CN211939011U

CN211939011U - Cooling device is used in processing of aluminium ingot

Info

Publication number: CN211939011U
Application number: CN202020488416.3U
Authority: CN
Inventors: 周桂俊
Original assignee: Tongling Tengfa Aluminum Products Proc Co ltd
Current assignee: Tongling Tengfa Aluminum Products Proc Co ltd
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-11-17
Anticipated expiration: 2030-04-03

Abstract

The utility model provides a cooling device for aluminum ingot processing, which comprises a box body component, a cooling component, a mist discharging component, an electric control cabinet and a water collecting component, the cooling component, the mist discharging component and the water collecting component are arranged, a water feeding pipe conveys cooling water into a water conveying pipe, the cooling water is atomized through an atomizing nozzle, the atomized cooling water cools the aluminum ingot passing on the conveying belt, compared with a water tank type cooling mode, the cooling effect of the cooling component is improved, the appearance size of the aluminum ingot is prevented from generating larger error, waste water generated by cooling is conveyed into a water collecting cover through a drain pipe, a filter screen blocks impurities in the waste water, the pipeline blockage caused by the impurities in the waste water is avoided, the service lives of a circulating water pump and the pipeline are prolonged, the recycling of the cooling water is facilitated, a suction fan conveys hot steam generated in the cooling process to a mist conveying pipe through the mist collecting cover, the hot steam is condensed in the recovery pipe, and condensed water is conveyed into the box body, so that the water resource is conveniently recycled.

Description

Cooling device is used in processing of aluminium ingot

Technical Field

The utility model belongs to the technical field of the aluminium ingot processing, especially, relate to a cooling device is used in aluminium ingot processing.

Background

In an aluminum ingot production line, aluminum ingots cast from a casting machine need to be cooled, generally, the aluminum ingots received from the casting machine are placed on a chain accessory of a cooling conveyor and are driven by a chain wheel to move continuously, the aluminum ingots are taken into a water tank in the middle of the cooling conveyor to be directly water-cooled, the whole water-cooling process continues until the next unit, but the following problems occur in the process of cooling the aluminum ingots by the water tank: 1) the water in the water tank is recycled, the water temperature rises, the cooling effect on the aluminum ingot is poor, and the external dimension of the aluminum ingot has larger error; 2) water cyclic utilization in the basin, the grain sediment that the cooling aluminium ingot produced blocks the pipeline easily, influences the life of circulating water pump and pipeline, for this reason, we provide a cooling device for aluminium ingot processing to solve above-mentioned problem, and be convenient for marketing and application.

The existing cooling device for processing the aluminum ingot has the defects that water in a water tank is recycled, the water temperature is increased, the cooling effect on the aluminum ingot is poor, and the external dimension of the aluminum ingot has larger errors; the water in the water tank is recycled, and the water slag generated by cooling the aluminum ingot is easy to block the pipeline, so that the service lives of the circulating water pump and the pipeline are influenced; the high-temperature aluminum ingot generates a large amount of hot steam in the water cooling process, and the hot steam is diffused in a production line, so that potential safety hazards exist, and certain influence is generated on the aluminum ingot production line.

Therefore, it is necessary to provide a cooling device for processing aluminum ingots.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a cooling device for aluminum ingot processing, which aims to solve the problems that the existing cooling device for aluminum ingot processing has the defects of repeated utilization of water in a water tank, rising of water temperature, poor cooling effect on aluminum ingots and large error in the external dimension of the aluminum ingots; the water in the water tank is recycled, and the water slag generated by cooling the aluminum ingot is easy to block the pipeline, so that the service lives of the circulating water pump and the pipeline are influenced; the high-temperature aluminum ingot generates a large amount of hot steam in the water cooling process, and the hot steam is diffused in a production line, so that potential safety hazards exist, and certain influence is generated on the aluminum ingot production line. A cooling device for aluminum ingot processing comprises a box body assembly, a cooling assembly, a mist discharging assembly, an electric control cabinet and a water collecting assembly, wherein the electric control cabinet is fixed below one side of the box body assembly through bolts and is connected with commercial power through a wire; the cooling assembly is fixed at the middle position above the inner part of the box body assembly through a bolt; the fog discharging assembly is fixed in the middle position above the box body assembly through a bolt, and the lower end of the fog discharging assembly is positioned in the box body assembly; the water collecting assembly is fixed below the box body assembly through bolts.

The box body assembly comprises four box bodies, supporting legs, a conveying belt, a material guide plate and a water drain pipe, wherein the supporting legs are fixed at four corners below the box bodies through bolts; the conveying belt is fixed below the interior of the box body through bolts, is electrically connected with the electric control cabinet through a wire and is provided with a protective layer; the material guide plate is fixed on one side of the box body, which is far away from the electric control cabinet, through bolts, and the upper end of the material guide plate is aligned with the lower part of the tail end of the conveying belt; the drain pipe adopts a plurality ofly, and the drain pipe passes through the bolt fastening in the below of box, and this drain pipe is located between the supporting legs.

The cooling assembly comprises four fixing rods, a water delivery pipe, an atomizing nozzle and a water supply pipe, and the fixing rods are fixed above the interior of the box body through bolts; the water delivery pipe is fixed at the lower end of the fixed rod through a bolt; the atomization spray heads are fixed below the water delivery pipe through bolts and are positioned above the conveying belt; the water supply pipe is fixed in the middle above the water delivery pipe through a bolt, and the tail end of the water supply pipe is connected with a cooling water source.

The fog discharge assembly comprises a fog conveying pipe, an exhaust fan, a fog collecting cover and a recovery pipe, wherein the fog conveying pipe is fixed in the middle position above the box body through a bolt; the exhaust fan is fixed above the fog conveying pipe through a bolt, an air inlet of the exhaust fan is connected with the fog conveying pipe through a pipeline, and the exhaust fan is electrically connected with the electric control cabinet through a wire; the fog collecting covers are multiple and fixed below the fog conveying pipe through bolts, and the lower ends of the fog collecting covers penetrate into the box body; the upper end of the recovery pipe is connected with the air outlet of the exhaust fan through a bolt, and the lower end of the recovery pipe is connected with the box body through a bolt.

The water collecting assembly comprises a water collecting tank, a water collecting cover, a filter screen and a drain valve, the water collecting tank is fixed below the box body through bolts, and the water collecting tank is positioned between the supporting legs; the water collecting cover is fixed above the box body through bolts and is positioned below the drain pipe; the filter screen is fixed in the middle of the inside of the water collecting cover through bolts; and the drain valve is fixed below one side of the water collecting tank close to the electric control cabinet through a bolt.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a cooling module's setting, in the feed pipe carried the cooling water to the water delivery pipe, atomized water atomizes the cooling water through atomizer, and atomized water cools off the operation to the aluminium ingot of process on the conveyer belt, compares and adopts the basin formula cooling method, improves cooling module's cooling effect, avoids the overall dimension of aluminium ingot great error to appear.

2. The utility model discloses a setting of subassembly catchments, the waste water that the cooling produced passes through the drain pipe and carries the cover that catchments in, and the filter screen blocks the impurity in the waste water, avoids the impurity in the waste water to cause the pipeline to block up, improves the life of circulating water pump and pipeline, and is favorable to the cyclic utilization of cooling water.

3. The utility model discloses a setting of row fog subassembly, air exhauster circular telegram operation carry defeated fog pipe through the hot vapor that collection fog cover produced in with the cooling process, and hot vapor is in the condensation of recovery pipe, carries the comdenstion water in the box, is convenient for carry out the recycle of water resource.

4. The utility model discloses a box subassembly set up, adopt closed box to carry out the cooling operation of aluminium ingot, and the hot vapor of avoiding producing gets into the surrounding environment, improves the cleanliness factor of aluminium ingot production site environment, and is favorable to the cyclic utilization of cooling water.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the box assembly of the present invention.

Fig. 3 is a schematic structural diagram of the cooling module of the present invention.

Fig. 4 is a schematic structural diagram of the mist discharging assembly of the present invention.

Fig. 5 is a schematic structural view of the water collecting assembly of the present invention.

In the figure:

1-box body component, 101-box body, 102-supporting feet, 103-conveying belt, 104-guide plate, 105-water discharging pipe, 2-cooling component, 201-fixing rod, 202-water conveying pipe, 203-atomizing spray head, 204-water feeding pipe, 3-fog discharging component, 301-fog conveying pipe, 302-exhaust fan, 303-fog collecting cover, 304-recovery pipe, 4-electric control cabinet, 5-water collecting component, 501-water collecting tank, 502-water collecting cover, 503-filter screen and 504-water discharging valve.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 5

The utility model provides a cooling device for aluminum ingot processing, which comprises a box body component 1, a cooling component 2, a mist discharge component 3, an electric control cabinet 4 and a water collection component 5, wherein the electric control cabinet 4 is fixed below one side of the box body component 1 through bolts, and the electric control cabinet 4 is connected with commercial power through wires; the cooling assembly 2 is fixed at the middle position above the inner part of the box body assembly 1 through a bolt; the fog discharging assembly 3 is fixed in the middle position above the box body assembly 1 through a bolt, and the lower end of the fog discharging assembly 3 is positioned in the box body assembly 1; the water collecting assembly 5 is fixed below the box body assembly 1 through bolts.

The box body assembly 1 comprises a box body 101, supporting legs 102, a conveying belt 103, a material guide plate 104 and a water discharge pipe 105, the closed box body 101 is adopted for cooling aluminum ingots, generated hot steam is prevented from entering the surrounding environment, the cleanliness of the aluminum ingot production site environment is improved, and the cyclic utilization of cooling water is facilitated.

Cooling module 2 includes dead lever 201, raceway 202, atomizer 203 and feed pipe 204, and in feed pipe 204 carried raceway 202 with cooling water, atomized water atomizing through atomizer 203, atomized water cooled water carries out the cooling operation to the aluminium ingot of process on the conveyer belt 103, compares and adopts the basin formula cooling method, improves cooling module 2's cooling effect, avoids the overall dimension of aluminium ingot great error to appear.

The fog discharging assembly 3 comprises a fog conveying pipe 301, an exhaust fan 302, a fog collecting cover 303 and a recovery pipe 304, wherein the exhaust fan 302 is electrified to operate, hot steam generated in the cooling process is conveyed to the fog conveying pipe 301 through the fog collecting cover 303, the hot steam is condensed in the recovery pipe 304, and condensed water is conveyed to the box body 101, so that the water resource is conveniently recycled.

The subassembly 5 catchments includes header tank 501, catchments cover 502, filter screen 503 and drain valve 504, and the waste water that the cooling produced passes through drain pipe 105 and carries in catchmenting cover 502, and filter screen 503 blocks the impurity in the waste water, avoids the impurity in the waste water to cause the pipe blockage, improves the life of circulating water pump and pipeline, and is favorable to the cyclic utilization of cooling water.

Principle of operation

In the utility model, the electric control cabinet 4 is connected with the commercial power to supply power for the system, the water supply pipe 204 is used for conveying cooling water into the water conveying pipe 202, the cooling water is atomized by the atomizing spray head 203, the atomized cooling water cools the aluminum ingot passing through the conveying belt 103, compared with a water tank type cooling mode, the cooling effect of the cooling component 2 is improved, the larger error of the overall dimension of the aluminum ingot is avoided, the waste water generated by cooling is conveyed into the water collecting cover 502 through the water discharging pipe 105, the filter screen 503 is used for blocking the impurities in the waste water, the pipeline blockage caused by the impurities in the waste water is avoided, the service life of the circulating water pump and the pipeline is prolonged, the recycling of the cooling water is facilitated, the exhaust fan 302 is powered on to operate, the hot steam generated in the cooling process is conveyed into the fog conveying pipe 301 through the fog collecting cover 303, the hot steam is condensed in the recycling pipe 304, the condensed water is conveyed, the closed box 101 is adopted for cooling the aluminum ingot, so that the generated hot steam is prevented from entering the surrounding environment, the cleanliness of the aluminum ingot production site environment is improved, and the cyclic utilization of cooling water is facilitated.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims

1. The utility model provides a cooling device is used in processing of aluminium ingot which characterized in that: the device comprises a box body assembly (1), a cooling assembly (2), a mist discharging assembly (3), an electric control cabinet (4) and a water collecting assembly (5), wherein the electric control cabinet (4) is fixed below one side of the box body assembly (1) through a bolt, and the electric control cabinet (4) is connected with a mains supply through a wire; the cooling assembly (2) is fixed at the middle position above the inner part of the box body assembly (1) through a bolt; the fog discharging assembly (3) is fixed in the middle position above the box body assembly (1) through bolts, and the lower end of the fog discharging assembly (3) is positioned in the box body assembly (1); the water collecting assembly (5) is fixed below the box body assembly (1) through bolts.

2. The cooling device for aluminum ingot processing as set forth in claim 1, wherein: the box body assembly (1) comprises a box body (101), four supporting legs (102), a conveying belt (103), a material guide plate (104) and a water discharge pipe (105), wherein the number of the supporting legs (102) is four, and the supporting legs (102) are fixed at four corners below the box body (101) through bolts; the conveying belt (103) is fixed below the interior of the box body (101) through bolts, the conveying belt (103) is electrically connected with the electric control cabinet (4) through a lead, and the conveying belt (103) is provided with a protective layer; the material guide plate (104) is fixed on one side, far away from the electric control cabinet (4), of the box body (101) through bolts, and the upper end of the material guide plate (104) is aligned with the lower portion of the tail end of the conveying belt (103); the number of the drain pipes (105) is multiple, the drain pipes (105) are fixed below the box body (101) through bolts, and the drain pipes (105) are located between the supporting legs (102).

3. The cooling device for aluminum ingot processing as set forth in claim 1, wherein: the cooling assembly (2) comprises four fixing rods (201), a water conveying pipe (202), an atomizing spray head (203) and a water supply pipe (204), and the fixing rods (201) are fixed above the interior of the box body (101) through bolts; the water conveying pipe (202) is fixed at the lower end of the fixing rod (201) through a bolt; the number of the atomizing spray heads (203) is multiple, the atomizing spray heads (203) are fixed below the water conveying pipe (202) through bolts, and the atomizing spray heads (203) are positioned above the conveying belt (103); the water supply pipe (204) is fixed in the middle above the water pipe (202) through bolts, and the tail end of the water supply pipe (204) is connected with a cooling water source.

4. The cooling device for aluminum ingot processing as set forth in claim 1, wherein: the fog discharging assembly (3) comprises a fog conveying pipe (301), an exhaust fan (302), a fog collecting cover (303) and a recovery pipe (304), wherein the fog conveying pipe (301) is fixed in the middle position above the box body (101) through bolts; the exhaust fan (302) is fixed above the mist conveying pipe (301) through a bolt, an air inlet of the exhaust fan (302) is connected with the mist conveying pipe (301) through a pipeline, and the exhaust fan (302) is electrically connected with the electric control cabinet (4) through a wire; a plurality of mist collecting covers (303) are adopted, the mist collecting covers (303) are fixed below the mist conveying pipe (301) through bolts, and the lower ends of the mist collecting covers (303) penetrate into the box body (101); the upper end of the recovery pipe (304) is connected with the air outlet of the exhaust fan (302) through a bolt, and the lower end of the recovery pipe (304) is connected with the box body (101) through a bolt.

5. The cooling device for aluminum ingot processing as set forth in claim 1, wherein: the water collecting assembly (5) comprises a water collecting tank (501), a water collecting cover (502), a filter screen (503) and a drain valve (504), the water collecting tank (501) is fixed below the box body (101) through bolts, and the water collecting tank (501) is located between the supporting legs (102); the water collecting cover (502) is fixed above the box body (101) through bolts, and the water collecting cover (502) is positioned below the drain pipe (105); the filter screen (503) is fixed at the middle position inside the water collecting cover (502) through bolts; the drain valve (504) is fixed below one side of the water collecting tank (501) close to the electric control cabinet (4) through bolts.