KR102529486B1 - Heat Treatment Furnace with Improved Temperature Distribution - Google Patents

Abstract

The present invention relates to a heat treatment furnace in which temperature distribution is improved by reducing internal temperature distribution deviation.
The present invention is a case having an inner space; It includes one or more crucibles mounted inside the case and receiving objects for heat treatment, and at least one side of the case is connected to a supply pipe for supplying a heat source to the inner space of the case to reduce temperature deviation. may be provided.

Description

Heat treatment furnace with improved temperature distribution {Heat Treatment Furnace with Improved Temperature Distribution}

The present invention relates to a heat treatment furnace in which an internal temperature distribution is improved by reducing a deviation in internal temperature distribution.

A crucible accommodating the electrode material is put into a heat treatment furnace for heat-treating the electrode material of the secondary battery.

Such a crucible may be composed of, for example, four or six rows, and may be stacked in plurality in a vertical direction.

A plurality of accommodating grooves are formed in one crucible, and an electrode material may be contained in the accommodating grooves for heat treatment.

Therefore, in order to process many electrode materials at once, the size of the crucible can be increased, and accordingly, the size of the heat treatment furnace is inevitably increased.

As the size of the heat treatment furnace increases, the internal temperature distribution state of the heat treatment furnace is not uniform, and deviations may occur depending on the location. The temperature deviation may increase further as the temperature of the center of the crucible is high and the temperature decreases toward the side of the crucible, and the size of the crucible and the internal space of the crucible increase due to heat treatment.

If the internal temperature deviation of the heat treatment furnace increases, it may adversely affect the electrode material to be heat treated.

Accordingly, the present invention has been invented to solve the above-mentioned conventional problems, and an object of the present invention is to provide a heat treatment furnace in which temperature deviation does not occur even when the internal space of the heat treatment furnace is increased.

A solution means for solving the above problem is a case having an inner space;

Including one or more crucibles mounted inside the case and receiving an object for heat treatment,

A heat treatment furnace to which a supply pipe for supplying a heat source to an inner space of the case is connected may be provided on at least one side of the case to reduce temperature deviation.

As described above, the present invention connects a supply pipe to at least one side of the heat treatment furnace so that the heat source is supplied to the side of the heat treatment furnace, thereby reducing the temperature deviation inside the heat treatment furnace to form a uniform temperature distribution.

In the present invention, as the size of the crucible accommodating electrode materials increases in order to heat-treat more electrode materials, when the size of the heat treatment furnace accommodating them increases in proportion, the internal temperature of the heat treatment furnace becomes lower as it goes to the side. The temperature deviation may be intensified as it cools down, and by supplying a heat source to these sides, the temperature deviation from the central position inside the heat treatment furnace can be remarkably reduced so that a uniform temperature distribution can be achieved.

Therefore, since the present invention can implement a uniform temperature distribution in the heat treatment furnace, an improved heat treatment effect can be exhibited during heat treatment of the electrode material.

1 is a schematic diagram showing a heat treatment furnace of the present invention.
Figure 2 is a schematic diagram showing the temperature distribution of the heat treatment furnace of the present invention.
3 is a schematic diagram showing an example of a crucible.
Figure 4 is a cross-sectional view showing the installation structure of the supply pipe and the connection pipe provided on the side wall of the heat treatment furnace of the present invention.

Hereinafter, specific details for carrying out the present invention will be described in detail based on the accompanying exemplary drawings.

1 is a schematic diagram showing a heat treatment furnace of the present invention, and referring to FIG. 1, the heat treatment furnace 100 of the present invention may be made of a case 110 having a predetermined inner space, and the inside of the case 110 One or more crucibles 200 may be stacked.

A plurality of accommodating grooves 210 are formed in the crucible 200, and an object for heat treatment, for example, an electrode material for a secondary battery, may be contained in the accommodating grooves 210.

Here, in the present invention, a supply pipe 300 for supplying a heat source to the side of the case 110 may be provided.

A preheating means 400 for supplying a heat source into the supply pipe 300 may be provided, and the atmospheric gas preheated through the preheating means 400 may be supplied into the heat treatment furnace 100 through the supply pipe 300. .

As a means for connecting the supply pipe 300 to at least one side of the case 110, a connection pipe 310 may be provided.

The connection pipe 310 may be inserted into the insertion hole 112 formed on the side of the case 110, and at this time, the inner diameter and length of the connection pipe 310 may be varied.

That is, even if the insertion hole 112 is formed in a certain size, the connection pipe 310 inserted into the insertion hole 112 has a different inner diameter or is formed the same length as the insertion hole 112 or inserted into the insertion hole 112. It can be formed larger or smaller than the ball 112 .

Therefore, by changing the inner diameter or length of the connection pipe 310, it is possible to change the pressure and inflow speed of the incoming atmospheric gas, and accordingly, the atmospheric gas is introduced into the inner space of the heat treatment furnace 100 under optimal conditions. can supply

The connection pipe 310 may be made of, for example, a ceramic material or the like.

A transport roller 500 for transporting the crucible 200 may be provided at the bottom of the crucible 200, and an electrode material provided in the receiving groove 210 of the crucible 200 may be disposed at the top and bottom of the crucible 200. A heater 600 for heat treatment may be provided.

One or more exhaust pipes 120 may be formed above the heat treatment furnace 100 .

Figure 2 is a schematic diagram showing the temperature distribution of the heat treatment furnace of the present invention. Referring to FIG. 2 , in the distribution of temperature T, the central position of the crucible 200 is the highest and the temperature may decrease toward the side. Accordingly, a temperature difference corresponding to the height H may occur.

3 is a schematic diagram showing an example of a crucible. Referring to FIG. 3, the crucible 200 may have a plurality of accommodating grooves 210, and in this embodiment, an example of a state in which six rows of crucibles 200 are stacked in two layers is shown, but is limited thereto. It is not, and can be configured with a different number of columns and stacking numbers.

After the crucible 200 is put into the heat treatment furnace 100, during the heat treatment process of the electrode material provided in the plurality of receiving grooves 210, the temperature (T) distribution is the highest at the center of the crucible 200 and the side The temperature decreases in the direction, and when the crucibles 200 are stacked, the crucible 200 at a higher position may have a higher temperature than the crucible 200 at a lower position.

Therefore, the temperature of the first region (①) at the center of the crucible 200 on the first layer, the second region (②) on the side, and the third region (③) at the center of the crucible 200 on the second layer Comparatively, a distribution form in which the temperature of the third region ③ has the highest temperature, the temperature of the second region ② and the first region ① decreases in that order can be achieved.

Figure 4 is a cross-sectional view showing the installation structure of the supply pipe and the connection pipe provided on the side wall of the heat treatment furnace of the present invention.

Referring to FIG. 4, on the sidewall 114 of the case 110 constituting the heat treatment furnace 100 of the present invention, a plurality of connecting pipes 310, a first connecting pipe 311, a second connecting pipe 312, It may be made of a third connection pipe (313).

An insulating material 130 may be provided on an inner surface of the side wall 114 , and an insulating member 140 may be provided on an outer surface of the side wall 114 .

The heat insulating member 140 may be provided in the form of a box in which a case and a heat insulating material are provided inside the case.

In the first connection pipe 311 and the second connection pipe 312, the first supply pipe 301 and the second supply pipe 302, respectively, which are supply pipes 300 connected to introduce preheated atmospheric gas, may be respectively inserted and connected thereto. there is.

The third connection pipe 313 may be provided with a different height from the third supply pipe 303 which is a supply pipe in view of the installation structure. Therefore, the third supply pipe 303 is inserted into the fourth connection pipe 314, and the fourth connection pipe 314 can be connected to the third connection pipe 313 installed at different heights through the connecting member 320. .

The connecting member 320 may have a hollow structure so that the third connection pipe 313 and the fourth connection pipe 314 are connected in communication.

The first connection pipe 311, the second connection pipe 312, the third connection pipe 313, the fourth connection pipe 314, and the connecting member 320 can withstand high temperatures, and are resistant to foreign substances due to corrosion. It may be composed of a ceramic material that does not occur.

The first supply pipe 301, the second supply pipe 302, and the third supply pipe 303 may be made of steel.

The temperature of the outside of the heat treatment furnace 100 may be increased by the preheated atmosphere gas introduced through the insides of the first supply pipe 301 , the second supply pipe 302 , and the third supply pipe 303 . Therefore, the heat insulating member 140 is provided so that the temperature of the preheated atmospheric gas introduced through the inside of the first supply pipe 301, the second supply pipe 302, and the third supply pipe 303 does not decrease, and the heat insulating member ( 140) can be insulated by passing the first supply pipe 301, the second supply pipe 302, and the third supply pipe 303 therethrough.

Since the heat insulating member 140 is provided at the portion where the first supply pipe 301, the second supply pipe 302, and the third supply pipe 303 are inserted into the sidewall 114 of the heat treatment furnace 100, the first supply pipe ( 301), it is possible to prevent heat loss of the preheated atmospheric gas supplied through the insides of the second supply pipe 302 and the third supply pipe 303.

If the heat insulating member 140 is not provided, the first supply pipe 301, the second supply pipe 302, and the third supply pipe 303 basically have a structure in which a heat insulating material is wrapped to prevent heat loss, and the side wall ( 114), since a coupling and sealing structure is formed through a sealing member or the like, heat loss of the atmosphere gas flowing into the heat treatment furnace 100 may occur, and furthermore, since it contacts the side wall 114, the side wall 114 ), heat transfer occurs to the outer surface of the heat loss, as well as the temperature of the sidewall 114 may be excessively increased, and accordingly, the case 110 of the heat treatment furnace 100 may be deformed by heat.

Therefore, when the heat insulating member 140 is provided and the first supply pipe 301, the second supply pipe 302, and the third supply pipe 303 are coupled to penetrate therein, heat loss is prevented as well as the side wall ( Deformation of the case 110 of the heat treatment furnace 100 can be prevented by preventing the temperature of the outer surface of the heat treatment furnace 114 from being excessively increased.

In addition, by providing the insulating material 130 on the inner circumferential surface of the side wall 114, the inside of the heat treatment furnace 100 is kept warm so that the heat source is maintained without being taken away to the outside.

According to the present invention, by injecting preheated atmosphere gas into the lateral position of the crucible 200, which is the region where the temperature is the lowest, to raise the temperature, the overall temperature distribution can be implemented evenly without deviation, and the location of the space inside the heat treatment furnace 100 According to the even temperature distribution without deviation according to the heat treatment of the electrode material, a good treatment process can be performed.

In this way, by varying the specifications (inner diameter, length, etc.) of the connection pipe 310, the process of supplying the atmospheric gas flowing through the supply pipe 300 to the inside of the case 110 through the connection pipe 310 It is possible to change factors such as the inflow rate, pressure, flow rate, etc. of the atmospheric gas, and through the change of these factors, an optimal temperature (sintering temperature) distribution suitable for the electrode material can be obtained.

100... heat treatment furnace 110... case
112... insertion hole 114... side wall
120 ... Exhaust pipe 130 ... Insulating material
140... insulation member
200... crucible 210... storage groove
300... supply pipe 301... first supply pipe
302... 2nd supply pipe 303... 3rd supply pipe
310 ... connector 311 ... first connector
312... second connector 313... third connector
314... fourth connector 320... connecting member
400... Preheating means 500... Transfer roller
600... heater
H... height T... temperature

Claims (6)

A case having an inner space;
One or more crucibles mounted inside the case and receiving objects for heat treatment; including,
At least one side of the case is connected with a plurality of supply pipes for supplying a heat source to the inner space of the case in order to reduce the temperature difference,
An insulating member is provided on an outer circumferential surface of the side wall of the case to allow the supply pipe to be inserted through and insulated,
The heat insulating member insulates the temperature of the preheated atmospheric gas flowing into the case through the supply pipe from decreasing,
The heat insulating member prevents thermal deformation of the case by preventing a temperature rise due to heat transfer to the outer circumferential surface of the side wall of the case,
At least one insertion hole is formed in the sidewall of the case, and a connection pipe connected to the supply pipe is inserted into the insertion hole, respectively.
The plurality of supply pipes include first to third supply pipes that supply the heat source and are spaced apart from each other,
The connector is
a first connection pipe into which the first supply pipe is inserted;
a second connection pipe into which the second supply pipe is inserted;
a third connection pipe located at a different height from the third supply pipe;
A fourth connection pipe into which the third supply pipe is inserted,
The third connection pipe is located lower than the fourth connection pipe,
A connecting member having a hollow shape between the third and fourth connection pipes and connecting the third and fourth connection pipes having different heights,
An insulating material is provided on the inner surface of the side wall of the case,
The insulating material is opened by penetrating the end of the connecting pipe,
The heat treatment furnace in which the connection pipe is formed different from the length or inner diameter of the insertion hole to change the pressure and the inflow rate of the incoming atmospheric gas.
According to claim 1,
The heat treatment furnace to which the supply pipe is connected to supply a heat source by a preheating means.
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