robot characterized in that to adjust the lifting angle of the side portion. Transferring the robot into a file; Receiving the ionized plasma through a compressor and a plasma cutter connected to the robot; Ejecting plasma to the steel pipe pile using a torch attached to the robot, and cutting the inner periphery of the pile by one rotation; Demolishing the robot to the outside; Steel pipe pile cutting method using a robot comprising a step of drawing a steel pipe pile. The method of claim 9, The step of transporting the robot into the pile, the steel pipe pile cutting method using a robot, characterized in that consisting of the step of mounting the base plate on the top of the pile to loosen the wire connected to the robot and slowly descend into the pile.