KR20200064525A - Apparatus for heating furnace - Google Patents

Abstract

According to the present invention, disclosed is a furnace apparatus. According to the present invention, the furnace apparatus comprises: a housing part having an internal space; a heater part installed inside the housing part to generate heat; a moving belt facing the heater part and moving along the inside of the housing part to convey a material; a pulley member which is rotatably installed on both sides of the housing part and having the moving belt hung on the exterior thereof; and a calibration device located on both sides of the pulley member and moving the pulley member in the horizontal direction to correct the moving direction of the moving belt.

Description

Furnace equipment{APPARATUS FOR HEATING FURNACE}

The present invention relates to a furnace device, and more particularly, to a furnace device capable of improving operation reliability by preventing meandering of a material and preventing sagging of a moving belt.

In general, the heating apparatus is a device for heating the supplied material to a set temperature, and since the belt member for transporting the material is supported by the moving roller, the belt member is moved together with the material. The heat source of the furnace apparatus mainly uses electricity or gas, and the zone for heating the material is divided into a plurality of zones inside the furnace apparatus to heat the material.

On the other hand, austempering refers to a process of austenitizing a steel material and then quenching it with a salt bath maintained at a temperature in the bainite transformation region, and air cooling after completing bainite transformation at this temperature. The temperature of the hot bath is generally 300~400℃. The characteristics of the austempering treatment are less risk of quench cracking or deformation than normal quenching, and no annealing is necessary, and have a higher throttling or impact value than quenching and annealing with the same hardness.

For the ostempering, the steel material is heated in the furnace apparatus to about 840°C.

Conventionally, when the moving belt for transferring the material is skewed in one direction, the material moving along the moving belt is also shifted in one direction, so that there is a problem in that the heating of the material is not uniform. In addition, when the movement belt is heated by the high temperature for heating the material, and the length of the movement belt increases, there is a problem that the movement of the material cannot be properly performed. Therefore, there is a need to improve this.

Background art of the present invention is published in Republic of Korea Patent Publication No. 10-1636417 (2016.06.29 registered, the name of the invention: continuous heating furnace).

The present invention was created to improve the problems as described above, and an object of the present invention is to provide a heating furnace device capable of improving operation reliability by preventing meandering of a material and preventing sagging of a moving belt.

The heating apparatus according to the present invention includes: a housing part having an internal space, a heating heater part installed inside the housing part and generating heat, facing the heating heater part, moving along the inside of the housing part and moving the material A belt and a pulley member rotatably installed on both sides of the housing part and located on both sides of the pulley member and the pulley member that extends over the outside, and includes a calibration device that moves the pulley member in the horizontal direction to correct the moving direction of the moving belt. It is characterized by.

In addition, the correcting device includes a rotation support portion rotatably supported by the rotation shaft of the pulley member, a connection support portion connected to the rotation support portion and provided with a female thread, and a space fixed to the housing portion and the rotation support portion moved in a horizontal direction. A male screw thread is provided on the orthodontic body and the outer side, and is characterized in that it includes an adjusting screw that penetrates the orthodontic body and is fastened to the connection support and rotates to change the position of the connection support.

In addition, the calibration device is characterized in that it further comprises a guide groove that protrudes from the calibration body portion and a guide groove that protrudes from the calibration body portion to form a groove portion of the long hole along the movement path of the calibration body portion.

In addition, the present invention is located on the lower side of the pulley member is installed to be able to move in the vertical direction, characterized in that it further comprises a weight portion for pulling the moving belt by its own weight in a state that the moving belt overhangs the outside.

In addition, the present invention is characterized in that it further comprises a roller body which is fixed to both sides of the housing part and is rotatably installed in the heat dissipation support part for heat exchange with the air and in a position facing the moving belt.

In addition, the heat dissipation support portion is fixed to the side of the housing portion, it is characterized in that it comprises a heat dissipation support body for rotatably supporting the roller body and a plate-shaped heat dissipation member connected to the heat dissipation support body.

In addition, the present invention, a first gear member and a second sprocket adjacent to the second sprocket and a rotating gear portion extending from the roller body and having a first sprocket and a second sprocket, and a first sprocket adjacent to the first sprocket It characterized in that it further comprises a second chain member for connecting.

Since the heating apparatus according to the present invention corrects the traveling direction of the moving belt by the operation of the calibration device, meandering of the material can be prevented to improve operation reliability.

In addition, according to the present invention, the installation of the weight portion prevents the sagging of the moving belt, so that the movement of the material is made smoothly, thereby preventing the heating failure of the material.

1 is a cross-sectional view schematically showing the structure of a heating apparatus according to an embodiment of the present invention.
2 is a plan sectional view showing a main configuration of a heating apparatus according to an embodiment of the present invention.
3 is a perspective view showing a principal device according to an embodiment of the present invention.
4 is a side cross-sectional view of a heating apparatus according to an embodiment of the present invention.
5 is a front view showing a state in which the drive sprocket and the drive chain according to an embodiment of the present invention are installed outside the housing part.
6 is a perspective view showing a drive sprocket and a rotating gear part according to an embodiment of the present invention.
7 is a plan view showing a heat dissipation support according to an embodiment of the present invention.
8 is a perspective view showing a heat dissipation support according to an embodiment of the present invention.

Hereinafter, a heating apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition of these terms should be made based on the contents throughout the present specification.

1 is a cross-sectional view schematically showing the structure of a heating apparatus according to an embodiment of the present invention, and FIG. 2 is a plan cross-sectional view showing a main configuration of a heating apparatus according to an embodiment of the present invention, FIG. 3 Is a perspective view showing a principal device according to an embodiment of the present invention, FIG. 4 is a side cross-sectional view of a heating apparatus according to an embodiment of the present invention, and FIG. 5 is a driving sprocket according to an embodiment of the present invention It is a front view showing a state in which the drive chain is installed on the outside of the housing part, and FIG. 6 is a perspective view showing a drive sprocket and a rotating gear part according to an embodiment of the present invention, and FIG. 7 is a heat dissipation support part according to an embodiment of the present invention 8 is a perspective view showing a heat dissipation support according to an embodiment of the present invention.

1 to 8, the heating apparatus 1 according to an embodiment of the present invention includes a housing part 10 having an inner space 12 and an inside of the housing part 10. A heating heater part 20 installed and generating heat, a moving belt 30 facing the heating heater part 20 and moving along the inside of the housing part 10 and conveying the material 130, and a housing part ( It is rotatably installed on both sides of the 10) and is located on both sides of the pulley member 40 and the pulley member 40 where the moving belt 30 spans the outside, and moves the pulley member 40 in the horizontal direction to move the belt ( It includes a calibration device 50 for correcting the movement direction of 30).

In addition, the heating apparatus 1 according to an embodiment of the present invention includes a weight part 60, a heat dissipation support part 70, a roller body 80, a rotating gear part 90, a roller sprocket 100, and a drive sprocket 105 ), the driving chain 107, the first chain member 110, the second chain member 115 and the blower 120 are further included.

The housing part 10 may be formed in various shapes within a technical idea having an inner space 12 through which the material 130 is moved. The housing part 10 according to an embodiment extends in the horizontal direction, and the moving belt 30 rotates in an endless track along the inner space 12 of the housing part 10.

The heating heater part 20 is installed inside the housing part 10, and heat is generated by supply of electric energy. The heating heater unit 20 according to an embodiment is located on the upper side and the lower side of the inner space 12 through which the moving belt 30 passes, and is installed in the width direction of the housing portion 10. One end of the heating heater 20 is inserted into and fixed inside the housing 10.

The moving belt 30 faces the heating heater part 20 and moves along the inside of the housing part 10, and carries the material 130 that is heated. The moving belt 30 according to an embodiment is a mesh belt including a metal component so as to have durability even in a high-temperature use environment. The mesh belt is supported by the roller body 80, the inside of the housing part 10 is rotated in a caterpillar manner, and the material 130 is transferred.

Pulley member 40 is rotatably installed on both sides of the housing portion 10, the moving belt 30 is installed in a shape that spans the outside. The pulley member 40 installed in the width direction of the housing part 10 is formed in a cylindrical shape, and the rotation shaft 42 of the pulley member 40 is rotatably installed in the housing part 10 or the calibration device 50 do.

The straightening device 50 is located on both sides of the pulley member 40, and the pulley member 40 is moved in a horizontal direction to be modified in various shapes within the technical idea of correcting the moving direction of the moving belt 30. The orthodontic appliance 50 according to an embodiment includes a rotation support portion 51, a connection support portion 52, a calibration body portion 54, an adjustment screw portion 55, a guide groove portion 57, and a guide projection 58. .

The rotation support part 51 is rotatably supported by the rotation shaft 42 of the pulley member 40. Rotation support parts 51 are installed on both sides of the pulley member 40, and the pulley member ( The rotating shaft 42 of 40) is inserted and rotatably installed.

The connection support portion 52 is connected to the rotation support portion 51 and can be modified in various shapes within a technical idea having a female thread. The rotation support portion 51 connected to one side of the rotation support portion 51 is fastened to the adjustment screw portion 55. The connection support portion 52 is provided with a hole penetrating in the horizontal direction, and a female screw may be formed inside the hole. Alternatively, since the nut member 53 provided with the female thread is fixed to the connection support portion 52, the adjustment screw portion 55 may be fastened.

The orthodontic body portion 54 is fixed to the housing portion 10 and can be formed in various shapes within a technical idea having a space in which the rotation support portion 51 is moved in the horizontal direction. Correction body portion 54 according to an embodiment is a rectangular frame shape, the rotation support portion 51 located inside the correction body portion 54 is slidingly moved in the horizontal direction.

A male thread is provided on the outside of the adjustment screw portion 55 and penetrates the orthodontic body portion 54 to be fastened to the connection support portion 52. The position of the connection support portion 52 is changed by the rotational operation of the adjustment screw portion 55. Therefore, since the position of the rotation shaft 42 of the pulley member 40 installed in the connection support 52 is also variable, it is possible to correct the meandering of the moving belt 30 installed outside the pulley member 40.

The guide groove portion 57 forms a groove portion of a long hole in the inner side of the correction body portion 54 along the movement path of the correction body portion 54. The guide groove portion 57 according to an embodiment is located on the upper side and the lower side of the connection support portion 52, respectively, and forms a groove portion of the long hole along the orthodontic body portion 54.

The guide protrusion 58 protrudes from the orthodontic body portion 54 and is inserted into the guide groove portion 57. The guide protrusion 58 according to an embodiment protrudes from the upper side and the lower side of the correcting body portion 54, respectively, and is inserted into the guide groove portion 57.

The weight portion 60 is located on the lower side of the pulley member 40, and is installed to be movable in the vertical direction. The moving belt 30 always has a constant tension because the moving belt 30 is pulled by the weight of the weight 60 while the moving belt 30 extends over the outside of the weight 60. Therefore, even when the moving belt 30 is extended by the heat of the heating heater unit 20, the moving belt 30 can be provided with a constant tension because the weight unit 60 moves downward.

The heat dissipation support portion 70 is fixed to both sides of the housing portion 10 to rotatably support the roller body 80, and heat exchange with the air, so that it can be deformed into various shapes within the technical idea of cooling the roller body 80. Do. The heat dissipation support unit 70 according to an embodiment includes a heat dissipation support body 72 and a heat dissipation member 74.

The heat dissipation support body 72 is fixed to the side of the housing part 10 and supports the roller body 80 to be rotatable. In addition, since the heat dissipation support body 72 is formed of a material having high thermal conductivity, heat from the roller body 80 is received.

The heat dissipation member 74 is a plate shape connected to the heat dissipation support body 72, and is made of a material having high thermal conductivity. Since the plurality of heat dissipation members 74 are connected to the outside of the heat dissipation support body 72, cooling of the roller body 80 is easily achieved.

The roller body 80 is rotatably installed on the heat dissipation support portion 70 and is installed at a position facing the moving belt 30. The roller body 80 having a rod shape is installed in the width direction of the housing part 10 and supports the lower side of the moving belt 30, so that the movement of the moving belt 30 for transferring the material 130 is easily performed. .

Roller body 80 according to an embodiment is respectively installed on both sides of the housing portion 10, both sides of the roller body 80 is rotatably installed on the heat dissipation support portion (70).

A rotating gear portion 90 is connected to one side of the roller body 80. The rotating gear part 90 according to an embodiment extends from the roller body 80 and includes a first sprocket 92 and a second sprocket 94. In addition, the roller sprocket 100 is connected to one side of the roller body 80 supporting the returning movement belt 30.

A separate motor for rotating the roller body 80 is installed inside the housing part 10, and a drive sprocket 105 is connected to the output shaft of the motor. The driving sprocket 105 protrudes outward of the housing part 10, and the driving chain 107 is wound outside the driving sprocket 105.

The driving chain 107 is connected to the second sprocket 94 of the rotating gear portion 90 to rotate the roller body 80 together with the rotating gear portion 90. And the first sprocket 92 is connected to the neighboring first sprocket 92 and the first chain member 110. And the second sprocket 94 is connected to the second sprocket 94 and the second chain member 115.

Therefore, the neighboring rotary gear portion 90 is connected by a relatively short chain member, so that even when the length of the chain member is varied by high temperature heat, power transmission can be relatively accurately performed.

The first chain member 110 is a closed curve chain connecting the first sprocket 92 and the adjacent first sprocket 92. The second chain member 115 is also a closed curved chain connecting the second sprocket 94 and the adjacent second sprocket 94.

The blowing unit 120 is installed on the upper side of the heating heater unit 20 and supplies hot air to the inner space of the housing unit 10 so that the heating of the material 130 is uniform. The blowing unit 120 according to an embodiment includes a blowing motor 122, a connecting shaft 124, and a blowing fan 126.

The power of the blowing motor 122 is transmitted to the blowing fan 126 located inside the housing part 10 through the connecting shaft 124. The air heated by the operation of the heating heater unit 20 is moved by the rotation of the blowing fan 126 to heat the material 130 passing through the inner space 12.

Hereinafter, an operating state of the heating apparatus 1 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the material 130 moving inside the housing part 10 along the moving belt 30 is heated by heat generated from the heating heater part 20 and then the housing part 10 It also falls down.

The length of the moving belt 30 heated by the operation of the heating heater unit 20 may be increased, and the tension in the moving belt 30 may be caused by the weight of the weight unit 60 installed at the end of the moving belt 30. Is given. Due to the increase in the length of the moving belt 30, the weight portion 60 is moved to the lower side. When the weight portion 60 is moved to the lower side by a set length, the moving belt 30 is exchanged or the moving belt is increased by an increased length. Cut (30) and reconnect to reuse.

As shown in Fig. 2, the calibration device 50 is installed on both sides of the pulley member 40. When the moving belt 30 performs a meandering movement that moves eccentrically to either side of the width direction of the housing part 10, the calibrating device 50 is operated to correct the meandering of the moving belt 30.

As illustrated in FIG. 3, the rotation support part 51 is moved in the horizontal direction by the operation of rotating the adjustment screw part 55, and the rotation shaft 42 of the pulley member 40 supported by the rotation support part 51 moves It is possible to correct the meandering of the moving belt 30.

Meanwhile, as illustrated in FIGS. 5 to 7, when the drive sprocket 105 is rotated, the drive chain 107 connected to the drive sprocket 105 is rotated to rotate the neighboring rotation gear portion 90. Since the rotating gear portion 90 adjacent to the drive sprocket 105 is connected to the adjacent rotating gear portion 90 and the first chain member 110, the adjacent rotating gear portion 90 is also rotated.

On the other hand, the roller sprocket 100 located on the lower side of the first chain member 110 also rotates in engagement with the first chain member 110, so that the roller body 80 and the roller sprocket 100 connected to the rotating gear portion 90 are connected. The roller body 80 is rotated in different directions.

2 and 7 and 8, since the roller body 80 supporting the moving belt 30 is heated to a high temperature, the heat dissipation supporting body 72 supporting the roller body 80 is also heated to a high temperature. do. At this time, the heat of the heat radiating support body 72 is exchanged with the outside air by the plate-shaped heat radiating member 74 connected to the heat radiating support body 72, so that the temperature of the roller body 80 can be lowered.

As described above, according to the present invention, since the moving direction of the moving belt 30 is corrected by the operation of the correcting device 50, meandering of the material 130 is prevented, and operation reliability can be improved. In addition, since the installation of the weight unit 60 prevents the sagging of the moving belt 30, the movement of the material 130 is smoothly performed, thereby preventing the heating failure of the material 130.

The present invention has been described with reference to the embodiment shown in the drawings, but this is only exemplary, and those skilled in the art to which the art belongs understand that various modifications and other equivalent embodiments are possible therefrom. will be. Therefore, the true technical protection scope of the present invention should be defined by the claims below.

DESCRIPTION OF SYMBOLS 1 Furnace apparatus 10 Housing part
12: interior space 20: heating heater
30: moving belt 40: pulley member
42: rotating shaft 50: calibration device
51: rotation support 52: connection support
53: nut member 54: correction body
55: adjusting screw portion 57: guide groove
58: guide projection 60: weight
70: heat dissipation support unit 72: heat dissipation support body
74: heat dissipation member 80: roller body
90: rotary gear 92: first sprocket
94: second sprocket 100: roller sprocket
105: drive sprocket 107: drive chain
110: first chain member 115: second chain member
120: blowing unit 122: blowing motor
124: connecting shaft 126: blowing fan
130: material

Claims (7)

A housing part having an internal space;
A heating heater unit installed inside the housing unit to generate heat;
A moving belt facing the heating heater portion and moving along the inside of the housing portion, and carrying a material;
Pulley members are rotatably installed on both sides of the housing portion, the moving belt is across the outside; And
And a calibration device located on both sides of the pulley member and correcting the moving direction of the moving belt by moving the pulley member in a horizontal direction.
The method of claim 1, wherein the calibration device,
A rotation support part in which the rotation axis of the pulley member is rotatably supported;
A connection support portion connected to the rotation support portion and having a female thread;
A calibration body part fixed to the housing part and having a space in which the rotation support part is moved in a horizontal direction; And
The outer side is provided with a male screw thread, and through the orthodontic body portion is fastened to the connection support portion, and the adjustment screw portion for changing the position of the connection support portion by a rotation operation; characterized in that it comprises a heating furnace device.
The method of claim 2, wherein the calibration device,
A guide groove portion forming a groove portion of an elongated hole along the movement path of the correction body portion; And
And a guide protrusion protruding from the orthodontic body part and being inserted into the guide groove part.
According to claim 1,
Located on the lower side of the pulley member is installed to be movable in the vertical direction, the heating belt device further comprising; a weight portion for pulling the moving belt by its own weight in a state that the moving belt is across the outside.
According to claim 1,
A heat dissipation support part fixed to both sides of the housing part and exchanging heat with air; And
And a roller body rotatably installed in the heat dissipation support part and installed at a position facing the moving belt.
According to claim 5, The heat dissipation support,
A heat dissipation support body fixed to a side surface of the housing part and rotatably supporting the roller body; And
And a plate-shaped heat dissipation member connected to the heat dissipation support body.
The method of claim 5,
A rotating gear part extending from the roller body and having a first sprocket and a second sprocket;
A first chain member connecting the first sprocket and the first sprocket adjacent to the first sprocket; And
And a second chain member connecting the second sprocket and the second sprocket adjacent to each other.

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