KR100577912B1 - Reinforcing band processing device for hull reinforcement of ship - Google Patents

Abstract

The present invention relates to a hull reinforcement processing apparatus for processing the reinforcing rod installed in the hull to strengthen the strength of the hull, the conventional processing method is to press the selected two points up and down by the power of the oil, pneumatic cylinder respectively In the state in which the rib is pressed and fixed by operating the fixed plate, a part corresponding to the central portion of the selected two points is processed by a method of pushing the flange to the pressure plate using the power of the hydraulic or pneumatic cylinder.

In the conventional processing method, the edges of the processed parts are bent, and angles are necessarily generated. Also, such a phenomenon causes damage to the welded parts and a problem of inefficient production efficiency due to a large amount of processing time with post-processing. have.

The present invention is characterized in that it is possible to process the reinforcing rod having no desired post-processing while having the desired curvature through the support and pressure of the roller while moving the reinforcing rod to solve the conventional problems as described above.

Ship, hull, hull support reinforcement, ship reinforcement, hull support reinforcement.

Description

Reinforcement processing device for ship hull reinforcement {REINFORCING BAND PROCESSING DEVICE FOR HULL REINFORCEMENT OF SHIP}

1 is a schematic view showing the lower portion of the hull in longitudinal section,

2 is a partial schematic view of the lower part of the hull in cross section,

3 is a reference perspective view showing a state before processing of the reinforcement for attaching to the inner surface of the hull,

4 is a processing method of the reinforcing rod according to the conventional method,

5 is a reference diagram showing a reinforcing rod processed by a conventional processing method,

6 is a structural diagram showing a plane of the device of the present invention;

7 is a structural diagram showing a side of the device of the present invention;

8 is a reference structural diagram showing a part of the apparatus of the present invention;

9 is an operation reference diagram showing an extract of a part of the present invention device,

10 is a reference diagram showing the interior of the apparatus of the present invention,

11 is a planar reference view showing the operation of the device of the present invention;

12 is a reference perspective view of the reinforcing rod processed by the present invention device.

<Explanation of symbols for main parts of drawing>

10: gas 11: center roller

12, 13: main oil, pneumatic cylinder 21, 31: shaft

22, 32: rotating body 23, 33: pressure roller

25, 35: vertical moving body 24, 34: support roller

28, 38: Upper guide roller 29, 39: Lower guide roller

The present invention relates to a ship hull reinforcement processing apparatus for a ship for processing a reinforcing bar installed in the hull to strengthen the strength of the hull.

Ships made of metal such as steel plates are used to maintain the strength of the hull by fixing the reinforcing bar on the inner side of the hull in order to maintain the strength of the hull and to install various electric wires on the installed reinforcing bar. .

That is, as shown in FIG. 1 of the accompanying drawings, the reinforcing table 2 having a cross-sectional " T " shape is fixed to the inner surface of the hull 1 by a method of welding at regular intervals.

At this time, the hull 1, as shown in the accompanying drawings, Figure 2, the hull 1 is curved with a constant curvature in the longitudinal direction, so the reinforcing bar (2) fixed to the hull (1) also has such a curvature It can be fixed to the hull 1 because welding is possible only when it is bent.

This reinforcing table 2 is formed with ribs 3 and flanges 4 fixed to the inner surface of the hull 1 by welding or the like, as shown in the attached FIGS. 1, 2 and 3. The rib 3 and the flange 4 are manufactured by the method of welding and fixing, and this reinforcement stand 2 is naturally comprised in a straight line before processing.

As described above, the reinforcing bar 2 configured as a straight line must be processed to have the same curvature as the hull 1 to be fixed to the inner surface of the hull 1, so that the hull 1 can be fixed by welding or the like. .

In order to process such a reinforcement 2 to have a bent state equal to the curvature of the hull 1, as shown in FIG. 4 attached to the prior art, a certain section of the reinforcement 1 is selected, and the selected Hydraulic and pneumatic parts are applied to the center of the two selected points while the ribs 3 are pressed and fixed by operating the pressure fixing plate 6 with the power of the oil and pneumatic cylinders 5 at the top and bottom, respectively. By bending the corresponding part by pushing the flange 4 to the pressure plate 7 by using the power of the cylinder 5, and then changing the position by bending the part through the same method described above. As a result, it is processed to have the same curvature as that of the hull 1.

At this time, the degree of curvature is adjusted according to how much force is applied to the pressure plate 7 by the oil and pneumatic cylinders 5 to bend.

The reinforcing bar 2 processed by such a conventional machining method is selected and machined as described above, and is also processed through a position changing method of changing the position and machining the selected part again. An angle 8 is necessarily generated due to the bending of the boundary portion, and this phenomenon causes a problem in that the welding portion joining the rib 3 and the flange 4 is damaged.

Therefore, after processing according to the conventional method described above, a post-processing step is necessary, which requires removal of the angle 8 and re-welding of the damaged welded portion.

In addition, as described above, since the process is repeatedly performed while changing the position, a large amount of processing time is required, which leads to a problem in that the production efficiency is lowered.

In addition, the conventional method is to process by pushing the rib 3 through the flange 4 in particular, because the long rib 3 has a large tensile strength not only requires a lot of force, in particular, the rib 3 Since there is a problem that the end of the) can not be processed in the same way as the curvature of the hull 1, this also has the problem that post-processing is required.

In addition, to solve the problem that the reinforcing bar (2) is pushed in the pressing direction in order to solve the problem that the process through the method of forcibly pressurizing the rib (3) in the fixed state, but the rib (3) is completely excluded There is a problem that a lot of absorption occurs in this one because it cannot.

The present invention is to process the reinforcing rod having the desired curvature while moving the reinforcement of the straight inlet to solve the conventional problems as described above.

In order to achieve the object of the present invention, the apparatus of the present invention is provided with a rotatable center roller installed at the center of the upper outer side of the gas phase. The desired curvature is provided by providing a configuration of a plurality of auxiliary pressure rollers which move forward and backward by the operation of auxiliary oil pressure and pneumatic cylinders on the left and right sides of the rotating body together with the installation and installation of the pressure roller and the support roller. It was possible to process the reinforcing rods that did not require any post-processing.

Hereinafter, the apparatus of the present invention will be described in detail with reference to FIGS. 6 to 11.

All the major devices constituting the present invention and the components that support these main devices are all installed on the gas 10.

A center roller 11 freely rotated is installed at the center of the upper outer side of the upper body 10, and an auxiliary roller 82 freely rotated is provided at the front left and right sides thereof, and the upper part of the base 10 is provided. By operating a pair of main oil and pneumatic cylinders 12 and 13, rotation bodies 22 and 32 which are freely rotated by hinge points of the shafts 21 and 31 are provided, respectively. In front of the (31) and (31), the rods (85) and (86) of the forward and reverse working cylinders (81) and (91) fixed on the body (10) are connected and installed, and the rotating bodies (22) and (32) The inside of the plurality of pressure rollers 23, 33 are rotated by receiving power and the support rollers are rotated at the same speed as the pressure rollers 23, 33 by receiving power. 24 and 34 are respectively installed, and between the press rollers 23 and 33, the upper guide rollers 28 and 38 and the support rollers 24 and 34 are free to rotate, respectively. In between Lower guide rollers 29 and 39 are freely rotated, respectively.

At this time, the plurality of pressure rollers 23, 33 and the upper guide rollers 28, 38 are Shanghai fuselage which can be moved up and down by the operation of the upper oil, the pneumatic cylinders 27, 37 ( 25) and 35, one end of the plurality of guide rods 26, 36 is fixed to the shank body 25, 35, while the other end is the rotating body 22, 32. Installed so as to penetrate the upper portion of the Shanghai fuselage 25, 35 is configured so that the change in location at the same time Shanghai.

In addition, a plurality of auxiliary pressure rollers move forward and backward by the operation of the auxiliary oil, the pneumatic cylinders 40, and 50 on the left and right sides of the rotating bodies 22 and 32, respectively. It consists of the structure which provided 41 and 51.

Referring to the operation of the device of the present invention having such a structure in detail as follows.

First, the reinforcing bar 2 to be processed is put into the apparatus of the present invention, wherein the ribs 3 of the reinforcing bar 2 are pressurized as shown in FIGS. 9 and 10. Pass through the roller 23 and the support roller 24 and to the position of the auxiliary roller 82 located in front of the pressure roller 33 and the support roller 34 and the center roller 11 on the right side.

At this time, the flange 4 is positioned from the left side auxiliary pressure roller 41 through the guide roller 28 and the center roller 11 to the guide roller 38 and the auxiliary pressure roller 51 located at the rightmost side. Let's do it.

In this state, the reinforcing bar 2 to be processed eventually enters the state of the present invention.

In this state, the four auxiliary oil and pneumatic cylinders 40 and 50 are operated at the same time to push the flange 4 of the reinforcing bar 2 into which the auxiliary pressure rollers 41 and 51 are inserted. do.

At this time, since the rib 3 of the reinforcing table 2 is located above the support rollers 24 and 34 as described above, As a result, the flange 4 of the reinforcing bar 2 reaches the center roller 11 while the auxiliary pressing rollers 41 and 51 move slightly while pushing the reinforcing bar 2 onto the supporting rollers 24 and 34. do.

This operation is finally performed by the operation of the four auxiliary oil, pneumatic cylinders (40) and (50), the auxiliary pressing rollers (41), (51) to the center roller (11) of the flange (4) of the reinforcement (2) Pressurized to.

In this state, the upper oil, pneumatic cylinders 27 and 37 are operated.

By this operation, the Shanghai bodies 25 and 35 installed in the rotation bodies 22 and 32 are guided by the guide rods 26 and 36, without being inclined in either direction. The pressure rollers 23 and 33 installed thereon are strongly attached to the support rollers 24 and 34 so as to support the ribs 3 of the reinforcement table 2 inserted therein.

In this state, when the power roller rotates by transmitting power to the pressure rollers 23 and 33 and the support rollers 24 and 34, the reinforcing bar 2 inserted therein gradually moves in the insertion direction. Power is also transmitted to the center roller 11 to move the reinforcement 2 described above.

Main oil, pneumatic cylinders 12, 13 are operated while moving the reinforcement 2.

By this operation, the rotation bodies 22 and 32 are gradually rotated to the shaft points 21 and 31, respectively.

The rotation of such rotating bodies 22 and 32 is shown in the accompanying drawings in FIG.

This state is to rotate the rotating body 22, 32 while moving the reinforcing table (2), so the rotating body (22), 32 to rotate the reinforcing table (2) to be moved in a straight line, the reinforcing table ( 2) can be seen to bend.

This is because the rotation bodies 22 and 32 rotate the shafts 21 and 31 to the hinge points, so that the rotation bodies 22 and 32 retract the reinforcing table 2 to the center roller 11. You can see that it bends both sides to the center.

While performing this operation, the reinforcing bar 2 continuously moves in the direction of insertion, so that the reinforcing bar 2 is processed into the processed reinforcing bar 80 having a constant curvature.

 At this time, the curvature to be applied to the reinforcing table 80 is applied to the main oil, the pneumatic cylinder 12, 13 by a certain amount of power, the rotating body 22, 32 is the shaft 21, ( Since the curvature is determined according to how much it rotates 31) as the hinge point, it can be seen that the curvature to be applied to the reinforcing bar 2 can be processed in the same way according to the curvature applied to the hull 1. Can be.

In the case where the change of the fine curvature is necessary, the forward and backward operation cylinders 81 and 91 installed in front of the shafts 21 and 31 are pushed or pulled, respectively, and the shafts 21 and 31 are moved. When the rotating body 22, 32 operates in the operation direction or the reverse direction of the main oil, pneumatic cylinders 12, 13 described above, the rotating body 22, 32 operates in the forward and reverse directions. The degree of rotation can be finely adjusted around the shafts 21 and 31 by the operating distances of the cylinders 81 and 91.

In performing the processing through the movement of the reinforcing table 2, the upper guide rollers 28, 38 and the lower guide rollers 29, 39, which are installed inside the rotating bodies 22, 32, 39 ) Supports the flange 4 when the reinforcing bar 2 moves, and thus serves as an auxiliary role to facilitate a smooth movement without changing the position of the moving reinforcing bar 2.

Meanwhile, in moving the reinforcing bar 2, the rib 3 of the reinforcing bar 2 rotates while being supported by the support rollers 24 and 34 by the pressure of the pressure rollers 23 and 33. The pressure rollers 23, 33 and the support rollers 24, 34 are moved, wherein the pressure rollers 23, 33 and the support rollers 24, 34 are the same. It is preferable to transmit the power by the chain connection method to rotate at a rotational speed.

If the number of rotation of the pressure roller 23, 33 consisting of a plurality of pressure rollers 23, 33 is different from each other, or the support rollers 24, (34) consisting of a plurality of support rollers (24), ( If the rotation speed of the 34 or the rotation of the pressure rollers 23, 33 and the pressure rollers 23, 33 are different from each other, the movement of the reinforcement 2 is not free and the moment of the reinforcement 2 This is because the movement speed is also different and the reinforcing bar 2 is not bent constantly, which causes a problem that the desired part is not processed to the desired curvature.

By this operation, the reinforcement 2 can be processed into a perforated reinforcement 80 having a desired curvature in order to completely pass the apparatus of the present invention, and the reinforcement 2 having a desired curvature at once because the curvature is large as necessary. In the case where it is not possible to process the first step while passing in the forward direction again, and then second direction while moving in the reverse direction can be processed into a reinforcement 80 having the desired curvature.

In this case, of course, the rotational bodies 22 and 32 may be gradually enlarged about the shafts 21 and 31 so as to have a desired curvature.

In addition, the main body, the pneumatic cylinder (12), 13 to operate or through the fine adjustment through the forward and reverse cylinders 81, 91, the rotating body (22), 32 is the shaft 21, respectively ) And (31) are rotated gradually to the axial point, and the auxiliary rollers 82 are freely rotated freely in front of the center roller 11, which is the center of the center roller 11, even when machining the reinforcing bar 2, at the shortest distance. By positioning it, the end of the reinforcement 2 can also be machined to have the desired curvature.

In the processing of the reinforcing bar 80 by processing the reinforcing bar (2) through the apparatus of the present invention, the welding portion joining the rib (3) and the flange (4) is not damaged. As described above, the auxiliary pressing rollers 41 and 51 move while keeping the flange 4 of the reinforcing table 2 in close contact with the center roller 11, and the pressure rollers 23 and 33 and a plurality of press rollers. The support rollers 24 and 34 of the support rollers gradually bend the reinforcing bar 2 while moving while keeping the rib 3 of the reinforcing bar 2 in close contact with each other, so as not to damage the above welded portion.

The apparatus of the present invention is configured to pressurize or support the processed reinforcement 80 through the operation in the reverse direction or the interruption of the power after processing the processed reinforcement 80 obtained through the operation as described above. It can be freed and then discharged and used according to the desired purpose.

The apparatus of the present invention can maximize the productivity because it is possible to manufacture the reinforcement having the desired curvature in a short time by allowing the entire apparatus to operate sequentially automatically as described above.

In addition, the device of the present invention can be processed to have a desired curvature also in the cross-section "b" or cross-section "b" state, not the cross-section "T" type as described above.

Since the reinforcing table 80 processed by the present invention is gradually processed through the rotation of the rotating body 22, 32 from both sides around the center roller 11 while moving the reinforcing table 1 before processing. The processed reinforcement stand 80 can be processed without being damaged while having a gentle curve.

As described above, the apparatus of the present invention is processed by supporting and pressing through a roller while moving the reinforcing rod, and shortening of the processing time is possible as well as the processing of the reinforcing rod having the desired curvature. And it is obvious that the invention is a very useful invention that can greatly improve the quality of the processed product.

Claims (4)

In the processing apparatus for processing the reinforcing bar provided on the inner surface of the hull, Center roller 11 is installed at the center of the upper outer side and freely rotated. On both sides, the shafts 21 and 31 are rotated to the hinge points by the operation of the main oil and pneumatic cylinders 12 and 13. A rod 85 of reverse working cylinders 81 and 91 fixed to the body 10 in front of the shafts 21 and 31, respectively, with a free rotating body 22 and 32 installed thereon. Connect and install 86, The auxiliary rollers 82 which are freely rotated are installed on the front left and right sides of the center roller 11, A plurality of pressure rollers 23 and 33 are rotated by receiving power in the rotation bodies 22 and 32 and the lower portion is the same as the pressure rollers 23 and 33 by receiving power. Install the support rollers 24 and 34 which rotate at the rotational speed, respectively, A plurality of auxiliary pressure rollers 41 and 51 move forward and backward by the operation of the auxiliary oil, the pneumatic cylinders 40 and 50 on the left and right sides of the rotation bodies 22 and 32, respectively. Reinforcing rod processing device for ship hull reinforcement characterized in that the processing to have a certain curvature on the reinforcement while moving the reinforcement to install. The method according to claim 1, A plurality of pressure rollers (23), (33) are respectively installed in the Shanghai fuselage (25), 35 that can be moved up and down by the operation of the upper oil, pneumatic cylinders (27), (37) Reinforcement processing device for hull reinforcement of ships The method according to claim 2, One end of the plurality of guide rods 26 and 36 is fixed to the shanghai bodies 25 and 35, while the other end is installed to penetrate the upper portions of the pivot bodies 22 and 32. Reinforcement table processing apparatus for ship hull reinforcement, characterized in that the body (25), 35 is configured so that the change of position does not occur when moving up and down. The method according to claim 1, The upper guide rollers 28, 38 and the lower guide rollers 29, 39 are freely rotated between the pressurizing rollers 23 and 33 and between the support rollers 24 and 34, respectively. Reinforcement bar processing apparatus for ship hull reinforcement, characterized in that for installing.

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