KR100976804B1 - lug cutter - Google Patents

Abstract

The present invention relates to a lug cutting device, and more particularly, to a lug cutting device of a new type that allows for a simpler, smoother and faster operation for removing the lug.

To this end, the present invention comprises a main frame configured to be movable while forming a body; A lug fixed to the surface of the hull block is installed on the main frame to cut the lug, a body frame installed on the main frame so as to be movable back and forth, a cutting member made of a band saw to cut the lug, and the cutting on the outer peripheral surface. Lug consisting of a driving motor for driving any one of the three driving pulleys and the three driving pulleys installed in a triangular arrangement to operate the cutting member in a direction perpendicular to the cutting direction of the lug and the member is wound. Cutting part; And, between the two driving pulleys located relatively lower in the body frame of the lug cut portion is installed to correspond to each other so that the cutting member of the lug cut portion passing through the portion does not contact the ground, but the state adjacent to the ground Lug cutting device is provided, characterized in that it comprises a pair of guide portion for guiding to maintain.

Lug cutting device, guide part, cutting member, tension adjusting part, angle adjusting part

Description

Lug cutter

The present invention relates to a lug cutting device, and more particularly, to a lug cutting device of a new type that allows for a simpler, smoother and faster operation for removing the lug.

In general, the shipbuilding industry completes the ship through a loading process. At this time, the mounting process is a series of processes to complete the ship by stacking and connecting them after the production of the whole ship divided into a number of large blocks when the ship is built.

In the mounting process as described above, large cranes are inevitably used, and therefore, each block is provided with lugs for connection with the crane.

The lug is made through a separate production and then fixed by welding to each of the blocks, and the hook (hook) of the crane to the lug is carried to the position required for the block.

However, while the lugs as described above are very useful and necessary configurations in the mounting process, the lugs had to be removed from the block after the mounting process was completed, and the removal of such lugs had considerable difficulty compared to the installation process. . In particular, the above lugs are installed quite robust to prevent safety accidents, so the removal process was more difficult.

In particular, since the block has already been painted in the manufacturing process, even if the lug is removed, the coating should not be damaged on the opposite side of the portion where the lug is installed.

Nevertheless, since the process of removing the lug from the block is conventionally performed using an oxygen cutter, damage to the coating of the block is caused, thereby preventing heat transfer around the lug to remove the lug. There was an inconvenience of having to proceed with the work after filling the water by installing a dam for water.

Therefore, in recent years, the Utility Model Publication No. 20-0317671, Registration Utility Model Publication No. 20-0342910, Registration Utility Model Publication No. 20-0364425 and Patent Registration Publication No. 10-0628836 to solve the above-mentioned problems. As such, a technique for removing lugs using a band saw or a large cutter has been developed.

However, the above-described prior arts generate a phenomenon in which the residual stresses remaining in the lugs are continuously deformed while a new equilibrium state is generated during welding during substantial cutting of the lugs.

That is, due to the continuous deformation described above, the gap that is preferentially cut during the cutting process is gradually narrowed, thereby deforming, breaking or fixing the cutting tool passing through the corresponding part, thereby preventing smooth cutting. .

In addition, the above-mentioned prior arts had to process some residues of the lugs remaining on the surface of the block after the cutting operation of the lug had to be processed by a separate device such as a lug milling machine, thereby requiring a long overall working time. There is this.

Accordingly, Korean Patent Application Publication No. 10-2007-001863 filed by the present applicant has been proposed to integrate a separate structure to reduce the residual stress in the lug cutting device.

However, the above-described technology has a problem that the work takes a long time and the size of the overall equipment is inevitably increased.

The present invention has been made to solve the various problems of the prior art described above, the object of the present invention is to sufficiently overcome the effects of deformation due to residual stress, the height of the remaining portion after cutting is sufficiently low, saw blade is It is to provide a new type of lug cutting device that can be operated stably.

According to the lug cutting device of the present invention for achieving the above object a main frame configured to be movable while forming a body; A lug fixed to the surface of the hull block is installed on the main frame to cut the lug, a body frame installed on the main frame so as to be movable back and forth, a cutting member made of a band saw to cut the lug, and the cutting on the outer peripheral surface. Lug consisting of a driving motor for driving any one of the three driving pulleys and the three driving pulleys installed in a triangular arrangement to operate the cutting member in a direction perpendicular to the cutting direction of the lug and the member is wound. Cutting part; And, between the two driving pulleys located relatively lower in the body frame of the lug cut portion is installed to correspond to each other so that the cutting member of the lug cut portion passing through the portion does not contact the ground, but the state adjacent to the ground A pair of guide portion for guiding to maintain: characterized in that it is configured to include.

Here, each guide portion is a guide body which is installed to be rotated up and down while corresponding to each other between the two driving pulleys located on the relatively lower side of each portion of the body frame, and the cutting member on the rear end of the guide body Supported rollers rolling while pressing the upper surface of the cutting member while being installed in a cloudable direction along the moving direction of the guide member, and in contact with the ground while being cloudably installed along the moving direction of the body frame on the outer surface of the end of the guide body. Rolling interval maintaining roller and one end is rotatably coupled to the upper portion of the guide body of the body frame, the other end is rotatably coupled to the upper surface of the guide body to rotate the guide body selectively up and down It is characterized by including a dedicated cylinder.

In addition, the body frame of the lug cut portion is characterized in that it further comprises a tension adjusting unit for adjusting the height of the drive pulley located on the upper side of the three drive pulleys, the tension control unit is fixed to the upper surface of the body frame A lower plate, an upper plate corresponding to the lower plate and positioned in an upper space of the lower plate, a plurality of elastic members installed between the lower plate and the upper plate, and a driving unit located above the three driving pulleys. Lifting plate coupled to the rear of the pulley, the lower plate and the upper plate and the upper and lower surfaces of the body frame in order to pass through the lifting shaft fixed to the upper surface of the elevating plate, screwed to the upper end of the elevating shaft, Lift and lower the lifting shaft Characterized in that it comprises a lifting handle to be lifted.

In addition, the main frame is characterized in that it further comprises a frame transfer unit for selectively moving back and forth the lug cut portion, and an angle adjuster for the selective angle adjustment of the lug cut portion, the angle adjuster is driven for angle adjustment The angle adjustment motor, the ball screw rotated by the drive of the angle adjustment motor, coupled to any one side of the body frame, the bottom surface is rotatably installed on the frame transfer portion, the ball screw is coupled to the outer surface through By the rotation of the ball screw while the first screw and the connecting end is configured to include a forward or reverse connection with the ball screw and the angle control motor, and the other side of the body frame is coupled to be movable in the horizontal direction The second surface and the bottom is rotatably installed in the frame transfer portion, one end of the ball screw It is through the other end thereof is characterized by comprising a support adapted to be fixed to the first part while a two-stage installation is installed to cross the main frame.

In addition, the lug cutting device of the present invention according to another aspect for achieving the above object in the configuration of the frame feeder for controlling the transfer of the lug cutting portion, constant control of the feed means and cutting force for controlling the feed speed of the lug cutting portion The frame conveying unit having two conveying means selectively used according to the working conditions such as the conveying means, the conveying means for controlling the feed rate of the lug cutting portion is used at the beginning of the lug cutting, and the cutting force is constant It is characterized in that the conveying means to be controlled to use when cutting the place where the change of the cutting area is severe.

Lug cutting device of the present invention as described above has various effects as described below.

First, the lug cutting device of the present invention has the effect that the cutting member can be stably operated due to the additional configuration of the pair of guide portion, and the cutting of the lug can be made accurately.

In particular, since the pair of guides constituting the lug cutting device of the present invention can keep the gap between the cutting member and the ground to a minimum, the height of the remaining portion of the lug after cutting is completed can be minimized. .

Second, the lug cutting device of the present invention can not only proceed with the installation of the cutting member conveniently due to the additional configuration for the tension adjusting portion, but also the cutting of the lug more precisely because the adjustment of the tension value for the cutting member can be made precisely. It has the effect that it can proceed smoothly.

Third, the lug cutting device of the present invention, even if the direction of the cutting of the lug cutting portion and the direction of forming the lug do not coincide with each other in the state where the installation of the main frame is completed by the additional configuration of the angle adjusting portion capable of adjusting the angle to the lug cutting portion. Through the adjustment of the angle of the cut portion the direction is matched with each other has the effect that the cutting operation of the more smooth lug can proceed.

Fourth, the lug cutting device of the present invention is very affected by the deformation caused by the residual stress by maintaining the right and left symmetry exactly when the cutting member cuts the support rib formed on the lug during the cutting operation by the cutting member It has the effect that the cutting operation can proceed without a separate process for resolving the residual stress.

Hereinafter, with reference to the accompanying Figures 1 to 11 will be described a preferred embodiment of the lug cutting device of the present invention.

First, the lug cutting device according to an embodiment of the present invention is configured to include a main frame 100, a lug cut portion 200 and a pair of guide portion 300, as shown in Figure 1 and 2 attached, This will be described in detail for each configuration as follows.

First, the main frame 100 is configured to enable the cloud movement while forming the body of the lug cutting device, it is formed to form a substantially rectangular frame when viewed in plan view.

At this time, the upper frame 110 of the same shape as the main frame 100 is further provided on the upper portion of the main frame 100, the upper frame 110 is a hull block (crane) during the cutting operation of the lug 10 Block for use (1) serves to prevent the problem that the lug cutout 200, which will be described later by the structures (not shown) around the periphery of interference caused by the movement.

That is, in the case of the lug cutting process by the lug cutting unit 200 which will be described later, the collision of the lug cutting unit 200 may be caused by various other structures existing around the site where the lug 10 is installed. By making it possible to determine in advance, the problem that the lug cut portion 200 hits the structures and is damaged is to be prevented in advance.

In addition, the main frame 100 is configured to further include a plurality of wheels (120, 130, 140).

Each of the wheels 120, 130, and 140 is a series of configurations that enable rolling movement of the main frame 100, and suggests that the wheels 120, 130, and 140 are installed on both front and rear centers of the main frame 100, respectively.

Particularly, in the embodiment of the present invention, the wheel 120 installed at the rear center side of the main frame 100 is further provided with an operation handle 150 for manipulating the direction according to its needs.

In addition, in the embodiment of the present invention, the wheels 120, 130, and 140 described above are configured to be able to be lifted in the vertical direction according to their needs, and the four corners of the bottom surface of the main frame 100 of the wheels 120, 130, and 140 are respectively provided. It is further suggested that a support leg 160 mounted on the hull block is further provided when raised.

In the above-described configuration, the wheels 120, 130, and 140 serve to facilitate the movement of the lug cutting device in the process of moving the lug cutting device to the working position. However, the lug cutting device may reach the working position. In this case, because the wheels 120, 130, and 140 during the cutting operation may cause flow to cause cutting failures.

Accordingly, during the cutting operation, it is most preferable to move the wheels 120, 130, and 140 upward so that the support legs 160 are placed on the surface of the hull block 1 to prevent the flow thereof.

At this time, as a series of structures for lifting each of the wheels (120, 130, 140) is configured to form a four-section link structure of the wheel housing 101 and two links to the main frame 100, the wheel housing 101 ) And a separate four-section link between the elevating cylinder 170 and the main frame 100 to constrict / expand (the cylinder rod 171 is drawn in / extruded) the elevating cylinder 170. It is preferable that the structure is configured to be easy to move by lowering / raising the entire lug cutting device while rising / falling).

Each of the support legs 160 and the wheels 120, 130, and 140 as described above is determined to have a height at which the main frame 100 can be positioned higher than the height of the lug 10.

Next, the lug cut part 200 is demonstrated.

The lug cut part 200 is a series of configurations for cutting the lug 10 fixed to the surface (surface of each block forming the hull) of the hull block 1 in the state installed in the main frame 100, the body The frame 210, the cutting member 220, three driving pulleys 230, 240, 250, and a driving motor 260 are included.

Here, the body frame 210 is a configuration in which the drive pulleys 230, 240, 250 and the drive motor 260 are installed while being positioned inside the main frame 100, and the bottom of the center side of the body frame 210 is installed. The lug 10 and the support ribs 11 formed on the lug 10 are formed to be opened so that they can pass through.

In particular, the body frame 210 is configured to be selectively moved in the front and rear direction (cutting direction of the lug) with respect to the main frame 100 to the main frame 100 to cut the lug 10 It is preferable not to move.

To this end, the lug cut part 200 according to an embodiment of the present invention further suggests that the frame transfer part 270 is provided to enable the body frame 210 to be transferred toward the front and rear directions of the main frame 100.

In this case, the frame conveying unit 270 is provided on both sides of the inner side of the main frame 100 along a cutting direction of the lug 10 and a pair of support rails 271 and 272 and outer sides of the body frame 210, respectively. It is configured to include a pair of transfer blocks (273, 274) and the transfer cylinder (275) for forcibly moving the two transfer blocks (273, 274) that are fixed while being guided by the support rails (271, 272).

Here, one of the two transport blocks (273, 274) of the transport block (hereinafter referred to as "first transport block") 273 is a support rail (hereinafter referred to as "the first transport block" 273) is installed Support rail ”) 271, which is freely movable, and the other transport block (hereinafter referred to as“ second transport block ”) 274 is formed on the side where the transport block 274 is installed. It is configured to be moved back and forth with the driving force by the transfer cylinder 275 in a state connected to the support rail (hereinafter referred to as "second support rail") (272).

In particular, the reason why the transfer cylinder 275 is used as a configuration for forcibly conveying each of the transfer blocks 273 and 274 is to cut while passing through a place where the change of the cutting area is severe or the support rib 11, or the cutting member ( Considering the necessity of a device for precisely controlling the cutting force pushing the cutting member in the feeding direction in order to be able to actively cut even if the load conditions change due to abrasion of 220), the respective conveying blocks 273 and 274 are forcibly fed. This is because it is most preferable to use a cylinder that uses hydraulic pressure or pneumatic pressure as the configuration to make it.

Of course, it is more preferable that the frame transfer unit 270 has a separate device in charge of the necessary transfer control according to the working conditions so that the cutting unit can be properly used at a necessary time so that the cutting can be performed more smoothly and quickly. That is, in configuring the frame feed unit 270 for controlling the feed of the lug cut portion, the feed means for controlling the feed speed of the lug cut portion 200 and the feed means for controlling the cutting force is used selectively depending on the working conditions The frame conveying unit 270 having two conveying means, the conveying means for controlling the feed rate of the lug cutting unit 200 is used at the beginning of the lug cutting, the conveying means for controlling the cutting force is It is more preferable that it is configured to use when cutting a place where the change of cutting area is severe.

Therefore, the lug cut part 200 is moved by the configuration of the frame conveying part 270 and the lug 10 and each support are selectively moved while the main frame 100 is fixed to the surface of the hull block 1. The rib 11 is cut off.

The cutting member 220 constituting the lug cut part 200 is configured to cut the lug 10 and each of the supporting ribs 11. In the first embodiment of the present invention, the cutting member 220 is used. It is shown that is formed into a band saw (band saw).

In addition, the three driving pulleys 230, 240, and 250 forming the lug cut part 200 operate the cutting member 220 in a direction perpendicular to the cutting direction of the lug 10 while the cutting member 220 is wound around the outer circumferential surface thereof. It is a series of configuration that is operated so that the lug 10 is cut.

At this time, any one of the three drive pulleys (230,240,250) (hereinafter referred to as "first drive pulley") 230 is installed in the upper center of the body frame 210, the other drive pulley ( Hereinafter, “second drive pulley” 240 is installed at the lower left side of the body frame 210, and the other driving pulley (hereinafter referred to as “third drive pulley”) 250 is provided. While installed on the lower right side of the body frame 210 is configured to form a triangle with each other.

In addition, the drive motor 260 is installed to rotate the drive pulley while being installed in any one of the three drive pulleys (230,240,250). In the embodiment of the present invention, it is suggested that the driving motor 260 is installed in the first driving pulley 230 among the three driving pulleys.

Next, the pair of guide units 300 will be described.

Each of the guide parts 300 is a series of configurations for guiding the cutting member 220 of the lug cut part 200 to maintain the state adjacent to the hull block 1 while not contacting the ground.

That is, each of the guide portion 300 is configured to prevent the influence of the deformation on the residual stress during the cutting of the lug 10, so that the remaining portion after cutting is extremely small.

Each guide portion 300 is a guide body 310, the support roller 320, the interval maintaining roller 330 and the guide rotation cylinder 340, respectively, as shown in Figure 3 and 4 attached It is configured to include.

Here, the guide body 310 is a portion constituting the body of each guide portion 300, between the second driving pulley 240 and the third driving pulley 250 of each portion of the body frame 210. It is installed to correspond to each other.

At this time, the outer end of the guide body 310 (portion located adjacent to each drive pulley) is rotatably coupled to the body frame 210, the inner end of the guide body 310 (adjacent to each other) To be positioned) is positioned adjacent to the cutting member 220 passing through the portion.

In addition, the support roller 320 is a roller for rolling motion while pressing the upper surface of the cutting member 220, to enable rolling along the direction of movement of the cutting member 220 on the rear end of the guide body 310. Is installed.

The gap maintaining roller 330 is a roller for maintaining a constant gap between the cutting member 220 and the ground so that the cutting member 220 does not come into contact with the ground, and the outside of the end of the guide body 310. It is installed to be able to roll along the moving direction of the body frame 210 on the side, and is configured to roll in contact with the ground.

The guide rotating cylinders 340 are cylinders provided to correspond to the guide bodies 310, respectively, and one end (body part) is horizontal in the body frame 210 in the horizontal direction (moving direction of the cutting member). Is rotatably coupled toward, the other end (rod portion) is rotatably coupled to the upper surface of the guide body 310.

Each of the guide rotation cylinder 340 as described above is the guide body 310 when the position of the guide body 310 is located adjacent to the support rib 11 that was supporting the lug 10, the guide as shown in Figs. By rotating the body 310 upwards is a configuration to prevent abutment between the guide body 310 and the support rib (11). Of course, the operation of the guide rotating cylinder 340 is made by detecting whether or not the object (support rib) existing in front of each of the guide body 310 adjacent to the guide body 310 adjacent to each other. It is configured to further include a sensor (not shown) to enable.

On the other hand, the lug cutting device according to an embodiment of the present invention is further configured to further include a tension control unit 400 for adjusting the tension by changing the height of the first driving pulley 230 of each drive pulley (230,240,250). To present.

At this time, the tension control unit 400 is to make it easier to install the cutting member 220 to each drive pulley (230,240,250) and the tension control for the cutting member 220 is installed as described above It is a series of configurations to make it smooth.

That is, when the cutting member 220 is installed or removed from each of the driving pulleys 230, 240, and 250, the first driving pulley 230 is positioned low so that the operation can be easily performed, and the cutting member ( In the state in which the 220 is installed at each of the driving pulleys 230, 240, and 250, the cutting member 220 is prevented from being removed from the driving pulleys 230, 240, and 250 through the operation of gradually positioning the first driving pulley 230. In addition to that to be able to accurately adjust the tension value required for the cutting member 220.

The tension adjusting unit 400 is a lower plate 410 is fixedly installed on the upper surface of the body frame 210, as shown in Figure 7 and 8, the lower plate and corresponding to the lower plate 410 An upper plate 420 positioned in an upper space of the 410, a lifting plate 430 coupled to a rear surface of the first driving pulley 230, the lower plate 410, an upper plate 420, and a body. Lifting shaft 440 fixed to the upper surface of the elevating plate 430 while sequentially passing through the upper surface of the frame 210, and screwed to the upper end of the elevating shaft 440, the elevating shaft ( The lifting handle 440 is configured to include a lifting handle 450 for lifting the lifting plate 430.

In this case, a plurality of elastic members 460 are provided between the lower plate 410 and the upper plate 420 to maintain a constant distance from each other.

In addition, the lug cutting device according to an embodiment of the present invention further suggests that the angle adjustment unit for the selective angle adjustment for the lug cut portion 200 is further included.

In this case, the angle adjusting unit is a series of configurations for allowing the direction in which the lug cutout 200 is moved and the direction in which the lugs 10 are formed to coincide with each other.

If the installation direction of the main frame 100 does not coincide with the optimum direction for cutting the lug 10, the cutting member 220 is operated to cut the lug 10 at an angle so that the cutting member is cut. As the load applied to the 220 is increased, the deformation of the cutting member 200 may be intensified, or a problem may occur.

Therefore, even if the installation direction of the main frame 100 is not matched with the optimal direction for cutting the lug 10 through the additional provision of the angle adjuster as in the embodiment of the present invention, the lug cutout 200 is moved. It is most desirable to allow the direction and the direction of formation of the lug 10 to coincide with each other.

As described above, the angle adjusting unit includes an angle adjusting motor 510 which is driven for angle adjustment as shown in FIGS. 7 and 8, a ball screw 520 which is rotated by driving of the angle adjusting motor 510, and a body. It comprises a first mounting end 530 coupled to any one side of the frame 210 and a second mounting end 540 coupled to the other side of the body frame 210.

Here, the angle adjustment motor 510 is fixed to the upper surface of one side of the first transfer block 273, the ball screw 520 is axially coupled to the angle adjustment motor 510. In particular, the reason for using the angle control motor 510 as the configuration for adjusting the angle of the lug cutout 200 is because the cutting member 220 must approach the lug very precisely at the time of starting the cutting. This is because it is most preferable to use an electric motor capable of precisely controlling the approach angle and the feeding speed of the cutting member 220.

The first mounting end 530 of each of the mounting ends 530 and 540 is rotatably installed on the upper surface of the first transport block 273 constituting the frame transporting part 270, and the second mounting end 540. ) Is rotatably installed on the upper surface of the second transfer block 274 constituting the frame transfer unit 270.

At the same time, the rear (or front) sides of the installation ends 530 and 540 are respectively coupled to the first coupling flange 211 and the second coupling flange 212 protruding outward from both sides of the body frame 210.

In addition, the ball screw 520 and the angle adjustment of the ball screw 520 by the rotation of the ball screw 520 while the ball screw 520 is coupled to the outer surface of the first mounting end 530 of each of the mounting end (530 540). A connection end 550 that is forward or backward with the motor 510 is configured to be included.

In particular, a separate auxiliary rail 560 is fixedly installed along the left and right directions (a direction perpendicular to the moving direction of the body frame) on the front of the second coupling flange 212 on which the second installation end 540 is installed. The second installation end 540 is coupled to the left and right freely movable by the guide rail 560. Such a configuration may be applied to the length of the lug cutout 200 according to the change in distance between the first support rail 271 and the second support rail 272 when the lug cutout 200 is rotated by the operation of the angle adjuster. The reward is to be made.

In addition, the main frame 100 is further provided with a support 570 for supporting the installation of the ball screw 520 while crossing the body frame 210.

At this time, the support 570 is located on the rear side of the lug cutout 200, one end of the ball screw 520 is coupled to the other end of the second transfer block (2), the second installation end 540 is installed ( 274).

Hereinafter, a lug cutting process using the lug cutting device according to the first embodiment of the present invention will be described.

The lug cutting process using the lug cutting device is performed by sequentially performing a preparatory step of preparing the lug cutting device, an installation step of installing the lug cutting device, and a lug cutting step of cutting the lugs, and for each step It will be described in detail as follows.

First, the preparation step of the lug cutting device will be described.

The preparation step is a series of processes for preparing the lug cutting device in an operable state, and includes a process of installing the cutting members 220 in the driving pulleys 230, 240, and 250.

At this time, the operation of installing the cutting member 200 in each of the driving pulleys (230,240,250) is performed through the operation of the tension adjusting unit (400).

That is, when the lifting handle 450 is manipulated so that the lifting shaft 440 of the tension adjusting unit 400 moves downward, the first driving pulley fixed to the lifting plate 430 according to the downward movement of the lifting shaft 440. The 230 is gradually moved downward and positioned adjacent to the second drive pulley 240 and the third drive pulley 250.

In this state, the cutting member 220 is wound around each of the driving pulleys 230, 240, and 250, and then, when the lifting handle 450 of the tension adjusting unit 400 is operated in reverse, the upward movement of the lifting shaft 440 is performed and the first movement is performed. As the driving pulley 230 is gradually moved upward, the cutting member 220 is gradually taut. At this time, the operation of the lifting handle 450 for the upward movement of the lifting shaft 440 is smoothly made by a plurality of elastic members 460 installed between the lower plate 410 and the upper plate 420.

Then, the user can accurately set the tension value required by the cutting member 220 in the process of moving up and down the lifting shaft 440 through the operation of the lifting handle 450 as described above.

As a result, when the preparation of the lug cutting device is completed through the above-described series of steps, the installation step of moving the lug cutting device to a work position and installing it is performed.

Next, the installation step of the lug cutting device will be described.

The installation step of the lug cutting device is a series of processes for installing the lug cutting device on the surface of the hull 1 in which the lug 10 to be removed is located.

To this end, the main frame 100 is moved by operating the operation handle 150 while the main frame 100 is placed on the surface of the hull block 1 on which the lug 10 to be cut is formed, and then the lug continues. The lug 10 is positioned to the center side in the main frame 100 forming the cutting device.

Thereafter, the support legs 160 are placed on the surface of the hull block 1 by raising the wheels 120, 130 and 140. Therefore, unwanted movement and flow of the main frame 100 is installed to be prevented.

At this time, the initial state of the lug cutting device is the lug cut portion 200 is located on the rear side (the side where the operation handle is located) as possible in the main frame 100.

On the other hand, in the installation process of the above-described lug cutting device, the cutting progress direction of the lug cutting unit 200 and the forming direction of the lug 10 may not exactly match.

That is, when the main frame 100 is installed in an oblique position from the installation position of the lug 10, the forming direction of the lug 10 and the cutting progress direction of the lug cutout 200 do not coincide with each other. .

In this case, the load that the cutting member 220 is provided during the cutting of the lug is significantly larger than the load when the direction in which the lug 10 is formed and the cutting progress direction of the lug cutout 200 are installed to coincide with each other. This may cause cutting defects.

Therefore, in the above state, it is preferable to further proceed the operation of matching the cutting progress direction of the lug cutting unit 200 with respect to the forming direction of the lug 10 through the control of the angle adjuster.

Adjustment of the cutting progress direction of the lug cutting unit 200 proceeds through the rotation of the ball screw 520 through the control of the angle adjustment motor 510. For example, when the ball screw 520 is rotated in the fastening direction (clockwise direction), the lug cut part 200 is rotated clockwise about the rotation axis 541 of the second installation end 540 constituting the angle adjusting part. do. This is the same as the state of FIGS. 10 and 11 attached.

At this time, the end of the ball screw 520 is installed in the support 570, the support 570 is considered that the ball screw 520 in the fastening direction in consideration of being fixed to the back of the second transfer block 274. When rotated, the ball screw 520 and the angle control motor 510 are moved in the direction passing through the support 570, together with the connection end 550, the first installation end 530 and the first transfer block. 273 is also moved in the direction passing through the support 570 while interlocked with the angle control motor 510.

In addition, since the second installation end 540 is installed to be movable in the horizontal direction under the guidance of the auxiliary rail 560, even when the lug cut part 200 is rotated, Both sides can be stably coupled to the first installation end 530 and the second installation end 540.

Of course, although not shown, when the ball screw 520 is rotated in the unlocking direction (counterclockwise direction), the lug cut part 200 is centered on the rotation shaft 541 of the second installation end 540 constituting the angle adjustment part. The angle is adjusted while rotating counterclockwise.

As a result, when the installation of the lug cutting device is completed by adjusting the angle of the lug cutting unit 200 through the above-described process, the lug cutting step through the driving of the cutting member 220 is continued.

Next, the lug cutting step will be described.

The lug cutting step is a series of processes of cutting and removing the lug 10 by controlling the operation of the lug cutout 200.

That is, when a control for cutting the lug is made by the user, the driving motor 260 constituting the lug cut part 200 is driven to rotate the first driving pulley 230, thereby winding the respective driving pulleys 230, 240, and 250. The true cutting member 220 is rotated.

Thereafter, the operation of the transfer cylinder 275 constituting the frame transfer unit 270 is performed to move the second transfer block 274.

At this time, the second transfer block 274 is moved toward the front side of the main frame 100 while being supported by the second support rail 272, and the second installation block (274) and the second installation end ( The body frame 210 of the lug cutout 200 connected by the 540 is also moved toward the front side of the main frame 100 to gradually cut the lug 10 fixed to the surface of the hull block 1. do.

In this case, since the first transfer block 273 connected by the body frame 210 and the first installation end 530 is moved along the first support rail 271, the body frame 210 is uniform on both sides. Can be moved.

On the other hand, when the cutting of the lug 10 as described above may cause a problem that the cutting member 220 is twisted or bent by the load applied to the cutting member 220.

However, the cutting member 220 is maintained at a constant distance from the surface of the hull block (1), even though both parts are pressed downward with respect to the lug 10 by a pair of guide portion 300, While cutting the lug 10, a phenomenon such as twisting or bending of the cutting member 220 does not occur.

3 and 4, the support roller 320 constituting the pair of guide parts 300 presses the upper surface of the cutting member 220 while rolling the movement while the pair of guide parts. The interval maintaining roller 330 constituting the 300 is rolled along the moving direction of the body frame 210 in a state of being in contact with the surface of the hull block 1, the cutting member 220 is the hull block (1) This is because it does not come into contact with the surface.

In addition, the pair of guide parts 300 meet the support ribs 11 supporting both sides of the lug 10 while the above-described lug cutting step is in progress.

However, at this time, the guide body 310 is forcibly rotated upward while driving the respective guide rotation cylinders 340 by a detection signal of a detection sensor (not shown). A collision between the 300 and the support ribs 11 is prevented. This is the same as in FIGS. 5 and 6.

Of course, when the pair of guide portions 300 pass through the support ribs 11, the guide body 310 is rotated downward while the guide body 310 is rotated again. Pressurization and maintenance of the gap with the surface of the hull block 1 are again performed.

As a result, the cutting of the lug 10 is completed through the above-described series of steps, and since the remaining portion of the lug 10 remaining on the surface of the hull block 1 is constant but sufficiently low in height, a post-processing (milling operation) ) Can proceed smoothly.

1 is a front perspective view for explaining the appearance of the lug cutting device according to an embodiment of the present invention

Figure 2 is a rear side perspective view for explaining the appearance of the lug cutting device according to an embodiment of the present invention

Figure 3 is a front perspective view showing the installation structure for a pair of guide portion of the lug cutting device according to an embodiment of the present invention

4 is a front view showing the installation structure for a pair of guide portion of the lug cutting device according to an embodiment of the present invention

5 is a front perspective view illustrating an operating state of a pair of guide parts of a lug cutting device according to an exemplary embodiment of the present invention;

6 is a front view illustrating an operation state of a pair of guide parts of a lug cutting device according to an exemplary embodiment of the present invention.

7 is a front perspective view for explaining the installation structure of the tension control unit and the angle control unit of the lug cutting device according to an embodiment of the present invention

8 is a rear perspective view illustrating the installation structure of the tension adjusting unit and the angle adjusting unit of the lug cutting device according to the embodiment of the present invention;

9 is a plan view showing to explain the installation structure of the angle adjustment unit of the lug cutting device according to an embodiment of the present invention

10 is a front perspective view for explaining a state in which the angle is adjusted according to the operation of the angle adjusting unit of the lug cutting device according to an embodiment of the present invention

11 is a plan view showing the angle is adjusted according to the operation of the angle adjustment unit of the lug cutting device according to an embodiment of the present invention

Claims (7)

A main frame configured to be movable while forming a body; A lug fixed to the surface of the hull block is installed on the main frame to cut the lug, a body frame installed on the main frame so as to be movable back and forth, a cutting member made of a band saw to cut the lug, and the cutting on the outer peripheral surface. Lug consisting of a driving motor for driving any one of the three driving pulleys and the three driving pulleys installed in a triangular arrangement to operate the cutting member in a direction perpendicular to the cutting direction of the lug and the member is wound. Cutting part; And, It is installed to correspond to each other between the two driving pulleys located in the lower relatively of the body frame of the lug cut portion so that the cut member of the lug cut portion passing through the portion does not touch the ground but maintains the state adjacent to the ground. A pair of guides for guiding to include: is configured to include, Each guide part A guide body installed to be rotatable up and down while corresponding to each other between portions of two driving pulleys located on the lower side of each of the body frames; A support roller rolling on the upper end of the cutting member while being rollably installed along the moving direction of the cutting member at the rear end of the guide body; A space keeping roller which is installed in a cloudable direction along the moving direction of the body frame on the outer surface of the end of the guide body and makes contact with the ground to move the cloud; One end is rotatably coupled to the upper portion of the guide body of the body frame, the other end is rotatably coupled to the upper surface of the guide body is configured to include a guide rotation cylinder for selectively rotating the guide body up and down Lug cutting device. delete The method of claim 1, The body frame of the lug cut portion Lug cutting device, characterized in that it further comprises a tension control for adjusting the height of the drive pulley located on the upper side of the three drive pulleys. The method of claim 3, wherein The tension control unit A lower plate fixedly installed on an upper surface of the body frame; An upper plate corresponding to the lower plate and positioned in an upper space of the lower plate; A plurality of elastic members installed between the lower plate and the upper plate; An elevating plate coupled to a rear surface of a driving pulley positioned at an upper side of the three driving pulleys; An elevating shaft fixed to an upper surface of the elevating plate while sequentially passing through upper surfaces of the lower plate, upper plate and body frame; The lug cutting device is screwed to the upper end of the lifting shaft, and comprises a lifting handle for lifting the lifting shaft by lifting the lifting shaft by a rotary operation. The method according to any one of claims 1 to 3 and 4, The main frame A frame feeder for selectively moving the lug cutout back and forth; Lug cutting device, characterized in that further comprises an angle adjuster for selective angle adjustment of the lug cut. The method of claim 5, The angle adjustment unit An angle adjusting motor driven for adjusting the angle, A ball screw rotated by the driving of the angle adjusting motor; It is coupled to any one side of the body frame, the bottom surface is rotatably installed in the frame conveying portion, the outer surface is the ball screw is coupled through the ball screw and the angle adjustment motor by the rotation of the ball screw while advancing, or A first installation end configured to include a backward connection end, A second installation end coupled to the other side of the body frame so as to be movable in the horizontal direction, and having a bottom surface rotatably installed in the frame transfer part; One end of the ball screw penetrates, the other end of the lug cutting device characterized in that it comprises a support that is fixed to the portion of the second installation end is installed while crossing the main frame. In constructing a frame feeder for controlling the feed of the lug cutout, Frame feeder having two conveying means selectively used according to the working conditions, such as a feed means for controlling the feed rate of the lug cutting portion and a feed means for controlling the cutting force constantly, The cutting means for controlling the feed speed of the lug cutting portion is used at the beginning of the lug cutting, and the feeding means for controlling the cutting force is used when cutting the place where the change of cutting area is severe. Device.

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