KR20140052312A - Manufacturing device of coolant - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing a cold material made by cutting a cold-rolled steel into a predetermined-sized rectangular plate with a single press. A lower mold has a diagonally stepwise V-shaped forming blade from the center of a steel plate in a widthwise direction of both sides of the steel plate. An upper mold comprises a body which is installed in a lower part of a press, and tooth-shaped blocks whose cross sections are rectangular and which protrude toward the lower part of the body. The tooth-shaped blocks is formed into a diagonally stepwise V-shape in a widthwise direction of both sides of the steel plate to be engaged with the forming blade. The apparatus of the present invention can prepare an apparatus for manufacturing cold materials with low costs compared to the existing apparatus because the present invention can manufacture cold materials by using a single press.

Description

{Manufacturing device of Coolant}

The present invention relates to an apparatus for manufacturing a cold material used for controlling the temperature of a molten metal in a steelmaking process, and more particularly, to a cold material capable of producing a cold material, which is produced by cutting a cold- Manufacturing apparatus.

In the steelmaking process, a low-carbon steel coolant is used to control the temperature of the hot molten steel. The cold steel is made of ultra-low carbon steel to minimize changes in the molten metal composition.

The cold-rolled carbon steel is produced in the form of a cold-rolled steel sheet, rolled in the form of a coil, and mainly 6 to 8 mm thick, is cut into a square shape having a length of 20 to 50 mm on one side.

In order to cut the cold-rolled steel sheet into a rectangular shape, the steel sheet had to be cut in the longitudinal direction or the width direction, and then cut again in the width direction or the longitudinal direction.

A method of cutting a cold-rolled steel sheet only in a width direction and a longitudinal direction using a press only is to supply a cold-rolled steel sheet at a constant pitch, cut it in a width direction using a press, .

That is, each press for cutting the steel sheet in the width direction and the longitudinal direction is required, and a process of arranging the steel sheets cut in the width direction and feeding the same again to the next press is required, which requires a lot of time, manpower, and equipment .

As an improvement to the method using only a press, there has been developed a method in which a steel sheet is continuously cut in a longitudinal direction by a slitter in a longitudinal direction, and then cut in a width direction by a predetermined length again using a press.

That is, in the method of cutting the steel sheet in the longitudinal direction by using the slitter and then cutting the steel sheet into a press, there is no need to apply a separate attraction force between the slitter and the press, and even when the slitted steel sheet is not aligned again, There is an effect that the work speed can be increased faster than that in the case of cutting the steel sheet in the width direction and the longitudinal direction only by the conventional press.

However, even if the slitter and the press are mixed, there is a problem that the price of the slitter that can cut the steel plate to a certain width is expensive, and when the slitter blade is worn, it needs to be replaced. Time is consumed, which causes a delay in the operation.

Even in the case of a conventional cold material producing apparatus in which a slitting apparatus and a press are mixed, it is possible to rapidly produce a large amount of cold material rather than a device composed of a press alone. However, A problem that the operation is delayed and a problem that the price of the slitting device is expensive.

Also, there is a problem in that a large space is required as in the case of using only a press as a method of mixing a slitter and a press.

The purpose of the present invention is to produce a cold material used in a steelmaking process at a lower cost than in the prior art, and to cut a steel sheet continuously in the longitudinal direction and the width direction by one press.

In addition, the present invention aims to provide a space that is narrower than the conventional one, thereby reducing the expense of preparing a place for installing the equipment necessary for manufacturing the cold material.

In order to solve the conventional problem, the present invention, developed in order to solve the conventional problem, is a method for manufacturing a cold material having a square planar shape by cutting a front end portion of a steel sheet continuously fed by one pitch to the upper portion of a lower mold, Wherein the forming die is formed in a stepped shape in a V-shaped diagonal direction from the center of the steel sheet toward both widthwise sides of the steel sheet, and the upper die is formed of a body provided at the bottom of the press The tooth block is composed of a plurality of teeth arranged in a stepwise fashion in a V-shaped diagonal direction toward both widthwise sides of the steel sheet so as to cross the forming die of the lower die. And can be realized by a manufacturing apparatus.

In addition, the tooth blocks can be realized by a cold material manufacturing apparatus in which neighboring edges of the tooth blocks are separated from each other in the traveling direction of the steel sheet.

In addition, the forming die of the lower mold is constituted by a parallel blade cutting the steel plate in the longitudinal direction and a right angle blade cutting the steel plate in the width direction, and the right and left parallel blades are alternately repeated in the diagonal direction of both sides in the center of the lower mold The square blade is made to have a length equal to the length of one side of the cold material. The parallel blade is made 1 to 5 mm longer than the square blade, and the upper tooth block is installed at the same angle and spacing as the square blade of the lower die The length of the side of the tooth block intersecting with the right angle edge of the lower mold is the same as the length of the right angle edge of the lower mold and the length of the longitudinal side of the tooth block is longer than the side length but is 1 to 2 mm shorter than the parallel edge It is possible.

Since the present invention can produce a cold material with a single press, there is an effect that the equipment necessary for manufacturing a cold material can be provided at a low cost.

In addition, the process for manufacturing the cold material is simpler than in the past, and the coolant can be produced more quickly than the conventional one.

In addition, the facilities used to manufacture the cold material are simple, and the manpower and maintenance cost required to manage these facilities can be reduced, thereby reducing the production cost of the cold material.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process chart showing the entire process of installing a cold material manufacturing apparatus according to the present invention;
FIG. 2 is a perspective view showing the upper mold and the lower mold according to the present invention in detail,
3 is a plan view showing the lower mold of FIG. 2 in detail,
Fig. 4 is a perspective view and an enlarged view of the main part in detail of the upper mold of Fig. 2,
Fig. 5 is a state of use in which a steel sheet is inserted between the upper die and the lower die,
Fig. 6 is a state of use showing that the steel sheet of Fig. 5 is shifted by one pitch and then cut by a top die,
Fig. 7 is a use state diagram of the upper mold and the lower mold of Fig. 6,
8 is a plan view showing a shape in which the forward end of the steel sheet is cut and a center line of the tip where the ear is cut by one pitch.

Hereinafter, preferred embodiments of a cold material producing apparatus according to the present invention will be described in detail with reference to the drawings described above.

Referring to FIG. 1, the cold material producing apparatus according to the present invention is a cold material producing apparatus that continuously cuts a steel sheet supplied from a steel sheet supplying apparatus, and the steel sheet supplying apparatus includes a coil end, a coil car, Uncoiler, Pinch Roll Flattener, Crop Shear, Side Trimmer, Guide Table, and Feeder.

That is, the low-carbon steel plate 1 is rolled in the form of a coil, installed in the coil end, and then transported to the uncoiler 120 by the coil car 110. The uncoiler 120 serves to support a coil and maintain a proper tensile force on the coiled coil, and serves to transmit the tip of the coil to the pinch roll flatener 130, which is the next apparatus, during the initial operation.

The pinch roll flatteners 130 flatten the tips of the coils and have a plurality of rolls so that the steel plates 1 are moved between the upper and lower rolls 131 to be flat. The creep shear 140 cuts the irregular surface of the coil tip.

The side trimmer 150 cuts the width of the coil uniformly to prevent the steel plate from shaking to the left or right in the width direction in the next process. The guide table 160 serves to feed the steel plate 1 to the feeder 170 at the beginning of the operation and the feeder 170 feeds the steel plate 1 to the press 3 by a predetermined length.

The steel plate 1 stably fed through the steel plate feeder thus configured is cut into a cold material 2 having a square planar shape on the press 3 as the cold material producing apparatus located in the next step of the feeder 170.

1 to 4, a press 3 as a cold material producing apparatus includes a lower die 10 and a upper die 20, a lower die 10 is located at a lower portion of the steel plate 1, (20) is positioned on the upper side of the steel plate (1).

The lower die 10 is installed in a fixed state, and the upper mold 20 reciprocates in a vertical direction by a hydraulic device (not shown) or a link device (not shown). The hydraulic device and the link device for moving the upper die 20 in the up-and-down direction are generally used in the field of press, and therefore, detailed description and illustration thereof will be omitted.

The lower mold 10 is provided with a forming blade 11 used for cutting the tip end in the traveling direction of the steel sheet 1 and the forming blade 11 is provided in the lower mold 10. [ Like shape in the diagonal direction from the center to the both widthwise directions.

The forming blade 11 of the lower metal mold 10 having a step shape in the V direction moves the steel plate 1 along the parallel blade 11-1 cutting the steel plate 1 in the longitudinal direction in the traveling direction C And a right-angled blade 11-2 cut in a width direction perpendicular to the direction C, as shown in Fig. That is, the forming blades 11 of the lower mold 10 are formed such that the right-angle blades 11-2 and the parallel blades 11-1 are alternately repeated from the center of the front end of the lower mold 10 to both side faces, V-shaped.

It is preferable that the rectangular blade 11-2 of the lower mold 10 is formed to have the same length as the length of one side of the cold material 2 whose plane is square and the length of the parallel blade 11-1 It is preferable that it is made 1 to 5 mm long. The parallel blade 11-1 is made longer than the rectangular blade 11-2 in order to prevent the corners of the cold materials 2 cut in the process of cutting the steel plate 1 from falling apart.

The top die 20 is a flat plate shape that is joined to the press 3 and is reciprocating in the vertical direction to cut the leading end of the steel plate 1. The upper plate 20 has a large flat plate shape And a toothed block 22 protruding from a lower portion of the main body 21 so as to be protruded.

The toothed blocks 22 intersect the forming blades 11 of the lower mold 10 and are arranged in a V-shaped diagonal direction toward both widthwise sides of the steel plate 1, It is preferable that the corners are provided so as to be spaced apart from each other in the advancing direction (C).

It is advantageous to separately manufacture the respective tooth blocks 22 and to separate and assemble the toothed blocks 22 from the main body 21. The tooth blocks 22 are separated from each other, This is because it is easy to do.

The toothed block 22 is installed at the same angle and spacing as the right angle edge 11-2 of the lower mold 10. The toothed block 22 intersects with the right edge 11-2 of the lower mold 10, The length of the transverse side 22-2 of the lower die 10 is the same as the length of the rectangular edge 11-2 of the lower die 10 and the tooth block 22 crossing the parallel edge 11-1 of the lower die 10, Is preferably longer than the length of the transverse side 22-2 but shorter than the length of the parallel edge 11-1 by 1 to 2 mm.

The shape of the forming blade 11 and the tooth block 22 of the lower mold 10 is determined by the shape of the cold block 22 formed by crossing the forming blades 11 of the tooth block 22 and the lower mold 10. [ 2 are separated from each other.

5 to 8, the steel plate 1 is moved in the advancing direction C with a pitch equal to the length of one side of the cold material 2 to be produced by the feeder 170 at one pitch. Therefore, the steel strip 1 is supplied to the inside of the press 3 one by one at a time.

When the steel plate 1 is stopped after being fed by one pitch, the upper die 20 crosses the lower die 10 while repeating the up-and-down movement once in the inside of the press 3 to form the V- Cut it.

At this time, the forming die 11 of the lower mold 10 is constituted by the parallel edge 11-1 and the right-angle edge 11-2, and the vertical side 22-2 of the toothed block 22 of the upper die 20, 1 and the transverse side 22-2 intersect with the forming blades 11 of the lower mold 10, the steel plate 1 is cut into a V-shaped step shape at the tip end.

The leading end portion of the steel strip 1 is sequentially cut in both the longitudinal direction and the width direction by the toothed block 22 of the upper die 20 and the forming die 11 of the lower die 10, And separated into a plurality of cold materials (2).

After the steel plate 1 is cut, the upper die is again moved to the upper portion of the steel plate 1, and the feeder 170 moves the steel plate 1 again to the inside of the press 3 by one pitch, The cutting process is repeated to successively cut the leading end of the steel plate 1 to continuously produce the cold material 2. [

DESCRIPTION OF THE PREFERRED EMBODIMENTS The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings. However, the present invention is not limited to this embodiment. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the appended claims and the appended claims. All equivalents to modifications and variations should be regarded as falling within the scope of the present invention.

1: steel plate 2: cold material
3: Press 10: Lower mold
11: forming blade 11-1: parallel blade
11-2: Right Angle Date 20: Prize Type
21: main body 22: tooth block
22-1: longitudinal side 22-2: lateral side

Claims (3)

And moving the tip of the steel sheet continuously fed by one pitch to the upper portion of the lower mold vertically and cutting the upper end portion into an upper mold intersecting the lower mold to produce a cold material having a square planar shape,
The lower mold is formed in a stepped shape in the diagonal direction of the V-shape toward the widthwise sides of the steel sheet from the center of the steel sheet,
The upper die is composed of a main body provided at the lower part of the press and a tooth block having a rectangular shape in cross section and protruding to the lower portion of the main body. The tooth block is moved in the width direction of both sides of the steel plate so as to cross the forming die of the lower die, Wherein the cooler is installed in a stepwise manner in the diagonal direction of the shape.
The method according to claim 1,
Wherein the tooth blocks are installed such that neighboring edges of the tooth blocks are separated from each other in a traveling direction of the steel plate.
The method according to claim 1,
The forming die of the lower mold is constituted by a parallel blade cutting the steel sheet in the longitudinal direction and a right angle blade cutting the steel sheet in the width direction and the right and left parallel blades are alternately repeated in the both side diagonal directions at the center of the lower mold , The right angle blade is made to have the same length as the length of one side of the cold material, and the parallel blade is made 1 to 5 mm longer than the right angle blade,
The tooth profile block of the upper mold type is provided at the same angle and spacing as the square edge of the lower mold and the length of the side of the tooth block intersecting with the square edge of the lower mold is the same as the length of the square edge of the lower mold, The length of the sides is longer than the side of the side but shorter than the parallel edge by 1 to 2 mm.

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