CN114030924A - Silver-copper alloy strip processing rolling device capable of synchronously cleaning ash - Google Patents

Abstract

The invention discloses a silver-copper alloy strip processing winding device capable of synchronously removing ash, which comprises a rack, a feeding mechanism, a conveying mechanism and a coiled material processing mechanism, wherein the front end of the rack is movably installed with the outer side of the feeding mechanism, the inner side of the front end of the rack is movably installed with the outer side of the conveying mechanism, and the inner side of the rear end of the rack is movably installed with the outer side of the coiled material processing mechanism. This coiling mechanism is used in processing of silver-copper alloy strip that can synchronous deashing, the groove of wiping of subassembly is cleaned in the front end through continuous promotion of conveying mechanism of silver-copper alloy area, when silver-copper alloy area enters and wipes inslot portion, it adsorbs magnetic path a and adsorbs magnetic path b to install respectively in the inside of wiping piece an and wiping piece b, can be close to clamp plate a and clamp plate b extrusion because of magnetic attraction between the two, make and wipe piece an and wipe piece b and keep closely attached with the tow sides of silver-copper alloy strip all the time, avoid appearing because of wiping piece an and wiping piece b's wearing and tearing and deformation and lead to the incomplete problem of deashing.

Description

Silver-copper alloy strip processing rolling device capable of synchronously cleaning ash

Technical Field

The invention relates to the technical field of winding equipment, in particular to a winding device capable of synchronously removing ash for processing silver-copper alloy strips.

Background

The silver-copper alloy is an alloy material and has the characteristics of good electric conductivity, heat conductivity, corrosion resistance, processability and the like. In the production and manufacturing process of the silver-copper alloy, the unfolded silver-copper alloy strip needs to be rolled so as to facilitate the later-stage carrying work of the silver-copper alloy strip. When the silver-copper alloy belt is wound and unwound, the silver-copper alloy belt is not wound and unwound smoothly and is unstable due to the fact that impurity dust is retained on the surface of the silver-copper alloy belt and the surface of the silver-copper alloy belt is uneven, and therefore the silver-copper alloy belt winding and unwinding device capable of being cleaned synchronously is needed.

In the prior art, for example, Chinese patent numbers are: CN 106629162A's receipts unwinding device in compound area of steel aluminium', including brace table and positive reverse motor, the middle part fixedly connected with riser at brace table top, the positive fixed connection in position of riser decides the board is kept away from at brace table's top, and the riser back is kept away from at brace table's top and the relative positive reverse motor of fixed connection in position of board. The extrusion transmission and the limiting transmission can be realized for the steel-aluminum composite belt, the stability of the steel-aluminum composite belt during winding and unwinding and the winding and unwinding speed of the steel-aluminum composite belt are improved, the surface of the steel-aluminum composite belt can be scrubbed in a rolling mode when the steel-aluminum composite belt is wound and unwound, impurity dust remained on the surface of the steel-aluminum composite belt is removed, the surface of the steel-aluminum composite belt is smooth and flat, the steel-aluminum composite belt is effectively wound and unwound in a mutually parallel and level mode when the steel-aluminum composite belt is wound and unwound, and the winding effect of the steel-aluminum composite belt is improved.

However, in the prior art, when the surface of the silver-copper alloy strip is cleaned by the ash removal mechanism through scraping and brushing in the winding process of the silver-copper alloy strip, the scraping block for scraping can rub and extrude the surface of the silver-copper alloy strip for a long time to generate loss or deformation, so that the cleaning block cannot be always in close contact with the surface of the silver-copper alloy strip, the surface of the silver-copper alloy strip cannot be thoroughly cleaned, and the ash removal efficiency is low.

Therefore, the winding device for processing the silver-copper alloy strip capable of synchronously removing the ash is provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a silver-copper alloy strip processing rolling device capable of synchronously cleaning ash, and aims to solve the problems that in the rolling process of a silver-copper alloy strip provided by the background technology, when an ash cleaning mechanism cleans the surface of the silver-copper alloy strip through scraping and brushing, a scraping block for scraping can rub and extrude the surface of the silver-copper alloy strip for a long time to generate loss or deformation, so that the scraping block for cleaning cannot be always in close contact with the surface of the silver-copper alloy strip, the surface of the silver-copper alloy strip cannot be thoroughly cleaned, and the ash cleaning efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: a synchronously deashing winding device for processing silver-copper alloy strips comprises a rack, a feeding mechanism, a conveying mechanism and a coiled material processing mechanism, wherein the front end of the rack is movably mounted with the outer side of the feeding mechanism, the inner side of the front end of the rack is movably mounted with the outer side of the conveying mechanism, and the inner side of the rear end of the rack is movably mounted with the outer side of the coiled material processing mechanism;

the coiled material processing mechanism comprises a winding component, an air blower, a cleaning component, a heating tube group and a wiping component, wherein the top of the front end of the winding component is fixedly installed with the rear end of the air blower, the top of the front end of the cleaning component is fixedly installed with one side of the wiping component, the top of the cleaning component is fixedly installed with the bottom of the heating tube group, the wiping component comprises an installation part, the inner side of the installation part is provided with a wiping groove, the bottom of the wiping groove is movably provided with a wiping block a, the top of the wiping groove is movably provided with a wiping block b, the inner side of the wiping block a is uniformly and movably provided with a plurality of pressing plates a, the top of each pressing plate a is fixedly provided with an adsorption magnetic block a, the inner side of the wiping block b is uniformly and movably provided with a plurality of pressing plates b, the bottom of each pressing plate b is fixedly provided with an adsorption magnetic block b, and the outer side of the adsorption magnetic block a is movably installed with the inner side of the wiping block a, the outer side of the adsorption magnetic block b and the inner side of the wiping block b are movably arranged.

Preferably, the rack comprises two vertical plates, bottom rods are fixedly mounted between the bottoms of the two ends of the two vertical plates, and clamping grooves a are formed in the front ends of the two vertical plates.

Preferably, feed mechanism includes pivot, torsion bar, cardboard and material loading roller, the top of pivot and the bottom fixed mounting of cardboard, and the outside of pivot and the front end movable mounting of riser, the one end of pivot and the one end fixed mounting of torsion bar, the outside of material loading roller and the inboard movable mounting of draw-in groove an, and the bottom of material loading roller and the top activity joint of cardboard.

Preferably, conveying mechanism includes conveyor motor, drive belt an, drive wheel, grip roller a, grip roller b, spring, stopper and installation shell, conveyor motor's one end and the inboard movable mounting in bottom of drive belt a, and the inboard outside movable mounting with the drive wheel in top of drive belt a, the axle center department one side of drive wheel and the one end movable mounting of grip roller a, and the top outside of grip roller a and the bottom movable mounting of grip roller b, the equal movable mounting in both ends top of grip roller b has the depression bar, and the top of depression bar is pegged graft with the bottom activity of installation shell, the inboard of installation shell and the outside movable mounting of spring, and the bottom of spring and the top movable mounting of depression bar, the top of spring and the bottom movable mounting of stopper.

Preferably, the outer side of the bottom of the transmission belt a is movably provided with a supporting wheel, one end of the supporting wheel is movably arranged with the bottom of the vertical plate, and the bottom of the mounting shell is fixedly arranged with the top of the vertical plate.

Preferably, the rolling component comprises two guide rails, a support plate, a rolling roller, a transmission belt b and a rolling motor, the top of the guide rails and the bottom of the support plate are fixedly mounted, a plurality of clamping grooves b are uniformly formed in the rear end of the support plate, the inner side of one clamping groove b and the outer side of the rolling roller are movably mounted, one end of the rolling roller and the inner side of the bottom of the transmission belt b are movably mounted, and the inner side of the top of the transmission belt b and one end of the rolling motor are movably mounted.

Preferably, the bottom of the winding motor is fixedly provided with a top frame, and the bottom of the top frame is fixedly arranged with the top of the supporting plate.

Preferably, the cleaning assembly comprises an inclined plate, a filtering piece, a recovery pipe, a water storage barrel, a water pump and a plurality of pipes, a plurality of leak holes are evenly formed in the bottom of the rear end of the inclined plate, the bottom of each leak hole is communicated with the top of the filtering piece, the bottom of one end of each filtering piece is communicated with the top of the corresponding recovery pipe, the bottom of each recovery pipe is communicated with one side of the corresponding water storage barrel, the top of the front end of the corresponding water storage barrel is communicated with the bottom of the corresponding water pump, the top of the corresponding water pump is communicated with the bottom of each pipe, and each pipe is communicated with one end of each pipe and one end of each cleaning assembly.

Preferably, the outer side of the inclined plate is fixedly mounted with the inner side of the vertical plate, and one side of the water storage barrel is fixedly mounted with the outer side of the vertical plate.

Compared with the prior art, the invention has the beneficial effects that:

1. through the arrangement of the wiping component, the front end of the silver-copper alloy belt is continuously pushed by the conveying mechanism to pass through the wiping groove of the wiping component, when the silver-copper alloy belt enters the wiping groove, the adsorbing magnetic blocks a and the adsorbing magnetic blocks b are respectively arranged in the wiping block a and the wiping block b, and the pressing plate a and the pressing plate b are extruded to be close to each other due to magnetic attraction force between the wiping block a and the wiping block b, so that the wiping block a and the wiping block b can be always tightly attached to the front surface and the back surface of the silver-copper alloy belt, and the problem of incomplete dust removal caused by abrasion and deformation of the wiping block a and the wiping block b is avoided;

2. through the setting of washing the subassembly, the washing work back of subassembly is cleaned in the process to silver-copper alloy area has been realized, the water droplet on its surface can be because of air-blower slant decurrent air current constantly drip at the swash plate top, and the water droplet is because of self weight effect along swash plate surface landing to small opening department, drip to filter in the piece filters back through the leading-in water storage bucket of recovery tube once more, and the rivers in the water storage bucket can be because of the suction of water pump after, supply the dirty of washing silver-copper alloy area surface in the subassembly is cleaned in leading-in through the pipe, but wash water manifold cycles utilizes, reach the water economy resource with the deashing during operation, more green's purpose.

Drawings

FIG. 1 is a perspective view of the front end of a winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the invention;

FIG. 2 is a perspective view of the rear end of a winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the invention;

FIG. 3 is a top perspective view of the winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the present invention;

FIG. 4 is a perspective view of the frame of the winding device for processing silver-copper alloy strips, which can synchronously clean ash, of the winding device for processing silver-copper alloy strips;

FIG. 5 is a schematic structural diagram of the interior of a winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the invention;

FIG. 6 is a schematic structural view of a conveying mechanism of a winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the invention;

FIG. 7 is a schematic structural view of the front end of a coil treatment mechanism of a winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the invention;

FIG. 8 is a schematic structural view of the rear end of a coil treatment mechanism of a winding device for processing silver-copper alloy strips, which can synchronously clean ash, according to the invention;

FIG. 9 is a schematic cross-sectional view of a wiping component of a winding device for processing silver-copper alloy strips, which can synchronously clean ash.

In the figure:

1. a frame; 2. a feeding mechanism; 3. a conveying mechanism; 4. a coil processing mechanism; 40. a winding component; 41. a blower; 42. a heat generation tube set; 43. cleaning the assembly; 44. a wiping component; 440. a mounting member; 441. wiping the groove; 443. a rubbing block a; 442. a wiping block b; 445. a pressing plate a; 446. an adsorption magnetic block a; 448. pressing a plate b; 447. an adsorption magnetic block b; 10. a vertical plate; 11. a bottom bar; 101. a clamping groove a; 20. a rotating shaft; 21. a torsion bar; 22. clamping a plate; 23. a feeding roller; 30. a conveying motor; 31. a transmission belt a; 33. a drive wheel; 34. a grip roller a; 35. a grip roller b; 37. a spring; 38. a limiting block; 39. mounting a shell; 36. a pressure lever; 32. a support wheel; 401. a guide rail; 402. a support plate; 403. a wind-up roll; 404. a transmission belt b; 407. a winding motor; 406. a clamping groove b; 405. a top frame; 430. a sloping plate; 432. a filter member; 433. a recovery pipe; 434. a water storage barrel; 436. a water pump; 437. a conduit; 431. and (4) a leak hole.

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 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.

Referring to fig. 1-9, the present invention provides a technical solution: a winding device capable of synchronously cleaning dust for processing silver-copper alloy strips comprises a rack 1, a feeding mechanism 2, a conveying mechanism 3 and a coiled material processing mechanism 4, wherein the front end of the rack 1 is movably installed with the outer side of the feeding mechanism 2, the inner side of the front end of the rack 1 is movably installed with the outer side of the conveying mechanism 3, the inner side of the rear end of the rack 1 is movably installed with the outer side of the coiled material processing mechanism 4, the coiled material processing mechanism 4 comprises a winding component 40, a blower 41, a cleaning component 43, a heating tube group 42 and a wiping component 44, the top of the front end of the winding component 40 is fixedly installed with the rear end of the blower 41, the top of the front end of the cleaning component 43 is fixedly installed with one side of the wiping component 44, the top of the cleaning component 43 is fixedly installed with the bottom of the heating tube group 42, the wiping component 44 comprises an installation component 440, a wiping groove 441 is formed in the inner side of the installation component 440, a wiping block 443 is movably installed at the bottom of the wiping groove 441, the top of the wiping groove 441 is movably provided with a wiping block b442, the inner side of the wiping block a443 is uniformly movably provided with a plurality of pressing plates a445, the top of each pressing plate a445 is fixedly provided with an adsorption magnetic block a446, the inner side of the wiping block b442 is uniformly movably provided with a plurality of pressing plates b448, the bottom of each pressing plate b448 is fixedly provided with an adsorption magnetic block b447, the outer side of the adsorption magnetic block a446 is movably mounted with the inner side of the wiping block a443, the outer side of the adsorption magnetic block b447 is movably mounted with the inner side of the wiping block b442, the front end of the scattered silver-copper alloy strip is wound around the feeding mechanism 2 and is placed in the middle of the wiping groove 441 of the conveying mechanism 3, or the coiled silver-copper alloy strip is placed on the feeding mechanism 2 and then passes through the middle of the wiping groove 441 of the conveying mechanism 3 to meet the winding work of the silver-copper alloy strips in two different states, the front end of the silver-copper alloy strip is continuously pushed by the conveying mechanism 3 and firstly passes through the wiping groove 441 of the wiping component 44 of the coil processing mechanism 4, when the silver-copper alloy strip passes through the inside of the wiping groove 441, the dust on the front and back surfaces of the silver-copper alloy strip is wiped off through the surfaces of the wiping block a443 and the wiping block b442 respectively, the cleaning water from the cleaning assembly 43 is contained in the wiping block a443 and the wiping block b442 so that the wiping block a443 and the wiping block b442 can remove the dirt of the silver-copper alloy strip, the absorption magnetic block a446 and the absorption magnetic block b447 are respectively installed in the wiping block a443 and the wiping block b442, the pressing plate a445 and the pressing plate b448 are pressed close to each other due to the magnetic attraction force between the absorption magnetic block a446 and the absorption magnetic block b447, so that the wiping block a443 and the wiping block b442 can be always closely attached to the front and back surfaces of the silver-copper alloy strip, the problem of incomplete ash removal due to the abrasion and deformation of the wiping block a443 and the wiping block b442 is avoided, and the silver-copper alloy strip is wound into a coil by the winding assembly 40 after being dried by the heating tube assembly 42 and the blower 41.

As shown in fig. 4, the rack 1 includes two vertical plates 10, a bottom rod 11 is fixedly mounted between bottoms of two ends of the two vertical plates 10, a clamping groove a101 is formed in front ends of the two vertical plates 10, and the bottom rod 11 is used for enhancing structural strength of the rack 1 and preventing shaking.

As shown in fig. 4, the feeding mechanism 2 includes a rotating shaft 20, a torsion bar 21, a clamping plate 22 and a feeding roller 23, the top of the rotating shaft 20 is fixedly mounted to the bottom of the clamping plate 22, the outer side of the rotating shaft 20 is movably mounted to the front end of the vertical plate 10, one end of the rotating shaft 20 is fixedly mounted to one end of the torsion bar 21, the outer side of the feeding roller 23 is movably mounted to the inner side of the clamping groove a101, the bottom of the feeding roller 23 is movably clamped to the top of the clamping plate 22, when a coiled silver-copper alloy strip coil needs to be subjected to ash removal treatment, the rotating shaft 20 and the clamping plate 22 fixed to the top of the rotating shaft can be deflected to the outer side of the clamping groove a101 by the torsion bar 21, so as to open the front end of the clamping groove a101, and facilitate installation of the coil.

As shown in fig. 6, the conveying mechanism 3 includes a conveying motor 30, a belt a31, a driving wheel 33, a pinch roller a34, a pinch roller b35, a spring 37, a stopper 38 and a mounting shell 39, one end of the conveying motor 30 is movably mounted with the inner side of the bottom of the belt a31, the inner side of the top of the belt a31 is movably mounted with the outer side of the driving wheel 33, one side of the axial center of the driving wheel 33 is movably mounted with one end of the pinch roller a34, the outer side of the top of the pinch roller a34 is movably mounted with the bottom of the pinch roller b35, the tops of the two ends of the pinch roller b35 are both movably mounted with a pressure lever 36, the top of the pressure lever 36 is movably inserted with the bottom of the mounting shell 39, the inner side of the mounting shell 39 is movably mounted with the outer side of the spring 37, the bottom of the spring 37 is movably mounted with the top of the pressure lever 36, the top of the spring 37 is movably mounted with the bottom of the stopper 38, when the conveying motor 30 works, the driving wheel 33 is driven by the a31, so that the clamping roller a34 on one side of the driving wheel 33 rotates, the clamping roller b35 at the top is matched to continuously push the silver-copper alloy belt to the rear end, the spring 37 presses the clamping roller b35 downwards through the pressure rod 36, the clamping roller a34 and the clamping roller b35 can always keep the friction force with the surface of the silver-copper alloy belt, and the problem that the silver-copper alloy belt slips in the conveying process is avoided.

As shown in fig. 6, the supporting wheel 32 is movably mounted on the outer side of the bottom of the driving belt a31, one end of the supporting wheel 32 is movably mounted on the bottom of the vertical plate 10, the bottom of the mounting shell 39 is fixedly mounted on the top of the vertical plate 10, and the supporting wheel 32 plays a role in supporting and limiting the bottom of the driving belt a31, so as to avoid the problem that the driving belt a31 falls.

As shown in fig. 7, the winding assembly 40 includes two guide rails 401, a support plate 402, a winding roller 403, a transmission belt b404 and a winding motor 407, tops of the two guide rails 401 are fixedly mounted to a bottom of the support plate 402, a plurality of slots b406 are uniformly formed in a rear end of the support plate 402, an inner side of one slot b406 is movably mounted to an outer side of the winding roller 403, one end of the winding roller 403 is movably mounted to an inner side of a bottom of the transmission belt b404, an inner side of a top of the transmission belt b404 is movably mounted to one end of the winding motor 407, the winding motor 407 drives the winding roller 403 through the transmission belt b404 to wind the silver-copper alloy ribbon, and after the winding operation is completed, the support plate 402 and the silver-copper alloy ribbon at the top thereof can be displaced and slid along the guide rails 401 toward a rear end of the rack 1, so as to facilitate a blanking operation of the coiled material.

As shown in fig. 7, the bottom fixed mounting of the winding motor 407 has the top frame 405, and the bottom of the top frame 405 and the top fixed mounting of the support plate 402, the winding motor 407 is fixedly mounted on the top of the support plate 402 through the top frame 405, so that the stability of the winding motor 407 during operation is improved, and the later maintenance work is facilitated.

As shown in fig. 8, the cleaning assembly 43 includes an inclined plate 430, filter elements 432, a recycling pipe 433, a water storage bucket 434, a water pump 436 and a plurality of conduits 437, wherein a plurality of holes 431 are uniformly formed at the bottom of the rear end of the inclined plate 430, the bottom of the holes 431 is communicated with the top of the filter elements 432, the bottom of one end of each filter element 432 is communicated with the top of the recycling pipe 433, the bottom of the recycling pipe 433 is communicated with one side of the water storage bucket 434, the top of the front end of the water storage bucket 434 is communicated with the bottom of the water pump 436, the top of the water pump 436 is communicated with the bottom of each conduit 437, one end of each conduit 437 is communicated with one end of the wiping assembly 44, after the cleaning operation of the wiping assembly 44, water drops on the surface of the silver-copper alloy strip continuously drop on the top of the inclined plate 430 due to the downward air flow of the blower 41, and the water drops slide down to the holes 431 along the surface of the inclined plate 430 due to the self weight, the water drops to the filter element 432 and is led into the water storage bucket 434 again through the recovery pipe 433 after being filtered, and is recycled again, so that the purposes of saving water resource and protecting environment are achieved, and water flow in the water storage bucket 434 is led into the wiping component 44 through the guide pipe 437 for cleaning dirt on the surface of the silver-copper alloy strip after being pumped by the water pump 436.

As shown in fig. 8, the outer side of the inclined plate 430 is fixedly mounted on the inner side of the vertical plate 10, and one side of the water storage bucket 434 is fixedly mounted on the outer side of the vertical plate 10, so that the inclined plate 430 is more firmly mounted, and is convenient to take out and clean at a later stage.

The use method and the working principle of the device are as follows: the front end of the scattered silver-copper alloy strip is wound around the feeding mechanism 2 and placed in the middle of the wiping groove 441 of the conveying mechanism 3, or the coiled silver-copper alloy strip is placed on the feeding mechanism 2, and then the front end of the silver-copper alloy strip passes through the middle of the wiping groove 441 of the conveying mechanism 3, so as to meet the dust cleaning and coiling work of the silver-copper alloy strip in two different states, the front end of the silver-copper alloy strip is continuously pushed by the conveying mechanism 3 to firstly pass through the wiping groove 441 of the wiping component 44 of the strip processing mechanism 4, when the silver-copper alloy strip passes through the inside of the wiping groove 441, the dust on the front side and the back side of the silver-copper alloy strip is wiped completely by the surfaces of the wiping block a443 and the wiping block b442, the adsorbing magnetic block a446 and the adsorbing magnetic block b447 are respectively installed inside the wiping block a443 and the wiping block b442, the pressing plate a445 and the pressing plate b448 to be close to the magnetic block b442 due to the force, so that the wiping block a443 and the wiping block b can be always and the magnetic block b to be closely attached to the front side and the front side of the silver-copper alloy strip 442, the problem that ash removal is not complete due to abrasion and deformation of the wiping block a443 and the wiping block b442 is avoided, then the silver-copper alloy strip passes through the heating tube set 42 and the drying treatment of the blower 41, water drops on the surface of the silver-copper alloy strip continuously drop on the top of the inclined plate 430 due to downward air flow of the blower 41, the water drops slide to the leakage hole 431 along the surface of the inclined plate 430 due to the self weight, the water drops drop to the filter element 432, the filtered water drops are guided into the water storage bucket 434 again through the recovery tube 433, the water drops are recycled, and the water drops are wound and stored into a coil by the winding assembly 40.

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 (9)

1. The winding device capable of synchronously cleaning dust for processing the silver-copper alloy strip is characterized by comprising a rack (1), a feeding mechanism (2), a conveying mechanism (3) and a coiled material processing mechanism (4), wherein the front end of the rack (1) is movably mounted with the outer side of the feeding mechanism (2), the inner side of the front end of the rack (1) is movably mounted with the outer side of the conveying mechanism (3), and the inner side of the rear end of the rack (1) is movably mounted with the outer side of the coiled material processing mechanism (4);

the coiled material processing mechanism (4) comprises a winding component (40), a blower (41), a cleaning component (43), a heating tube group (42) and a wiping component (44), the top of the front end of the winding component (40) is fixedly mounted with the rear end of the blower (41), the top of the front end of the cleaning component (43) is fixedly mounted with one side of the wiping component (44), the top of the cleaning component (43) is fixedly mounted with the bottom of the heating tube group (42), the wiping component (44) comprises a mounting piece (440), a wiping groove (441) is formed in the inner side of the mounting piece (440), a wiping block a (443) is movably mounted at the bottom of the wiping groove (441), a wiping block b (442) is movably mounted at the top of the wiping groove (441), a plurality of pressing plates a (445) are uniformly and movably mounted on the inner side of the wiping block a (443), and an adsorption magnetic block a (446) is fixedly mounted at the top of each pressing plate a (445), the inner side of the erasing block b (442) is uniformly and movably provided with a plurality of pressing plates b (448), the bottom of each pressing plate b (448) is fixedly provided with an adsorption magnetic block b (447), the outer side of the adsorption magnetic block a (446) is movably arranged with the inner side of the erasing block a (443), and the outer side of the adsorption magnetic block b (447) is movably arranged with the inner side of the erasing block b (442).

2. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 1, which is characterized in that: the rack (1) comprises two vertical plates (10), bottom rods (11) are fixedly mounted between the bottoms of the two ends of the vertical plates (10), and clamping grooves a (101) are formed in the front ends of the two vertical plates (10).

3. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 2, is characterized in that: feeding mechanism (2) are including pivot (20), torsion bar (21), cardboard (22) and material loading roller (23), the top of pivot (20) and the bottom fixed mounting of cardboard (22), and the front end movable mounting of the outside of pivot (20) and riser (10), the one end of pivot (20) and the one end fixed mounting of torsion bar (21), the outside of material loading roller (23) and the inboard movable mounting of draw-in groove a (101), and the bottom of material loading roller (23) and the top activity joint of cardboard (22).

4. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 1, which is characterized in that: the conveying mechanism (3) comprises a conveying motor (30), a conveying belt a (31), a driving wheel (33), a clamping roller a (34), a clamping roller b (35), a spring (37), a limiting block (38) and an installation shell (39), one end of the conveying motor (30) is movably installed with the inner side of the bottom of the conveying belt a (31), the inner side of the top of the conveying belt a (31) is movably installed with the outer side of the driving wheel (33), one side of the axle center of the driving wheel (33) is movably installed with one end of the clamping roller a (34), the outer side of the top of the clamping roller a (34) is movably installed with the bottom of the clamping roller b (35), pressing rods (36) are movably installed at the tops of the two ends of the clamping roller b (35), the top of each pressing rod (36) is movably inserted into the bottom of the installation shell (39), the inner side of the installation shell (39) is movably installed with the outer side of the spring (37), the bottom of the spring (37) is movably mounted with the top of the pressure lever (36), and the top of the spring (37) is movably mounted with the bottom of the limiting block (38).

5. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 4, is characterized in that: the outer side of the bottom of the transmission belt a (31) is movably provided with a supporting wheel (32), one end of the supporting wheel (32) is movably arranged with the bottom of the vertical plate (10), and the bottom of the mounting shell (39) is fixedly arranged with the top of the vertical plate (10).

6. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 1, which is characterized in that: the winding assembly (40) comprises two guide rails (401), a support plate (402), a winding roller (403), a transmission belt b (404) and a winding motor (407), the top of the guide rails (401) and the bottom of the support plate (402) are fixedly mounted, a plurality of clamping grooves b (406) are uniformly formed in the rear end of the support plate (402), the inner side of one clamping groove b (406) is movably mounted with the outer side of the winding roller (403), one end of the winding roller (403) is movably mounted with the inner side of the bottom of the transmission belt b (404), and the inner side of the top of the transmission belt b (404) is movably mounted with one end of the winding motor (407).

7. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 6, is characterized in that: the bottom fixed mounting of rolling motor (407) has roof-rack (405), and the top fixed mounting of the bottom of roof-rack (405) and backup pad (402).

8. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip as claimed in claim 1, which is characterized in that: the cleaning assembly (43) comprises an inclined plate (430), a filtering piece (432), a recycling pipe (433), a water storage barrel (434), a water pump (436) and a plurality of pipes (437), a plurality of leak holes (431) are uniformly formed in the bottom of the rear end of the inclined plate (430), the bottom of each leak hole (431) is communicated with the top of the corresponding filtering piece (432), the bottom of one end of each filtering piece (432) is communicated with the top of the corresponding recycling pipe (433), the bottom end of each recycling pipe (433) is communicated with one side of the corresponding water storage barrel (434), the top of the front end of each water storage barrel (434) is communicated with the bottom of the corresponding water pump (436), the top end of each water pump (436) is communicated with the bottom of each pipe (437), and one end of each pipe (437) is communicated with one end of each wiping assembly (44).

9. The winding device capable of synchronously cleaning ash for processing the silver-copper alloy strip according to claim 8, is characterized in that: the outer side of the inclined plate (430) is fixedly installed with the inner side of the vertical plate (10), and one side of the water storage barrel (434) is fixedly installed with the outer side of the vertical plate (10).

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