KR100627486B1 - Metal plate cutting device and method - Google Patents

Abstract

 The present invention relates to an apparatus for cutting a metal plate, and more particularly, to an apparatus for cutting a metal plate capable of minimizing cutting snow generated from molten steel flowing from a cutting surface of a metal plate when cutting a thick metal plate using an oxygen torch. will be.

The cutting device of the present invention cools the cut portion by the melt-type cutting nozzle for cutting the metal plate and the cut portion by the cutting nozzle in order to minimize the formation of the cutting snow by flowing molten metal and to easily remove the cutting snow formed inevitably. And a water spray nozzle for resolidifying.

In the case of the cutting device of the present invention as described above, the amount of cutting snow can be significantly reduced than in the case of the conventional cutting device, and the cut snow can also be easily removed from the metal plate due to residual stress.

Metal plate, cutting device, cutting snow, molten metal, gas cutting

Description

Cutting device and method of metal plate {DEVICE AND METHOD FOR CUTTING METAL PLATE}

1 is a conceptual diagram showing the principle that the cutting tongue is formed and attached when cutting the metal plate in a conventional manner,

2 is a schematic view of the prior art for reducing the amount of cut snow;

3 is a schematic view showing a conventional apparatus for removing the generated cutting snow;

4 is a conceptual view of a prior art that allows molten metal to be formed along a wall to facilitate removal of cuts;

5 is a schematic view of the cutting device of the present invention consisting of a cutting nozzle and a water spray nozzle;

6 is a schematic view showing that a plurality of water spray nozzles are formed around the cutting nozzle in the cutting device according to the present invention. FIG. 6A is a bottom view and FIG. 6B is a bottom perspective view.

7 is a photograph showing the lower surface of the cut when the steel sheet is cut using a conventional cutting device, and

8 is a photograph showing a lower cut surface when the steel sheet is cut using the cutting device of the present invention.

(Explanation of the sign)

1: metal plate 2: gas torch

3: flame path 4: cut surface

5, 6: up and down cutting edge 7: cut piece

8: Lower edge of cutting piece 9: Injection nozzle

10: gas flow 11: gas injection angle (acute angle)

12: knife 13: adjusting device

14: spacing adjustment member

21: cutting nozzle 22: water supply pipe

23: water spray nozzle 24: connecting member

25: water supply pipe

The present invention relates to an apparatus for cutting a metal plate, and more particularly, to an apparatus for cutting a metal plate capable of minimizing cutting snow generated from molten steel flowing from a cutting surface of a metal plate when cutting a thick metal plate using an oxygen torch. will be.

Conventionally, when cutting a metal plate, especially a thick metal plate, a gas torch is often used, which causes a metal plate heated by the torch to oxidize with oxygen, and a metal molten part is generated at a portion heated by the heat of the oxidation reaction. The melted metal part flows downward by gravity and is eventually removed, so that a gap is generated between the metal plates and the metal plate is separated by the gap.

In this case, as shown in FIG. 1, the molten metal flowing downward is formed at the lower portion of the cut surface and the lower surface of the metal plate and the edge portion thereof to form a portion called 'cutting edge'.

This phenomenon is a phenomenon commonly occurring in not only gas torches but also plasma and laser cutting or brown gas cutting. The phenomenon occurs in a method of cutting using a gap generated by melting a cutting part of a material to be cut.

However, when the cutting tongue is present in the cut metal plate, not only the shape of the metal plate itself is undesirable, but also the shape and structure of the final product when the metal plate is welded or subjected to separate processing for a special purpose such as a ship, steel pipe or structure later There is a fear of making it bad.

Therefore, the cutting snow must be removed from the metal plate after cutting the metal plate, but due to the characteristics of the above-mentioned cutting process, it is inevitable to be removed through the process of 1) inverting the metal plate, and 2) grinding the strongly attached cutting snow. . At this time, the process of inverting the heavy metal plate with a large load takes not only a lot of energy in itself, but also a process interference may occur because the cutting snow has to be removed by moving to a maintenance station specially prepared for removing the heavy snow cutting plate. In order to remove the cutting snow, additional cost is consumed, so it is necessary to prevent the cutting snow as much as possible.

As a technique for preventing the occurrence of the cutting snow as described above, US Patent Publication No. US4362448 discloses a device for preventing cut snow formation of the type as described in FIG. The apparatus is oriented in that the molten metal flowing down from the lower surface of the metal plate is cut when solidified while attached to the lower surface of the metal plate 1 so that the molten metal is removed from the metal plate before the molten metal is solidified. The key idea is to blow a high-speed gas through the injection nozzle 9 to remove the molten metal.

In this case, however, the molten metal removed by the gas may be stuck to another part of the lower surface of the metal plate, or may solidify while being removed, thereby preventing the cutting snow from being completely removed.

In the US patent publication US4362448, there is a problem to be solved from a different point of view than the above patent, but it is an object of the present invention to provide a technology that can be easily removed later, even if it does not prevent the generation of cut snow itself. As shown in the drawing, a deburrer is used to impact the cutting edge of the slab so that the cutting edge is removed. However, the above technique has a problem that it is difficult to apply to many conventional processes for space-constraining because sufficient space must be provided on the bottom surface of the slab to remove the cutting snow on the continuous casting line.

In Japanese Patent Laid-Open No. 61-279359, a steel plate is cut, and then a molten iron flows along the wall after a wall is formed in the lower part of the steel sheet at a position to be cut in the same manner as described in FIG. A technique of way to get off is proposed. When the molten iron flows down the wall as described above, the cutting tongue is not attached along the lower surface of the steel sheet, but is formed along the wall surface with only a part of the lower surface contacting the cut iron. It can be removed.

However, the technique described in Japanese Patent Laid-Open No. 61-279359 has the following problems. That is, the position at which the steel sheet is cut is not always constant, but it can only be changed depending on the operating conditions (rolling speed and steel sheet specifications for rolled steel sheets, casting speed and slab specifications for continuous casting slabs, etc.). It is difficult to always form in accordance with the position to cut, it is difficult to apply more and more, especially when cutting while moving the steel sheet.

Therefore, the present invention is to overcome the problems of the prior art described above, at the same time to minimize the occurrence of cutting tongue when cutting the metal plate, and to minimize the portion of the generated cutting tongue is attached to the steel plate to facilitate the operation of removing the cutting tongue. It is an object of the present invention to provide a cutting method and an apparatus for making it possible.

In addition, another object of the present invention is to provide a cutting method and apparatus that can minimize the plate deformation that may occur when cutting the metal plate.

The cutting device of the present invention for achieving the above object is characterized by consisting of a water jet nozzle for cooling and re-solidification of the metal plate cutting melting method cutting nozzle and the cut portion by the cutting nozzle.

At this time, the cutting nozzle is preferably a nozzle used for gas cutting, plasma cutting or laser cutting.

In addition, the water spray nozzle is preferably located in the rear of the cutting nozzle when viewed in the cutting direction in order to prevent the generation of cutting snow.

Alternatively, the water spray nozzles for preventing cutting snow may be disposed in a plurality of circles or arcs with a predetermined distance around the cutting nozzles.

When the water spray nozzle is arranged in an arc shape, at least a part of the arc is preferably disposed behind the cutting nozzle when viewed in the cutting direction.

In the configuration of the cutting device as described above, the interval between the cutting nozzle and the water spray nozzle is preferably 10mm to 50mm.

Cutting method of the present invention comprises the steps of melt cutting along the cutting line of the metal plate; And cooling the molten metal in the cutting line before flowing completely.

The cutting method of the present invention as described above is more effective to use the cutting device of the present invention described above.

Hereinafter, the present invention will be described in detail with reference to FIGS. 5 to 8.

5 is a schematic view showing a cutting device and a cutting method according to the present invention, illustrating a cutting method of cutting a metal plate by two nozzles in a set. The nozzles located in front of the cutting direction indicated by the arrow among the nozzles are all used as long as the nozzles are used in the melt cutting method used for gas cutting, plasma cutting, laser cutting, and the like as the cutting nozzles. The nozzle as described above is to remove the metal located at the cut part by melting the cut part of the metal plate, and is the same nozzle as that used in the conventional cutting method.

Another nozzle located behind the cutting nozzle in the cutting direction represents a water spray nozzle, which serves to cool the molten metal by the cutting nozzle. In the case of the water spray nozzle as described above, only a small amount of the molten metal is removed to the bottom by the cutting nozzle, and the remaining molten metal is rapidly cooled by the water sprayed from the water spray nozzle to solidify again.

In the conventional case, when heat is supplied to the cutting nozzle to cut the metal plate, the contact area such as flame is wide and the thermal conductivity of the metal plate is high, so that the molten portion becomes wider than necessary for cutting, in which case the molten metal is Most of them flow down to the bottom of the metal plate and then adhere to the bottom surface of the metal plate to form a cut tongue.

The water spray nozzle of the present invention is to solve this problem, even if the melted portion is more than necessary to cut the metal plate, once the metal plate is separated into two plates by melting, the molten metal flows further It has the function of cooling with water to prevent it from falling. In this case, the distance between the two separated plates is much narrower and more precise than in the conventional method, and the amount of cutting snow formed by flowing molten metal is significantly reduced. In addition, according to the conventional method, when the molten metal continues to flow down to the lower surface of the metal plate, the shape of the cutting tongue becomes a form with a large contact area on the lower surface of the metal plate, which makes it difficult to remove. Since the molten metal itself is also cooled by water spray while it is flowing down, the molten metal cools down the molten metal without allowing time to spread from the lower surface of the metal plate. Will be reduced. In addition, the residual stress is present between the metal plate and the cutting snow by the cooling shrinkage of the metal to be cooled. Therefore, since the bonding strength of the cutting tongue and the metal plate will be proportional to the contact area, it becomes easier to remove the cutting tongue as the area contacted by the metal plate decreases, and since the residual stress exists between the cutting tongue and the metal plate, It is possible to remove the cut snow with only a slight impact.

At this time, the water spray nozzle of the present invention is preferably installed with a predetermined interval with the cutting nozzle, which is heated and melted by the cutting nozzle when the water spray nozzle is installed too close to the cutting nozzle This is because the molten metal is cooled before it sufficiently flows down, and as a result, there is no gap between the two metal plates, and thus the cutting itself cannot be made. This is because the cooling effect is performed after the lowering, and thus it is difficult to obtain a cutting snow reduction effect.

Therefore, the inventors of the present invention closely examine the installation intervals of the water spray nozzle and the cutting nozzle, and as a result, the distance between the water spray nozzle and the cutting nozzle varies depending on the running time of the nozzle set. And cutting nozzles were found to be preferably installed at intervals of about 10 to 50 mm.

The water spray nozzles as described above may be arranged in a line as shown in FIG. 5 to constitute a set, but the cutting nozzle 21 as shown in FIGS. 6A and 6B to provide a cooling effect for a larger area. One set can be comprised in the form which the plural water spray nozzles 23 surround at a distance.

In addition, the nozzles located in the forward direction of the cutting nozzle 21 among the water spray nozzles do not contribute significantly to the molten metal cooling effect intended in the present invention, so that the plurality of water spray nozzles are arranged in an arc shape, and the cutting nozzles You can also configure one set. However, the arc may be at least partially formed at the rear of the cutting nozzle to obtain an effective molten metal cooling effect.

(Example)

The cutting test of the steel plate was done on the conditions of following Table 1.

Item Example Comparative example Steel plate specification 800 X 1400 X 30 800 X 1400 X 30 cutter CNC gas cutting machine CNC gas cutting machine Cutting speed 380mm / min 380mm / min Oxygen pressure 3.0kg / cm ² 3.0kg / cm ² Gas pressure 0.4kg / cm ² 0.4kg / cm ² Distance between cutting nozzle and water spray nozzle (mm) 10 (min) to 50 (max) mm Do not install Water Spray Nozzles 10 holes Water spray flow rate 20ml / mm ² No spray

In Example 1 of Table 1, the shape having the shape of FIG. 6 was used, and the comparative example used only the cutting nozzle. In the above table, the water spray flow rate means the amount of water sprayed per 1 mm ² of the cut surface.

After cutting, the shape, size and shape of the cutting surface were observed to compare the degree of attachment of the cutting tongue. Figure 7 shows the shape of the steel sheet cut by a comparative example that does not use a water spray nozzle, a large amount of cutting tongue is generated, as well as the length of about 3 ~ 5mm was shown continuously on the cutting side. .

However, as shown in FIG. 8, when the steel sheet was cut according to the embodiment of the present invention, the cutting snow hardly occurred, and the generated cutting snow also showed a very good cutting surface with a length of about 1 mm.

The excellent effect of the cutting device by this invention was confirmed.

According to the present invention, at the time of cutting the metal plate to minimize the occurrence of molten metal cutting snow by water spray, at the same time to minimize the portion of the cut snow is attached to the steel sheet can facilitate the work of removing the cutting snow, metal plate The additional effect of minimizing plate deformation that can occur during cutting is also obtained.

Claims (8)

Melting type cutting nozzle for cutting metal plate; And A water spray nozzle which cools and resolidifies the cut portion by the cutting nozzle with water; Being done with The cutting device and the cutting device of the metal plate, characterized in that the interval between the water spray nozzle is 10 to 50mm. The cutting device according to claim 1, wherein the cutting nozzle is a nozzle used for gas cutting, plasma cutting, or laser cutting. The metal plate cutting device according to claim 1, wherein the water spray nozzle is located behind the cutting nozzle when viewed in the cutting direction. The cutting apparatus of claim 1, wherein the water spray nozzles are disposed in plural in a circular or arc shape with a predetermined distance around the cutting nozzle. 5. The cutting device according to claim 4, wherein when the water spray nozzle is disposed in an arc shape, at least a part of the arc is disposed behind the cutting nozzle when viewed in the cutting direction. delete delete Using the cutting device as described in any one of Claims 1-5. Melting and cutting along the cutting line of the metal plate; And And cooling the molten metal in the cutting line before the molten metal flows down completely.

Images