CN219188563U - Mould cooling mechanism for alloy zinc ingot production - Google Patents

Abstract

The utility model relates to a die cooling mechanism for producing alloy zinc ingots, which comprises a bottom plate, wherein a die is fixedly arranged at the top of the bottom plate, the top of the bottom plate is provided with the die cooling mechanism for producing alloy zinc ingots, and the die cooling mechanism for producing alloy zinc ingots comprises a water tank arranged in the side wall of the die. This mould cooling mechanism that alloy zinc ingot production was used, through filling coolant liquid from the inside of water inlet funnel toward copper return bend and basin, afterwards the water pump operation by a pipe and with the inside coolant liquid of basin follow pipe from the inside of copper return bend, the refrigerator operation produced the inside coolant liquid of air conditioning transmission feed tank this moment, and then the inside low temperature coolant liquid of water tank just cools down the inside coolant liquid of copper return bend, afterwards the water pump operation is carried the inside of basin with the coolant liquid after the cooling and is cooled down to zinc melt, thereby the effect that cooling performance is good has been reached to the repeated dual cooling circulation.

Description

Mould cooling mechanism for alloy zinc ingot production

Technical Field

The utility model relates to the technical field of alloy zinc ingot production dies, in particular to a die cooling mechanism for alloy zinc ingot production.

Background

The zinc ingot is mainly a die casting, is used in the industries of automobiles, light industry and the like, has excellent medium-pressure performance, can be deep drawn, has self-lubricating property, prolongs the service life of a die, can be welded by brazing or resistance welding or arc welding, and has excellent superplasticity performance under certain conditions and good electromagnetic field resistance performance.

The utility model provides a ' mould cooling device for zinc ingot production ' provided by Chinese patent publication No. CN212704270U, which solves the problems that in the casting process of the traditional linear ingot casting unit, a fan cooling mode is usually adopted for a forming mould, and only the surface of a zinc ingot is cooled, but the cooling effect is not ideal ', wherein the utility model provides the following technical scheme that the mould cooling device comprises a base, a conveying device, a mounting device and a cooling device; the driving motor is started to drive the driving wheel to rotate so as to drive the conveying belt and the driven wheel to rotate … …, and the product quality is improved; the sprayed water falls into the water tank through the water outlet hole and the hollow conveying belt, can be recycled, and aims at the problem in the technical scheme, and the technical scheme provides another embodiment to solve the problem of non-ideal cooling effect.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a die cooling mechanism for alloy zinc ingot production, which has the advantages of good cooling effect and the like, and solves the problems that in the casting process of the conventional linear ingot casting unit, a fan cooling mode is usually adopted for a forming die, only the surface of a zinc ingot is cooled, but the cooling effect is not ideal.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the die cooling mechanism for producing the alloy zinc ingot comprises a bottom plate, wherein a die is fixedly arranged at the top of the bottom plate, and the die cooling mechanism for producing the alloy zinc ingot is arranged at the top of the bottom plate.

The die cooling mechanism for producing the alloy zinc ingot comprises a water tank which is arranged in the side wall of the die, a refrigerator which is arranged on the left side of the die is fixedly arranged at the top of the die, a water tank is fixedly arranged at the top of the refrigerator, a supporting plate which is arranged on the back of the refrigerator is fixedly arranged at the top of the bottom plate, a guide pipe which penetrates through the outside of the bottom plate is fixedly arranged on the left side of the water tank, a first pipe is fixedly arranged on the left side of the guide pipe, a fixing sleeve is fixedly arranged on the outer part of the first pipe, a water inlet funnel which penetrates through the fixing sleeve is fixedly arranged at the top of the fixing sleeve, a copper bent pipe which penetrates through the inside of the water tank is fixedly arranged at the bottom of the fixing sleeve, a second pipe which penetrates through the right side of the water tank is fixedly arranged at the end of the copper bent pipe, a water pump is fixedly arranged at the top of the bottom plate, and a third pipe is fixedly arranged at the water outlet end of the water pump.

Further, the top area of bottom plate is greater than the bottom area of mould, the inside of basin and refrigerator is all filled with the coolant liquid, the height of water tank is less than the height of refrigerator.

Further, the height of backup pad is greater than the height of refrigerator, two the pipe includes left pipe and right pipe, pipe fixed mounting is in the left side of left pipe, no. three pipe fixed mounting is in the right side of right pipe.

Further, fixed cover fixed mounting is in the bottom of backup pad, first pipe and backup pad pass through fixed cover fixed connection, the funnel of intaking is located the left side of backup pad.

Further, the height of the copper bent pipe is smaller than that of the water tank, the second pipe is positioned on the right side of the refrigerator, and the second pipe is fixedly arranged at a water suction port of the water pump.

Further, the water pump is located between the die and the refrigerator, the third pipe is located on the right side of the second pipe, and the third pipe is located on the back of the die.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

this mould cooling mechanism that alloy zinc ingot production was used, through filling coolant liquid from the inside of water inlet funnel toward copper return bend and basin, afterwards the water pump operation by a pipe and with the inside coolant liquid of basin follow pipe from the inside of copper return bend, the refrigerator operation produced the inside coolant liquid of air conditioning transmission feed tank this moment, and then the inside low temperature coolant liquid of water tank just cools down the inside coolant liquid of copper return bend, afterwards the water pump operation is carried the inside of basin with the coolant liquid after the cooling and is cooled down to zinc melt, thereby the effect that cooling performance is good has been reached to the repeated dual cooling circulation.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front view of the structure of the present utility model;

in the figure: 1. a bottom plate; 2. a mold; 3. a water tank; 4. a refrigerating machine; 5. a water tank; 6. a support plate; 7. a conduit; 8. a first pipe; 9. a fixed sleeve; 10. a water inlet funnel; 11. copper bent pipe; 12. a second pipe; 13. a water pump; 14. and a third pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, a mold cooling mechanism for producing alloy zinc ingots in this embodiment includes a bottom plate 1, a mold 2 is fixedly installed at the top of the bottom plate 1, the top area of the bottom plate 1 is larger than the bottom area of the mold 2, and the top of the bottom plate 1 is provided with the mold cooling mechanism for producing alloy zinc ingots.

The utility model provides a mould cooling mechanism that alloy zinc ingot production was used, including seting up in the inside basin 3 of mould 2 lateral wall, the top fixed mounting of mould 2 has the refrigerator 4 that is located mould 2 left side, the inside of basin 3 and refrigerator 4 is all filled with the coolant liquid, the top fixed mounting water tank 5 of refrigerator 4, the height of water tank 5 is less than the height of refrigerator 4, the top fixed mounting of bottom plate 1 has the backup pad 6 that is located the refrigerator 4 back, the height of backup pad 6 is greater than the height of refrigerator 4, the equal fixed mounting in left side both sides of basin 3 has the pipe 7 that runs through to the outside of bottom plate 1, the left side fixed mounting of pipe 7 has a pipe 8, the outside fixed mounting of pipe 8 has fixed sleeve 9, fixed sleeve 9 fixed mounting is in the bottom of backup pad 6, pipe 8 and backup pad 6 pass through fixed sleeve 9 fixed connection, the purpose is fixed at the top of water tank 5 with pipe 8 restriction, the top fixed mounting of fixed sleeve 9 runs through the water inlet funnel 10 to its inside, water inlet funnel 10 is located the left side of backup pad 6, be convenient for fill the pipe 10 to the height of cooling liquid, the bottom fixed sleeve 9 is fixed mounting has a pipe 8 to the copper pipe 11 to the inside of water tank 11 again, the copper cooling device is cooled down to the inside the water tank 11, the high cooling device is cooled down to the inside the copper pipe 11 is cooled down to the inside the water tank 5 to the inside the pipe 11.

The end fixed mounting of copper return bend 11 has the second pipe 12 that runs through to the right side of water tank 5, be convenient for with the inside of copper return bend 11 inside coolant liquid guide water pump 13, second pipe 12 is located the right side of refrigerator 4, the top fixed mounting of bottom plate 1 has water pump 13, second pipe 12 fixed mounting is in the water sucking mouth of water pump 13, the purpose makes water pump 13 operation take the inside coolant liquid of basin 3 to copper return bend 11 to cool down, water pump 13 is located between mould 2 and refrigerator 4, the play water fixed mounting of water pump 13 has No. three pipe 14, two pipes 7 include left pipe and right pipe, no. 8 fixed mounting is in the left side of left pipe, no. three pipe 14 fixed mounting is in the right side of right pipe, the purpose makes water pump 13 operation follow the inside of water guiding tank 3 again with the coolant liquid after cooling, no. 14 is located the right side of No. 12, no. 14 is located the back of mould 2.

The working principle of the embodiment is as follows:

when the cooling device is used, firstly, cooling liquid is filled into the copper bent pipe 11 from the water inlet funnel 10, at the moment, the water pump 13 operates to circulate the cooling liquid into the water tank 3, then zinc slurry can be poured into the bottom of the inner cavity of the water tank 3, when the cooling liquid in the water tank 3 is heated, the water pump 13 operates to pass through the first pipe 8 and suck the cooling liquid in the water tank 3 into the copper bent pipe 11 from the guide pipe 7, at the moment, the refrigerator 4 operates to generate cooling liquid in the cold air transmission water tank 5, and because the copper bent pipe 11 is positioned in the water tank 5, the cooling liquid in the copper bent pipe 11 is cooled by the low-temperature cooling liquid in the water tank 5, and then the water pump 13 operates to convey the cooled cooling liquid into the water tank 3 through the third pipe 14 arranged at the water outlet end of the cooling liquid to cool the zinc slurry.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

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

Claims (6)

1. The utility model provides a mould cooling mechanism for alloy zinc ingot production, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is fixedly provided with a die (2), and the top of the bottom plate (1) is provided with a die cooling mechanism for producing alloy zinc ingots;

the utility model provides a mould cooling mechanism that alloy zinc ingot production was used, including opening in inside basin (3) of mould (2) lateral wall, the top fixed mounting of mould (2) has refrigerator (4) that are located mould (2) left side, the top fixed mounting water tank (5) of refrigerator (4), the top fixed mounting of bottom plate (1) has backup pad (6) that are located refrigerator (4) back, the equal fixed mounting in left side both sides of basin (3) has pipe (7) that run through to bottom plate (1) outside, the left side fixed mounting of pipe (7) has pipe No. one (8), the outside fixed mounting of pipe No. one (8) has fixed cover (9), the top fixed mounting of fixed cover (9) runs through inlet funnel (10) to its inside, the bottom fixed mounting of fixed cover (9) has copper return bend (11) that run through to the inside of water tank (5), the dead end fixed mounting of copper (11) has pipe No. two (12) that run through to the water tank (5) right side, the top of bottom plate (1) has pipe No. 1) outside, the outside fixed mounting of pipe No. 13 has water pump No. 13.

2. The mold cooling mechanism for producing alloy zinc ingots according to claim 1, wherein: the top area of the bottom plate (1) is larger than the bottom area of the die (2), cooling liquid is filled in the water tank (3) and the refrigerator (4), and the height of the water tank (5) is smaller than that of the refrigerator (4).

3. The mold cooling mechanism for producing alloy zinc ingots according to claim 1, wherein: the height of backup pad (6) is greater than the height of refrigerator (4), two pipe (7) are including left pipe and right pipe, pipe (8) fixed mounting is in the left side of left pipe, pipe (14) fixed mounting is in the right side of right pipe.

4. The mold cooling mechanism for producing alloy zinc ingots according to claim 1, wherein: the fixed sleeve (9) is fixedly arranged at the bottom of the supporting plate (6), the first pipe (8) is fixedly connected with the supporting plate (6) through the fixed sleeve (9), and the water inlet funnel (10) is positioned at the left side of the supporting plate (6).

5. The mold cooling mechanism for producing alloy zinc ingots according to claim 1, wherein: the height of the copper bent pipe (11) is smaller than that of the water tank (5), the second pipe (12) is positioned on the right side of the refrigerator (4), and the second pipe (12) is fixedly arranged at a water suction port of the water pump (13).

6. The mold cooling mechanism for producing alloy zinc ingots according to claim 1, wherein: the water pump (13) is located between the die (2) and the refrigerator (4), the third pipe (14) is located on the right side of the second pipe (12), and the third pipe (14) is located on the back of the die (2).

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