KR20070011898A - Remte controllable mobile wire saw independent car - Google Patents

Abstract

A remote control movable wire saw self-propelled vehicle remotely controlled is provided to cut down cost, and to prevent injury of a worker by promptly and securely cutting a structure with a remote controller. A remote control movable wire saw self-propelled vehicle includes a vehicle body(10) remotely controlled by connecting a control box to a remote control switch with a control cable, a wire saw machine(100) having a body(110) combined with a driving pulley(111), a vertical support bar(120) vertically formed in front of the body and combined with a guide pulley(121) and a wire saw(130) connected to the driving pulley and the guide pulley to cut a structure, and a transfer unit(200) having a main frame(210) longitudinally installed, opened backward and attached to a rear end of a hydraulic cylinder(211), a transfer frame(220) sliding backward, a transfer tray(230) installed in the transfer frame to fix the wire saw machine and combined with a chain(235) and a sprocket(234) installed in front and rear parts of the transfer frame to fix an end of the chain to a rear part of the main frame. The transfer tray is composed of the sprocket and the chain by assembling a rack with a gear, a gear and a gear train and a belt and a wheel.

Description

Remote Controllable Mobile Wire Saw Independent Car

1 is a perspective view showing a mobile wire saw self-propelled vehicle capable of remote control according to the present invention.

Figure 2 is a plan view showing a mobile wire saw self-propelled vehicle capable of remote control according to the present invention.

Figure 3 is a perspective view showing a machine transfer unit of the remote control movable wire saw self-propelled vehicle according to the present invention.

Figure 4 is an exploded perspective view showing the machine transfer unit of the remote control movable wire saw self-propelled vehicle according to the present invention.

FIG. 5 is a plan view illustrating the operation of the machine transfer unit of the mobile wire saw self-propelled vehicle capable of remote control according to the present invention;

A) is a plan view showing the state before the sawing machine,

B) is a plan view showing the state during sawing machine transfer,

C) is a plan view showing the state after the sawing machine transfer,

* Explanation of symbols for main parts of drawings *

1: self-driving car 10: body

20: caterpillar 30: control box

40: remote control switch 41: control cable

100: wire saw machine 110: body

111: drive pulley 120: support

121: guide pulley 130: wire saw

200: transfer unit 210: main frame

211: hydraulic cylinder 212: guide rail

213: support 214: hydraulic hose

220: transfer frame 221: hole

222: guide rail 223: feed roller

224: guide roller 230: feed tray

231: hole 232: feed roller

233: guide roller 234: sprocket

235: chain

The present invention relates to a mobile wire saw self-propelled vehicle that can be remotely controlled, and more particularly, to control the wire saw mounted on the vehicle at a long distance to smoothly and safely cut a building or civil engineering structure to be demolished to improve work efficiency and at a distance. The present invention relates to a mobile wire saw autonomous vehicle that can be controlled remotely so that the operator can be safe from accidents.

In general, the dismantling of construction or civil engineering structures is carried out by hanging vertical or horizontal steel balls at the tip of the crane and striking them by connecting large brakes to excavators, etc., but the noise and vibration are large and scattering of debris is generated. It was difficult to predict the collapse and had to cut the rebar separately.

On the other hand, when explosives are installed by explosives by blasting method, there is an advantage that they can be quickly dismantled, but the fragments are large and powerful, which can give great influence to adjacent buildings, so it is almost used for demolition of dense areas It is impossible to do it, it generates a large amount of dust at a time, high level of technology is required due to the risk of safety accidents, and often the structure is not destroyed enough by the blasting, which makes it difficult to dispose of the remaining structures. There was a problem that aggravated.

For this reason, in consideration of the surrounding environment of demolition, a method of cutting and removing a column or a concrete wall of a structure using a wire saw has recently been developed.

In other words, the demolition using the wire saw wound the wire saw around the structure to be cut and pulled it in the wire saw machine and rotated it to cut each structure and proceed with the demolition work.

This cutting using wire saw is to install a rail on the rear of the wire saw machine and move it to the rear to pull the wire saw, or to connect the wire saw machine to a mobile vehicle such as an excavator to install the wire saw in the telescope type to pull it Subject to cut.

However, the cutting using such a wire saw not only raises the risk of worker's safety accident by cutting at a short distance but also winds the wire saw several times and stretches it so that expensive wire saws are formed long, resulting in a cost increase as well as the characteristics of the wire saw. If a part of the used diamond tip is damaged or broken, it is impossible to reuse, so it has to be replaced from time to time, there was an uneconomic problem.

Therefore, the main object of the present invention is to enable the effective use of wire saw to reduce the cost and to cut the structure by remote control, so that even if a safety accident occurs, it is possible to suppress human injury and quickly and safely without installing a separate rail It is to provide a mobile wire saw autonomous vehicle that can be remotely controlled so that it can work and get the best cutting efficiency.

In order to achieve the above object, the mobile wire saw autonomous vehicle of the present invention can be remotely controlled by installing a control box for controlling the operation, but connecting the remote control switch with a control cable to the control box so that the vehicle can be controlled at a long distance. And, install the body on one side of the upper plate of the vehicle body coupled to the drive pulley on one side of the body and form the support vertically in front of the body to combine the guide pulleys on the top and bottom of the support, and to the drive pulley of the body and the guide pulley of the support A wire saw machine having a wire saw which is wound around the structure to be connected and cut and a main saw which is installed in the longitudinal direction of the vehicle body and whose main frame is opened at the rear, is installed at the rear end of the hydraulic cylinder in the center of the front end of the inner cylinder. Attach in the longitudinal direction, sliding backwards on the inner side of the mainframe Install the transfer frame, but attach the rod of the hydraulic cylinder to the center of the rear end inside, and install the transfer tray inside the transfer frame to settle the wire saw machine and fix it. The sprockets are installed on the front, rear, left, and right sides of the chain to connect the chain, and the end of the chain consists of a conveying part fixed to the rear side of the main frame.

Referring to the preferred embodiment of the present invention configured as described above with reference to the accompanying drawings as follows.

1 is a perspective view showing a mobile wire saw self-propelled vehicle capable of remote control according to the present invention, Figure 2 is a plan view showing a mobile wire saw self-propelled vehicle capable of remote control according to the present invention, Figure 3 is according to the present invention 4 is a perspective view showing an exploded view of the transfer part of the mobile wire saw machine capable of remote control, and FIG. 4 is an exploded perspective view of the transfer part of the moveable wire saw machine according to the present invention, and FIG. 5 is a remote control according to the present invention. (A) is a plan view showing the state before sawing machine transfer, b) is a plan view showing the state during sawing machine transfer, and c) is a sawing machine transfer. It is a top view which shows the state after.

1 to 5, the mobile wire saw self-propelled vehicle capable of remote control of the present invention is provided with a vehicle body 10 equipped with a conventional control box 30 for controlling driving, and on one side of the upper surface of the vehicle body 10. It comprises a wire saw machine 100 to be installed, and a transfer part 200 formed of a multi-stage frame for transferring the wire saw machine 110.

The vehicle body 10 preferably has an endless track 20 at the bottom, but is not limited thereto. Furthermore, the vehicle body 10 is provided with a conventional engine, steering, a body of the vehicle, and a basic electric field for moving it therein. In addition, by installing the control box 30 to drive such a vehicle body 10 to control the vehicle body 10, but does not limit the installation position. In particular, it is preferable to control the remote control switch 40 to the control box 30 by a control cable 41 to allow a remote control.

The wire saw machine 100 is coupled to the drive pulley 111 on one side of the wire to rotate the body 110 and vertically formed in front of the body 110, but the guide pulley 121 is coupled to the top and bottom It is composed of a wire saw 130 that is wound around the structure to be cut by connecting to the support 120, the drive pulley 111 of the body 110 and the guide pulley 121 of the support 120. .

The body 110 is connected to the power source of the vehicle body 10 so that the drive pulley 111 rotates in a normal operation.

The support 120 is preferably formed to guide the pulleys 121 up and down, but to form a pair of guide pulleys 121 on the upper side to prevent the wire saw 130 from detaching, it is preferable to guide safely. Here, the lower side guide pulley 121 may also be formed in a pair.

The wire saw 130 is generally coupled to the diamond tip in order to be fixed to the outer periphery of the wire formed by twisting the steel wire and connected to both ends of the sleeve by a sleeve.

On the other hand, the control of the wire saw machine 100 is preferably controlled to be remotely controlled by a remote control switch 40 connected by a control cable 41.

The transfer part 200 is installed in the longitudinal direction on the floor of the vehicle body 10, but the main frame 210 and the main frame 210 is attached to the hydraulic cylinder 211 in the longitudinal direction inside the front end and open the rear, the main frame 210 ) Is installed to slide rearward in the inner side of the transfer frame 220 to which the rod of the hydraulic cylinder 211 is attached to the inner rear end, and the wire sawing machine 100 is placed inside the transfer frame 220. The chain 235 is coupled to the left and right sides, and the sprocket 234 is installed at the front, rear, left, and right sides of the transfer frame 220 to connect the chain 235, and the end of the chain 235 is the rear side of the main frame 210. It consists of a feed tray 230 fixed to.

The main frame 210 forms a guide rail 212 in the longitudinal direction on the inner left and right, and forms a plurality of support 213 on the lower side thereof and is coupled to the upper end of the support 213. Here, the guide rail 212 is preferably used to form the main frame 210 in the "c" shape. Further, the hydraulic cylinder 211 of the main frame 210 is connected to the hydraulic hose 214, but is driven by the power of the vehicle body 10 to the hydraulic pump to control this. In addition, such control is preferably controlled at a long distance through the remote control switch 40 connected to the control cable 41.

The conveying frame 220 is formed to a plurality of conveying rollers 223 protruding outward to the left and right to be fitted to the guide rail 212 of the main frame 210 to protrude along the guide rollers 224 formed vertically together. It is preferable to make the sliding of the transfer frame 220 smoothly and accurately. Furthermore, a hole 221 is formed in the front center of the transfer frame 220 so that the hydraulic cylinder 211 can be loosely penetrated, so that the rod of the hydraulic cylinder 211 penetrated may be coupled to the rear side of the transfer frame 220. Make sure In addition, the guide rails 222 having the same shape as the main frame 210 are formed on the inner left and right sides of the transfer frame 220.

The transfer tray 230 is formed to a plurality of transport rollers 232 protruding outward to the left and right to be fitted to the guide rail 222 of the transport frame 220, but protrudes along the guide roller 233 formed vertically It is preferable to make the sliding of the transfer tray 230 smooth and accurate. Furthermore, it is preferable to form holes 231 in the front and rear centers of the transfer tray 230 so that the hydraulic cylinder 211 can be penetrated loosely so that interference by the hydraulic cylinder 211 does not occur. In addition, the transfer tray 230 is coupled to the chain 235 front and rear left and right and install the sprocket 234 in the front and rear and left and right of the transport frame 220 to connect the chain 235, but the end of the chain 235 to the main frame ( It is formed by being fixed to the rear support 213 of 210. At this time, the transfer tray 230 should be coupled to be positioned in front of the transfer frame 220 in the state before the transfer. On the other hand, the transfer tray 230 is preferably formed by the sprocket 234 and the chain 235 to accurately transfer the size of the power to pull the wire saw machine 100 installed in the transfer tray 230 with a desired force. However, it may be formed of a rack, a gear or a train and a belt of the gear and the gears, or a combination thereof.

Referring to the operation of the present invention as follows.

First, the control box 30 is operated to position the self-propelled vehicle at an appropriate position, and the wire saw 130 is wound around the structure to be cut and fixed in a desired position.

In this state, the wire saw machine 100 is driven to perform the cutting operation of the structure, and at the same time, the hydraulic cylinder 211 is operated to move the wire saw machine 100 to a suitable pressure to the rear side, so that the wire saw 130 is pulled to the structure. While applying the appropriate pressure to the wire saw 130 is rotated to continue the cutting operation of the structure.

In detail, when the hydraulic cylinder 211 is operated, a set pressure is applied to the rod to move forward, thereby pushing the transfer frame 220 coupled to the front end to the rear side.

At the same time, since the sprocket 234 pulls the chain 235 toward the rear side of the conveying frame 220 backward, the conveying tray 230 located at the front side of the conveying frame 220 coupled to the chain 235 is gradually moved backward. Since it moves, the wire saw machine 100 fixed and placed in the transfer tray 230 is moved backward.

In detail, the end of the sprocket 234 is fixed to the rear support 213 of the main frame 210 so that the chain 235 is not rotated and the chain 235 is pulled backward while the sprocket 234 is rotated. Since the transport tray 230 coupled to the fixed movement is also gradually moved to the rear, the wire saw machine 100 fixed and placed in the transfer tray 230 is moved to the rear.

Therefore, since it is dispersed and moved backwards, the wire saw machine 100 is smoothly moved backwards even with a small force. As a result, the wire saw 130 of the wire saw machine 100 cuts the structure while applying an appropriate pressure. Damage to the wire saw 130 caused by pressure imbalance of the saw 130 can be minimized.

In the present invention, since the rear movement distance of the transfer frame 220 and the rear movement distance of the transfer tray 230 are added, a wire saw 130 having a length or diameter that can rotate its length or diameter even in a structure having a large diameter or length. It is possible to carry out the cutting work sufficiently, thereby minimizing the burden of tension and thereby it is very economical.

In addition, since a series of controls for the rebar work to the cutting is carried out by a remote control switch 40 at a long distance, it is possible to protect human life and work safely from an accident such as collapse that may occur during the cutting process.

As described above, the mobile wire saw self-propelled vehicle of the present invention can be remotely controlled by installing a control box 30 for controlling the operation of the remote control switch 40 in the control box 30, the control cable 41 By installing the body 10 and the body 110 to be controlled at a distance from the remote control, the body 110 is installed on one side of the upper plate of the body 10, the drive pulley 111 is coupled to one side of the body and in front of the body 110 The support 120 is formed vertically to couple the guide pulley 121 to the upper and lower sides of the support 120, to connect to the drive pulley 111 of the body 110 and the guide pulley 121 of the support 120 to cut The wire saw machine 100 having a wire saw 130 wound around the structure to cut it and installed in the longitudinal direction of the vehicle body 10, the rear side of the main frame 210 is installed by installing the inner side The rear end of the hydraulic cylinder 211 in the center of the front end Install the conveying frame 220 to be attached in the direction and to slide rearward on the inner side of the main frame 210, but attaching the rod of the hydraulic cylinder 211 to the inner rear end center and conveyed to the inner side of the conveying frame 220 The tray 230 is installed to secure the wire sawing machine 100, and the chain 235 is coupled to the left and right of the transfer tray 230, and the sprocket 234 is installed at the front, rear, left and right sides of the transfer frame 220. Since the chain 235 is connected and the end of the chain 235 is configured as a conveying part 200 fixed to the rear side of the main frame 210, the wire saw can be effectively used to reduce the cost and the structure can be remotely controlled. This ensures that even in the event of a safety accident, human injury can be suppressed, and that work can be done quickly and safely without installing a separate rail. There is an effect that can help.

Claims (3)

Installing the control box 30 to control the operation, but connected to the remote control switch 40 to the control box 30 with a control cable 41 to allow a control from a long distance, and The body 110 is installed on one side of the upper surface of the vehicle body 10, but the driving pulley 111 is coupled to one side of the body, and the support 120 is vertically formed in front of the body 110 to guide the upper and lower sides of the support 120. Coupled to the pulley 121 and connected to the drive pulley 111 of the body 110 and the guide pulley 121 of the support 120 is wound with a wire saw 130 to cut the wound around the structure to be cut Wire saw machine 100, The main frame 210 is installed in the longitudinal direction of the vehicle body 10 but the rear side is opened, and the rear end of the hydraulic cylinder 211 is attached to the center of the front end in the longitudinal direction, and the inner side of the main frame 210 is installed. Install the transport frame 220 to be slid rearward on the inner side of the rear end of the hydraulic cylinder 211 is attached to the rod, and the transport tray 230 is installed on the inner side of the transport frame 220 wire saw machine ( 100 is settled and fixed, but the chain 235 is coupled to the left and right of the transfer tray 230, and the sprocket 234 is installed on the front, rear, left and right of the transfer frame 220 to connect the chain 235 and the chain 235 Remote control movable wire saw self-propelled vehicle, characterized in that the end portion of the main frame 210 is fixed to the conveying unit 200 is configured. The method of claim 1, The main frame 210 is formed with a guide rail 212 in the longitudinal direction on the inside left and right, and a plurality of support 213 formed on the lower side, and each of the transfer frame 220 and the feed tray 230 to the left and right A plurality of feed rollers 223 and 232 protruding outward are formed to be fitted to the guide rails 212 of the main frame 210 and the guide rails 222 of the feed frame 220, but vertically formed guide rollers 224 and 233 are formed. Protruding together to facilitate the sliding of the transfer frame 220 and to form a through hole (221, 231) so that the hydraulic cylinder 211 can be penetrated loosely in the front and rear ends of the transfer frame 220 and the transfer tray 230. The rod of the hydraulic cylinder 211 can be coupled to the rear side of the transfer frame 220, the end of the chain 235 is fixed to the rear support 213 of the main frame 210 in the transfer tray 230 When the feed tray 230 is A mobile wire saw self-propelled vehicle that can be remotely controlled, characterized in that configured to be positioned in front of the song frame 220. The method according to claim 1 or 2, The conveying tray 230 is formed of a sprocket 234 and a chain 235, and can be remotely controlled, characterized in that formed by forming a rack and gears, a gear and a train of gears, and a belt and a wheel or a combination thereof. Mobile wire saw self-propelled vehicle.

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