CN215247617U - Aluminum coil excess material collecting device - Google Patents

Abstract

The utility model provides an aluminum coil excess material collecting device, which relates to the technical field of aluminum product production equipment, and comprises two groups of rolling assemblies which are arranged in bilateral symmetry and a control console which is in communication control connection with the rolling assemblies, wherein each group of rolling assemblies comprises a mounting seat, a supporting shaft which is vertical to the mounting seat and is arranged horizontally is positioned and rotatably arranged on the mounting seat, and the symmetrical axes of the two groups of rolling assemblies are parallel to the supporting shaft; a material moving device which slides along the length direction of the support shaft is arranged below the support shaft, and the material moving device is in communication control connection with the console; one side of the two groups of mounting seats, which is far away from each other, is provided with a hanging rack, and a tape roll and a cutting knife are hung on the hanging rack. The utility model discloses can realize the unified neatly collection to the clout is rolled up to the aluminium during use, the recycle of the clout of being convenient for and the recycling of a section of thick bamboo, effective reduce cost.

Description

Aluminum coil excess material collecting device

Technical Field

The utility model relates to an aluminum product production facility technical field especially relates to an aluminium book clout collection device.

Background

In the production process of aluminum materials, the procedures of cold rolling, hot rolling, trimming, transverse shearing, longitudinal shearing, slitting, stretch bending and straightening and the like are included, and in the procedures, coiled aluminum strips wound on a shaft barrel are generally processed. And when the aluminum strip coil is processed to the tail end, the tail end of the aluminum strip coil cannot be processed due to the actual distance between the unwinding end, the processing position and the winding end or the actual processing condition, and only the tail end of the aluminum strip coil can be remained on the shaft barrel for winding the aluminum strip. In the actual production and operation of enterprises, the excess aluminum coil material is recovered so as to be conveniently cast and reused, and the shaft barrel can be repeatedly used, so that the cost is reduced.

Generally, in the casting in the aluminum material production, due to the emission problem, a casting workshop and a production workshop of the cold rolling process and the like are not in the same place, if the excess materials are directly transported to the casting workshop together with the shaft cylinder, the actual excess material amount of the aluminum coil transported at one time is very small, and the shaft cylinder needs to be transported back to the production workshop again, so that the transportation cost is very high. If the excess materials are directly detached and collected in a production workshop, the excess materials on each shaft barrel are less, so that the excess materials are inconvenient to collect uniformly, are easy to scatter, influence the surrounding environment, have low efficiency, and influence the normal work of processes such as cold rolling and hot rolling. Therefore, it is urgent to design an aluminium book clout collection device, realizes the unified orderly collection to the aluminium book clout, and the effective reduce cost of recycle and the recycling of beam barrel of the clout of being convenient for.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aluminium book clout collection device, it can realize rolling up the unified neatly collection of clout to the aluminium, and the effective reduce cost of recycle and the recycling of a section of thick bamboo of the clout of being convenient for.

The above technical purpose of the present invention can be achieved by the following technical solutions:

an aluminum coil excess material collecting device comprises two groups of winding assemblies which are arranged in bilateral symmetry and a console which is in communication control connection with the winding assemblies, wherein each group of winding assemblies comprises a mounting seat, a supporting shaft which is vertical to the mounting seat and is arranged horizontally in the axial direction is rotatably positioned on the mounting seat, and the symmetrical axes of the two groups of winding assemblies are parallel to the supporting shaft; a material moving device which slides along the length direction of the support shaft is arranged below the support shaft, and the material moving device is in communication control connection with a control console; and one sides of the two groups of mounting seats, which are far away from each other, are provided with hanging racks, and adhesive tape rolls and cutting knives are hung on the hanging racks.

Through adopting above-mentioned technical scheme, concentrate unified processing to the clout of all aluminium books, at first, utilize the material device that moves among two sets of rolling components respectively with the axle sleeve of two rolls of aluminium book clouts suit respectively to the back shaft that corresponds on, two sets of rolling components are a set of to be used for concentrating the receipts material, and a set of blowing that is used for concentrating. The adhesive tape on the adhesive tape roll of the cutting part is utilized to attach and fix one end of the aluminum tape of the aluminum roll excess material which is intensively discharged and a group of aluminum roll excess material which is intensively collected, so that when the control console controls the support shaft which is intensively collected and a group of aluminum roll excess material to rotate, the support shaft drives the shaft barrel to rotate and roll the aluminum tape which is intensively discharged and a group of aluminum roll excess material, the two groups of aluminum roll excess material are uniformly rolled to one shaft barrel, and the other shaft barrel is vacated. Concentrate the aluminium book clout separation of blowing in a set of back of collecting, utilize and move the material device and take off the shaft barrel of vacating from the back shaft, sheathe the aluminium book clout on the back shaft again, and concentrate and receive the aluminium book on a set of and need not remove, repeat above-mentioned step, realize concentrating the separation with a plurality of aluminium book clouts and collect a shaft barrel on, all the other shaft barrels can be recycled. And the uniformly recovered aluminum coil excess material is rolled up neatly, occupies a small space, is convenient to transport to a casting workshop for recycling, and effectively reduces the cost. Wherein, two sets of rolling subassembly symmetries set up the structure the same, can alternately regard as to concentrate to receive the material and concentrate the blowing and use, and the limitation is little, and avoids concentrating a set of long-time use of receiving the material and lead to life and rolling effect to reduce. The whole device is automatically controlled by the console, the automation degree is high, and the working precision and the working efficiency are effectively improved. The cutting knife and the aluminum strip coil are directly hung on the hanging rack, so that the aluminum strip coil is convenient to take and use at any time.

Furthermore, the supporting shaft is provided with a plurality of pneumatic inner supports in a circumferential array at one end far away from the mounting seat, and the pneumatic inner supports are concentric arc-shaped structures and are in communication control connection with the console.

Through adopting above-mentioned technical scheme, the back is put in the suit to the back shaft to the beam barrel of aluminium book clout, and the control cabinet controls and struts the inner wall that withstands the beam barrel in pneumatic interior, makes beam barrel and back shaft as an organic whole, and the back shaft of being convenient for drives the beam barrel and rotates and receive material or blowing, guarantees the separation collection effect to the clout. After the excess materials are separated, the pneumatic inner supports in the winding assemblies which discharge a group of materials in a centralized mode are loosened, and therefore the emptied shaft barrel can be taken down from the supporting shaft conveniently by the aid of the material moving device. Likewise, utilize pneumatic internal stay to make the back shaft can cooperate the shaft section of thick bamboo of different internal diameters to use, realize the separation collection to different aluminium book clouts, effectively improve application scope.

Furthermore, the material moving device comprises a base and a top plate which are horizontally arranged along the axial direction of the supporting shaft, a scissor jack which is in communication control connection with the control console is arranged between the base and the top plate, the lower end of the scissor jack is fixed on the upper end face of the base, and the upper end of the scissor jack is fixed on the lower end face of the top plate.

Through adopting above-mentioned technical scheme, set up the scissor jack between base and roof, utilize the scissor jack to adjust the distance between base and the roof, the roof can be with aluminium book clout and beam barrel jack-up like this for there is certain space between beam barrel inner wall and the back shaft outer wall, is convenient for roll the clout suit with the aluminium on the back shaft or take off the beam barrel from the back shaft, its simple structure, convenient operation and effect are obvious. Similarly, the distance between roof and the bottom plate can be adjusted, can cooperate the shaft section of thick bamboo of different internal diameters to use like this, realizes collecting the separation of different aluminium book clouts, effectively improves application scope.

Furthermore, the four corners of the lower end of the base are respectively provided with a pneumatic roller which is in communication control connection with the control console, the axis of the pneumatic roller is perpendicular to the axial direction of the support shaft and is horizontally arranged, and a guide rail which is matched with the pneumatic roller and is axially arranged along the support shaft is fixed on the ground.

By adopting the technical scheme, the control console is utilized to control the pneumatic roller to work, the whole moving device is driven to automatically reciprocate along the guide rail, the guide rail drives the pneumatic roller to move the reciprocating movement of the moving device to play a limiting and guiding role, and the stability and the safety of the whole moving device for moving the aluminum coil excess material or the shaft barrel are ensured.

Furthermore, a plurality of arc-shaped supporting grooves are formed in the upper end of the top plate along the length direction of the top plate in an array mode, and the openings of the arc-shaped supporting grooves are upward and are axially arranged along the axial direction of the supporting shaft.

Through adopting above-mentioned technical scheme, when moving material device and removing aluminium book clout or the shaft section of thick bamboo of vacating, aluminium book clout or shaft section of thick bamboo take and put in arc support groove, and arc support groove plays the support limiting displacement to it, guarantees to move the stability of material device removal in-process aluminium book clout or shaft section of thick bamboo, avoids aluminium book clout or shaft section of thick bamboo to roll from the roof. In addition, the arc-shaped supporting groove also plays a role in positioning the aluminum coil excess material, the aluminum coil excess material is placed in the arc-shaped supporting groove, and the material moving device can directly sleeve the shaft barrel of the aluminum coil excess material on the supporting shaft as long as the material moving device moves towards the direction close to the mounting seat along the guide rail, so that the shaft barrel and the supporting shaft are not required to be eccentrically arranged to influence the installation of the shaft barrel.

Furthermore, a stop block is arranged on one side, close to the supporting shaft, of the mounting seat, a stop sensor in communication connection with the console is embedded in one side, far away from the mounting seat, of the stop block, and the stop sensor is in communication control connection with the pneumatic roller.

Through adopting above-mentioned technical scheme, moving the in-process that the material device overlaps the aluminium book clout to supporting epaxial, when the aluminium book clout or the shaft barrel is close to the one end of mount pad and stop block butt, stop sensor feedback signal to control cabinet, pneumatic gyro wheel stop work is controlled to the control cabinet, moves the material device and stops moving. Not only can guarantee like this that the aluminium in two sets of rolling subassemblies is rolled up the clout and can be corresponding neatly separation collection, there is certain distance between one end that the aluminium strip is close to the mount pad and the mount pad in addition, avoids aluminium strip and mount pad butt can the mount pad at aluminium strip rolling in-process.

Further, be equipped with the limit for height pole that sets up along back shaft length direction on the mount pad, the limit for height pole is located the back shaft top, just under the limit for height pole perpendicular distance between terminal surface and the back shaft outer wall is not more than the biggest perpendicular distance between back shaft outer wall and the roof up end.

Through adopting above-mentioned technical scheme, when scissor jack contracts to extreme condition, the distance between roof and the base is nearest, and the distance between roof and the back shaft is the farthest, sets up limit for height pole and can restrict to concentrate the volume of receiving the aluminium book clout of concentrating the collection in a set of, avoids at last unable aluminium book clout that will concentrate the rolling with moving the material device and takes off from the back shaft. Utilize limit for height pole to carry out limit for height control, compare in operating personnel and rely on the sense control, can collect more clouts by the at utmost, improve clout collection efficiency, reduce cost.

Furthermore, the two groups of winding components are respectively provided with a winding frame at one side away from each other, and the winding frame is provided with a plurality of arc-shaped supporting blocks with upward openings in a rectangular array.

Through adopting above-mentioned technical scheme, the receipts work or material rest of two sets of rolling subassemblies one side can be used for piling up the axle section of thick bamboo that vacates and the aluminium book clout of concentrated rolling respectively, and the pile is neatly guaranteed the surrounding environment, and the arc supporting shoe of rectangular array plays limiting displacement to axle section of thick bamboo or aluminium book clout on receiving the work or material rest, avoids the axle section of thick bamboo of pile and aluminium book clout roll and scatters, guarantees the security.

To sum up, the utility model discloses following beneficial effect has:

1. the two groups of bilaterally symmetrical winding assemblies are arranged, one group is used for collecting materials in a centralized mode, the other group is used for discharging materials in a centralized mode, the surplus materials of the aluminum coils are separated and collected in a unified mode, the surplus materials are convenient to recycle, the shaft barrel is convenient to recycle, and cost is effectively reduced;

2. two sets of rolling subassemblies can be used for concentrating receipts material or concentrate the blowing in turn, and the limitation is little, and avoids concentrating a set of long-time use of receiving the material and lead to life and rolling effect to reduce.

Drawings

FIG. 1 is a schematic view of the overall structure of an aluminum coil residue collecting device;

fig. 2 is a partial structural schematic diagram of an aluminum coil residue collecting device.

In the figure, 1, a console; 2. a winding component; 3. a mounting seat; 31. a hanger; 32. an adhesive tape roll; 33. a cutting knife; 34. a stopper block; 35. a stop sensor; 36. a height limiting rod; 4. a support shaft; 41. pneumatic inner bracing; 42. a servo motor; 5. a material moving device; 51. a top plate; 52. an arc-shaped supporting groove; 53. a scissor jack; 54. a base; 55. a pneumatic roller; 56. a guide rail; 6. a material receiving frame; 61. an arc-shaped supporting block; 7. a shaft cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The utility model provides an aluminium book clout collection device, as shown in figure 1, includes that two sets of bilateral symmetry set up and the coiling subassembly 2 that the structure is the same, is equipped with the control cabinet 1 that adopts PLC control mode automatic control whole device automation to work in the one end of two sets of coiling subassemblies 2. Since the two winding assemblies 2 have the same structure, the specific structure will be described below by taking one winding assembly 2 as an example.

As shown in fig. 1 and 2, the winding assemblies 2 include vertically arranged mounting seats 3, one side of the mounting seat 3, which is far away from the console 1, is rotatably positioned and provided with supporting shafts 4 which are perpendicular to the mounting seat and are horizontally arranged, and the bilateral symmetry axes of the two winding assemblies 2 are parallel to the supporting shafts 4. The one end that back shaft 4 is close to mount pad 3 stretches out mount pad 3 and is connected with its pivoted servo motor 42 of drive, and the one end circumference array that back shaft 4 kept away from mount pad 3 is equipped with the pneumatic internal stay 41 of four arc structures, and four pneumatic internal stays 41 set up with one heart and with the back shaft 4 coaxial line, and pneumatic internal stay 41 is opened or is closed by control cabinet 1 communication control work, along the radial slip of back shaft 4. As shown in fig. 2, after the shaft tube 7 on the aluminum coil residual material is sleeved on the supporting shaft 4, the console 1 controls the four pneumatic inner supports 41 to automatically open and prop against the inner wall of the shaft tube 7, so that the shaft tube 7 and the supporting shaft 4 are integrated, and the supporting shaft 4 can drive the shaft tube 7 to rotate to receive or discharge the material. The pneumatic structure of the pneumatic inner support 41 is the same as that in the prior art, and will not be described in detail.

As shown in fig. 2, a material moving device 5 which can move the loading or unloading material in a reciprocating manner along the length direction of the support shaft 4 is arranged below the support shaft 4, the material moving device 5 comprises a base 54 and a top plate 51 which are horizontally arranged along the axial direction of the support shaft 4, the top plate 51 is positioned above the base 54, a scissor jack 53 which is controlled to work by the communication of the control console 1 is arranged between the top plate 51 and the base 54, the upper end surface of the scissor jack 53 is fixed with the lower end surface of the top plate 51, the lower end of the scissor jack 53 is fixed with the lower end surface of the base 54, and the distance between the top plate 51 and the bottom plate can be adjusted by using the scissor jack 53. As shown in fig. 2, pneumatic rollers 55 are rotatably mounted at four corners of the base 54 to drive the base to move, the pneumatic rollers 55 are horizontally arranged along a direction perpendicular to the supporting shaft 4 in the axial direction, a guide rail 56 which is arranged along the length direction of the supporting shaft 4 and is matched with the pneumatic rollers 55 is fixed on the ground, and the console 1 controls the pneumatic rollers 55 to reciprocate in the guide rail 56 to realize the movement of the material moving device 5.

As shown in fig. 2, two scissor jacks 53 are arranged between the base 54 and the bottom plate, the scissor jacks 53 are arranged on the left and right sides, the structure of the scissor jacks 53 is the same as that in the prior art, and the screw rods in the scissor jacks 53 are arranged along the length direction of the support shaft 4 in the embodiment, which will not be described in detail.

As shown in fig. 1 and fig. 2, the winding assemblies 2 are used for collecting materials in a set, and for discharging materials in a set, and can be used for alternative use, so that the winding assemblies are flexible and convenient.

As shown in fig. 1 and 2, two rolls of aluminum coil remainders are moved above a top plate 51 of a material moving device 5 by using a forklift or a portal frame, a scissor jack 53 works to adjust the distance between the corresponding top plate 51 and a base 54, so that a shaft cylinder 7 of the aluminum coil remainders placed on the top plate 51 is coaxial with a corresponding support shaft 4, and a console 1 respectively controls pneumatic rollers 55 in the two material moving devices 5 to work, so that the corresponding aluminum coils are moved to the shaft cylinder 7 and sleeved on the corresponding support shaft 4. The console 1 then controls the pneumatic inner support 41 to open and bear against the inner wall of the corresponding shaft barrel 7, and the scissor jack 53 in the material moving device 5 on the right side works to lower the top plate 51. The left aluminum coil excess material is pulled to the right aluminum coil excess material at one end and fixed by an adhesive tape, the control console 1 controls the servo motor 42 connected with the right support shaft 4 to work, the right support shaft 4 rotates the curled aluminum strip, and the aluminum strip excess material is separated from the left aluminum coil excess material, transferred and rolled on the right aluminum coil excess material.

As shown in fig. 2, after the left aluminum coil residual material is completely coiled, the corresponding shaft tube 7 is emptied for reuse, the pneumatic inner support 41 on the left support shaft 4 is loosened, the top plate 51 moves upwards to jack up the shaft tube 7, the pneumatic roller 55 moves, and the empty shaft tube 7 is taken down from the support shaft 4. The steps are repeated, the aluminum coil remainders are re-installed on the left side winding assembly 2, the right side winding assembly 2 is used for separating and collecting aluminum strips of the aluminum coil remainders, a plurality of aluminum coil remainders are collected on the right side shaft barrel 7 in a centralized and separated mode, and all the other shaft barrels 7 can be reused. And the uniformly recovered aluminum coil excess material is rolled up neatly, occupies a small space, is convenient to transport to a casting workshop for recycling, and effectively reduces the cost.

As shown in fig. 1 and 2, in the present embodiment, a hanging rack 31 is respectively disposed on the sides of the two sets of mounting bases 3 away from each other, an adhesive tape roll 32 and a cutting knife 33 are hung on the hanging rack 31, so that the adhesive tape roll 32 can be conveniently taken and used for adhering an aluminum tape, and the cutting knife 33 is convenient for cutting the adhesive tape roll 32. In addition, as shown in fig. 2, a plurality of arc-shaped supporting grooves 52 are further arranged at the upper end of the top plate 51 in an array along the length direction, the opening of each arc-shaped supporting groove 52 is upward, the arc-shaped supporting grooves are axially arranged along the axial direction of the supporting shaft 4, and the shaft barrel 7 or the aluminum coil excess material is placed in the arc-shaped supporting grooves 52, so that the stability of the shaft barrel 7 or the aluminum coil excess material is ensured. In addition, as shown in fig. 1, a material receiving rack 6 for stacking the shaft cylinder 7 and uniformly recovering the neat aluminum coil remainders is further respectively arranged on one side of each of the two sets of winding assemblies 2, a plurality of arc-shaped supporting blocks 61 with upward openings are arranged on the material receiving rack 6 in a rectangular array, and the shaft cylinder 7 or the aluminum coil remainders are placed on the arc-shaped supporting blocks 61 for limiting, so that the shaft cylinder 7 or the aluminum coil remainders are prevented from rolling and scattering.

As shown in fig. 2, a stop block 34 is arranged above the support shaft 4 on one side of the mounting seat 3 close to the support shaft 4, a stop sensor 35 in communication connection with the console 1 is embedded on one side of the stop block 34 far away from the mounting seat 3, and the stop sensor 35 is in communication control connection with a pneumatic roller 55. Move material device 5 with the aluminium book clout suit to the in-process on back shaft 4, when aluminium book clout or the one end that the beam barrel 7 is close to mount pad 3 and stop block 34 butt, stop sensor 35 feedback signal to control cabinet 1, control cabinet 1 control pneumatic roller 55 stop work, move material device 5 stop movement, can guarantee like this that the aluminium book clout in two sets of rolling subassemblies 2 can corresponding neatly separate the collection.

As shown in fig. 2, a height-limiting rod 36 which is arranged along the length direction of the support shaft 4 and is located above the support shaft 4 is further arranged at the upper end of the mounting base 3, when the scissor jack 53 works to enable the distance between the top plate 51 and the base 54 to be minimum, the vertical distance between the lower end face of the height-limiting rod 36 and the outer wall of the support shaft 4 is slightly smaller than the vertical distance between the outer wall of the support shaft 4 and the upper end face of the top plate 51, the height-limiting rod 36 can limit the amount of aluminum coil excess materials collected in a centralized manner by the centralized right-side coiling assembly 2, and the phenomenon that the aluminum coil excess materials collected in a centralized manner cannot be taken down from the support shaft 4 by the material moving device 5 is avoided.

The utility model discloses a theory of operation and application method:

two rolls of aluminum coil excess materials are moved and placed on the arc-shaped supporting grooves 52 on the corresponding top plates 51 by using a forklift or a portal frame, the control console 1 respectively controls the pneumatic rollers 55 in the two material moving devices 5 to work, and the corresponding aluminum coils are moved to the shaft cylinders 7 and sleeved on the corresponding supporting shafts 4. The console 1 then controls the pneumatic inner support 41 to open and bear against the inner wall of the corresponding shaft barrel 7, and the scissor jack 53 in the material moving device 5 on the right side works to lower the top plate 51. One end of the aluminum strip of the left aluminum coil remainder is pulled to the right aluminum coil remainder and fixed by the adhesive tape on the adhesive tape coil 32, the control console 1 controls the servo motor 42 connected with the support shaft 4 on the right side to work, the support shaft 4 on the right side rotates the curled aluminum strip, and the aluminum strip remainder is separated from the left aluminum coil remainder and transferred and wound on the right aluminum coil remainder. After the left aluminum coil excess material is completely coiled, the corresponding shaft barrel 7 is emptied, the pneumatic inner support 41 on the left support shaft 4 is loosened, the top plate 51 moves upwards to jack up the shaft barrel 7, and the pneumatic roller 55 moves to realize taking down the empty shaft barrel 7 from the support shaft 4. And repeating the steps to reload the aluminum coil remnants on the left winding component 2, and separating and collecting the aluminum strips of the aluminum coil remnants by using the right winding component 2 to realize the concentrated separation and collection of the aluminum coil remnants on the right shaft barrel 7.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. The utility model provides an aluminium book clout collection device which characterized in that: the winding device comprises two groups of winding components (2) which are arranged in bilateral symmetry and a console (1) which is in communication control connection with the winding components (2), wherein each group of winding components (2) comprises a mounting seat (3), a supporting shaft (4) which is vertical to the mounting seat (3) and is arranged horizontally in the axial direction is rotatably arranged on the mounting seat in a positioning mode, and the symmetrical axes of the two groups of winding components (2) are parallel to the supporting shaft (4); a material moving device (5) which slides along the length direction of the support shaft (4) is arranged below the support shaft (4), and the material moving device (5) is in communication control connection with the control console (1); and one sides of the two groups of mounting seats (3) which are far away from each other are provided with hanging racks (31), and adhesive tape rolls (32) and cutting knives (33) are hung on the hanging racks (31).

2. The aluminum coil scrap collecting device according to claim 1, wherein: one end circumference array that mount pad (3) were kept away from in back shaft (4) is equipped with a plurality of pneumatics and props (41), pneumatics is propped (41) in and is concentric arc structure and is connected with control cabinet (1) communication control.

3. The aluminum coil scrap collecting device according to claim 2, wherein: the material moving device (5) comprises a base (54) and a top plate (51) which are horizontally arranged along the axial direction of the supporting shaft (4), a scissor jack (53) which is in communication control connection with the console (1) is arranged between the base (54) and the top plate (51), the lower end of the scissor jack (53) is fixed on the upper end face of the base (54), and the upper end of the scissor jack is fixed on the lower end face of the top plate (51).

4. The aluminum coil scrap collecting device according to claim 3, wherein: the four corners department of base (54) lower extreme is equipped with respectively and is connected with control cabinet (1) communication control pneumatic roller (55), the axis perpendicular to back shaft (4) axial level of pneumatic roller (55) sets up, subaerial being fixed with pneumatic roller (55) cooperation and along back shaft (4) axial setting guide rail (56).

5. The aluminum coil scrap collecting device according to claim 4, wherein: the upper end of the top plate (51) is provided with a plurality of arc-shaped supporting grooves (52) in an array mode along the length direction of the top plate, and the openings of the arc-shaped supporting grooves (52) are upward and the openings of the arc-shaped supporting grooves (52) are axially arranged along the axial direction of the supporting shaft (4).

6. The aluminum coil scrap collecting device according to claim 5, wherein: one side that mount pad (3) are close to back shaft (4) is equipped with stop block (34), one side that mount pad (3) were kept away from in stop block (34) inlays and is equipped with stop sensor (35) with control cabinet (1) communication connection, just stop sensor (35) and pneumatic gyro wheel (55) communication control are connected.

7. The aluminum coil scrap collecting device according to claim 3, wherein: be equipped with limit for height pole (36) that set up along back shaft (4) length direction on mount pad (3), limit for height pole (36) are located back shaft (4) top, just perpendicular distance between terminal surface and back shaft (4) outer wall is not more than the biggest perpendicular distance between back shaft (4) outer wall and roof (51) up end under limit for height pole (36).

8. The aluminum coil scrap collecting device according to claim 1, wherein: and the two groups of winding components (2) are respectively provided with a material collecting frame (6) at one side far away from each other, and a plurality of arc-shaped supporting blocks (61) with upward openings are arranged on the material collecting frames (6) in a rectangular array manner.

Images