CN220781826U - Nonferrous metal cooling device - Google Patents

Abstract

The utility model discloses a nonferrous metal cooling device, and relates to the technical field of calendaring cooling. The cooling device is characterized in that a water storage device is arranged above the cooling device main body, a water inlet is formed in the water storage device, a spraying device is communicated with the lower side of the water storage device, a pneumatic device is fixedly arranged on one side of the spraying device, the pneumatic device comprises an air inlet mechanism and an air outlet mechanism, a supporting mechanism is fixedly arranged below the spraying device, the upper side of the supporting mechanism is used for supporting nonferrous metal to be cooled, a through hole is formed in the supporting mechanism in a penetrating mode, an arc-shaped plate located below the other side of the spraying device is arranged on the supporting mechanism, a liquid collecting mechanism is arranged on the lower side of the supporting mechanism, a filtering mechanism is communicated with the lower side of the liquid collecting mechanism, a liquid pump device is fixedly arranged on the other side of the spraying device, a circulating pipe is arranged on the liquid pump device, one end of the circulating pipe is communicated with a circulating pool, and the other end of the circulating pipe is communicated with the water storage device. The utility model realizes the efficient and accurate cooling treatment of the rolled nonferrous metal plate, and has good practical value and wide application prospect.

Description

Nonferrous metal cooling device

Technical Field

The utility model relates to the technical field of calendaring cooling, in particular to a nonferrous metal cooling device.

Background

Cooling is an important element in the metal working process, in particular in the calendering manufacturing process. The cooling can effectively reduce the temperature of the metal material, reduce the thermal stress of the material, and improve the plasticity and toughness of the material, thereby improving the quality and performance of the product.

In the nonferrous metal rolling manufacturing process, the cooling is usually carried out by adopting a water cooling or air cooling mode. Water cooling is the introduction of cooling water into the calendaring apparatus, taking advantage of the thermal conductivity and cooling effect of the water to reduce the temperature of the material. Air cooling is the introduction of cooling air into the calendaring apparatus, which uses the convection and thermal conductivity of the air to reduce the temperature of the material.

At present, the cooling tower for nonferrous metal smelting generally has the cooling water recovery function, but in the cooling water recovery process, the filtering purification effect of cooling water is general, so that impurities still exist in the recovered cooling water, the quality of the metal piece can be influenced when the metal piece is cooled, meanwhile, heat can be carried by the cooling water after the metal piece is cooled, the cooling effect of the cooling tower can be reduced if the cooling water is directly recovered, meanwhile, larger hot air circulation can be formed in the cooling tower, adverse factors of high humidity and high pressure are generated, the rolling quality of the metal piece is influenced, and therefore, further improvement is needed.

Disclosure of Invention

The utility model discloses a nonferrous metal cooling device which is used for solving the problems of uneven heat dissipation and high humidity in the existing cooling device.

The utility model provides the following solutions:

a nonferrous metal cooling device is used for realizing cooling to the nonferrous metal plate after calendering, cooling device main part top is equipped with water storage device, water storage device is equipped with the water inlet, the water inlet is used for supplementing water storage device's water level, water storage device downside intercommunication has spray set, be used for forming the spray space in spray set below, spray set one side fixed mounting has pneumatic device, pneumatic device is including the air inlet mechanism that is located spray set one side and the air-out mechanism that is located spray set opposite side top, spray set below still fixed mounting has supporting mechanism, the supporting mechanism upside is used for supporting the nonferrous metal that needs to cool down, supporting mechanism runs through and is equipped with the through-hole, supporting mechanism is equipped with the arc that is located spray set opposite side below, the both sides in spray space correspond air inlet mechanism and arc respectively, the supporting mechanism downside is equipped with liquid collecting mechanism, liquid collecting mechanism is the bucket-type structure, liquid collecting mechanism downside intercommunication has filtering mechanism, the filter mechanism outside is equipped with and is used for holding the pure water circulation tank of filtering, spray set opposite side fixed mounting has the liquid pump device, circulating conduit one end intercommunication circulating tank, the other end intercommunication device.

In the utility model, in the process of cooling the rolled nonferrous metal plate, the water in the water storage device is supplemented through the water inlet, the spraying operation of containing the water in the water storage device is realized through the spraying device, the spraying and heat dissipation of the metal plate above the supporting mechanism are realized, meanwhile, the air heat dissipation of the metal plate is realized through the air inlet mechanism arranged at one side of the spraying device, the superposition of the water cooling effect and the air cooling effect is realized, the water vapor and the hot air in the device are effectively reduced, and the air with higher temperature is promoted to be discharged upwards; on the basis, the utility model further increases the air outlet mechanism above the other side of the spraying device, which is used for effectively discharging the hot air or the water vapor above and accelerating the internal air circulation effect; meanwhile, a liquid collecting mechanism is also arranged for recycling, the liquid is filtered into a circulating pool by a filtering mechanism and recycled into a water storage device by a liquid pump device, so that the utilization effect of water resources is improved; the filtering mechanism can be arranged into a replaceable structure, and the effective recycling of water resources is ensured through the modularized design of the device.

Preferably, a first slope is arranged above one side, close to the liquid pump device, of the liquid collecting mechanism, and the top end of the first slope is fixedly connected with the bottom of the supporting mechanism.

When cooling water descends to the liquid collecting mechanism through the through hole, the risk of liquid overflowing and pollution possibly occurs on one side close to the liquid pump device, and therefore the liquid pump device is effectively protected through the first slope which is respectively fixedly connected with the supporting mechanism and the liquid collecting mechanism to realize a closed design so as to isolate the overflowing risk of liquid.

Preferably, the filtering mechanism comprises:

a first channel: the cooling water collecting device is communicated below the liquid collecting mechanism and is used for collecting cooling water falling from the liquid collecting mechanism;

a second channel: is communicated below the first channel;

sector plate: the inclined surfaces are arranged in the first channel in a staggered manner;

a filter element body: the device is arranged at the bottom of the second channel and is used for filtering pure water from the inside of the second channel to the outside of the second channel;

and a second support column: the annular support is arranged at the bottom outside the second channel and used for forming a filtered water outflow space.

In the cooling water, various impurities are easy to carry, so that the utility model can effectively settle the particles in the part by arranging the inclined staggered sector plates in the first channel, and reduce the filtering load of the filter core below.

Preferably, 4 staggered inclined sector plates are built into the first channel.

Preferably, the inner wall of the first channel and the bottom of the inner wall of the liquid collecting mechanism are in smooth transition or are arranged equivalently.

Preferably, the first channel inner diameter is smaller than the liquid collecting mechanism inner diameter.

Preferably, the liquid collecting mechanism includes:

a first slope: having a first inclination angle;

a second slope: the first slope is fixedly connected with the bottom of the first slope and is provided with a second inclination angle, and the first inclination angle is larger than the second inclination angle;

circulation groove: a circulating groove is formed in one side, close to the liquid pump device, of the liquid collecting mechanism and is used for accommodating the installation space of the liquid pump device or the circulating guide pipe;

annular support column: the outside junction of first slope and second slope is equipped with annular support column, and annular support column bottom is equipped with first support column, realizes the fixed mounting of liquid collecting mechanism and cooling device inner wall through first support column.

Preferably, the outer heat dissipation device comprises a heat dissipation conduit connected with the cooling device in a heat conduction way and a heat dissipation part positioned at the bottom of the heat dissipation conduit, and the heat dissipation part is provided with a spiral structure.

Preferably, the circulating water tank is provided with a refrigerating device for reducing the water temperature of the circulating water tank.

Preferably, the top of the arc-shaped plate is higher than the spraying surface of the spraying device, the height of the arc-shaped plate is greater than the air inlet mechanism, and the height of the air inlet mechanism is smaller than the spraying surface of the spraying device.

The technical scheme of the utility model has the following beneficial effects:

the utility model provides a cooling device combining air cooling and water spraying, which realizes double-layer cooling effect in a spraying space by flowing cooling water at the upper side of a blowing and spraying mechanism at one side of an air inlet mechanism, and discharges hot air in the spraying space by a blowing mechanism, thereby increasing the air cooling circulation effect in the cooling device, realizing efficient and accurate cooling treatment on the rolled nonferrous metal plates, improving the production efficiency, reducing the energy consumption and having good practical value and wide application prospect.

Drawings

FIG. 1 is a schematic structural view of a nonferrous metal cooling device of the present utility model.

Fig. 2 is a schematic structural view of a filtering mechanism of a nonferrous metal cooling device of the present utility model.

FIG. 3 is a schematic diagram of a liquid collecting mechanism of a nonferrous metal cooling device.

Fig. 4 is a schematic structural view of a liquid collecting mechanism of a nonferrous metal cooling device of the present utility model.

Fig. 5 is a schematic structural diagram of an external heat dissipation mechanism of a nonferrous metal cooling device of the present utility model.

In the figure, 100, a water storage device; 110. a water inlet; 200. a spraying device; 300. a pneumatic device; 310. an air inlet mechanism; 320. an air outlet mechanism; 410. a support mechanism; 411. a through hole; 412. an arc-shaped plate; 420. a liquid collecting mechanism; 421. a first ramp; 422. a second ramp; 423. a circulation tank; 424. an annular support column; 425. a first support column; 430. a filtering mechanism; 431. a first channel; 432. a second channel; 433. a sector plate; 434. a filter element body; 435. a second support column; 500. a liquid pump device; 600. an external heat sink.

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.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; the mechanical connection can be welding, riveting, threaded connection or flange connection, etc.; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

The utility model is described in detail below with reference to the attached drawing,

as shown in fig. 1, a non-ferrous metal cooling device is used for cooling a rolled non-ferrous metal plate, a water storage device 100 is arranged above a cooling device main body, a water inlet 110 is arranged in the water storage device 100, the water inlet 110 is used for supplementing the water level of the water storage device 100, a spraying device 200 is communicated with the lower side of the water storage device 100 and is used for forming a spraying space below the spraying device 200, a pneumatic device 300 is fixedly arranged on one side of the spraying device 200, the pneumatic device 300 comprises an air inlet mechanism 310 positioned on one side of the spraying device 200 and an air outlet mechanism 320 positioned above the other side of the spraying device 200, a supporting mechanism 410 is fixedly arranged below the spraying device 200, the upper side of the supporting mechanism 410 is used for supporting the non-ferrous metal plate to be cooled, a through hole 411 is arranged in the supporting mechanism 410 in a penetrating mode, an arc 412 positioned below the other side of the spraying device 200 is arranged, two sides of the spraying space correspond to the air inlet mechanism 310 and the arc 412 respectively, a liquid collecting mechanism 420 is arranged on the lower side of the supporting mechanism 410, the liquid collecting mechanism 420 is of a bucket structure, the lower side of the liquid collecting mechanism 420 is communicated with a filtering mechanism 430, a circulating pool for containing filtered pure water is arranged on the outer side of the filtering mechanism 430, a circulating pool is fixedly arranged on the other side of the spraying device 200, a circulating device 500 is fixedly arranged on the other side of the circulating device 500, and is communicated with one end of the circulating device 100.

In the utility model, in the process of cooling the rolled nonferrous metal plate, the water in the water storage device 100 is supplemented through the water inlet 110, the water storage device 100 is sprayed through the spraying device 200 to realize the spraying and heat dissipation of the metal plate above the supporting mechanism 410, and meanwhile, the air inlet mechanism 310 arranged on one side of the spraying device 200 is used for realizing the air heat dissipation of the metal plate and the superposition of the water cooling and air cooling effects, on the basis, the utility model further increases the air outlet mechanism 320 above the other side of the spraying device 200, which is used for realizing the effective discharge of the hot air or the water vapor above and accelerating the internal air circulation effect; meanwhile, the liquid collecting mechanism 420 is also arranged for recycling, the liquid is filtered into the circulating pool by the filtering mechanism 430 and recycled into the water storage device 100 through the liquid pump device 500, so that the utilization effect of water resources is improved; wherein the filter mechanism 430 may be provided in an alternative configuration, flexibility is enhanced by the modular design of the device.

In an alternative embodiment, as shown in fig. 1, a first slope 421 is disposed above a side of the liquid collecting mechanism 420 near the liquid pump device 500, and a top end of the first slope 421 is fixedly connected to a bottom of the supporting mechanism 410.

When the cooling water descends to the liquid collecting mechanism 420 through the through hole 411, the risk of overflowing and pollution of the liquid may occur on the side close to the liquid pump device 500, and therefore, the supporting mechanism 410 and the liquid collecting mechanism 420 are respectively and fixedly connected through the first slope 421, a closed design is realized, so that the overflowing risk of the liquid is isolated, and the liquid pump device 500 is effectively protected.

As shown in fig. 2, in an alternative embodiment, the filtering mechanism 430 includes:

first channel 431: is communicated with the lower part of the liquid collecting mechanism 420 and is used for collecting cooling water falling from the liquid collecting mechanism 420;

second channel 432: is communicated below the first channel 431;

sector plate 433: inclined surfaces are arranged in the first channel 431 in a staggered manner;

the filter element body 434: the filter is arranged at the bottom of the second channel 432 and is used for filtering pure water from the inside of the second channel 432 to the outside of the second channel 432;

second support column 435: the ring-shaped support is supported at the bottom of the outer side of the second passage 432 for forming a filtered water outflow space.

Since various impurities are easily carried in the cooling water, the present utility model reduces the filtration load of the lower filter element 434 by providing the inclined and staggered sector plates 433 inside the first duct 431 to effectively settle out the particles in the portion.

In an alternative embodiment, 4 staggered inclined sector plates 433 are disposed in first channel 431.

In an alternative embodiment, the inner wall of the first channel 431 is smoothly transitioned or disposed at the same level as the bottom of the inner wall of the liquid collection mechanism 420.

In an alternative embodiment, the first channel 431 has an inner diameter that is smaller than the inner diameter of the liquid collection mechanism 420.

As shown in fig. 3 and 4, in an alternative embodiment, the liquid collection mechanism 420 includes:

first ramp 421: having a first inclination angle;

second ramp 422: fixedly connected with the bottom of the first slope 421 and provided with a second inclination angle, wherein the first inclination angle is larger than the second inclination angle;

circulation tank 423: a circulation groove 423 is arranged on one side of the liquid collecting mechanism 420, which is close to the liquid pump device 500, and is used for accommodating the installation space of the liquid pump device 500 or a circulation conduit; a first slope 421 is arranged on one side of the circulating groove 423;

annular support column 424: the outside junction of first slope 421 and second slope 422 is equipped with annular support column 424, and annular support column 424 bottom is equipped with first support column 425, realizes the fixed mounting of liquid collecting mechanism 420 and cooling device inner wall through first support column 425.

In an alternative embodiment, as shown in fig. 5, the external heat sink 600 includes a heat sink conduit in thermal conductive connection with the cooling device and a heat sink portion at the bottom of the heat sink conduit, the heat sink portion being provided with a spiral structure.

In an alternative embodiment, the circulating water reservoir is provided with a refrigerating means for reducing the water temperature of the circulating water reservoir.

In an alternative embodiment, the top of arcuate plate 412 is higher than the spray face of spray device 200, and the height of arcuate plate 412 is greater than air intake mechanism 310, and the height of air intake mechanism 310 is less than the spray face of spray device 200.

The utility model provides a cooling device combining air cooling and water spraying, which realizes double-layer cooling effect in a spraying space by flowing cooling water at the upper side of a blowing and spraying mechanism at one side of an air inlet mechanism, and discharges hot air in the spraying space by a blowing mechanism, thereby increasing the air cooling circulation effect in the cooling device, realizing efficient and accurate cooling treatment on the rolled nonferrous metal plates, improving the production efficiency, reducing the energy consumption and having good practical value and wide application prospect.

While the present utility model has been described in considerable detail and with particularity with respect to several described embodiments, it is not intended to be limited to any such detail or embodiments or any particular embodiment, but is to be construed as providing broad interpretation of such claims by reference to the appended claims in view of the prior art so as to effectively encompass the intended scope of the utility model. Furthermore, the foregoing description of the utility model has been presented in its embodiments contemplated by the inventors for the purpose of providing a useful description, and for the purposes of providing a non-essential modification of the utility model that may not be presently contemplated, may represent an equivalent modification of the utility model.

The present utility model is not limited to the above embodiments, but is merely preferred embodiments of the present utility model, and the present utility model should be construed as being limited to the above embodiments as long as the technical effects of the present utility model are achieved by the same means. Various modifications and variations are possible in the technical solution and/or in the embodiments within the scope of the utility model.

Claims (10)

1. A nonferrous metal cooling device is used for cooling a rolled nonferrous metal plate and is characterized in that a water storage device (100) is arranged above a cooling device main body, a water inlet (110) is arranged on the water storage device (100), the water inlet (110) is used for supplementing the water level of the water storage device (100), a spraying device (200) is communicated with the lower side of the water storage device (100) and used for forming a spraying space below the spraying device (200), a pneumatic device (300) is fixedly arranged on one side of the spraying device (200), the pneumatic device (300) comprises an air inlet mechanism (310) positioned on one side of the spraying device (200) and an air outlet mechanism (320) positioned above the other side of the spraying device (200), a supporting mechanism (410) is fixedly arranged below the spraying device (200), the upper side of the supporting mechanism (410) is used for supporting the nonferrous metal to be cooled, a through hole (411) is arranged in a penetrating mode, two sides of the supporting mechanism (410) are respectively corresponding to the air inlet mechanism (310) and the arc (412) below the spraying device (200), the supporting mechanism (410) is provided with a liquid collecting mechanism (420), the lower side of the liquid collecting mechanism (420) is a filtering mechanism (430), the outside of the filtering mechanism (430) is provided with a circulating pool for containing filtered pure water, the other side of the spraying device (200) is fixedly provided with a liquid pump device (500), the liquid pump device (500) is provided with a circulating conduit, one end of the circulating conduit is communicated with the circulating pool, and the other end of the circulating conduit is communicated with the water storage device (100).

2. The non-ferrous metal cooling device of claim 1, wherein a first slope (421) is provided above a side of the liquid collecting mechanism (420) near the liquid pump device (500), and a top end of the first slope (421) is fixedly connected to a bottom of the supporting mechanism (410).

3. The non-ferrous metal cooling apparatus of claim 1 wherein the filtering mechanism (430) includes:

first channel (431): is communicated with the lower part of the liquid collecting mechanism (420) and is used for collecting cooling water falling from the liquid collecting mechanism (420);

a second channel (432): is communicated below the first channel (431);

sector plate (433): the inclined surfaces are arranged in the first channel (431) in a staggered manner;

filter cartridge body (434): the device is arranged at the bottom of the second channel (432) and is used for filtering pure water from the inside of the second channel (432) to the outside of the second channel (432);

second support column (435): the ring-shaped support is arranged at the bottom outside the second channel (432) and is used for forming a filtered water outflow space.

4. A non-ferrous metal cooling apparatus according to claim 3 wherein 4 staggered inclined sector plates (433) are disposed in the first channel (431).

5. A non-ferrous metal cooling apparatus according to claim 3 wherein the inner wall of the first channel (431) is smoothly transitioned or disposed at the same level as the bottom of the inner wall of the liquid collecting means (420).

6. A non-ferrous metal cooling apparatus according to claim 3 wherein the first passage (431) has an inner diameter less than the inner diameter of the liquid collecting means (420).

7. A non-ferrous metal cooling device according to claim 1, wherein the liquid collecting mechanism (420) comprises:

first ramp (421): having a first inclination angle;

second ramp (422): the first inclined angle is fixedly connected with the bottom of the first inclined slope (421), and is larger than the second inclined angle;

circulation tank (423): a circulating groove (423) is arranged on one side of the liquid collecting mechanism (420) close to the liquid pump device (500) and is used for accommodating the installation space of the liquid pump device (500) or the circulating conduit;

annular support column (424): an annular supporting column (424) is arranged at the joint of the outer sides of the first slope (421) and the second slope (422), a first supporting column (425) is arranged at the bottom of the annular supporting column (424), and the fixed installation of the liquid collecting mechanism (420) and the inner wall of the cooling device is realized through the first supporting column (425).

8. A non-ferrous metal cooling device according to claim 1, wherein the outer heat sink (600) comprises a heat sink conduit in heat conductive connection with the cooling device and a heat sink portion at the bottom of the heat sink conduit, the heat sink portion being provided with a spiral structure.

9. A non-ferrous metal cooling apparatus as claimed in claim 1 wherein the circulating water reservoir is provided with refrigeration means for reducing the water temperature of the circulating water reservoir.

10. The non-ferrous metal cooling device of claim 1, wherein the top of the arcuate plate (412) is higher than the spray face of the spray device (200), the arcuate plate (412) is higher than the air intake mechanism (310), and the air intake mechanism (310) is lower than the spray face of the spray device (200).