CN113532003A

CN113532003A - Water cooling equipment for copper alloy cleaning production

Info

Publication number: CN113532003A
Application number: CN202110829707.3A
Authority: CN
Inventors: 郑浩源
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2021-10-22

Abstract

The invention discloses water cooling equipment for copper alloy cleaning production, which structurally comprises a water pump, a water main pipe, a sewer pipe, a lower spray head, a left roller, an upper spray head, an upper water pipe, a water cooling tank, a right roller, a support, a water outlet pipe, a water storage tank and a support plate, wherein the left side and the right side of the water cooling tank are connected with the top of the support, the support plate is welded at the bottom of the support, the water storage tank and the water pump are arranged on the support plate, the bottom of the water cooling tank is communicated with the water storage tank through the water outlet pipe, the left roller and the right roller are respectively arranged at the two sides in the water cooling tank, the upper water pipe and the sewer pipe are respectively arranged at the upper surface and the lower surface of the water cooling tank, the upper spray head which is uniformly distributed is arranged at the bottom of the upper water pipe, cold water or cold air can actively pass through a channel through magnetic force to be cooled, the water cooling can be continuously cooled along with the rotation of a wheel body, so that the temperature of the wheel body is prevented from being overheated, and the left roller and the right roller can be continuously cooled, the cooling effect of the copper alloy plate is prevented from being influenced.

Description

Water cooling equipment for copper alloy cleaning production

Technical Field

The invention relates to the technical field of water cooling equipment, in particular to water cooling equipment for clean production of copper alloy.

Background

Copper alloy is a non-ferrous metal structural material which is most widely applied in industry, the rapid development of industrial economy has increased the demand on copper alloy products, and water is required to cool cast aluminum workpieces in the manufacturing and production process of the copper alloy at present.

When existing copper alloy is cooled by water, the two sides of the existing copper alloy are generally moved in a roller transmission mode, but the rollers rotate for a long time and rub against a copper alloy plate, so that the rollers easily generate heat, the water cooling effect of the two sides of the copper alloy is affected, and the water cooling efficiency is reduced.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide water cooling equipment for clean production of copper alloy.

The invention is realized by adopting the following technical scheme: a water cooling device for copper alloy cleaning production structurally comprises a water pump, a water main, a sewer pipe, a lower spray head, a left roller, an upper spray head, a water feeding pipe, a water cooling tank, a right roller, a support, a water outlet pipe, a water storage tank and a support plate, wherein the left side and the right side of the water cooling tank are connected with the top of the support, the support plate is welded at the bottom of the support, the water storage tank and the water pump are arranged on the support plate, the bottom of the water cooling tank is communicated with the water storage tank through the water outlet pipe, the left roller and the right roller are respectively arranged on the two sides inside the water cooling tank, the upper water pipe and the lower water pipe are respectively arranged on the upper side and the lower side of the water cooling tank, the upper spray head and the lower spray head are uniformly distributed at the bottom of the water feeding pipe, the water feeding pipe and the lower water pipe are respectively communicated with the water main, the water main is connected with the water pump, and the left end of the opposite straight line of the left roller and the right roller inclines upwards, the left roller and the right roller are consistent in structure.

Preferably, the right roller comprises a supporting shaft, a roller body and a shaft bracket, the middle of the roller body is movably connected with the supporting shaft, two ends of the supporting shaft are connected in the shaft bracket, and the shaft bracket is connected in the water cooling tank.

Preferably, a heat dissipation structure is arranged in the wheel body.

Preferably, the heat dissipation structure comprises a first channel, a second channel, a third channel, a fourth channel and an output channel, wherein the first channel, the second channel, the third channel and the fourth channel are sequentially arranged from top to bottom and are respectively and vertically communicated with the output channel.

And as optimization, auxiliary structures are arranged in the first channel, the second channel, the third channel and the fourth channel.

As optimization, the auxiliary structure includes dog, branch, slider, spring, the slider inboard is connected at first passageway inner through spring coupling, both ends are connected with 2 branches respectively about the slider outside, the dog is connected in first passageway.

As optimization, 8 evenly distributed magnets are embedded on the outer side of the supporting shaft.

As optimization, the heat radiation structures are provided with 8 and are uniformly distributed in the wheel body.

Preferably, the outer side of the magnet is an N pole.

Preferably, the slider is made of a magnet material and the inner end of the slider is an S pole.

As optimization, the joints of the first channel, the second channel, the third channel and the fourth channel with the output channel are positioned in front of the tails of the first channel, the second channel, the third channel and the fourth channel, so that the sliding block is accommodated in a position when moving inwards, and the output channel is prevented from being blocked.

Advantageous effects

When the wheel body cooling device is used, a copper alloy plate can be conveyed through the left roller and the right roller, the upper surface and the lower surface of the copper alloy plate can be simultaneously cooled by cold water sprayed from the upper spray head and the lower spray head, the water cooling efficiency is improved, the water after water cooling flows into the water storage tank from the water outlet pipe, the slider can be attracted by the magnet when the heat dissipation structure of the right roller rotates to the position of the magnet of the supporting shaft through the design of the right roller, so that the slider can rapidly slide into the inside, external cooling air or cold water can be driven to enter the first channel, the second channel, the third channel and the fourth channel through the rapid sliding of the slider and then flow out from the output channel, and the wheel body is cooled continuously along with the rotation of the wheel body.

Compared with the prior art, the invention has the beneficial effects that: can initiatively make cold water or air pass through the passageway fast through magnetic force to cool off, can constantly cool off along with the rotation of wheel body, thereby prevent that wheel body temperature is overheated, thereby can continuously cool off left gyro wheel and right gyro wheel, prevent to influence the cooling effect of copper alloy board.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a water cooling device for clean production of copper alloy.

FIG. 2 is a cross-sectional view of the right wheel of the present invention.

Fig. 3 is an enlarged schematic structural diagram of the structure B in fig. 2.

FIG. 4 is a cross-sectional view A1-A2 of FIG. 2.

In the figure: the water pump comprises a water pump 1, a water main 2, a sewer pipe 3, a lower spray head 4, a left roller 5, an upper spray head 6, an upper water pipe 7, a water cooling tank 8, a right roller 9, a support 10, a water outlet pipe 11, a water storage tank 12, a support plate 13, a support shaft 90, a wheel body 91, a shaft support 92, a heat dissipation structure a, a first channel a1, a second channel a2, a third channel a3, a fourth channel a4, an output channel a5, an auxiliary structure a6, a stop a60, a support rod a61, a slide block a62, a spring a63 and a magnet 900.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, the present invention provides a water cooling apparatus for clean production of copper alloy, which comprises: the structure of the device comprises a water pump 1, a water main 2, a sewer pipe 3, a lower spray head 4, a left roller 5, an upper spray head 6, an upper water pipe 7, a water cooling tank 8, a right roller 9, a support 10, a water outlet pipe 11, a water storage tank 12 and a support plate 13, wherein the left side and the right side of the water cooling tank 8 are connected with the top of the support 10, the support plate 13 is welded at the bottom of the support 10, the water storage tank 12 and the water pump 1 are arranged on the support plate 13, the bottom of the water cooling tank 8 is communicated with the water storage tank 12 through the water outlet pipe 11, the left roller 5 and the right roller 9 are respectively arranged at two sides in the water cooling tank 8, the upper water pipe 7 and the sewer pipe 3 are respectively arranged at the upper surface and the lower surface of the water cooling tank 8, the upper spray head 6 which are uniformly distributed is arranged at the bottom of the upper water pipe 7, the lower spray head 4 which is uniformly distributed is arranged at the top of the sewer pipe 3, the upper water pipe 7 and the sewer pipe 3 are respectively communicated with the water main 2, and the water main 2 is connected with the water pump 1, the left end of the relative straight line of the left roller 5 and the right roller 9 inclines upwards, and the left roller 5 and the right roller 9 are consistent in structure.

The working principle is as follows: when the water cooling device is used, the copper alloy plate can be conveyed through the left roller 5 and the right roller 9, the upper surface and the lower surface of the copper alloy plate can be simultaneously cooled by cold water sprayed from the upper spray head 6 and the lower spray head 4, the water cooling efficiency is improved, and the water after water cooling flows into the water storage tank 12 from the water outlet pipe 11.

Example 2

Referring to fig. 1-4, the present invention provides a water cooling apparatus for cleaning copper alloy, which comprises: the structure of the device comprises a water pump 1, a water main 2, a sewer pipe 3, a lower spray head 4, a left roller 5, an upper spray head 6, an upper water pipe 7, a water cooling tank 8, a right roller 9, a support 10, a water outlet pipe 11, a water storage tank 12 and a support plate 13, wherein the left side and the right side of the water cooling tank 8 are connected with the top of the support 10, the support plate 13 is welded at the bottom of the support 10, the water storage tank 12 and the water pump 1 are arranged on the support plate 13, the bottom of the water cooling tank 8 is communicated with the water storage tank 12 through the water outlet pipe 11, the left roller 5 and the right roller 9 are respectively arranged at two sides in the water cooling tank 8, the upper water pipe 7 and the sewer pipe 3 are respectively arranged at the upper surface and the lower surface of the water cooling tank 8, the upper spray head 6 which are uniformly distributed is arranged at the bottom of the upper water pipe 7, the lower spray head 4 which is uniformly distributed is arranged at the top of the sewer pipe 3, the upper water pipe 7 and the sewer pipe 3 are respectively communicated with the water main 2, and the water main 2 is connected with the water pump 1, the left straight-line left ends of the left roller 5 and the right roller 9 are inclined upwards, the left roller 5 and the right roller 9 have the same structure, the right roller 9 comprises a supporting shaft 90, a wheel body 91 and a shaft bracket 92, the middle of the wheel body 91 is movably connected with the supporting shaft 90, two ends of the supporting shaft 90 are connected in the shaft bracket 92, the shaft bracket 92 is connected in the water cooling tank 8, a heat dissipation structure a is arranged in the wheel body 91, the heat dissipation structure a comprises a first channel a1, a second channel a2, a third channel a3, a fourth channel a4 and an output channel a5, the first channel a1, the second channel a2, the third channel a3 and the fourth channel a4 are sequentially arranged from top to bottom and are respectively and vertically communicated with the output channel a5, auxiliary structures a6 are arranged in the first channel a1, the second channel a2, the third channel a3 and the fourth channel a4, and the auxiliary structures a6 comprise a stopper a60, A strut a61, a slide block a62 and a spring a63, wherein the inner side of the slide block a62 is connected with the inner end of a first channel a1 through a spring a63, the upper end and the lower end of the outer side of the sliding block a62 are respectively connected with 2 supporting rods a61, the stopper a60 is connected in the first channel a1, the outer side of the supporting shaft 90 is embedded with 8 magnets 900 which are uniformly distributed, the heat dissipation structure a is provided with 8 magnets 900 which are uniformly distributed in the wheel body 91 and can correspond to the 8 magnets 900, the outer side of each magnet 900 is provided with an N pole, the slide block a62 is made of magnet materials, the inner end of each slide block is provided with an S pole, so that the first channel a1, the second channel a2, the third channel a3 and the fourth channel a4 can attract each other, the connection part of the first channel a1, the second channel a2, the fourth channel a4 and the output channel a5 is positioned in front of the tail part of the first channel a1, the second channel a2, the third channel a3 and the fourth channel a4, so that the slider a62 is positioned to receive when moved inwardly, preventing blocking of the output channel a 5.

The working principle is as follows: the design in the right roller 9 enables the heat dissipation structure a of the right roller 9 to rotate to the position of the magnet 900 of the support shaft 90, the slider a62 can be attracted by the magnet to slide into the interior quickly, external cooling air or cold water can be driven to enter the first channel a1, the second channel a2, the third channel a3 and the fourth channel a4 and exit from the output channel a5 by the quick sliding of the slider a62, and the wheel body 91 is cooled continuously along with the rotation of the wheel body 91.

Compared with the prior art, the invention has the technical progress that: can initiatively make cold water or air pass through the passageway fast through magnetic force to cool off, can constantly cool off along with the rotation of wheel body, thereby prevent that wheel body temperature is overheated, thereby can continuously cool off left gyro wheel and right gyro wheel, prevent to influence the cooling effect of copper alloy board.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. A water cooling device for copper alloy cleaning production structurally comprises a water pump (1), a water main (2), a sewer pipe (3), a lower spray head (4), a left roller (5), an upper spray head (6), an upper water pipe (7), a water cooling tank (8), a right roller (9), a support (10), a water outlet pipe (11), a water storage tank (12) and a support plate (13), wherein the left side and the right side of the water cooling tank (8) are connected with the top of the support (10), the support plate (13) is welded at the bottom of the support (10), the water storage tank (12) and the water pump (1) are arranged on the support plate (13), the bottom of the water cooling tank (8) is communicated with the water storage tank (12) through the water outlet pipe (11), the left roller (5) and the right roller (9) are respectively arranged at two sides inside the water cooling tank (8), the upper surface and the lower surface of the water cooling tank (8) are respectively provided with the water supply pipe (7) and the sewer pipe (3), the utility model discloses a water pump, including upper hose (7), downcomer (3), water supply pipe (7) bottom is equipped with evenly distributed's last shower nozzle (6), downcomer (3) top is equipped with evenly distributed's lower shower nozzle (4), upper hose (7) and downcomer (3) are linked together with water main (2) respectively, water main (2) are connected its characterized in that with water pump (1):

the left end of the relative straight line of the left roller (5) and the right roller (9) inclines upwards, and the left roller (5) and the right roller (9) are consistent in structure.

2. The water cooling equipment for cleaning production of copper alloy as claimed in claim 1, wherein: the right roller (9) comprises a supporting shaft (90), a wheel body (91) and a shaft support (92), the middle of the wheel body (91) is movably connected with the supporting shaft (90), two ends of the supporting shaft (90) are connected into the shaft support (92), and the shaft support (92) is connected into the water cooling box (8).

3. The water cooling equipment for cleaning production of copper alloy as claimed in claim 2, wherein: a heat dissipation structure (a) is arranged in the wheel body (91).

4. The water cooling equipment for cleaning production of copper alloy as claimed in claim 3, wherein: the heat dissipation structure (a) comprises a first channel (a1), a second channel (a2), a third channel (a3), a fourth channel (a4) and an output channel (a5), wherein the first channel (a1), the second channel (a2), the third channel (a3) and the fourth channel (a4) are sequentially arranged from top to bottom and are respectively and vertically communicated with the output channel (a 5).

5. The water cooling equipment for cleaning production of copper alloy as claimed in claim 4, wherein: auxiliary structures (a6) are arranged in the first channel (a1), the second channel (a2), the third channel (a3) and the fourth channel (a 4).

6. The water cooling equipment for cleaning production of copper alloy as claimed in claim 5, wherein: auxiliary structure (a6) includes dog (a60), branch (a61), slider (a62), spring (a63), slider (a62) inboard is connected at first passageway (a1) inner end through spring (a63) and is connected, both ends are connected with 2 branch (a61) respectively about slider (a62) outside, dog (a60) is connected in first passageway (a 1).

7. The water cooling equipment for cleaning production of copper alloy as claimed in claim 2, wherein: 8 magnets (900) which are uniformly distributed are embedded on the outer side of the supporting shaft (90).

8. The water cooling equipment for cleaning production of copper alloy as claimed in claim 3, wherein: the number of the heat dissipation structures (a) is 8, and the heat dissipation structures are uniformly distributed in the wheel body (91).