KR101177017B1 - Cutting mold apparatus of seed steel in roll forming - Google Patents

Abstract

The present invention relates to a device for cutting a seed steel in roll forming and a method thereof, and more particularly to blanking, burring, and beading a press, and then to forming a seed (C) steel having a shape required by roll forming. The present invention relates to a cutting mold apparatus for a seed steel in roll forming to enable cutting even when a force or a bearing groove is formed in the seed steel after being molded in the form of.
The present invention is to perform the blanking and burring operation in the press by supplying the coil and to form a seed steel having a top, side and wings in the roll forming apparatus to cut in the cutting device; The cutting device includes a movable cam connected to the press ram; A movable cutting mold connected to the movable cam and installed to be inclined with a moving inclined surface of the guide installed in the cassette, and having a shaped steel feed hole therein; A fixed cutting mold installed on one side of the movable cutting mold and forming a shape-transfer hole; A movable mold installed at a lower side of the fixed cutting mold and installed at a lower side of a movable space in which force is located, and connected to a movable shaft at a lower side thereof; In the cutting device of the seed steel in the roll forming formed on the lower side of the movable mold and consisting of a movable mold cam connecting the rod and the cylinder and penetrating the movable shaft,
The movable mold cam is connected to the rod of the cylinder to support the lower side of the movable mold, characterized in that to form a long hole through which the movable shaft passes.

Description

Cut mold device of C-section steel

The present invention relates to a device for cutting a seed steel in roll forming and a method thereof, and more particularly, after a burring operation by a press, forming a seed (C) steel having a shape required by roll forming into a predetermined shape. The present invention relates to a cutting mold apparatus for a seed steel in roll forming that enables cutting even when a force or bearing groove is formed in the seed steel.

The section steel refers to a rod-shaped rolling agent having various cross-sectional shapes, and is mainly used for steel structures such as a fixed frame of a building exterior wall.

Molten steel is injected into the shape of a footnote to form a steel ingot, removes impurities, densifies it, reheats it in a heating furnace, hangs it on a rolling mill, and polishes it into various cross-sectional shapes through several stages of sticking rollers. Thereafter, according to the cross-sectional shape, it is divided into types of isosceles, isosceles, H-beams, I-beams, sections, Z-sections, T-sections, and C-sections.

Tensile strength is about 40 ~ 60kg / of rolled steel for general structural use, the length of commercially available is usually 3.5 ~ 12m.

Among them, as shown in FIG. 1, the seed steel 100 has a relatively wide width and is formed in a planar shape so as to protrude to a predetermined width by bending both side surfaces 150 of the upper surface 110. And, it is formed so that the wing 160 protrudes inward from the lower side of both sides (150).

The seed steel 100 is used for building interiors and structural combined with the panel coupled thereto, mainly used for partitions of the wall.

However, the conventional C-shaped steel is weak in durability in the form of a simple ruler, and there is a risk of defects such as bending to the inside and outside due to the weight and external impact of the panel joined after installation on the building exterior wall.

As a conventional technique for solving the above disadvantages, Utility Model Registration No. 0431791 (registered on Nov. 17, 2006) is a seed steel in which a panel is inserted and fixed to an open portion thereof. Reinforcing grooves are formed in the longitudinal direction to prevent deformation due to the weight and external impact of the installed panels on the bottom and both sides, thereby improving durability and effectively preventing deformation due to the weight and external impact of the panel. .

However, such conventional C-shaped steel is effective only in one direction and not in all directions depending on the installation position by forming the reinforcing grooves in the form of unevenness while moving in the longitudinal direction by the rollers. When the load is applied in the opposite direction, a disadvantage arises that it is easily deformed.

In the case of the seed steel, various strengths can be improved by carrying out various types of burring operations through a press. However, the improvement of the strengths by the burring operations is expected to have only some effects, but is not expected to improve the desired strength. In order to greatly improve the strength, it was to form a variety of irregularities on the upper surface 110 and the side surface 150, but the thickness of the steel sheet of the seed steel 100 in the press 60 and the roll forming apparatus 70 In the case of forming a shape that protrudes outward or inward, the cutting device 10 cannot cut with a general cutting mold due to a complex shape protrusion on the inner surface of the seed steel, so that it is impossible to produce such a technology and thus it cannot be applied. There is a situation.

That is, in order to cut the seed steel by the fixed blade and the moving blade in the cutting device to provide a state that the blade is in contact with the point, but if there is a shape protruding outward or inward from the steel sheet thickness of the seed steel Since the point contact of the mold was not made, the defect that the mold cutting was impossible occurred.

Document 1. Utility Model Registration No. 0431791 (registered November 17, 2006) Document 2. Utility Model Registration No. 0417647 (registered May 24, 2006) Document 3. Patent Publication No. 2005-0032546 (published Apr. 07, 2005) Document 4. Patent Publication No. 2008-0037329 (published Apr. 30, 2008)

Therefore, the problem of the present invention, which was devised to solve such a conventional drawback, is to supply a coil to perform a blanking, burring, beading process by pressing, and roll forming to protrude various shapes into the inside of the seed steel. It is an object of the present invention to cut the C-shaped steel, which is designed to reduce the weight and improve the strength of the die cutting device.

The present invention is to perform the blanking and burring operation in the press by supplying the coil and to form a seed steel having a top, side and wings in the roll forming apparatus to cut in the cutting device; The cutting device includes a movable cam connected to the press ram; A movable cutting mold connected to the movable cam and installed to be inclined with a moving inclined surface of the guide installed in the cassette, and having a shaped steel feed hole therein; A fixed cutting mold installed on one side of the movable cutting mold and forming a shape-transfer hole; A movable mold installed at a lower side of the fixed cutting mold and installed at a lower side of a movable space in which force is located, and connected to a movable shaft at a lower side thereof; In the cutting device of the seed steel in the roll forming formed on the lower side of the movable mold and consisting of a movable mold cam connecting the rod and the cylinder and penetrating the movable shaft,
The movable mold cam is connected to the rod of the cylinder to support the lower side of the movable mold, characterized in that to form a long hole through which the movable shaft passes.

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The present invention is to reduce the weight by supplying a coil to perform a blanking, burring, bead process by the press work and roll forming work so as to protrude a variety of shapes, such as forming holes, force, burring, bead into the inside of the seed steel Simultaneously improve the strength while improving the strength, and even if the bearing groove and the bead force is formed in the mold cutting device while cutting and at the same time the movable mold supports the effect that enables the cutting.

1 is a perspective view of a conventional seed steel
2 is a processing device showing a preferred embodiment of the present invention
Figure 3 is a side view of the installation state for the cutting device of the present invention
Figure 4 is an installation front view of the cutting device of the present invention
Figure 5 is a side view of adding a return device to the cutting device of the present invention
Figure 6 is a perspective view of the seed steel of the present invention

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows a processing apparatus diagram showing a preferred embodiment of the present invention, is wound and supplied in the state of the coil 50, the press 60 is installed to the right side of the coil 50, the press 60 In the coil 50 to form the perforated 120 or to form the force 130, and to form the upper surface reinforcing portion 140, such as blanking, burring, beading to work in a variety of shapes and shapes simultaneously or It is to install to do either job.

The roll feeder 71 is installed on the left side of the press 60 to supply the coil 50 with a predetermined perforation interval so that both sides of the upper surface 110 are bent by a plurality of rollers in the roll forming apparatus 70. 150 to form, to bend the wings 160 to both sides of the side 150, and to perform a forming operation to have a variety of shapes if necessary.

A roll 72 is installed on the right side of the roll forming apparatus 70 so that the roll 72 is discharged at a constant speed, and a cutting device 10 is installed on the right side of the roll 72 to a desired length. To cut.

Figure 3 is a side view of the installation state of the cutting device of the present invention, Figure 4 shows a front view of the installation state of the cutting device of the present invention.

The cutting device 10 is to be cut in the process of supplying the seed steel 100 at a high speed from the lower side of the cutting mold ram 13 installed in the press bolster (not shown), the upper side of the rectangular cassette 11 A movable cam 14 having one side of the lower side formed with an inclined surface 14a protrudes, and a pushed surface 15a is formed in contact with the inclined surface 14a, and the upper and lower surfaces are inclined to form a moving inclined surface ( The movable cutting mold 15 which contacts the guide 12 in which 12a) was formed is provided.

The right side of the movable cutting mold 15 is provided with a return spring 19 to provide an elastic force for cutting and returning the seed steel 100 while being inclined to the right.

A fixed cutting mold 18 is formed at one side of the movable cutting mold 15 to form a shaped steel feed hole 16 so that the seed steel 100 is supplied at the same position.

The movable steel 17 has a movable space 17a in which the force meat 130 is located, and groove grooves 17b are formed at both sides of the movable space 17a.

A movable mold 17 for reciprocating up and down in the movable space 17a is provided below the center of the fixed cutting mold 18, and one side of the movable mold 17 is inclined.

A movable mold cam 22 is formed below the movable mold 17 to interrupt the movement of the movable mold 17, and a rod 24 is connected to the cylinder 23 to the movable mold cam 22.

The movable shaft 20 is connected to the lower side of the movable mold 17, and the movable shaft 20 is fixed to the lower cassette 11 through the long hole 22a formed in the movable mold cam 22. And, by coupling the movable spring 21 to the movable shaft 20 is installed so that the force to pull the movable mold 17 downward.

Figure 5 shows a side view of adding a return device to the cutting device of the present invention, the return device 30 is installed to ensure that the movable cutting mold 15 is correctly returned to one side of the cutting device (10).

The return device 30 is connected to the rotating plate 32 inclined to protrude the operating shaft 31 on the lower side of the press ram 13, and the right side of the rotating plate 32 to the column 33 to be rotatable And a return cam 35 formed on both sides of the rotary plate 32 and the movable cutting mold 15 to be inclined in the same direction on both sides thereof so that the movable cutting mold 15 is lowered to form the seed steel 100. Install to return correctly after cutting.

Figure 6 shows a perspective view of the seed steel of the present invention, the seed steel 100 is a perforated 120 is formed on the upper surface 110 at regular intervals, forming a force 130 along the perforated 120 The burring grooves 140 were formed between the perforations 120 at both sides of the perforations 120 to thereby reinforce the bearing grooves 140.

Corner beads 170 were formed at the bent portions of the upper surface 110 and the side surface 150, and the wings 160 were bent from the lower side of the side surface 150 to the inside to be molded.

According to the present invention having the above configuration, the coil 50 is supplied to the press 60, and the upper surface 110 is perforated 120, and then the force meat 130 is formed, and the bearing groove is formed between both sides of the perforated 120. Forming and reinforcing 140, the upper surface 110 is to provide a variety of forms to perform the blanking and burring at the same time or to perform any one of the blanking and the burring.

When the work is finished in the press 60, after bending the side surface 150 through a plurality of rollers that are supplied at a predetermined interval after being supplied to the roll forming apparatus 70 through the roll 71, the wings 160 from the lower side Molding.

After forming the structure of the various side shapes in the roll forming apparatus 70 is discharged at a predetermined speed by the roll 72 is cut to the required length in the cutting device 10 is supplied.

Here, when the power supply 130 and the bearing groove 140 are formed on the upper surface 110 of the seed steel 100 and supplied to the cutting device 10, the movable cutting mold 15 and the fixed cutting mold 18 are conventionally provided. The point contact did not occur in the non-cutting disadvantage occurred.

However, in the present invention, even when forming irregularities of various types through blanking and burring, the pressure of the press is set in order to cut to the required length by setting the cutting line 170 when passing through the cutting device 10. And the press ram 13 pressurizes the movable cam 14.

When the movable cam 14 is pressurized and transferred downward, the downwardly inclined surface 14a presses the pushing surface 15a of the movable cutting mold 15 while moving downward in one portion of the cassette 11. The movable cutting mold 15 is slid inclined at the moving inclined surface 12a of the guide 12 in accordance with the movement of the 15a, so that the movable cutting mold 15 and the fixed cutting mold 18 are formed at the transfer hole 16 of the shaped steel. The seed steel 100 is cut while being shifted.

When the movable cutting mold 15 and the fixed cutting mold 18 are shifted as described above, when the cylinder 23 is driven and the movable mold cam 22 is advanced through the rod 24, the movable mold 17 is opened. Since it moves upward to the upper side of the movable space 17a to support the lower side of the force bar 130 of the seed steel 100, the cutting line 170 is moved by the movable cutting mold 15 and the fixed cutting mold 18. Therefore, the point contact is to make the cutting.

 After the movable mold 17 is raised to make the cutting in the movable space 17a, the press ram 13 is raised to raise the movable cam 14, and the movable cutting mold 15 returns the return spring 19. The elastic force is actuated by) to move upward and return.

When the movable cutting mold 15 rises, when the cylinder 23 moves the rod 24 backward, the movable mold cam 22 moves backward to lower the movable shaft 20 by the elastic force of the movable spring 21. Since the movable cutting mold 15 is to be lowered to remove the force pressing the force 130 is to ensure that the seed steel 100 is normally supplied.

Accordingly, the seed steel 100 is cut at the cutting line 170 through the cutting device 10.

Since the return spring 19 has a weak elastic force and may be insufficient in the force for the return of the movable cutting mold 15, as shown in FIG. 5, a return device 30 is installed, and the press ram 13 is lowered. As the operating shaft 31 moves downward while moving, the return cam 34 does not receive the force while the rotary plate 32 is rotated downwardly around the point connected to the pillar 33, so that the movement of the movable cam 14 is performed. The movable cutting mold 15 is slidably moved obliquely, and after the movable cutting mold 15 is slidably moved to cut the seed steel 100, the press ram 13 is raised to raise the operating shaft 31. While rotating the rotating plate 32 to the upper side and the return cam 34 by pushing the return cam 34 is to push the lower side of the movable cutting mold 15 to return correctly.

The present invention is a cutting device in the process of performing the bending of the upper surface, side and wings in the roll forming apparatus and cutting to the required length after performing the blanking and burring operation on the upper surface through a multi-stage press operation to supply the product in the coil state The movable mold installed below the fixed cutting mold is raised so that the cutting can be done normally by supporting it according to the shape of the seed steel in the movable space so that the cutting work can be freely cut to the desired length even after blanking, burring and beading work. To make it work.

10 cutting device 11 cassette
12: guide 12a: moving slope
13: press ram 14: movable cam
15: movable cutting mold 15a: the slide surface
16: conveying hole of the steel 17: movable mold
17a: movable space 18: fixed cutting mold
19: return spring 20: movable shaft
21: movable spring 22: movable mold cam
22a: long hole 23: cylinder
24: rod 30: return device
31: working shaft 32: rotating plate
33: pillar 34: return cam
50: coil 60: press
70: roll forming apparatus 100: seed steel
110: upper surface 120: perforation
130: strength 140: bearing home
150: side 160: wing

Claims (6)

delete delete The coil 50 is supplied to perform blanking and burring at the press 60, and the seed steel 100 having the top surface 110, the side surface 150, and the blades 160 is formed in the roll forming apparatus 70. By cutting in the cutting device 10; The cutting device 10 includes a movable cam 14 connected to the press ram 13; A movable cutting mold connected to the movable cam 14 so as to be pressed, inclined with the moving inclined surface 12a of the guide 12 installed inside the cassette 11, and having a section steel feed hole 16 formed therein ( 15); A fixed cutting mold (18) installed at one side of the movable cutting mold (15) and forming a section steel feed hole (16); A movable mold (17) installed below the fixed cutting mold (18) and installed below the movable space (17a) where the force meat (130) is located, and connected to the movable shaft (20) at the bottom thereof; In the cutting device of the seed steel in roll forming formed on the lower side of the movable mold 17, consisting of a movable mold cam 22 which connects the rod 24 and the cylinder 23 and penetrates the movable shaft 20,
The movable die cam 22 is connected to the rod 24 of the cylinder 23 and supports the lower side of the movable mold 17 and forms a long hole 22a through which the movable shaft 20 penetrates. Cutting device for seed steel in forming.
The coil 50 is supplied to perform blanking and burring at the press 60, and the seed steel 100 having the top surface 110, the side surface 150, and the blades 160 is formed in the roll forming apparatus 70. By cutting in the cutting device 10; The cutting device 10 includes a movable cam 14 connected to the press ram 13; A movable cutting mold connected to the movable cam 14 so as to be pressed, inclined with the moving inclined surface 12a of the guide 12 installed inside the cassette 11, and having a section steel feed hole 16 formed therein ( 15); A fixed cutting mold (18) installed at one side of the movable cutting mold (15) and forming a section steel feed hole (16); A movable mold (17) installed below the fixed cutting mold (18) and installed below the movable space (17a) where the force meat (130) is located, and connected to the movable shaft (20) at the bottom thereof; In the cutting device of the seed steel in roll forming formed on the lower side of the movable mold 17, consisting of a movable mold cam 22 which connects the rod 24 and the cylinder 23 and penetrates the movable shaft 20,
The movable mold 17 is connected to the movable shaft 20 connected to the lower side through the long hole 22a of the movable mold cam 22 to the lower side, and the movable spring 21 is coupled to the movable shaft 20. Cutting device of the seed steel in roll forming, characterized in that to be returned.
delete The coil 50 is supplied to perform blanking and burring at the press 60, and the seed steel 100 having the top surface 110, the side surface 150, and the blades 160 is formed in the roll forming apparatus 70. By cutting in the cutting device 10; The cutting device 10 includes a movable cam 14 connected to the press ram 13; A movable cutting mold connected to the movable cam 14 so as to be pressed, inclined with the moving inclined surface 12a of the guide 12 installed inside the cassette 11, and having a section steel feed hole 16 formed therein ( 15); A fixed cutting mold (18) installed at one side of the movable cutting mold (15) and forming a section steel feed hole (16); A movable mold (17) installed below the fixed cutting mold (18) and installed below the movable space (17a) where the force meat (130) is located, and connected to the movable shaft (20) at the bottom thereof; In the cutting device of the seed steel in roll forming formed on the lower side of the movable mold 17, consisting of a movable mold cam 22 which connects the rod 24 and the cylinder 23 and penetrates the movable shaft 20,
The movable cutting mold 15 is provided with a return cam 34 on the lower side of the right side, the rotating plate 32 provided on the right side of the return cam 34 is rotatably connected to the pillar 33, the rotating plate ( 32) The cutting device for the seed steel in roll forming, characterized in that further comprising a return device 30 for connecting the operating shaft 31 to the press ram 13 upward.

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