CN219357383U - Aluminum foil rolling mill - Google Patents

Abstract

The utility model provides an aluminum foil rolling mill, which comprises a frame, a roller group and a cooling device, wherein the cooling device is arranged on the feeding side of the roller group along the moving direction of an aluminum foil and is opposite to the roller group to form interval arrangement; the cooling device comprises a control cabinet, an oil supply pump, a spray beam provided with a spray valve and a driving rod; the control cabinet is used for detecting the temperatures of different positions of the roller group and generating control signals; the oil supply pump is used for generating a liquid supply pressure for the cooling liquid; the spray beam is hinged to the frame and is arranged opposite to the region where the roller group is arranged; the control cabinet is used for controlling the magnitude of the supply pressure generated by the supply pump, controlling the opening and closing degree of the spray valve and controlling the driving rod to retract so as to adjust the spray angle of the spray beam, thereby realizing the adjustment of the magnitude of the spray beam spraying cooling liquid and the spray liquid to the corresponding region of the roller group. Compared with the related art, the aluminum foil produced by the aluminum foil rolling mill has high quality and high production efficiency.

Description

Aluminum foil rolling mill

Technical Field

The utility model relates to the technical field of aluminum foil production equipment, in particular to an aluminum foil rolling mill.

Background

Currently, aluminum foils are increasingly used, and the aluminum foils can be applied to packaging materials, building materials and decorative materials, especially to new energy battery foils. The yield of aluminum foil is related to the roll speed of the aluminum foil mill.

The rotation speed of the roller of the aluminum foil rolling mill in the related art is increased to generate heat, and in the rolling process, the surface material of the aluminum foil generates local heat because of the roller, so that the problem of poor shape of the aluminum foil is solved. How to quickly and fully reduce the temperature generated by an aluminum foil mill in high-speed rolling and greatly improve the production efficiency of the aluminum foil mill is a technical problem to be solved.

Therefore, it is necessary to provide a new aluminum foil mill that solves the above problems.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an aluminum foil rolling mill with high quality and high production efficiency of produced aluminum foil.

In order to solve the above technical problems, an embodiment of the present utility model provides an aluminum foil mill including a stand and a roll set supported and fixed to the stand for rolling and thinning an aluminum foil to be rolled wound from the outside, the aluminum foil mill further including a cooling device fixed to the stand; the cooling device is arranged on the feeding side of the roller group along the moving direction of the aluminum foil and is opposite to the roller group to form interval arrangement; the cooling device comprises a control cabinet, an oil supply pump, a spray beam and a driving rod; the control cabinet is supported on the frame and used for detecting the temperatures of different positions of the roller group and generating control signals according to the detected temperatures; the oil supply pump is fixed on the frame and is electrically connected with the control cabinet, and the oil supply pump is used for generating the supply pressure of the cooling liquid; the spray beam is connected with the output end of the oil supply pump, is hinged to the frame and is arranged in the area where the roller group is located, is provided with a spray valve for controlling the opening and closing degree of the spray beam, and is electrically connected with the control cabinet; the two ends of the driving rod are respectively fixed on the frame and the spray beam and are electrically connected with the control cabinet; the control cabinet is used for controlling the magnitude of the supply hydraulic pressure generated by the supply pump, controlling the opening and closing degree of the spray valve and controlling the driving rod to shrink so as to adjust the spray angle of the spray beam, thereby realizing the adjustment of the spray beam to spray cooling liquid and spray liquid quantity in the corresponding area of the roller group.

Preferably, the spray beam further comprises a plurality of spray nozzles spaced apart and side by side, the spray nozzles being in fluid connection with the spray valve.

Preferably, a plurality of the spray nozzles are arranged in a matrix.

Preferably, the included angle between the spraying direction of the spraying beam for spraying the cooling liquid to the roller group and the surface of the roller group is 30-60 degrees.

Preferably, the control cabinet is provided with a plurality of sensor modules facing different areas of the roll set respectively and a processor electrically connected with the sensor modules, the sensor modules are used for detecting the roll surface temperatures of the roll set and the corresponding areas, the processor is electrically connected with the spray valve, and the processor is used for generating the control signals according to the roll surface temperatures detected by the sensor modules.

Preferably, the aluminum foil rolling mill further comprises an oil removing device for fixing the frame, wherein the oil removing device is arranged on the discharging side of the roller group and is abutted to the surface of the roller group along the moving direction of the aluminum foil.

Compared with the related art, the aluminum foil rolling mill is characterized in that the cooling device is arranged on the feeding side of the roller group and is arranged opposite to the roller group at intervals; the cooling device sprays cooling liquid to the corresponding area of the roller group, so that the roller group is cooled when the aluminum foil passes through the roller group. Specifically, the cooling device is provided with a control cabinet, an oil feed pump, a spray beam and a driving rod, wherein the control cabinet detects the temperatures of different positions of the roller group and generates control signals according to the detected temperatures; the control cabinet is used for controlling the magnitude of the supply hydraulic pressure generated by the supply pump, controlling the opening and closing degree of the spray valve and controlling the driving rod to shrink so as to adjust the spray angle of the spray beam, thereby realizing the adjustment of the spray beam to spray cooling liquid and spray liquid quantity in the corresponding area of the roller group. The structure enables the control cabinet to control the oil supply pump, the spray valve and the driving rod according to the temperature of different positions of the roller group, so that the roller is cooled, and the spray beam is adjusted to spray cooling liquid and spray liquid quantity to the corresponding area of the roller group, so that the problem of poor plate type is solved through the aluminum foil rolled and thinned by the roller group, the roller group can work in high-speed rotation for a long time during rolling, the speed increasing effect is achieved, the production efficiency is improved, and the product yield is improved. Therefore, the aluminum foil produced by the aluminum foil rolling mill has high quality and high production efficiency.

Drawings

The present utility model will be described in detail with reference to the accompanying drawings. The foregoing and other aspects of the utility model will become more apparent and more readily appreciated from the following detailed description taken in conjunction with the accompanying drawings. In the drawings of which there are shown,

fig. 1 is a schematic diagram of the structural relationship between an aluminum foil and an aluminum foil mill according to an embodiment of the present utility model;

fig. 2 is a block diagram of a cooling apparatus of an aluminum foil mill according to an embodiment of the present utility model.

Detailed Description

The following describes in detail the embodiments of the present utility model with reference to the drawings.

The detailed description/examples set forth herein are specific embodiments of the utility model and are intended to be illustrative and exemplary of the concepts of the utility model and are not to be construed as limiting the scope of the utility model. In addition to the embodiments described herein, those skilled in the art will be able to adopt other obvious solutions based on the disclosure of the claims and specification of the present application, including those adopting any obvious substitutions and modifications to the embodiments described herein, all within the scope of the present utility model.

The present utility model provides an aluminum foil mill 100. The aluminum foil rolling mill 100 is used for rolling and thinning an aluminum foil 200 to be rolled which is wound in from the outside.

Referring to fig. 1, fig. 1 is a schematic diagram showing the structural relationship between an aluminum foil 200 and an aluminum foil rolling mill 100 according to an embodiment of the utility model.

Specifically, the aluminum foil mill 100 includes a stand 1, a roll group 2, a cooling device 3, and a degreasing device 4, which are supported and fixed to the stand 1, respectively.

The roll set 2 is used for rolling and thinning the aluminum foil 200 to be rolled which is wound from the outside. The roll set 2 comprises two rolls arranged up and down, and the two rolls mutually roll and roll the aluminum foil 200 to be rolled which is wound in from the middle of the two rolls to be rolled into thin. The roll-set 2 is a mechanical component commonly used in the art.

The cooling device 3 is disposed on the feeding side of the roll set 2 in the direction in which the aluminum foil 200 moves, and is disposed at intervals opposite to the roll set 2.

Referring to fig. 2, fig. 2 is a block diagram showing a cooling apparatus 3 of an aluminum foil mill 100 according to an embodiment of the present utility model.

Specifically, the cooling device 3 includes a control cabinet 31, an oil feed pump 32, a spray beam 33, and a drive lever 34.

The control cabinet 31 is supported on the frame 1.

The control cabinet 31 is used for detecting the temperatures of the different positions of the roll set 2 and generating control signals according to the detected temperatures.

In this embodiment, the control cabinet 31 is provided with a plurality of sensor modules 311 facing different areas of the roll set 2, and a processor 312 electrically connected to the sensor modules 311.

The sensor module 311 is used for detecting the roll surface temperature of the roll group 2 and the corresponding region thereof. Wherein the roll surface temperature is the surface temperature of the roll set 2. The arrangement of the sensor module 311 can ensure that the reliability of the aluminum foil mill 100 is good, and the produced aluminum foil 200 has high quality and high yield.

The processor 312 is electrically connected to the spray valve 331.

The processor 312 is configured to generate the control signal according to the roller surface temperature detected by the sensor module 311. The control rule of the processor 312 for generating the control signal may be adjusted according to the actual test data, or may be set according to the requirement, which is an adjustment that can be easily implemented by a person skilled in the art according to the present embodiment, and the principle is the same, and detailed description thereof is omitted herein.

The oil feed pump 32 is fixed to the frame 1 and electrically connected to the control cabinet 31. The oil feed pump 32 is used to generate a feed pressure for the coolant.

The spray beam 33 is connected to the output end of the feed pump 32. The spray beam 33 is hinged to the frame 1 and is positioned in relation to the area in which the roll stack 2 is located.

In this embodiment, the spray beam 33 sprays the cooling liquid to the roll set 2 in a spray direction at an angle of 30 ° to 60 ° to the surface of the roll set 2. In this embodiment, the processor 312 may adjust an angle at which the spray beam 33 sprays the cooling liquid. This structure can prevent the sprayed coolant from falling accurately within a preset range, thereby improving the effect of lowering the temperature of the roll set 2.

The spray beam 33 is provided with a spray valve 331 for controlling the opening and closing degree thereof. The spray valve 331 is electrically connected to the control cabinet 31. The spray beam 33 sprays the cooling liquid contained therein to the surface of the roll stack 2 so that the aluminum foil 200 passes the roll stack 2 while keeping the surface of the roll stack 2 in a normal temperature range. The sprayed liquid amount of the cooling liquid corresponds to the surface temperature of the roller set 2 one by one and is in a direct proportion relation. The structure enables the aluminum foil 200 to reduce the problem of bad layout, is beneficial to long-time work of the roller group 2 in high-speed rotation during rolling, achieves the effect of accelerating, improves the production efficiency, and improves the product yield.

In this embodiment, the spray beam 33 further includes a plurality of spray nozzles 332 spaced apart and side by side. The spray head 332 is in fluid connection with the spray valve 331. The plurality of shower nozzles 332 are arranged in a matrix. The structure makes the aluminum foil 200 receive impulse force evenly when the spray beam 33 sprays, which is beneficial to improving the product yield of the aluminum foil 200.

Both ends of the driving rod 34 are respectively fixed to the frame 1 and the spray beam 33. And the driving rod 34 is electrically connected with the control cabinet 31.

The cooling device 3 operates on the principle that the control cabinet 31 sends the control signals to the oil feed pump 32, the injection valve 331 and the driving rod 34, respectively. The hydraulic pressure generated by the oil supply pump 32 is controlled, the opening and closing degree of the spray valve 331 is controlled, and the driving rod 34 is controlled to be contracted to adjust the spray angle of the spray beam 33; thereby realizing the adjustment of the spraying of the cooling liquid and the spraying amount of the spraying beam 33 to the corresponding area of the roller group 2.

The control rules for adjusting the spraying beam 33 to spray the cooling liquid and the spraying amount to the corresponding area of the roll set 2 by the control cabinet 31 can be adjusted according to the actual test data, and the rules can be set according to the needs, which is an adjustment that can be easily implemented by a person skilled in the art according to the present embodiment, and the principle is the same and will not be described in detail herein.

The degreasing device 4 is used for cleaning the cooling device 3 on the surface of the aluminum foil 200 by spraying the cooling liquid. Of course, the degreasing device 4 may also be used to remove oil stains, lubricating oil, etc. from the surface of the aluminum foil 200.

The degreasing device 4 is disposed on the discharging side of the roll set 2 along the moving direction of the aluminum foil 200, and abuts against the surface of the roll set 2.

The degreasing device 4 is a device commonly used in the art.

Compared with the related art, the aluminum foil rolling mill is characterized in that the cooling device is arranged on the feeding side of the roller group and is arranged opposite to the roller group at intervals; the cooling device sprays cooling liquid to the corresponding area of the roller group, so that the roller group is cooled when the aluminum foil passes through the roller group. Specifically, the cooling device is provided with a control cabinet, an oil feed pump, a spray beam and a driving rod, wherein the control cabinet detects the temperatures of different positions of the roller group and generates control signals according to the detected temperatures; the control cabinet is used for controlling the magnitude of the supply hydraulic pressure generated by the supply pump, controlling the opening and closing degree of the spray valve and controlling the driving rod to shrink so as to adjust the spray angle of the spray beam, thereby realizing the adjustment of the spray beam to spray cooling liquid and spray liquid quantity in the corresponding area of the roller group. The structure enables the control cabinet to control the oil supply pump, the spray valve and the driving rod according to the temperature of different positions of the roller group, so that the roller is cooled, and the spray beam is adjusted to spray cooling liquid and spray liquid quantity to the corresponding area of the roller group, so that the problem of poor plate type is solved through the aluminum foil rolled and thinned by the roller group, the roller group can work in high-speed rotation for a long time during rolling, the speed increasing effect is achieved, the production efficiency is improved, and the product yield is improved. Therefore, the aluminum foil produced by the aluminum foil rolling mill has high quality and high production efficiency.

It should be noted that the above embodiments described above with reference to the drawings are only for illustrating the present utility model and not for limiting the scope of the present utility model, and it should be understood by those skilled in the art that modifications or equivalent substitutions to the present utility model are intended to be included in the scope of the present utility model without departing from the spirit and scope of the present utility model. Furthermore, unless the context indicates otherwise, words occurring in the singular form include the plural form and vice versa. In addition, unless specifically stated, all or a portion of any embodiment may be used in combination with all or a portion of any other embodiment.

Claims (6)

1. An aluminum foil rolling mill comprising a stand and a roll set supported and fixed to the stand, the roll set being for rolling and thinning an aluminum foil to be rolled which is wound from the outside, characterized in that the aluminum foil rolling mill further comprises a cooling device fixed to the stand; the cooling device is arranged on the feeding side of the roller group along the moving direction of the aluminum foil and is opposite to the roller group to form interval arrangement; the cooling device comprises a control cabinet, an oil supply pump, a spray beam and a driving rod; the control cabinet is supported on the frame and used for detecting the temperatures of different positions of the roller group and generating control signals according to the detected temperatures; the oil supply pump is fixed on the frame and is electrically connected with the control cabinet, and the oil supply pump is used for generating the supply pressure of the cooling liquid; the spray beam is connected with the output end of the oil supply pump, is hinged to the frame and is arranged in the area where the roller group is located, is provided with a spray valve for controlling the opening and closing degree of the spray beam, and is electrically connected with the control cabinet; the two ends of the driving rod are respectively fixed on the frame and the spray beam and are electrically connected with the control cabinet; the control cabinet is used for controlling the magnitude of the supply hydraulic pressure generated by the supply pump, controlling the opening and closing degree of the spray valve and controlling the driving rod to shrink so as to adjust the spray angle of the spray beam, thereby realizing the adjustment of the spray beam to spray cooling liquid and spray liquid quantity in the corresponding area of the roller group.

2. The aluminum foil mill of claim 1, wherein the spray beam further comprises a plurality of spray nozzles spaced apart and side-by-side, the spray nozzles in fluid connection with the spray valve.

3. The aluminum foil mill of claim 2, wherein a plurality of the spray nozzles are arranged in a matrix.

4. The aluminum foil mill according to claim 1, wherein an included angle between a spraying direction of the spray beam spraying the cooling liquid to the roll group and a surface of the roll group is 30 ° to 60 °.

5. The aluminum foil mill according to claim 4, wherein the control cabinet is provided with a plurality of sensor modules facing different areas of the roll set respectively and a processor electrically connected with the sensor modules, the sensor modules are used for detecting the roll surface temperature of the roll set and the corresponding areas, the processor is electrically connected with the spray valve, and the processor is used for generating the control signal according to the roll surface temperature detected by the sensor modules.

6. The aluminum foil mill according to claim 1, further comprising a degreasing device fixed to the frame, the degreasing device being disposed on a discharge side of the roll group and abutting against a surface of the roll group in a direction in which the aluminum foil moves.