KR20140023516A - Heating method for strain-preventing of block level - Google Patents

Abstract

The present invention relates to a block end heating method for preventing deformation of a block end, comprising: a heating unit position setting step of setting and displaying a heating unit position on an upper surface of a block end; It consists of a line heating step of pre-heating the surface of the heating unit to be deformed upward, and a block welding step of welding the other block to the lower side of the block end, thereby blocking the deformation of the block end according to the other block welding, a plurality of correction It also relates to a block end deformation prevention heating method that can improve the work efficiency as well as to reduce the cost.

Description

Heating method for strain-preventing of block level

The present invention relates to a block end heating method for preventing deformation of a block end, and more particularly, by inducing pre-deformation prior to back heating before welding another block to the block end, It relates to a block end deformation prevention heating method that can cancel the deformation to minimize the modification maneuver according to the deformation of the block end.

Generally, when the basic design of the hull structure and the bulkhead is completed, the steel is cut according to the design, the block is assembled and painted, and various equipments and equipment necessary for the ship are manufactured After the process of mounting on the ship and the process of assembling the steel plates of the block unit to the ship, the finish painting is carried out, and the test operation is carried out by launching the marine vessel.

Here, the processes such as the mounting process of various equipments and equipment and the processes such as the iron plate assembly are performed in the dock, and then, when the manufacturing of the ship is completed, the ship in the dock is towed by sea using the tugboat, will be.

In the manufacturing of ships, the outer plate of the ship or the steel material forming the basic structure is welded and joined in a block unit, and various kinds of equipment are mounted on such a structure.

At this time, it is to perform the shell plate system of welding the outer shell of the ship unit.

However, when welding another block (hereinafter referred to as 'other block') to the block end in the sheet-based operation as described above, a problem occurs that the block end is deformed in a specific direction by the welding heat.

Figure 1 shows a conventional welding operation of the end of the block, as shown, when the other block 200 is vertically welded to the lower side of the block 100, the lower side of the block 100 Since high temperature welding heat is applied, the end of the block 100 is deformed by the welding heat as shown by the arrow.

Therefore, in the conventional block welding method, there is a problem in that the number of work performed by performing a plurality of correction work in the second and third steps is increased in order to remove the deformation of the block end, and there is also a problem that the work efficiency is significantly lowered.

The present invention has been made to solve the above problems, the object of the present invention is to perform the pre-heating on the upper surface of the block end before the other block welding at the block end according to the other block welding It is intended to provide a block end deformation prevention heating method that can reduce the number of modification operations and improve the work efficiency by allowing deformation to be canceled out.

In order to achieve the above object, the present invention provides a heating unit positioning step of setting and displaying a heating unit position on an upper surface of a block end, and preheating the surface of the heating unit so that the block end is deformed upward along the heating unit displayed on the upper surface of the block. And a block welding step of welding another block to the lower side of the block end.

Here, in the heating unit positioning step, it is preferable to set the heating unit vertically above the other block welded to the lower side of the block end.

In addition, the line heating step may be installed so that the automatic heating device is sequentially heated while moving along the heating unit.

In addition, the line heating step is preferably heating the heating to 1000 ℃ ~ 1200 ℃.

As described above, the present invention can block the deformation of the block end through the prior practice of the back heating can reduce the number of modification work, it is possible to shorten the working time and improve the process efficiency In addition, there is an effect that can increase the productivity.

1 is a conventional block end welding operation diagram,
2 is a flowchart of a block end deformation preventing heating method of the present invention;
3 is an operation diagram by the block end deformation preventing heating method of the present invention,
4 is a working diagram of the line heating step of the present invention using an automatic heating device.

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

Figure 2 shows a flow diagram of the block end deformation preventing heating method of the present invention, Figure 3 shows a working diagram by the block end deformation preventing heating method of the present invention, Figure 4 is a line of the present invention using an automatic heating device It shows the working phase of the heating stage.

As shown in FIG. 2, the block end deformation preventing heating method of the present invention includes a heating part positioning step S10, a line heating step S20, and a block welding step S30.

Heater position setting step (S10) is a step of setting and displaying the line heating position on the upper surface of the block 100, the heating unit 10 position is another block (hereinafter ' Other block ').

That is, since the heating unit 10 is to perform pre-heating in order to cancel the deformation of the block 1000 at the welding of the other block 200, the heating unit 10 is displayed at the same position as the welding position of the other block 200. It is.

Therefore, the heating unit 10 is set along the welding line.

Here, the display of the heating unit 10 may be displayed on the upper surface of the end portion of the block 100 using a black line, and in addition, the heating unit 10 may be displayed in various ways that can be displayed by making the heating unit 10 lined. will be.

Meanwhile, the line heating step S20 is a step of heating the surface of the heating unit 10 set in the heating unit positioning step S10, and the end of the block 100 is heated in FIG. 3 by heating the heating unit 10. As shown by the arrow, a predetermined amount of upward deformation occurs in advance.

Here, the upward deformation cancels the downward deformation in which the end of the block 100 is bent downward when the other block 200 is welded, so that the deformation of the end of the block 100 according to the welding of the other block 200 becomes zero (0). It is.

That is, in the line heating step S20, the end of the block 100 is deformed in advance so that the end of the block 100 is restored to its original shape by the downward deformation of the end of the block 100 when the other block 200 is welded.

Therefore, in the line heating step S20, the up deformation corresponding to the down deformation amount in the welding step of the other block 200 is generated in advance.

Meanwhile, the heating of the heating unit 10 may be performed by an ethylene-based gas welding method using the heating torch 350. The heating temperature may vary depending on the thickness of the block 100, but is approximately 1000 ° C. to 1200 ° C. It is preferable to heat to ℃.

In the heating method, as shown in FIG. 4, it is preferable to sequentially heat one end to the other end of the heating unit 10 using the automatic heating device 300.

That is, the automatic heating device 300 is to heat the heating unit 10 while moving from one side to the other side along the heating unit 10.

Here, the automatic heating device 300 is installed in the main body 310 and the main body 310 to move along the heating unit 10 from the upper surface of the block 100 by the operation of a drive motor (not shown). The heating torch 350 may be formed.

As shown in the drawing, the heating torch 350 may be installed in a plurality of main bodies 310, and may be installed to enable front and rear directions and up and down direction adjustment.

Although not shown here, the automatic heating device 300 is provided with a control unit, and the heating torch 350 is connected to the gas supply unit.

Therefore, the operator may control the traveling speed and the gas supply amount of the automatic heating device 300 through the control unit to properly heat the heating unit 10.

The traveling speed of the automatic heating device 300 is typically such that the thickness of the block 100 is maintained at a speed of approximately 200mm / min at 21T (21mm) or less.

Meanwhile, in the block welding step S30, after the heating operation of the entire heating unit 10 is completed in the line heating step S20, the other block 200 is welded to the lower surface of the end of the block 100.

At this time, the welding position of the other block 200 is located on the lower surface of the block 100 immediately below the heating unit 10.

In this case, when the other block 200 is welded, the end of the block 100 is deformed by the heat of welding, and the downward deformation cancels the upward deformation previously generated in the preheating step S20, and thus, the end of the block 100. Is to be restored.

Therefore, in the present invention, by heating the upper surface of the end of the block 100 before welding the other block 200 to the end of the block 100 to induce an upward deformation of the end of the block 100, welding the other block 200 By canceling the downward deformation according to the original restoration of the end of the block 100 can be obtained, it is possible to reduce the number of modification work maneuver, it is also possible to improve the work efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Description of the Related Art [0002]
10: heating unit 100: block
200: other block 300: automatic heating device
310: main body 350: heating torch
S10: heating unit position setting step
S20: line heating step
S30: Block welding step

Claims (4)

A heating part position setting step of setting and displaying a heating part position on an upper surface of the block end;
A preheating step of heating the surface of the heating part in advance so that the end of the block is deformed upward along the heating part displayed on the upper surface of the block; And
Block welding step of welding the other block to the lower side of the block end;
Block end deformation prevention heating method comprising a. The method of claim 1,
The heating unit positioning step block heating deformation prevention method characterized in that for setting the heating unit in the vertical upper portion of the other block welded to the lower side of the block end. 3. The method of claim 2,
The line heating step is a block end deformation prevention heating method characterized in that the automatic heating device is installed by the automatic heating device moves along the heating unit sequentially. 4. The method according to any one of claims 1 to 3,
The line heating step is a block end deformation prevention heating method, characterized in that for heating the heating to 1000 ℃ ~ 1200 ℃.

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