CN217058388U - Dual heat abstractor in battery piece sintering furnace - Google Patents

Abstract

The utility model discloses a dual heat dissipation device in a battery piece sintering furnace, which comprises a sintering furnace, wherein a high-temperature area for sintering a battery piece and a heat dissipation area for cooling and dissipating heat of a sintered battery piece finished product are arranged in the sintering furnace, the high-temperature area comprises a material plate for supporting the battery piece to be sintered, the heat dissipation area comprises a guide rail for driving the material plate to move, the material plate is connected in the guide rail in a sliding way, the heat dissipation area comprises a water cooling part for water cooling and heat dissipation of the surface of the battery piece finished product and an air cooling part for air cooling and heat dissipation of the surface of the battery piece finished product, the water cooling part comprises a cooling water plate, the air cooling part comprises a protection screen plate, the high-temperature area can carry out high-temperature sintering on the battery piece in the sintering furnace, the heat dissipation area can carry out rapid cooling on the battery piece, the water cooling part can carry out water cooling and heat dissipation, the air cooling can carry out air cooling and temperature reduction on the heat dissipation area, the rapid cooling of the battery piece is realized, and the production efficiency of the battery piece is improved.

Description

Dual heat abstractor in battery piece sintering furnace

Technical Field

The utility model relates to a battery piece sintering field specifically is a dual heat abstractor in battery piece sintering furnace.

Background

Sintering furnaces refer to specialized equipment that allows powder compacts to be sintered to achieve desired physical, mechanical properties, and microstructures. The sintering furnace is used for drying slurry on the silicon wafer, removing organic components in the slurry and completing sintering of the aluminum back surface field and the grid lines. In order to ensure that dewaxing (lubricant or forming agent), reduction, alloying, structure transformation and the like of a powder compact in the sintering process are smoothly carried out, sintering temperature, protective atmosphere, compact conveying mode, heating and cooling speed and the like need to be accurately controlled in the sintering process, and a sintering furnace structurally meets the following requirements: the device has a perfect lubricant burning-off device (commonly called a dewaxing belt) and air tightness, namely, the air outside the furnace can be isolated and the protective atmosphere in the furnace can be ensured to be smooth. The temperature of each section in the furnace is controllable, the sintering atmosphere is adjustable, and the rapid cooling device is arranged, so that the sintered part can be rapidly cooled to the tapping temperature without oxidation.

The vacuum sintering furnace is a furnace for performing protective sintering on a heated object in a vacuum environment, and the heating mode is various, such as resistance heating, induction heating, microwave heating and the like. The vacuum induction furnace is a furnace for protectively sintering a heated object by utilizing induction heating, can be divided into types of power frequency, medium frequency, high frequency and the like, and can belong to a subclass of vacuum sintering furnaces. The vacuum induction sintering furnace is complete equipment for sintering hard alloy tool bits and various metal powder pressed bodies by utilizing the medium-frequency induction heating principle under the condition of vacuum or protective atmosphere, and is designed for industrial production of hard alloys, metal dysprosium and ceramic materials.

At present, when cooling down the battery piece in the sintering furnace, often adopt single radiating mode, the heat absorption is slow, cooling speed is slow, leads to production efficiency to reduce, and this application aims at setting up multiple cooling mode, carries out multiple mode cooling to high temperature sintering's battery piece, realizes the rapid cooling of battery piece, improves the production efficiency of battery piece.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dual heat abstractor in battery piece sintering furnace to solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a dual heat abstractor in battery piece fritting furnace, including the fritting furnace, the fritting furnace is inside to be equipped with and to be used for the battery piece to carry out the high-temperature region of sintering and be used for carrying out the radiating area of cooling down to the battery piece finished product after the sintering, the high-temperature region carries out the material board of sintering including being used for supporting the battery piece, the radiating area carries out the guide rail that removes including being used for driving the material board, the material board slides and connects inside the guide rail, the radiating area carries out water-cooled radiating water-cooled part and is used for battery piece finished product surface to carry out air-cooled radiating air-cooled part including being used for battery piece finished product surface, water-cooled part includes the cooling water board, air-cooled part includes the protection otter board.

By adopting the technical scheme: the high-temperature region can carry out high temperature sintering to the battery piece inside the fritting furnace, and the radiating area can carry out rapid cooling to the battery piece, and water-cooled part can carry out water-cooling to the battery piece surface, and the forced air cooling can carry out the forced air cooling to the temperature of radiating area for the rapid cooling of battery piece improves battery piece production efficiency.

Further setting: the water-cooling part is including the raceway that is used for leading-in cooling water board with the outside cooling water and the drain pipe that is used for carrying water to derive, and the cooling water board includes the mainboard and assists the board, assists the quantity to the board to be two, assists to board and mainboard vertical connection, and the mainboard with assist the cavity that is equipped with the water storage to inboard, is equipped with the fixed block that is used for fixed material board on the mainboard, and the inside temperature sensor who is used for monitoring the inside cooling water temperature degree of mainboard that is equipped with of mainboard.

By adopting the technical scheme: the raceway can be with cooling water input to the cooling water board in, the mainboard in the cooling water board with assist the board and carry out the cladding formula cooling to the battery piece on the material board, the fixed block can completely cut off cooling water board and material board direct contact, avoids condenser tube to be heated and damages.

Further setting: the forced air cooling part includes the guard plate, is equipped with the opening in the fritting furnace, and the protection otter board inlays to be established inside the opening, and the inside chamber that slides that is equipped with of protection otter board slides on the guard plate, is equipped with the handle that is used for stimulateeing the guard plate on the guard plate in the intracavity portion that slides, and the protection otter board is kept away from fritting furnace one side and is equipped with and be used for carrying out the forced air cooling tuber pipe to the battery piece surface, is equipped with a plurality of cooling blower on the tuber pipe.

By adopting the technical scheme: the guard plate can be sealed the fritting furnace is inside, and the protection otter board can separate and keep off fritting furnace and tuber pipe, avoids tuber pipe contact fritting furnace, and cooling blower can cool down through the tuber pipe to the fritting furnace is inside.

Further setting: the protection otter board is provided with a plurality of adjusting plates for adjusting the wind direction of the cooling fan, the protection otter board is provided with a rotating rod for driving the adjusting plates to rotate, the protection otter board is internally provided with a motor for driving the rotating rod to rotate, and the adjusting plates are corrugated.

By adopting the technical scheme: the adjusting plate can fix the position of the material plate battery piece to cool the wind direction, the adjusting plate can be adjusted by the rotating rod, and the air opening can be enlarged by the corrugation.

Further setting: one side of the cooling water plate close to the protection screen plate is provided with a gas exhaust port for exhausting hot gas of the sintering furnace, the cooling water plate is provided with a gas exhaust port for exhausting the hot gas in the cooling water plate, and the gas exhaust port are connected with each other.

By adopting the technical scheme: the inside steam in heat dissipation area can be discharged to one mouthful of heat dissipation of exhaust, and two mouths of exhaust can discharge the inside steam that produces of cooling water board, adjust the heat dissipation area temperature in real time, avoid steam to produce too much water smoke.

Further setting: the position of the high-temperature area close to the material plate is provided with a plurality of sealing plates for heat insulation of the high-temperature area and the heat dissipation area, and the guide rail is internally provided with a cylinder for driving the material plate to move.

By adopting the technical scheme: the sealing plates can isolate the temperature when the battery piece on the material plate is sintered in the high-temperature area, so that the temperature leakage in the high-temperature area is avoided.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses set up multiple cooling mode, carry out multiple mode cooling to the battery piece of high temperature sintering, realize the rapid cooling of battery piece, improve the production efficiency of battery piece.

Drawings

In order that the present invention may be more clearly understood, the following detailed description is given with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of a dual heat dissipation device in a battery plate sintering furnace according to the present invention;

fig. 2 is a cross-sectional view of the dual heat dissipation device in the battery piece sintering furnace of the present invention;

fig. 3 is a partial schematic view of a dual heat dissipation device in a cell sintering furnace according to the present invention;

fig. 4 is a left side sectional view of the dual heat dissipation device in the battery cell sintering furnace of the present invention;

fig. 5 is a front sectional view of the dual heat dissipation device in the battery plate sintering furnace of the present invention.

In the figure, 1, a sintering furnace; 2. a high temperature zone; 3. a heat dissipation area; 4. a material plate; 5. a sealing plate; 6. a guide rail; 7. a water delivery pipe; 8. a drain pipe; 9. a main board; 10. an auxiliary direction plate; 11. a fixed block; 12. a protection plate; 13. a protective screen plate; 14. an air duct; 15. a cooling fan; 16. one port for exhausting; 17. a second exhaust port; 18. an adjusting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to and show 1 ~ 5, the embodiment of the utility model provides an in, a dual heat abstractor in battery piece fritting furnace, including fritting furnace 1, 1 inside being equipped with of fritting furnace is used for the battery piece to carry out the high temperature region 2 of sintering and is used for carrying out the radiating heat dissipation area 3 of cooling down to the battery piece finished product after the sintering, high temperature region 2 carries out the material board 4 of sintering including being used for supporting the battery piece, the position that high temperature region 2 is close to material board 4 is equipped with and is used for high temperature region 2 and radiating heat dissipation area 3 to carry out a plurality of closing plates 5 that insulate against heat, be equipped with the cylinder that is used for driving material board 4 and removes in the guide rail 6, a plurality of closing plates 5 can be to material board 4 on the battery piece when high temperature region 2 sinters, completely cut off the temperature, avoid 2 temperatures in the high temperature region to leak.

The radiating area 3 is including being used for driving material board 4 and carrying out the guide rail 6 that removes, and material board 4 slides and connects inside guide rail 6, and radiating area 3 is including being used for battery piece finished product surface to carry out water-cooled heat dissipation's water-cooled part and being used for battery piece finished product surface to carry out air-cooled heat dissipation's air-cooled part, and water-cooled part includes the cooling water board, and the air-cooled part includes protection otter board 13.

High-temperature region 2 can carry out high temperature sintering to the battery piece in 1 inside of fritting furnace, and cooling area 3 can carry out rapid cooling to the battery piece, and water-cooled part can carry out water-cooling to the battery piece surface, and air-cooled cooling can carry out air-cooled cooling to the temperature of cooling area 3 for the rapid cooling of battery piece improves battery piece production efficiency.

The water-cooling part is including the raceway 7 that is used for leading-in cooling water board with outside cooling water and the drain pipe 8 that is used for carrying water to derive, the cooling water board includes mainboard 9 and assists to board 10, it is two to assist the quantity of board 10, assist to board 10 and mainboard 9 vertical connection, mainboard 9 with assist the cavity that is equipped with the water storage to board 10 inside, be equipped with the fixed block 11 that is used for fixture flitch 4 on the mainboard 9, the inside temperature sensor who is used for monitoring the inside cooling water temperature of mainboard 9 that is equipped with of mainboard 9.

Raceway 7 can carry out cladding formula cooling with supplementary board 10 to the battery piece on the material board 4 in can inputing cooling water to the cooling water board, mainboard 9 in the cooling water board, and fixed block 11 can completely cut off cooling water board and material board 4 direct contact, avoids condenser tube to be heated and damages.

The forced air cooling part includes protection plate 12, is equipped with the opening in the fritting furnace 1, and protection otter board 13 inlays to be established inside the opening, and the inside chamber of sliding that is equipped with of protection otter board 13, and the intracavity portion that slides is connected in on protection plate 12, is equipped with the handle that is used for stimulateeing protection plate 12 on the protection plate 12, and protection otter board 13 is kept away from 1 one side of fritting furnace and is equipped with and is used for carrying out air-cooled tuber pipe 14 to the battery piece surface, is equipped with a plurality of cooling blower 15 on the tuber pipe 14.

The protection plate 12 can seal the interior of the sintering furnace 1, the protection screen plate 13 can separate and block the sintering furnace 1 and the air pipe 14, the air pipe 14 is prevented from contacting the sintering furnace 1, and the cooling fan 15 can cool the interior of the sintering furnace 1 through the air pipe 14.

Be equipped with the regulating plate 18 of a plurality of regulation cooling fan 15 wind directions on the protection otter board 13, be equipped with on the protection otter board 13 and be used for driving regulating plate 18 and carry out the pivoted dwang, be equipped with in the protection otter board 13 and be used for driving the dwang and carry out the pivoted motor, regulating plate 18 is the corrugate, regulating plate 18 can fix the wind direction cooling to material board 4 battery piece position, the dwang can make regulating plate 18 transfer to, the corrugate can be to expanding wind gap position.

One side of the cooling water plate close to the protection screen plate 13 is provided with a first exhaust port 16 for exhausting hot gas of the sintering furnace 1, a second exhaust port 17 for exhausting hot gas in the cooling water plate is arranged on the cooling water plate, and the first exhaust port 16 and the second exhaust port 17 are connected with each other.

Exhaust one mouthful 16 can the inside steam of radiating area 3 discharge, two mouthful 17 of exhaust can discharge the inside steam that produces of cooling water board, adjusts the 3 temperatures in radiating area in real time, avoids steam to produce too much water smoke.

The utility model discloses a theory of operation is: an operator places the battery piece on the material plate 4 to sinter the high-temperature area 2, after sintering is completed, the high-temperature device is closed, cooling water is input into the cooling water plate through the water pipe 7, the cooling fan 15 is started, the operator starts the air cylinder to drive the material plate 4 to move up and down on the guide rail 6, the cooling fan 15 cools the direction of the battery piece on the material plate 4 in the moving-down process, the temperature sensor detects the temperature inside the cooling water plate, and when the temperature exceeds the specified temperature, the cooling water is input again to cool.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a dual heat abstractor in battery piece fritting furnace, includes fritting furnace (1), its characterized in that: the sintering furnace (1) is inside to be equipped with and to be used for the battery piece to carry out the high-temperature region (2) of sintering and be used for carrying out cooling radiating heat dissipation district (3) to the battery piece finished product after the sintering, high-temperature region (2) are including being used for supporting material board (4) that the battery piece carries out the sintering, heat dissipation district (3) are including being used for driving guide rail (6) that material board (4) carry out the removal, material board (4) slide and connect inside guide rail (6), heat dissipation district (3) are including being used for battery piece finished product surface to carry out water-cooled heat dissipation's water-cooling part and being used for battery piece finished product surface to carry out air-cooled heat dissipation's air-cooled part, the water-cooling part includes the cooling water board, the air-cooled part is including protection otter board (13).

2. The dual heat dissipation device in the battery piece sintering furnace is characterized in that the water cooling part comprises a water conveying pipe (7) used for guiding external cooling water into the cooling water plate and a water discharging pipe (8) used for conveying the water out, the cooling water plate comprises a main plate (9) and two auxiliary plates (10), the auxiliary plates (10) are vertically connected with the main plate (9), cavities for storing water are formed in the main plate (9) and the auxiliary plates (10), a fixing block (11) used for fixing the material plate (4) is arranged on the main plate (9), and a temperature sensor used for monitoring the temperature of the cooling water in the main plate (9) is arranged in the main plate (9).

3. The dual heat dissipation device in the battery piece sintering furnace as claimed in claim 1, wherein the air-cooling part comprises a protection plate (12), an opening is formed in the sintering furnace (1), the protection screen (13) is embedded in the opening, a sliding cavity is formed in the protection screen (13), the protection plate (12) is slidably connected in the sliding cavity, a handle for pulling the protection plate (12) is arranged on the protection plate (12), an air duct (14) for air-cooling the surface of the battery piece is arranged on one side of the protection screen (13) away from the sintering furnace (1), and a plurality of cooling fans (15) are arranged on the air duct (14).

4. The dual heat dissipation device in the battery piece sintering furnace according to claim 3, wherein the protective screen (13) is provided with a plurality of adjusting plates (18) for adjusting the wind direction of the cooling fan (15), the protective screen (13) is provided with a rotating rod for driving the adjusting plates (18) to rotate, a motor for driving the rotating rod to rotate is arranged in the protective screen (13), and the adjusting plates (18) are corrugated.

5. The double heat dissipation device in the battery piece sintering furnace as recited in claim 1, wherein a gas exhaust port (16) for exhausting hot gas of the sintering furnace (1) is provided at one side of the cooling water plate close to the protective screen (13), a gas exhaust second port (17) for exhausting hot gas inside the cooling water plate is provided on the cooling water plate, and the gas exhaust port (16) and the gas exhaust second port (17) are connected with each other.

6. The dual heat dissipation device in the battery piece sintering furnace according to claim 1, wherein a plurality of sealing plates (5) for heat insulation of the high temperature region (2) and the heat dissipation region (3) are arranged at positions of the high temperature region (2) close to the material plates (4), and an air cylinder for driving the material plates (4) to move is arranged in the guide rail (6).

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