KR102209632B1 - Heat treating tray - Google Patents

Abstract

The present invention provides a heat treatment support plate, which comprises: a plurality of first support units extended in a longitudinal direction and spaced from each other to be installed; a second support unit installed to be closely attached to the first support unit and forming a closed cross-section by itself or by closely attaching to the first support unit; and a fixing unit installed by penetrating the first support unit and the second support unit and fixating the first support unit and the second support unit to be detachable.

Description

Heat treating tray {Heat treating tray}

The present invention relates to a heat treatment support plate used for heat treatment.

It should be noted that the contents described in this section merely provide background information on the present invention and do not constitute prior art.

In the case of some steel products, the final target quality is secured through heat treatment (heating-cooling, etc.). At this time, a base plate used to place the heat treatment target is required.

Referring to FIG. 1, since the base plate 1 generally used for heat treatment needs to withstand the thermal load caused by high temperature, it is generally manufactured and used as a casting.

However, the steel material expands and contracts depending on the temperature. Since the heat treatment base plate 1 made of a cast is fixed between the constituent members, residual deformation and residual stress due to the difference in cooling rate generated during the heat treatment process remain.

If the heat treatment is repeatedly performed several times, not only the connection between the members of the base plate 1 is damaged, but also severe residual deformation remains, so that the expensive cast material heat treatment base plate 1 cannot be used anymore.

Therefore, there is an urgent need to develop a product capable of minimizing residual stress generated after heat treatment, controlling thermal deformation occurring after heat treatment, and partially replacing damaged parts.

KR 10-2011-0072206 A

In one aspect, an object of the present invention is to provide a heat treatment support plate capable of reducing residual deformation and residual stress due to a difference in cooling rate occurring during a heat treatment process.

In one aspect, the present invention is to provide a heat treatment support plate that improves economic efficiency by replacing only the damaged components when damage occurs to some components.

As an aspect for achieving the above object, the present invention is formed extending in the longitudinal direction, a plurality of the first support unit is installed spaced apart; A second support unit that is installed in close contact with the first support unit and forms a closed cross-section by itself or forms a closed cross-section when in close contact with the first support unit; And a fixing unit which is installed through the first support unit and the second support unit, and fixes the first support unit and the second support unit detachably.

Preferably, the first support unit may be formed of a rectangular metal plate, and a plurality of the first support units may be spaced apart from each other with the second support unit therebetween.

Preferably, the second support unit may be composed of a plurality of circular pipes that form a closed cross-section.

Preferably, the second support unit may be composed of a plurality of polygonal tubes themselves forming a closed cross-section.

Preferably, the second support unit is composed of a plurality of polygonal tubes having an even number of sides, and the first opposite side may be in close contact with the first support unit.

Preferably, the second support unit is composed of a plurality of polygonal tubes having an even number of sides, a first opposite side is in close contact with the first support unit, and the second opposite sides of the adjacent second support units are in close contact with each other. I can.

Preferably, the second support unit may be formed of a curved plate body extending in a zigzag shape between adjacent first support units.

Preferably, the curved plate body includes: a first contact plate in close contact with a side surface of the first support unit on one side; An inclined plate having one end connected to the first contact plate in an inclined manner, and installed across the adjacent first support units; And a second contact plate having the other end obliquely connected to the swash plate and in close contact with the side surface of the first support unit on the other side.

Preferably, the first support unit and the second support unit may be alternately installed through the fixing unit.

Preferably, the upper surface of the first support unit and the upper surface of the second support unit may form a height corresponding to each other to support the lower surface of the support object.

Preferably, the fixing unit may be composed of a two-way fixing member capable of assembling and disassembling through both side ends.

Preferably, at least one of the first support unit, the second support unit, and the fixing unit may be formed of a shape memory alloy.

According to an embodiment of the present invention, there is an effect of reducing residual deformation and residual stress caused by a difference in cooling rate occurring during a heat treatment process.

According to an embodiment of the present invention, when damage occurs to some components, there is an effect of improving economic efficiency by replacing only the damaged components.

1 is a view showing a base plate used in a conventional heat treatment.
2 is a perspective view of a heat treatment support plate according to an embodiment of the present invention.
3 is a perspective view of a heat treatment support plate according to another embodiment of the present invention.
4 is a perspective view of a heat treatment support plate according to another embodiment of the present invention.
5 is a perspective view of a heat treatment support plate according to another embodiment of the present invention.
6 is a view showing a manufacturing process of the heat treatment support plate of FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided in order to more completely explain the present invention to those with average knowledge in the art. In the drawings, the shapes and sizes of elements may be exaggerated for clearer explanation.

Hereinafter, a heat treatment support plate 10 according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 6.

The heat treatment support plate 10 according to an embodiment of the present invention may include a first support unit 100, a second support unit 200, and a fixing unit 300.

Referring to Figures 2 to 5, the heat treatment support plate 10 is formed extending in the longitudinal direction, a plurality of the first support unit 100 is installed spaced apart, and is installed in close contact with the first support unit 100 , A second support unit 200 that forms a closed cross-section by itself or forms a closed cross-section when in close contact with the first support unit 100, and the first support unit 100 and the second support unit 200 It may include a fixing unit 300 installed through the first support unit 100 and the second support unit 200 to be detachably fixed.

2 to 5, the first support unit 100 is formed extending in a first direction D1, which is a longitudinal direction of the heat treatment support plate 10, and a second direction, which is a width direction of the heat treatment support plate 10. Multiple units may be installed separated by D2).

The first support unit 100 may be formed of a plate-shaped member extending in a first direction D1 which is a longitudinal direction of the heat treatment support plate 10.

The first support unit 100 may be installed over the entire first direction D1.

The first support unit 100 may be formed of a flat plate such as a steel plate extending in the first direction D1.

In the first support unit 100, the long side of the rectangular steel plate is arranged in a first direction D1, which is the longitudinal direction of the heat treatment support plate 10, and the thickness of the rectangular steel plate is a second direction, which is the width direction of the heat treatment support plate 10. It is arranged in (D2), the short side of the rectangular steel plate may be arranged in the third direction (D3) that is the height direction of the heat treatment support plate 10.

2 to 5, the second support unit 200 may be disposed between two adjacent first support units 100 and may be installed in close contact with the first support unit 100.

The second support unit 200 may be continuously installed in the first direction D1, and the two adjacent second support units 200 may have side surfaces in close contact with each other.

Referring to FIG. 6, by disassembling the fixing unit 300, at least a portion of the first support unit 100 and the second support unit 200 may be replaced.

At least a portion of the side surfaces of the first support unit 100 and the second support unit 200 may be in close contact with each other.

The first support unit 100 and the second support unit 200 may be formed of a metal material. At this time, the metal material may be made of a steel material such as steel or stainless steel.

The first support unit 100 may be formed of a flat member, and the second support unit 200 may itself form a closed cross-section or may form a closed cross-section when in close contact with the first unit.

In this case, the thickness of the steel material constituting the first support unit 100 may be configured to be relatively thicker than the thickness of the steel material constituting the second support unit 200.

This is to reinforce the rigidity of the first support unit 100 made of a flat member because it may be vulnerable to buckling, and is made of a thicker steel material than the second support unit 200.

As another example, the thickness of the steel material constituting the first support unit 100 and the second support unit 200 may be configured to have the same thickness.

The first support unit 100 and the second support unit 200 are modularized and manufactured in a factory in advance, so that productivity and economy can be improved.

The present invention is a heat treatment support plate 10 used for heat treatment of coils, steel sheets, etc. on which a steel sheet is wound.

As an example, in the present invention, the heat treatment support plate 10 may be used for heat treatment of steel products such as a steel sheet and a coil on which the steel sheet is wound.

Heat treatment may be performed by a heating device or the like in a state in which an object such as a steel sheet or a coil on which the steel sheet is wound is mounted on the heat treatment support plate 10.

2 to 5, the first support unit 100 and the second support unit 200 may be fixed in close contact with each other through the fixing unit 300.

Unlike the heat treatment support plate 10 of the present invention, when the components are disposed to be spaced apart from each other, additional deformation may occur as the gap between the components becomes narrower.

In the heat treatment support plate 10 of the present invention, since the first support unit 100 and the second support unit 200 are in close contact with each other via the fixing unit 300, the occurrence of such additional deformation can be reduced in advance. .

Referring to FIG. 1, when the base plate is integrally manufactured as a casting as in the prior art, since the entire base plate is integrally fixed, residual deformation and residual stress due to the difference in cooling rate occurring during the heat treatment process remain, and this phenomenon If it occurs repeatedly several times, severe residual deformation remains, and there is a problem that the expensive cast material heat treatment base plate can no longer be used.

2 to 5, the heat treatment support plate 10 of the present invention may be in a state in which the first support unit 100 and the second support unit 200 are in close contact with each other, but the first support Since the unit 100 and the second support unit 200 are not completely fixed, the residual deformation and residual stress caused by the difference in cooling rate occurring during the heat treatment process can be buffered to some extent, so the heat treatment support plate 10 There is an effect that can reduce the rate of occurrence of permanent damage.

In addition, in the heat treatment support plate 10 of the present invention, the first support unit 100 and the second support unit 200 are separately manufactured, and are detachably fixed through the fixing unit 300, and some components When damage occurs, there is an effect that economic efficiency can be improved since there is no need to replace only the damaged components and the entire heat treatment support plate 10.

Referring to FIGS. 2 to 5, the first support unit 100 may be formed of a rectangular metal plate, and a plurality of the first support units 100 may be spaced apart from each other with the second support unit 200 interposed therebetween.

The first support unit 100 is formed to extend in a first direction D1, which is the longitudinal direction of the heat treatment support plate 10, and a plurality of the first support units 100 are spaced apart from each other in a second direction D2, which is the width direction of the heat treatment support plate 10. I can.

The long side of the first support unit 100 composed of a rectangular metal plate is disposed in a first direction D1, which is the longitudinal direction of the heat treatment support plate 10, and the thickness of the first support unit 100 is a heat treatment support plate. It is disposed in the second direction D2, which is the width direction of (10), and the short side of the first support unit 100 may be disposed in the third direction D3, which is the height direction of the heat treatment support plate 10.

Referring to FIG. 2, the second support unit 200 may be composed of a plurality of circular tubular bodies 200-1 each forming a closed cross-section.

A plurality of circular pipes 200-1 may be formed by cutting a tubular body having a circular cross section such as a steel pipe to a predetermined length.

Referring to FIGS. 3 and 4, the second support unit 200 may be configured of a plurality of polygonal pipes 200-2 which form a closed cross-section.

The polygonal tube 200-2 may be disposed in parallel to face each other.

A plurality of polygonal pipes 200-2 may be formed by cutting a tubular body having a polygonal cross section such as a steel pipe to a predetermined length.

Referring to FIG. 3, the second support unit 200 is composed of a plurality of polygonal pipes 200-2 having an even number of sides, and a first opposite side L1 is formed with the first support unit 100. It can be tight.

The second support unit 200 includes at least the first support unit 100 and the second support unit by intimate contact with the side surfaces of the first support unit 100, respectively, with a pair of the first opposite sides L1 facing each other. Between 200 can be supported more stably.

The polygonal tube 200-2 may have an even number of sides, and a pair of opposed first opposite sides L1 may be in close contact with the side surfaces of the first support units 100 on both sides.

It is composed of a polygonal tube body (200-2) having an even number of sides, the two first opposed sides (L1) facing each other may be in close contact with the side surfaces of the two first support units (100).

Referring to Figure 3, the first opposite side (L1) on the upper side of the polygonal tube body (200-2) is in close contact with the side of the first support unit 100 disposed on the upper side, the lower side of the polygonal tube body (200-2) The first opposite side L1 of may be in close contact with the side surface of the first support unit 100 disposed on the lower side.

At this time, the edge portions of the adjacent second support units 200 may be in close contact.

As an example, the second support unit 200 may be composed of a plurality of hexagonal tubes.

The first opposite side (L1) on the upper side of the hexagonal tube is in close contact with the side surface of the first support unit 100 disposed on the upper side, and the first opposite side (L1) on the lower side of the hexagonal tube is the first support disposed on the lower side. It may be in close contact with the side of the unit 100.

Referring to FIG. 4, the second support unit 200 is composed of a plurality of polygonal pipes 200-2 having an even number of sides, and a first opposite side L1 is formed with the first support unit 100. In close contact, the second opposite sides L2 of the adjacent second support units 200 may be in close contact with each other.

The second support unit 200 includes at least the first support unit 100 and the second support unit by intimate contact with the side surfaces of the first support unit 100, respectively, with a pair of the first opposite sides L1 facing each other. Between 200 can be supported more stably.

Since the second opposite sides L2 of the adjacent second support units 200 are in close contact with each other, at least between the adjacent second support units 200 may be supported more stably.

In the second support unit 200, a pair of the first opposite sides L1 may be in close contact with the side surfaces of the first support unit 100, respectively, and the side surfaces of the adjacent second support units 200 The second opposite sides L2 may be in close contact with each other.

The first facing side L1, which is a pair of the polygonal tube body 200-2, is in close contact with the side surface of the first support unit 100, and the second facing side that forms a pair to face each other in the polygonal tube body 200-2 The side L2 may be in close contact with the second opposite side L2 forming the side surface of the adjacent second support unit 200.

Referring to FIG. 4, the second support unit 200 may be formed of a plurality of octagonal tubes.

The first opposite side (L1) of the upper side of the octagonal tube body is in close contact with the side of the first support unit 100 disposed on the upper side, and the first opposite side (L1) of the lower side of the octagonal tube body is the first support disposed on the lower side. It may be in close contact with the side of the unit 100.

In addition, the second opposite side L2 on the left side of the octagonal tube body is in close contact with the side of another adjacent octagonal tube body disposed on the left, and the second opposite side L2 on the right side of the octagonal tube body is another adjacent octagonal tube body disposed on the right side It can be supported more stably while being in close contact with the side of the.

Referring to FIGS. 5 and 6, the second support unit 200 may be formed of a curved plate body 200-3 extending in a zigzag shape between adjacent first support units 100.

The curved plate body 200-3 is formed to extend along the longitudinal direction of the first support unit 100 and may be installed between two adjacent first support units 100.

For example, the curved plate body 200-3 may be formed to extend in a zigzag shape between two adjacent first support units 100.

Referring to FIG. 5, the bent plate body 200-3 has a first contact plate 210 that is in close contact with the side surface of the first support unit 100 on one side, and one end is inclined with the first contact plate 210. A swash plate 230 connected and installed across the adjacent first support unit 100, and the other end is obliquely connected to the swash plate 230, and the side of the first support unit 100 on the other side A second contact plate 250 may be provided in close contact.

The curved plate body 200-3 may be installed between two adjacent first support units 100.

The first contact plate 210 may be in close contact with the side surface of the first support unit 100 on one side, and the second contact plate 250 may be in close contact with the side surface of the first support unit 100 on the other side.

The inclined plate 230 may connect the first contact plate 210 and the second contact plate 250 in an inclined manner.

In the bent plate body 200-3, a first contact plate 210, a swash plate 230, and a second contact plate 250 are sequentially formed along the length direction, and the first contact plate 210, the swash plate 230 And the second contact plate 250 may be repeatedly continuous.

As another example, although not shown, the curved plate body 200-3 is a curved plate (not shown) extending in a zigzag shape while forming an arc-shaped curved line between two adjacent first support units 100. Can be configured.

Referring to Figure 6, looking at the manufacturing process of the heat treatment support plate 10 of the present invention as follows.

First, a plurality of fixing units 300 to which one end is fixed are prepared.

Next, the first support unit 100 is inserted into the fixing unit 300 to which one end is fixed, and then the second support unit 200 is inserted and installed.

By repeating the above process, the first support unit 100 and the second support unit 200 are alternately inserted and disposed in the fixing unit 300.

The heat treatment support plate 10 is formed by fixing the other end of the fixing unit 300 in a state in which the first support unit 100 and the second support unit 200 are disposed.

Specifically, the heat treatment support plate 10 may be formed by fixing the other end of the fixing unit 300 in a state in which the first support unit 100 is disposed at both ends of the fixing unit 300.

2 to 5, the first support unit 100 and the second support unit 200 may pass through the fixing unit 300 and be alternately installed.

The first support unit 100 and the second support unit 200 may pass through the fixing unit 300 and are sequentially installed alternately.

Although not shown, of course, two second support units 200 may be continuously installed between adjacent first support units 100.

However, from the viewpoint of stable close support between the first support unit 100 and the second support unit 200, the first support unit 100 and the second support unit 200 pass through the fixing unit 300 in order. It may be more preferable to be installed alternately.

The upper surface of the first support unit 100 and the upper surface of the second support unit 200 may form a height corresponding to each other to support the lower surface of the support object.

The upper surface of the first support unit 100 and the upper surface of the second support unit 200 may form the same height to each other to support the lower surface of the support object together.

Here, the fact that the upper surface of the first support unit 100 and the upper surface of the second support unit 200 have the same height includes a case where there is a slight height difference occurring in the manufacturing process.

2 to 6, the fixing unit 300 may be configured as a bidirectional fixing member capable of assembling and disassembling through both side ends.

In the case of damage to the first support unit 100 and the second support unit 200 located on the upper side, the upper side of the bidirectional fixing member is dismantled to replace the damaged component, and the first support unit ( 100), in the case of damage to the second support unit 200, the component in which the damage has occurred may be replaced by dismantling the lower side of the bidirectional fixing member.

6, the bidirectional fixing member is detachably installed at both ends of the fixing bar 310 penetrating the first support unit 100 and the second support unit 200, and the fixing bar 310 A fastener 330 for fixing both ends of the fixing bar 310 may be provided.

The fixing bar 310 is composed of a bar-shaped or rod-shaped member, external threads are formed at both ends, and the fastening material 330 is composed of a nut member having internal threads coupled to the external threads of the fixing bar 310 Can be.

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At least one of the first support unit 100, the second support unit 200, and the fixing unit 300 may be formed of a shape memory alloy.

For example, the first support unit 100, the second support unit 200, and the fixing unit 300 may be formed of a shape memory alloy.

The shape memory alloy applied to the heat treatment support plate 10 may be configured to maintain the initially manufactured shape within a range of a set temperature at which the heat treatment support plate 10 performs heat treatment.

A shape memory alloy is a steel material that shrinks in the process of forming a phase transformation into an austenite series by applying heat when a load is introduced into the steel material in the initial martensitic state and deformation occurs.

By utilizing the contraction force of the shape memory alloy as described above, the heat treatment support plate 10 can be maintained in the first manufactured shape.

In another example, at least the first support unit 100 and the second support unit 200 among the first support unit 100, the second support unit 200, and the fixing unit 300 are formed of a shape memory alloy. Can be.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and variations are possible without departing from the technical spirit of the present invention described in the claims. It will be obvious to those of ordinary skill in the field.

1: base plate 10: heat treatment support plate
100: first support unit 200: second support unit
200-1: circular tube 200-2: polygonal tube
200-3: curved plate body 210: first contact plate
230: swash plate 250: second contact plate
300: fixing unit 310: fixing bar
330: fastener D1: first direction
D2: second direction D3: third direction
L1: first facing side L2: second facing side

Claims (12)

A first support unit extending in the longitudinal direction and installed in a plurality of spaced apart;
A second support unit that is installed in close contact with the first support unit and forms a closed cross-section by itself or forms a closed cross-section when in close contact with the first support unit; And,
A heat treatment support plate comprising: a fixing unit installed through the first support unit and the second support unit and detachably fixing the first support unit and the second support unit.
The method of claim 1, wherein the first support unit,
A heat treatment support plate composed of a rectangular metal plate, and a plurality of spaced apart from each other with the second support unit therebetween.
The method of claim 1, wherein the second support unit,
Heat treatment support plate, characterized in that it is composed of a plurality of circular pipes forming a closed cross-section.
The method of claim 1, wherein the second support unit,
Heat treatment support plate, characterized in that it is composed of a plurality of polygonal tube bodies forming a closed cross-section.
The method of claim 1, wherein the second support unit,
A heat treatment support plate comprising a plurality of polygonal tubes having an even number of sides, and wherein the first opposite side is in close contact with the first support unit.
The method of claim 1, wherein the second support unit,
It is composed of a plurality of polygonal tubes having an even number of sides, the first opposite side is in close contact with the first support unit,
Heat treatment support plate, characterized in that the second opposite sides of the adjacent second support unit are in close contact with each other.
The method of claim 1, wherein the second support unit,
Heat treatment support plate, characterized in that consisting of a curved plate body extending in a zigzag shape between adjacent first support units.
The method of claim 7, wherein the curved plate body,
A first contact plate in close contact with a side surface of the first support unit on one side;
An inclined plate having one end connected to the first contact plate in an inclined manner, and installed across the adjacent first support units; And,
A heat treatment support plate having a second contact plate having the other end obliquely connected to the swash plate and in close contact with the side surface of the first support unit on the other side.
The method of claim 1,
The heat treatment support plate, characterized in that the first support unit and the second support unit are alternately installed through the fixing unit.
The method of claim 1,
Heat treatment support plate, characterized in that the upper surface of the first support unit and the upper surface of the second support unit form a height corresponding to each other to support the lower surface of the support object.
The method of claim 1, wherein the fixing unit,
Heat treatment support plate, characterized in that consisting of a bidirectional fixing member capable of assembling and disassembling through both side ends.
The method of claim 1,
At least one of the first support unit, the second support unit, and the fixing unit is formed of a shape memory alloy.

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