CN214326653U - Double-station overturning winding machine - Google Patents
Double-station overturning winding machine Download PDFInfo
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- CN214326653U CN214326653U CN202023302513.8U CN202023302513U CN214326653U CN 214326653 U CN214326653 U CN 214326653U CN 202023302513 U CN202023302513 U CN 202023302513U CN 214326653 U CN214326653 U CN 214326653U
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Abstract
The utility model relates to a duplex position upset rolling machine, including first rolling subassembly, second rolling subassembly, upset case, switching-over subassembly, first drive assembly and second drive assembly, the switching-over subassembly includes worm wheel, worm and power component, the worm-gear axle and the worm meshing of worm wheel, power component is connected with the worm, the worm-gear axle sets up at upset case middle part, and first rolling subassembly and second rolling subassembly set up in worm-gear axle both sides, first drive assembly is connected with first rolling subassembly, and second drive assembly is connected with second rolling subassembly. The utility model discloses a duplex position upset rolling machine can realize that two stations carry out the rolling in step, through improving transmission system, has reduced transmission system's volume; in addition, the positions of the winding shafts of the two stations can be adjusted through overturning, and flexible adjustment can be conveniently carried out according to production.
Description
Technical Field
The utility model relates to a rolling machine technical field, in particular to duplex position upset rolling machine.
Background
The winding machine is a material receiving device of a coil processing production line, raw materials are wound into a coil in a mechanical mode, and the winding machine is required to be adopted for coil processing when materials such as EPE pearl wool and the like are processed. The existing winding machine usually adopts a motor to drive a winding shaft to rotate, so that the material is wound. The existing winding shaft is usually provided with one winding shaft, if a plurality of winding shafts are required to be arranged, a plurality of driving motors and transmission assemblies are required to be arranged, and the winding machine is large in size. In addition, the position of the winding shaft cannot be switched, so that the position cannot be adjusted according to production operation.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a solve prior art's problem, provide one kind and can adjust in a flexible way, effectively reduce the duplex position upset rolling machine of transmission system's volume.
The specific technical scheme is as follows: a double-station overturning winding machine comprises a first winding assembly, a second winding assembly, an overturning box, a reversing assembly, a first driving assembly and a second driving assembly, wherein the reversing assembly comprises a worm wheel, a worm and a power assembly, a worm wheel shaft of the worm wheel is meshed with the worm, the power assembly is connected with the worm, the worm wheel shaft is arranged in the middle of the overturning box, the first winding assembly and the second winding assembly are arranged on two sides of the worm wheel shaft, the first driving assembly is connected with the first winding assembly, and the second driving assembly is connected with the second winding assembly.
Preferably, the power assembly comprises a first belt pulley, a second belt pulley, a third belt pulley, a driven belt pulley and a wheel shaft, the first belt pulley is arranged at one end of the worm, the second belt pulley and the driven belt pulley are respectively arranged at two ends of the wheel shaft, a first transmission belt is arranged between the first belt pulley and the second belt pulley, the third belt pulley is arranged on the motor, and a second transmission belt is arranged between the driven belt pulley and the third belt pulley.
Preferably, the first driving assembly comprises a first driving motor, a first chain and a first driven sprocket, the first driving motor and the first driven sprocket are connected through the first chain, and the first driven sprocket is connected with the first winding assembly.
Preferably, the second driving assembly comprises a second driving motor, a second chain and a second driven sprocket, the second driving motor and the second driven sprocket are connected through the second chain, the second driven sprocket is connected with the second winding assembly, and the first driven sprocket and the second driven sprocket are coaxially arranged.
Preferably, a first transmission shaft and a second transmission shaft are arranged in the worm wheel shaft, the second transmission shaft penetrates through the first transmission shaft, the first transmission shaft is connected with the first driven chain wheel, and the second transmission shaft is connected with the second driven chain wheel.
Preferably, the first winding assembly comprises a first transmission chain and a first winding shaft, and the first winding shaft is connected with the first driven sprocket through the first transmission chain.
Preferably, the second winding assembly comprises a second transmission chain and a second winding shaft, and the second winding shaft is connected with the second driven sprocket through the second transmission chain.
The technical effects of the utility model: the utility model discloses a duplex position upset rolling machine can realize that two stations carry out the rolling in step, through improving transmission system, has reduced transmission system's volume; in addition, the positions of the winding shafts of the two stations can be adjusted through overturning, and flexible adjustment can be conveniently carried out according to production.
Drawings
Fig. 1 is the schematic view of the double-station turnover winding machine provided by the embodiment of the utility model.
Fig. 2 is another schematic view of a double-station turnover winder according to an embodiment of the present invention.
Fig. 3 is a schematic diagram of a power assembly according to an embodiment of the present invention.
Fig. 4 is a schematic diagram of the first and second driving assemblies according to the embodiment of the present invention.
Fig. 5 is an enlarged view of a portion a in fig. 1 according to an embodiment of the present invention.
Fig. 6 is a cross-sectional view of the double-station turnover winding machine of the embodiment of the utility model.
Detailed Description
The essential features and advantages of the invention will be further explained below with reference to examples, but the invention is not limited to the embodiments listed.
As shown in fig. 1 to 6, the double-station turnover winder of the embodiment includes a first winding assembly 1, a second winding assembly 2, a turnover box 3, a reversing assembly 4, a first driving assembly 5 and a second driving assembly 6, wherein the reversing assembly 4 includes a worm wheel 41, a worm 42 and a power assembly 43, and a worm wheel shaft 411 of the worm wheel 41 is engaged with the worm 42. The power assembly 43 is connected with the worm 42, the worm wheel shaft 411 is arranged in the middle of the turnover box 3, and the first winding assembly 1 and the second winding assembly 2 are arranged on two sides of the worm wheel shaft 411. The first driving assembly 5 is connected with the first winding assembly 1, and the second driving assembly 6 is connected with the second winding assembly 2. In the above technical scheme, the reversing assembly 4 is arranged, so that the turnover box 3 can be turned over, during turning, the power assembly provides power to drive the worm 42 to rotate, the worm 42 drives the worm wheel 41 to rotate, the worm wheel shaft 411 rotates, and the turnover box 3 rotates. First rolling subassembly 1 drives through first drive assembly 5, and second rolling subassembly 2 drives through second drive assembly 6 to can make two rolling subassemblies 1 carry out the rolling simultaneously. Through the technical scheme, the two stations of the winding assemblies can be wound simultaneously, and meanwhile, the positions of the two winding assemblies can be exchanged, so that the use mode is convenient to adjust.
In this embodiment, the power assembly 43 includes a first pulley 431, a second pulley 432, a third pulley 433, a driven pulley 434 and an axle 435, the first pulley 431 is disposed at one end of the worm 42, the second pulley 432 and the driven pulley 434 are disposed at two ends of the axle 435, respectively, a first transmission belt 436 is disposed between the first pulley 431 and the second pulley 432, the third pulley 433 is disposed on the motor 437, and a second transmission belt 438 is disposed between the driven pulley 434 and the third pulley 433. Through the technical scheme, the driving motor 437 can drive the worm 42 to rotate.
In this embodiment, the first driving assembly 5 includes a first driving motor 51, a first chain 52 and a first driven sprocket 53, the first driving motor 51 and the first driven sprocket 53 are connected through the first chain 52, and the first driven sprocket 53 is connected with the first winding assembly 1. In this embodiment, the second driving assembly 6 includes a second driving motor 61, a second chain 62 and a second driven sprocket 63, the second driving motor 61 and the second driven sprocket 63 are connected through the second chain 62, the second driven sprocket 63 is connected with the second winding assembly 2, and the first driven sprocket 53 and the second driven sprocket 63 are coaxially disposed. Through the technical scheme, the first winding component 1 and the second winding component 2 can be driven by the first driving motor 51 and the second driving motor 61 respectively.
In this embodiment, a first transmission shaft 7 and a second transmission shaft 8 are disposed in the worm wheel shaft 411, the second transmission shaft 8 is disposed in the first transmission shaft 7, the first transmission shaft 7 is connected to the first driven sprocket 53, and the second transmission shaft 8 is connected to the second driven sprocket 63. Through the technical scheme, the first driven chain wheel and the second driven chain wheel can drive the first transmission shaft and the second transmission shaft to rotate, and the rolling shaft is driven to rotate through the transmission shaft.
In this embodiment, the first winding assembly 1 includes a first driving chain 11 and a first winding shaft 12, and the first winding shaft 12 is connected to the first driven sprocket 53 through the first driving chain 11. In this embodiment, the second winding assembly 2 includes a second driving chain 21 and a second winding shaft 22, and the second winding shaft 22 is connected to the second driven sprocket 63 through the second driving chain 21. Through above-mentioned technical scheme, can drive two rolling axle rotations through first, second driven sprocket.
The double-station overturning winding machine can realize synchronous winding of two stations, and reduces the volume of a transmission system by improving the transmission system; in addition, the positions of the winding shafts of the two stations can be adjusted through overturning, and flexible adjustment can be conveniently carried out according to production.
It should be noted that the above-mentioned preferred embodiments are only for illustrating the technical concepts and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention accordingly, and the protection scope of the present invention cannot be limited thereby. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.
Claims (7)
1. The double-station overturning winding machine is characterized by comprising a first winding assembly, a second winding assembly, an overturning box, a reversing assembly, a first driving assembly and a second driving assembly, wherein the reversing assembly comprises a worm wheel, a worm and a power assembly, a worm wheel shaft of the worm wheel is meshed with the worm, the power assembly is connected with the worm, the worm wheel shaft is arranged in the middle of the overturning box, the first winding assembly and the second winding assembly are arranged on two sides of the worm wheel shaft, the first driving assembly is connected with the first winding assembly, and the second driving assembly is connected with the second winding assembly.
2. The double-station turnover winder according to claim 1, wherein the power assembly comprises a first pulley, a second pulley, a third pulley, a driven pulley and a wheel shaft, the first pulley is arranged at one end of the worm, the second pulley and the driven pulley are respectively arranged at two ends of the wheel shaft, a first transmission belt is arranged between the first pulley and the second pulley, the third pulley is arranged on the motor, and a second transmission belt is arranged between the driven pulley and the third pulley.
3. The dual station rollover winder according to claim 2, wherein the first drive assembly includes a first drive motor, a first chain and a first driven sprocket, the first drive motor and the first driven sprocket being connected by the first chain, the first driven sprocket being connected to the first winding assembly.
4. The double-station turnover winder of claim 3, wherein the second drive assembly comprises a second drive motor, a second chain and a second driven sprocket, the second drive motor and the second driven sprocket are connected through the second chain, the second driven sprocket is connected with the second winding assembly, and the first driven sprocket and the second driven sprocket are coaxially arranged.
5. The double-station turnover winder according to claim 4, wherein a first transmission shaft and a second transmission shaft are arranged in the worm gear shaft, the second transmission shaft is arranged in the first transmission shaft in a penetrating manner, the first transmission shaft is connected with the first driven chain wheel, and the second transmission shaft is connected with the second driven chain wheel.
6. The double-station turnover winder of claim 5, wherein the first winding assembly comprises a first drive chain and a first winding shaft, and the first winding shaft is connected with the first driven sprocket through the first drive chain.
7. The double-station turnover winder of claim 6, wherein the second winding assembly includes a second drive chain and a second winding shaft, and the second winding shaft is connected to the second driven sprocket via the second drive chain.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023302513.8U CN214326653U (en) | 2020-12-31 | 2020-12-31 | Double-station overturning winding machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023302513.8U CN214326653U (en) | 2020-12-31 | 2020-12-31 | Double-station overturning winding machine |
Publications (1)
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CN214326653U true CN214326653U (en) | 2021-10-01 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202023302513.8U Active CN214326653U (en) | 2020-12-31 | 2020-12-31 | Double-station overturning winding machine |
Country Status (1)
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CN (1) | CN214326653U (en) |
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2020
- 2020-12-31 CN CN202023302513.8U patent/CN214326653U/en active Active
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