KR20110088147A - Heating furnace - Google Patents

Abstract

PURPOSE: A thermal process furnace for heating is provided to make a combining process smooth and stable by applying in junction of hetero-metal materials. CONSTITUTION: A thermal process furnace for heating comprises a furnace body(10), a gas feeding device(20) and a furnace body opening and closing device(30). The furnace body is composed of a pair of blocks for the main body which each other separately is combined. The gas feeding device is connected to an internal space of a block for the combined main body. The gas feeding device supplies atmosphere gas. The furnace body opening and closing device detachably combines a pair of blocks for the main body.

Description

Heating furnace {Heating furnace}

More particularly, the present invention relates to a heat treatment furnace for heating, in which the furnace body is opened and closed, and the furnace is made upright to allow the material to flow in and out, thereby simplifying the structure and miniaturizing the furnace. To a heat treatment furnace for heating.

BACKGROUND ART A furnace is a device for heating a material placed in an inner space of a furnace body for heat treatment or dissolution of various materials.

Such a furnace is classified into a heating furnace and a melting furnace. The heating furnace is heated at a temperature below the melting point of the material to induce physical / chemical changes in the internal structure, thereby heat treating the material, removing impurities, Minimization of the deformation resistance caused by the heat treatment, and the like, and includes a reaction furnace, a heat treatment furnace, a sterilizing furnace, an incinerator, a crack furnace, and a preheating furnace.

Such a heating furnace is disclosed in Korean Patent Registration No. 10-0238998 entitled "Heating Furnace ", Registered Utility Model Registration No. 20-0352826 entitled " Electric Resistance Heating Furnace for Heat Treatment of Mold, " Open No. 20-2009-0012928 "High-temperature furnace"

In a melting furnace, a material is placed in a container such as a crucible and heated at a temperature higher than melting point, thereby melting the material, thereby making a casting for casting or making an alloy.

Here, when the material is heated in the furnace as described above, when the air of the general atmospheric component occupies the inner space of the furnace body, the chemical reaction such as the oxidation reaction between the material and the air of the atmospheric constituent becomes active by the high temperature condition The inert gas such as nitrogen gas (N 2), helium gas (H 2), or argon gas (Ar) is used as the atmospheric gas to prevent the material from deteriorating or damaging or generating impurities. And the internal space of the furnace body is made to be in a vacuum state.

On the other hand, when it is necessary to heat a material having a predetermined size or more and continuously heat a large amount of material, a continuous furnace in which a material transfer line is constructed is used. As a technique related to such continuous furnace, 10-0424097 "Brazing object preheating system for batch type brazing furnace ", Registration No. 10-0581758" Continuous atmosphere heat treatment apparatus "

Alternatively, when it is necessary to heat a small-sized material having a predetermined size or smaller or to make the furnace compact, an upright furnace in which the constituent elements are arranged in the vertical direction may be used. As a technique related to such an upright furnace, No. 10-0826267 entitled "Rotary firing furnace for producing ceramic electronic parts and firing system thereof ", Published Japanese Patent Application Laid-Open No. 10-2001-0017672 entitled " Upstream type gas atmosphere mold heat treatment apparatus"

Here, the "rotary kiln for producing ceramic electronic parts" includes a furnace body supported by a support frame at a predetermined height from the ground, and having a plurality of heating elements therein; A rotary pedestal which is lifted or lowered from a lower portion of the furnace body and is rotatably coupled to a bottom surface of the furnace body; A setter having a plurality of ceramic shaped bodies formed on an upper surface of the rotary pedestal and being rotated independently and having a plurality of ceramic molded bodies stacked on the upper surface thereof; And an elevating means for vertically moving the rotary pedestal within the support frame. In order to make the atmospheric gas distribution deviation and the temperature deviation in the furnace body uniform, It is advantageous in firing high capacity ceramic products.

In the "upright gas atmosphere mold heat treatment apparatus", a cooling chamber is positioned above a heating chamber of a heating furnace for heat treatment, and a metal mold to be heat treated is heated and cooled in the heating chamber and the cooling chamber of the heating furnace, The heat treatment of the metal mold is performed and the heating and cooling chambers are opened and closed while blocking them, so that the heat treatment of the relatively long metal mold can be smoothly performed.

However, the conventional upright type furnace as described above is applied to ceramic electronic parts and molds, and the configuration for fixing the electronic parts or the molds is added, which complicates the structure of the furnace so that the manufacturing and maintenance work are troublesome there was.

In order to prevent a chemical reaction such as an oxidation reaction from occurring in the internal space of the furnace body under a high temperature condition, it is preferable that the supplied atmospheric gas is uniformly distributed in the internal space of the furnace body. The above-mentioned "upright type gas atmosphere mold heat treatment apparatus" does not provide a structure for uniformly distributing the atmospheric gas, and therefore, There is a problem that the same chemical reaction is likely to occur.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a furnace which comprises a pair of main body blocks arranged in a vertical direction, It is possible to provide an upright type heat treatment furnace with a simple structure that is easy to manufacture, install, operate, and maintain, and a compact heat treatment furnace that can be applied to heating of small and medium materials of a predetermined size or smaller .

According to the present invention, since the furnace body is opened and closed by the lower main body block which is raised and lowered by the ball screw system, a new type of heating And to provide a heat treatment furnace for heat treatment.

In the present invention, even if the atmosphere gas supplied from the outside through the hub fixed on the upper body block is distributed into the inner space of the furnace body through a plurality of inlet tubes, And it is an object of the present invention to provide a new type of heating furnace for heating in which the gas distribution can be made uniform.

According to an aspect of the present invention, there is provided a furnace comprising: a furnace body including a pair of body blocks separated from each other; A gas delivery mechanism communicating with the inner space of the block for the main body to allow the atmospheric gas to flow in and out; And a furnace opening / closing mechanism for separating and coupling the pair of main body blocks.

In the heating heat treatment furnace according to the present invention, the furnace body is arranged such that the pair of main body blocks are arranged in the vertical direction, the gas transfer mechanism is coupled to the block for one side body, And is formed in an upright shape.

In the heat treatment furnace according to the present invention, the gas transfer mechanism includes a supply pipe body for transferring the atmospheric gas supplied from the outside; A plurality of inflow tubes communicating with the inner space of the block for the main body to allow the atmospheric gas to flow into the inner space; And a hub fixed to the predetermined position and connected to the supply tube and the plurality of inflow tubes, and the atmospheric gas supplied from the supply tube is dispersed and transferred to the plurality of inflow tubes.

In the heat treatment furnace according to the present invention, the main body block to which the inflow tube is connected is connected to a transfer pipe formed with a gas inflow hole communicating with the internal space and formed to protrude to the outside, Wherein the supply pipe body and the inflow pipe body are made of a flexible hose so that the nipple for the supply pipe body of the hub, the nipple for the supply pipe body of the hub, The nipple for the inlet pipe of the hub and the transfer pipe of the block for the main body.

In the heat treatment furnace for heating according to the present invention, the furnace body opening and closing mechanism includes: a support plate to which a block for a main body is fixed; A sliding block installed at both side ends of the support plate; A ball screw penetrating the sliding block and disposed on both outer sides of the block for the main body; And an actuator for rotating the ball screw.

In the heat treatment furnace for heating according to the present invention, the pair of main body blocks are formed in a plurality of stages on the surfaces facing each other and have a concave / convex relationship with a concave / convex relationship, The protruding end is inserted into the insertion end at a predetermined depth so that a closed internal space is formed, and the pair of main body blocks are formed so that the sealing material protrudes along the circumference of the opposite surface.

In the heat treatment furnace according to the present invention, the pair of main body blocks are formed of refractory bricks to surround the inner space, and one body block is provided with a heating element and a temperature sensor to maintain a proper position And the other block for the main body moves in association with the furnace body opening / closing mechanism.

According to the heat treatment furnace for heating according to the present invention, the joining operation is applied smoothly and stably by applying the joining between dissimilar metal materials.

The heat treatment furnace according to the present invention not only facilitates manufacturing, installation, operation and maintenance owing to the simplification of the structure and downsizing according to the upright production, but also minimizes unnecessary processes and scale when it is applied to the heating of small and medium- It is possible to reduce the cost of the heating operation and increase the working efficiency.

Further, according to the present invention, as the atmospheric gas is dispersed and introduced into the inner space of the furnace body through the hub, the atmospheric gas distribution in the furnace inner space can be made uniform, so that the heating of the material can be stabilized and smoothly performed .

1 (a) and 1 (b) are block diagrams showing the construction and operation of the heat treatment furnace according to the present invention;
FIG. 2 is a block diagram showing a configuration of a heat treatment furnace for heating according to a preferred embodiment of the present invention; FIG.
3 (a) is a bottom view of an upper main body block according to a preferred embodiment of the present invention;
FIG. 3 (b) is an inner side view of a block for an upper body according to a preferred embodiment of the present invention; FIG.
4 is an external view of a block for an upper main body according to a preferred embodiment of the present invention;
5 is an external view of a block for a lower main body according to a preferred embodiment of the present invention;
6 (a) and 6 (b) are views showing a configuration of a hub constituting a gas transfer mechanism according to a preferred embodiment of the present invention;
FIG. 7 is a view showing a configuration of a furnace opening / closing mechanism according to a preferred embodiment of the present invention; FIG.
FIG. 8 is a view illustrating operation of a furnace opening / closing mechanism according to a preferred embodiment of the present invention; FIG.
FIG. 9 is an external view of a heat treatment furnace according to a preferred embodiment of the present invention; FIG.
10 is a view showing an embodiment of a product made of a steel material and a copper material sintered and bonded in the heat treatment furnace according to the present invention.

The heat treatment furnace 100 for heating according to the present invention is characterized in that the material 1 disposed in the closed internal space 16 of the furnace body 10 is a material which is heated in a gas atmosphere in which nitrogen gas A kind of heating furnace which is heated to a temperature not higher than the melting point and can be used to heat the metal material to a temperature at which bonding between different metal materials can be smoothly applied particularly to bonding between different kinds of metal materials .

1 (a) and 1 (b), the furnace body 10 is divided into a pair of body blocks 12 and 14 arranged in the vertical direction So that the lower main body block 14 moves up and down to be attached to and detached from the vertically positioned upper main body block 12 to open and close the furnace main body 10. [ Accordingly, it is possible to provide an upright type heat treatment furnace with a simple structure that is easy to manufacture, install, operate, and maintain, and to provide a compact heat treatment furnace that can be applied to heating of small and medium materials of a predetermined size or less.

2, the atmospheric gas supplied from the outside through the hub 26 fixed to the upper side of the upper body block 12 is supplied to a plurality of inlet tubes 24 And a gas delivery mechanism 20 of a simple structure for distributing the gas into the internal space 16 of the furnace body 10 through the gas delivery mechanism 20. Accordingly, the distribution of the atmospheric gas supplied to the inner space of the furnace body 10 can be made uniform by the gas transfer mechanism 20 of simple structure, so that the heating of the work 1 can be stabilized and smoothly performed.

The heating heat treatment furnace 100 according to the present invention includes a furnace body 10, a gas transfer mechanism 20 and a furnace body opening and closing mechanism 30 as shown in Fig.

The furnace body 10 is composed of a pair of body blocks 12 and 14 which are separated from each other. The one body block is used as an upper body block 12 positioned on the upper side, Are used as the lower main body block 14 located at the lower side and are arranged in the vertical direction.

The furnace opening / closing mechanism 30 is coupled to the lower main body block 14 and the heating heat treatment furnace 100 of the present invention is connected to the upper main body block 12 by the gas transfer mechanism 20, ≪ / RTI >

The pair of body blocks 12 and 14 constituting the furnace body 10 are formed as a plurality of stages on the surfaces facing each other as shown in FIG. 12a and the protruding end 142 are formed in a concavo-convex relationship so that the other main body block 14 (see FIG. 1 The protruding end 142 of the furnace body 10 is inserted at a predetermined depth to form the closed internal space 16 of the furnace body 10.

Here, the pair of body blocks 12 and 14 are formed so that the sealing material 18 protrudes along the peripheral edges of the surfaces facing each other, as shown in FIG. 5, So that external leakage of the atmosphere gas or heat can be prevented. The sealing member 18 may be made of a silicon material.

The pair of body blocks 12 and 14 constituting the furnace body 10 are made of refractory bricks so as to have heat resistance.

Here, the one-side main body block 12 is held in a fixed position and the other-side main body block 14 is engaged with the furnace main body opening / closing mechanism 30, In this process, the furnace body 10 is opened and closed.

3 (a), it is preferable that the heating body 124 and the temperature gradient 126 for heating the work 1 are installed on the block 12 for one side which is maintained in the same position.

It is preferable that the heating element 124 be uniformly arranged over the entire surface of the main body block 12 by using the heating wire 124a as shown in FIG. It is preferable to provide a plurality of heat conductive wires 124a at predetermined intervals between the heating wires 124a.

The gas transfer mechanism 20 is provided so as to communicate with the internal space 16 of the furnace body 10 formed by the body blocks 12 and 14 coupled to each other, Thereby allowing the internal space 16 to flow in and out.

The gas delivery mechanism 20 may include a supply tube 22, an inlet tube 24, a hub 26 and a discharge tube 28. The supply tube 22 is connected to the hub 26 And transfers the atmospheric gas supplied from the outside to the hub 26.

Here, as the atmospheric gas, an inert gas such as nitrogen gas (N 2), helium gas (H 2), argon gas (Ar) may be used, and such atmospheric gas may be supplied from the separately provided gas storage tank . In this case, the supply tube 22 is installed between the gas storage tank 60 and the hub 26.

The inlet tube 24 is connected to the internal space 16 of the furnace body 10 formed by the body blocks 12 and 14 coupled to each other to allow the atmospheric gas to flow into the internal space 16, A plurality of such inlet pipes 24 are provided and are spaced apart from each other at a predetermined interval along the inner space 16 of the furnace body 10 so that the flow of the atmospheric gas supplied to the inner space 16 of the furnace body 10 It is preferable to make the distribution uniform.

The inlet tube 24 may be fixed to any one of a pair of body blocks 12 and 14 constituting the furnace body 10 or may be fixedly installed on a pair of body blocks 12 and 14 It is preferable to fix it to the block 12 for one body which is kept in the correct position in order to prevent the twist phenomenon or the damage due to the movement of the inflow tube 24. [

The main body block to which the inflow tube 24 is connected is formed with a gas inflow hole 12b communicating with the internal space 16 as shown in FIG. It is preferable that the transfer pipe 122 is formed outside the block for the main body so as to be communicated with the gas inlet hole 12b. .

The hub 26 is fixed at a predetermined position so that the supply tube 22 and the plurality of inflow tubes 24 are connected to each other and the atmospheric gas supplied from the supply tube 22 through the hub 26 is supplied to a plurality of And is dispersed and transferred to the inflow tube 24.

6 (a) and 6 (b), a hub 262 for a supply pipe body is formed on the upper surface of the hub 26, and a plurality of nipples 264 for the inlet pipe are formed along the circumferential outer peripheral surface And a tube may be used.

The discharge tube 28 shown in Fig. 4 is provided so as to communicate with the internal space 16 of the furnace body 10 formed by the body blocks 12 and 14 coupled to each other, 16 to discharge the atmosphere gas filled therein.

The supply tube 22 and the inflow tube 24 may be flexible hoses as shown in FIGS. 7 and 9, and the hose-like supply tube 22a may be connected to the supply tube 22 of the hub 26, And the hose-like inflow tube 24a can be fitted to the nipple 264 for the inflow pipe of the hub 26 and the transfer pipe 122 of the block for the main body.

The furnace body opening and closing mechanism 30 is configured such that a pair of body blocks 12 and 14 are separated or joined to each other to open and close the furnace body 10. [

Such a furnace main body opening and closing mechanism 30 includes a ball screw system configured to be connected to any one selected from a pair of main body blocks 12 and 14, and various systems such as a system using a cylinder and an LM guide, .

Here, the furnace body opening / closing mechanism 30 made of a ball screw system has a configuration including the support plate 32, the sliding block 322, the ball screw 34, and the actuator 38 as shown in Figs. 7 and 8 .

The support plate 32 is fixed to the main body block and moves integrally with the main body block.

The sliding block 322 is fixed to both side ends of the support plate 32 and is coupled to the ball screw 34. The slide block 322 linearly moves in accordance with the rotation of the ball screw 34 and integrally supports the support plate 32 and the main body block .

The ball screw 34 is inserted through the sliding block 322 as described above. The ball screw 34 is disposed on both outer sides of the block for the main body, Avoid interference with blocks.

The actuator 38 rotates the ball screw 34, and the drive motor 382 can be used.

The heat treatment furnace 100 according to the present invention includes a body frame 40 provided with a caster 42 on the bottom surface thereof and a furnace body 10 and a gas transfer mechanism 20, and the furnace main body opening and closing mechanism 30 are fixed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings 2 to 10. In the drawings and the detailed description, there is shown and simplified the construction and operation of a general furnace from those skilled in the art. In the drawings and specification, there are shown in the drawings and will not be described in detail, and only the technical features related to the present invention are shown or described only briefly. Respectively.

FIG. 2 is a block diagram showing a configuration of a heat treatment furnace according to a preferred embodiment of the present invention, FIG. 3 (a) is a bottom view of a block for an upper main body according to a preferred embodiment of the present invention, 3 is an inner side view of the upper main body block according to a preferred embodiment of the present invention, FIG. 4 is an external view of the upper main body block according to a preferred embodiment of the present invention, and FIG. 5 is a cross- 6 (a) and 6 (b) are views showing a configuration of a hub constituting a gas delivery mechanism according to a preferred embodiment of the present invention, and FIG. 7 is a cross- FIG. 8 is a view for showing the operation of the furnace opening / closing mechanism according to the preferred embodiment of the present invention, and FIG. 9 is a view for explaining the operation of the furnace opening and closing mechanism according to the preferred embodiment of the present invention. Fig. 7 is a graph 10 is an external view of a heat treatment furnace according to a preferred embodiment of the present invention. FIG. 10 is a view showing an embodiment of a product made of a steel material and a copper material sintered and bonded in the heat treatment furnace according to the present invention.

1 and 9, the heat treatment furnace 100 according to the preferred embodiment of the present invention includes a body frame 40, a driving motor 382, a ball screw 34, a guider 36, a support plate 32 A lower main body block 14, an upper main body block 12, a hub 26, a hose type supply tube 22a, a hose type inflow tube 24a, and a discharge tube 28.

Here, the drive motor 382, the ball screw 34, the guider 36, and the support plate 32 are components of the furnace body opening / closing mechanism 30, and the block for the lower main body 14, the block for the upper main body 12 Is a component of the furnace body 10. The hub 26, the hose-shaped supply tube 22a, the hose-shaped inlet tube 24a and the discharge tube 28 are components of the gas transfer mechanism 20.

The body frame 40 forms the outer shape of the heat treatment furnace 100 for heating and the constituent elements of the furnace body 10 and the constituent elements of the furnace body opening and closing mechanism 30 are fixed And the components of the gas transfer mechanism 20 are fixedly installed outside the body frame 40.

9, the upper surface and the upper side surface of the upper portion of the body frame 40 are formed of a heat radiating plate 44 so as to smoothly cool the heat treatment furnace 100, The front face of the body frame 40 is opened to allow the material 1 to enter and exit the body frame 40 and the caster 42 is provided on the bottom face of the body frame 40, So that mobility can be increased.

As described above, the heat treatment furnace 100 for heating according to the preferred embodiment of the present invention includes the body frame 40, the constituent elements of the furnace body 10, the components of the furnace body opening and closing mechanism 30, 20 may be vertically arranged and fixedly installed.

The drive motor 382, the ball screw 34, the guider 36 and the support plate 32 constituting the furnace body opening and closing mechanism 30 constitute a ball screw system. The drive motor 382 includes a body frame 40, respectively.

2, the pair of ball screws 34 are installed vertically so as to be spaced apart from each other inside the body frame 40. The ball screws 34 are disposed outside the lower body block 14 constituting the furnace body 10 So as not to interfere with the lower main body block 14. The pair of ball screws 34 are connected to the chain 386 interlocked with the motor shaft 384 of the drive motor 382 and the motor shaft 384 as shown in Figs.

A plurality of guiders 36 are vertically installed to be spaced apart from each other in the body frame 40 and are inserted through the support plate 32 to stabilize the vertical movement of the support plate 32.

7 to 9, the support plate 32 includes a sliding block 322 inserted through the pair of ball screws 34 and a plurality of bearings 324 inserted through the plurality of guiders 36, The lower main body block 14 is fixed to the upper surface of the support plate 32 so that the support plate 32 is fixed to the lower main body block 14, .

The lower main body block 14 is fixed and moved on the upper surface of the support plate 32 as described above. On the upper surface of the lower main body block 14, a plurality of protrusions And a sealing member 18 made of a silicone material is formed to protrude in the form of a strip along the outer edge of the protruding end 142. [

The upper main body block 12 is fixed to the upper portion of the body frame 40 and is held in a fixed position. On the lower surface of the upper main body block 12, 142 are formed so as to be recessed in a plurality of stages. The upper surface of the lower main body block 14 and the lower surface of the upper main body block 12 are engaged with each other so that the protruding end 142 of the lower main body block 14, The inner space 16 of the furnace body 10 can be formed by being inserted into the concave end 12a of the upper body block 12 to a certain depth.

When the lower main body block 14 is raised, the sealing material 18 on the upper surface of the lower main body block 14 is brought into tight contact with the lower surface of the upper main body block 12 with a constant pressure. The sealing material 18 of the block 14 encloses and seals the internal space 16 of the furnace body 10 so that the outflow of heat or atmosphere gas from the internal space 16 of the furnace body 10 can be prevented .

The upper main body block 12 is formed with a gas inlet hole 12b and a gas outlet hole 12c communicating with the inlet end 12a as shown in FIG. 3 (b) So as to be connected to the discharge pipe body 28 and the transfer pipe 122 formed to be protruded.

The hub 26, the hose-shaped supply tube 22a, the hose-like inlet tube 24a and the discharge tube 28, which are components of the gas transfer mechanism 20, are fixed to the outside of the upper part of the body frame 40.

6 (a) and 6 (b), the hub 26 is fixed to the center of the upper surface of the body frame 40, and a hub 262 for a supply pipe body is formed on the upper surface of the hub 26 And a plurality of nipples 264 for the inlet pipe are formed along the circumferential outer peripheral surface.

The hose-type supply tube 22a is fitted in the supply pipe body nipple 262 of the hub 26 so that the atmospheric gas is supplied from the outside.

The hose-like inflow tube 24a has both ends thereof fitted into the nipple 264 for the inflow pipe of the hub and the transfer pipe 122 of the upper main body block 12, and a plurality of such hose- So that the atmospheric gas is uniformly introduced into the inner space 16 of the furnace body 10 through the inlet end of the upper main body block 12.

Here, it is preferable that the hose-like inlet tube 24 is arranged in four directions along the inner space 16 of the furnace body 10 as shown in Fig.

The discharge tube 28 is formed to communicate with the gas outlet hole 12c of the upper main body block 12 and protrude outside the upper main body block 12. The discharge tube 28 is formed in the inner space 16 of the furnace main body 10, So that the atmosphere gas filled in the chamber can be discharged to the outside.

9, the heat treatment furnace according to the preferred embodiment of the present invention includes a furnace body 10, a gas conveyance mechanism 20, a control box 50 for controlling the operation of the furnace body opening and closing mechanism 30 So that the heating operation for the work 1 can be performed smoothly.

The heating process of the work 1 through the heat treatment furnace 100 according to the preferred embodiment of the present invention is as follows.

First, the material 1 to be heated is placed on the upper surface of the lower main body block 14 through the open front face of the body frame 40 in a state where the lower main body block 14 is lowered.

Next, the upper main body block 12 and the lower main body block 14 are engaged with each other by operating the drive motor 382 constituting the furnace body opening and closing mechanism 30 to induce the rise of the lower main body block 14 So that the furnace body 10 is closed.

When the furnace body 10 is closed and the inner space 16 of the furnace body 10 is closed, the heating body 124 provided in the upper main body block 12 and the gas transfer mechanism 20 are operated to cool the furnace body 10 So that the atmospheric gas is introduced into the inner space 16. [0064]

As described above, the material 1 is heated in the state that the atmosphere gas flows into the internal space 16 of the furnace body 10 and is filled.

When the heating of the work 1 is completed, the driving motor 382 constituting the furnace body opening / closing mechanism 30 is operated to lower the lower main body block 14, (14).

Of course, when the heat treatment furnace 100 according to the preferred embodiment of the present invention is applied to a sintering (inter-metallic) sintering process, the material 1 is removed from the lower main body block 14 after sintering, .

10, a general heat treatment furnace 100 according to a preferred embodiment of the present invention, which is constructed and used as described above, is constructed such that general steel and copper materials are bonded to each other to be used in a lubrication apparatus for a fluid machine, And the sintering between the steel material and the copper material is carried out. In this case, the temperature is increased from 5 to 20 ° C / min at a temperature of 880 to 980 ° C for 30 After sintering for ~ 180 minutes, it is cooled to room temperature.

Of course, it can be applied to various other metal materials and various joining methods.

Although the heat treatment furnace for heating according to the embodiment of the present invention has been described with reference to the above description and drawings, it should be understood that the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the technical spirit of the present invention. As will be appreciated by those of ordinary skill in the art.

1: Material 1a: Steel material
1b: copper material 10: furnace body
12: upper main body block 12a:
12b: gas inlet hole 12c: gas outlet hole
122: transfer pipe 124: heating element
124a: heating wire 126: temperature sensor
14: lower main body block 142: protruding end
16: inner space 18: sealing material
20: gas transfer mechanism 22: supply tube
22a: hose-type supply pipe 24: inlet pipe
24a: hose-like inlet tube 26: hub
262: Nipple for the supply pipe body 264: Nipple for the inlet pipe
28: discharge tube 30: furnace opening / closing mechanism
32: support plate 322: sliding block
324: Bearing 34: Ball Screw
36: Guider 38: Actuator
382: drive motor 384: motor shaft
386: chain 40: body frame
42: caster 44: heat sink
50: Control box 60: Gas storage tank
100: Heat treatment furnace for heating

Claims (7)

A furnace body including a pair of body blocks separated from each other;
A gas delivery mechanism communicating with the inner space of the block for the main body to allow the atmospheric gas to flow in and out;
And a furnace body opening / closing mechanism for allowing the pair of main body blocks to be separated and engaged with each other. The method according to claim 1,
Wherein the furnace body is arranged such that the pair of main body blocks are vertically arranged,
Wherein the gas transfer mechanism is coupled to a block for one main body, and the furnace main body opening / closing mechanism is coupled to the other main body block and is upright. The method according to claim 1,
Wherein the gas transfer mechanism comprises: a supply pipe body for transferring an atmospheric gas supplied from outside;
A plurality of inflow tubes communicating with the inner space of the block for the main body to allow the atmospheric gas to flow into the inner space;
And a hub which is fixed at a predetermined position and connected to the supply tube and a plurality of inflow tubes and to which the atmospheric gas supplied from the supply tube is dispersed and transferred to the plurality of inflow tubes. Heat treatment furnace. The method of claim 3,
The main body block to which the inflow tube is connected is connected to a conveyance pipe formed with a gas inflow hole communicating with the internal space and formed to protrude to the outside,
Wherein the hub has a tubular nipple formed on an upper surface thereof and a plurality of tubular tubular nipples formed along a circumferential outer circumferential surface thereof,
Wherein the supply tube and the inflow tube are fitted to a nipple for the supply pipe of the hub, a nipple for the inflow pipe of the hub, and a transfer pipe of the block for the main body by using a flexible hose. 5. The method according to any one of claims 1 to 4,
Wherein the furnace body opening and closing mechanism includes: a support plate on which a block for a main body is fixed;
A sliding block installed at both side ends of the support plate;
A ball screw penetrating the sliding block and disposed on both outer sides of the block for the main body;
And an actuator for rotating the ball screw. 5. The method according to any one of claims 1 to 4,
The pair of main body blocks are formed in a plurality of steps on opposite sides of each other and are formed to have a concave / convex relationship with a concave / convex relationship in which a concave / convex relationship is formed, So that a closed inner space is formed while being inserted,
Wherein the pair of main body blocks are formed so that a sealing material protrudes along a periphery of a surface facing each other. 5. The method according to any one of claims 1 to 4,
Wherein the pair of main body blocks are formed of refractory bricks at a portion surrounding the inner space,
Wherein the one body block is provided with a heating element and a temperature sensor to maintain the same position, and the other body block moves in association with the furnace body opening / closing mechanism.

Images