CN217666267U - Low-energy-consumption cooling device of ingot furnace - Google Patents

Abstract

The utility model relates to an ingot furnace cooling technology field just discloses an ingot furnace low energy consumption type cooling device, including the device main part, the device main part includes support frame and liquid nitrogen cooling box, and the fixed plate is installed to the ingot furnace periphery, and the cooling box is installed to the shower head below, and the refrigeration board is installed to cooling tube one side, and the liquid nitrogen pipeline is installed to refrigeration board both sides, and circulating water pump is installed to conveyer pipe top one side. This ingot furnace low energy consumption type cooling device, utilize the support frame to fix the ingot furnace, utilize liquid nitrogen cooler bin and circulating water pump to spray cold water to the ingot furnace periphery through fixed plate and shower head, carry out the ingot furnace cooling, cold water sprays the back simultaneously and collects through the cooling box, carry again to the inside cooling that cools down of liquid nitrogen cooler bin, reuse, thereby reach cold water circulation cooling, cold water falls down the back and contacts with ingot furnace and heat-conducting plate simultaneously, enlarge cold water and heat body contact area, improve device cooling effect, reduce cooling cost.

Description

Low-energy-consumption cooling device of ingot furnace

Technical Field

The utility model relates to an ingot furnace cooling technology field specifically is an ingot furnace low energy consumption type cooling device.

Background

The ingot furnace is equipment for casting large-scale polycrystalline silicon ingots, and silicon materials are melted at high temperature and then are directionally solidified, condensed and crystallized to form consistent silicon ingots, so that the quality requirements of solar cell production on silicon wafers are met. In the ingot furnace course of work, can relate to this link of ingot furnace cooling circulation water system, however the conventional cooling water circulation system that current enterprise used, it is exactly the power more than 150KW to be a refrigerator alone, still need open two set at least pumps simultaneously and just accomplish cooling water route circulation, the charges of electricity pressure is very big, energy resource consumption is huge, cooling cost adopts cold water cooling for practicing thrift among the prior art more, the water-washed cooling, cause the water waste, and the cooling effect is lower, through the refrigerator cooling greatly increased the cooling cost again, simultaneously to most of small enterprises, hardly bear for a long time.

In view of the above, we provide a low energy consumption type cooling device for an ingot furnace.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an ingot furnace low energy consumption type cooling device possesses the cooling water circulation cooling, improves advantages such as cooling effect and reduction cooling cost, has solved above-mentioned technical problem.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an ingot furnace low energy consumption type cooling device, includes the device main part, the device main part includes support frame and liquid nitrogen cooling box, the ingot furnace is installed to support frame center top, and the ingot furnace periphery installs the fixed plate, the shower head is installed to the fixed plate below, and installs the cooling box below the shower head, cooling box internally mounted has the heat-conducting plate, cooling box installs water storage box in one side, liquid nitrogen cooling box internally mounted has the cooling tube, and cooling tube installs the refrigeration board in one side, the liquid nitrogen pipeline is installed to refrigeration board both sides, the conveyer pipe is installed to liquid nitrogen cooling box top, and installs circulating water pump on one side of conveyer pipe top.

Preferably, the support frame is provided with a fixing plate, the center of the fixing plate is sleeved on the periphery of the ingot furnace, a liquid nitrogen cooling box is arranged below one side of the support frame, and one sides of the upper part and the lower part of the liquid nitrogen cooling box are connected with the support frame through conveying pipes.

Through above-mentioned technical scheme, utilize the support frame to fix the ingot furnace, utilize liquid nitrogen cooler bin and circulating water pump to spray cold water to the ingot furnace periphery through fixed plate and shower head, carry out the ingot furnace cooling, cold water sprays the back simultaneously and collects through the cooling box, carries again to the inside cooling that cools down of liquid nitrogen cooler bin, reuse to reach the cooling water circulation cooling, reduce the water wasting of resources.

Preferably, the whole fixed plate is circular, a communicating pipe is arranged inside the fixed plate, the upper part of the spray header penetrates through the fixed plate to be connected with the communicating pipe, one side of the communicating pipe is connected with a circulating water pump, and the spray header is positioned on the periphery of the center of the ingot furnace.

According to the technical scheme, the circulating water pump is used for pumping out cold water in the liquid nitrogen cooling box, the cold water is sprayed out from the spray header through the communicating pipe, and meanwhile, the cold water can be uniformly sprayed to the outer wall of the ingot furnace by utilizing the position relation of the spray header, so that the cold water is cooled.

Preferably, the cooling box is sleeved on the periphery of the lower portion of the ingot furnace, the heat conducting plate in the cooling box is in contact with the outer wall of the ingot furnace, two sides of the cooling box are connected with the supporting frame through connecting plates, and the lower portion of the cooling box is connected with the water storage tank through a conveying pipe.

Through above-mentioned technical scheme, cold water sprays the back again and descends to cooling incasement portion, and through the heat-conducting plate with the conduction of ingot furnace part heat to cooling incasement portion, and cold water fall back simultaneously with ingot furnace and heat-conducting plate contact to enlarge cold water and heat volume contact area, improve device cooling effect.

Preferably, one side of the water storage tank is connected with a cooling pipe inside the liquid nitrogen cooling tank through a conveying pipe, the cooling pipe is located between the refrigerating plate and the refrigerating plate, the cooling pipe surrounds the periphery of the liquid nitrogen pipeline in a curve mode, and one end above the cooling pipe is connected with the circulating water pump through the conveying pipe.

Through above-mentioned technical scheme, the water resource is inside conveying the cooling tube after the water storage box transition, utilizes the special construction of cooling tube and contacts with liquid nitrogen pipeline and refrigeration board, makes the inside moisture of cooling tube fully cool down, sprays to the ingot furnace periphery through circulating water pump once more, from effectively playing the effect of cold water circulation cooling, reduces cooling cost.

Compared with the prior art, the utility model provides an ingot furnace low energy consumption type cooling device possesses following beneficial effect:

1. this ingot furnace low energy consumption type cooling device, utilize the support frame to fix the ingot furnace, utilize liquid nitrogen cooling box and circulating water pump to spray cold water to the ingot furnace periphery through fixed plate and shower head, carry out the ingot furnace cooling, cold water sprays the back simultaneously and collects through the cooling box, carry again to the inside cooling that cools down of liquid nitrogen cooling box, reuse, thereby reach cold water circulation cooling, reduce the water waste, utilize circulating water pump to take the inside cold water of liquid nitrogen cooling box out, spout from the shower head through communicating pipe, utilize the position relation that the shower head located simultaneously, cold water can be even sprays to the ingot furnace outer wall, carry out the cold water cooling.

2. This ingot furnace low energy consumption type cooling device, cold water sprays the back again and descends to cooling incasement portion, through the heat-conducting plate with the conduction of ingot furnace part heat to cooling incasement portion, and cold water fall the back simultaneously with ingot furnace and heat-conducting plate contact, thereby enlarge cold water and heat body contact area, improve the device cooling effect, the water resource is inside conveying the cooling tube after the water storage box transition, utilize the special construction of cooling tube and contact with liquid nitrogen pipeline and refrigeration board, make the inside moisture of cooling tube fully cool down, spray to the ingot furnace periphery through circulating water pump once more, from effectively playing the effect of cold water circulation cooling, reduce cooling cost.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a bottom view of the fixing plate of the present invention;

fig. 3 is a schematic top view of the cooling box according to the present invention.

Wherein: 1. a device main body; 2. a support frame; 201. an ingot furnace; 202. a fixing plate; 203. a shower head; 204. a cooling box; 205. a heat conducting plate; 206. a water storage tank; 3. a liquid nitrogen cooling box; 301. a cooling tube; 302. a refrigeration plate; 303. a liquid nitrogen pipeline; 304. a delivery pipe; 305. and (4) a water circulating pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 efforts all belong to the protection scope of the present invention.

Referring to fig. 1-3, a low-energy-consumption cooling device for an ingot furnace comprises a device body 1, wherein the device body 1 comprises a support frame 2 and a liquid nitrogen cooling tank 3, an ingot furnace 201 is installed above the center of the support frame 2, a fixing plate 202 is installed on the periphery of the ingot furnace 201, a spray head 203 is installed below the fixing plate 202, a cooling tank 204 is installed below the spray head 203, a heat conducting plate 205 is installed inside the cooling tank 204, a water storage tank 206 is installed on one side below the cooling tank 204, a cooling pipe 301 is installed inside the liquid nitrogen cooling tank 3, a refrigerating plate 302 is installed on one side of the cooling pipe 301, liquid nitrogen pipelines 303 are installed on two sides of the cooling plate 302, a conveying pipe 304 is installed above the liquid nitrogen cooling tank 3, and a circulating water pump 305 is installed on one side above the conveying pipe 304.

Concretely, fixed plate 202 is installed to the instant noodle on support frame 2, and fixed plate 202 center cup joints in ingot furnace 201 periphery, liquid nitrogen cooling box 3 is installed to 2 one sides below of support frame, and liquid nitrogen cooling box 3 top and below one side are connected with support frame 2 through conveyer pipe 304, the advantage is, utilize support frame 2 to fix ingot furnace 201, utilize liquid nitrogen cooling box 3 and circulating water pump 305 to spray cold water to ingot furnace 201 periphery through fixed plate 202 and shower head 203, carry out the ingot furnace cooling, cold water sprays the back and collects through cooling box 204 simultaneously, carry again to the inside cooling that cools down of liquid nitrogen cooling box 3, reuse, thereby reach the cooling water circulation cooling, reduce water waste.

Specifically, the whole fixed plate 202 is circular, and fixed plate 202 internally mounted has communicating pipe, shower head 203 top is passed fixed plate 202 and is connected with communicating pipe, and communicating pipe one side is connected circulating water pump 305, and shower head 203 is located ingot furnace 201 center periphery, and the advantage is, utilize circulating water pump 305 to take out the inside cold water of liquid nitrogen cooling tank 3, through communicating pipe from shower head 203 blowout, utilize the position relation that shower head 203 located simultaneously, cold water can be even sprays to ingot furnace 201 outer wall, carries out the cold water cooling.

Specifically, cooling box 204 cup joints in ingot furnace 201 below periphery, and cooling box 204 inside heat-conducting plate 205 contacts with ingot furnace 201 outer wall, cooling box 204 both sides are connected with support frame 2 through the connecting plate, and cooling box 204 below is connected water storage box 206 through conveyer pipe 304, the advantage is, cold water sprays again after descending to cooling box 204 inside, conduct ingot furnace 201 part heat to cooling box 204 inside through heat-conducting plate 205, and cold water falls after the back and contacts with ingot furnace 201 and heat-conducting plate 205 simultaneously, thereby enlarge cold water and heat body contact area, improve device cooling effect.

Specifically, water storage tank 206 one side is connected with the inside cooling tube 301 of liquid nitrogen cooling tank 3 through conveyer pipe 304, and cooling tube 301 is located between refrigeration board 302 and the refrigeration board 302, cooling tube 301 surrounds in liquid nitrogen pipeline 303 periphery with the curve form, and cooling tube 301 top one end is connected with circulating water pump 305 through conveyer pipe 304, the advantage is, the water resource conveys inside cooling tube 301 after the water storage tank 206 passes through, utilize the special construction of cooling tube 301 and contact with liquid nitrogen pipeline 303 and refrigeration board 302, make the inside moisture of cooling tube 301 fully cool down, spray to ingot furnace 201 periphery through circulating water pump 305 once more, from effectively playing the effect of cold water circulation cooling, reduce cooling cost.

When the cooling device is used, the ingot furnace 201 is fixed by the support frame 2, cold water is sprayed to the periphery of the ingot furnace 201 through the fixing plate 202 and the spray header 203 by the liquid nitrogen cooling box 3 and the circulating water pump 305, the ingot furnace is cooled, meanwhile, the cold water is collected through the cooling box 204 after being sprayed, the cold water is conveyed to the inside of the liquid nitrogen cooling box 3 to be cooled again, the cold water is reused, the cold water is circularly cooled, the waste of water resources is reduced, the cold water in the liquid nitrogen cooling box 3 is pumped out by the circulating water pump 305, the cold water is sprayed out from the spray header 203 through the communicating pipe, the cold water is simultaneously sprayed to the outer wall of the ingot furnace 201 by the position relation of the spray header 203, the cold water is cooled, the cold water is sprayed into the cooling box 204 after being sprayed again, part of heat of the ingot furnace 201 is conducted to the inside of the cooling box 204 through the heat conducting plate 205, the cold water is simultaneously contacted with the ingot furnace 201 and the water resource 205 after falling, the contact area of the cold water and the heat body is enlarged, the cooling effect of the cooling device is improved, the cooling effect that the cold water is fully transferred to the inside of the cooling pipe 301 after being transferred to the cooling pipe 301, the cooling pipe 305, the cooling pipe is fully contacted with the cooling water storage pipe 301, and the cooling water pump 305, and the cooling water circulating water pump 305, and the cooling pipe 201 effectively reduced from the cooling pipe.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an ingot furnace low energy consumption type cooling device, includes device main part (1), its characterized in that: device main part (1) includes support frame (2) and liquid nitrogen cooling box (3), ingot furnace (201) are installed to support frame (2) center top, and ingot furnace (201) periphery installs fixed plate (202), shower head (203) are installed to fixed plate (202) below, and shower head (203) below installs cooling box (204), cooling box (204) internally mounted has heat-conducting plate (205), water storage box (206) are installed to cooling box (204) below one side, liquid nitrogen cooling box (3) internally mounted has cooling tube (301), and cooling tube (301) one side installs refrigeration board (302), liquid nitrogen pipeline (303) are installed to refrigeration board (302) both sides, conveyer pipe (304) are installed to liquid nitrogen cooling box (3) top, and circulating water pump (305) are installed to conveyer pipe (304) top one side.

2. The low-energy-consumption cooling device of the ingot furnace as claimed in claim 1, wherein: fixed plate (202) is installed to support frame (2) top face of facilitating, and fixed plate (202) center cup joints in ingot furnace (201) periphery, liquid nitrogen cooling box (3) are installed to support frame (2) one side below, and liquid nitrogen cooling box (3) top and below one side are connected with support frame (2) through conveyer pipe (304).

3. The low-energy-consumption cooling device of the ingot furnace as claimed in claim 1, wherein: the whole fixed plate (202) is circular, a communicating pipe is arranged inside the fixed plate (202), the upper portion of the spray header (203) penetrates through the fixed plate (202) to be connected with the communicating pipe, one side of the communicating pipe is connected with a circulating water pump (305), and the spray header (203) is located on the periphery of the center of the ingot furnace (201).

4. The low-energy-consumption cooling device of the ingot furnace as claimed in claim 1, wherein: the cooling box (204) is sleeved on the periphery of the lower portion of the ingot furnace (201), the heat conducting plate (205) inside the cooling box (204) is in contact with the outer wall of the ingot furnace (201), two sides of the cooling box (204) are connected with the support frame (2) through connecting plates, and the lower portion of the cooling box (204) is connected with the water storage box (206) through the conveying pipe (304).

5. The low-energy-consumption cooling device of the ingot furnace as claimed in claim 1, wherein: one side of the water storage tank (206) is connected with a cooling pipe (301) in the liquid nitrogen cooling tank (3) through a conveying pipe (304), the cooling pipe (301) is located between the refrigerating plate (302) and the refrigerating plate (302), the cooling pipe (301) surrounds the periphery of the liquid nitrogen pipeline (303) in a curve mode, and one end above the cooling pipe (301) is connected with a circulating water pump (305) through the conveying pipe (304).

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