CN215905516U - Aluminum strip slitter edge collection device - Google Patents

Abstract

The utility model provides an aluminum strip scrap edge collecting device, which relates to the technical field of aluminum product production equipment and comprises a material receiving platform, a winding mechanism arranged on the material receiving platform and a material pressing mechanism arranged on one side of the material receiving platform; the winding mechanism comprises a sliding plate horizontally and slidably mounted on the material receiving platform, two vertically arranged supports are symmetrically arranged on the sliding plate, and the two supports are relatively slidably mounted on the sliding plate along the sliding direction of the sliding plate; the two brackets are of an L-shaped structure with downward openings and face the material pressing mechanism, one sides of the two brackets, which are close to each other, are positioned and rotatably provided with half rollers axially arranged along the sliding direction of the brackets, and the two half rollers are positioned right above the material pressing mechanism; the pressing mechanism comprises a pressing chamber located right below the half roller, a pressing plate with an outer wall abutted against the inner wall of the pressing chamber vertically slides in the pressing chamber, and a blocking cover is horizontally installed at the upper end of the pressing chamber in a sliding mode and is of an open structure, and the opening of the blocking cover is provided with a blocking cover in a sliding mode. When the aluminum strip waste edge collecting device is used, the waste edges of the aluminum strips are collected orderly, and the waste materials are convenient to discharge and transport.

Description

Aluminum strip slitter edge collection device

Technical Field

The utility model relates to the technical field of aluminum product production equipment, in particular to an aluminum strip waste edge collecting device.

Background

The aluminum strip can produce more leftover bits in the processing procedure of cutting out, cutting or cutting edge, and these leftover bits are collected and can be recycled, reduce cost, consequently cut out at the aluminum strip and add man-hour, need be equipped with collection device and collect these leftover bits. Most aluminium strip slitter edge collection device all adopts the rolling axle directly to be the web-like with the slitter edge rolling at present, but because slitter edge length is longer but the width is narrower, the easy dislocation pine is soared when the rolling, leads to the slitter edge rolling untidy. In addition, the scrap edges occupy a large space after being collected into coils, the scrap coils are not easy to detach from the winding shaft, and the scrap coils are not easy to transfer when being transferred to a smelting area for remelting.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an aluminum strip waste edge collecting device which can be used for realizing the orderly collection of aluminum strip waste edges and is convenient for blanking and transferring waste materials.

The technical purpose of the utility model is realized by the following technical scheme:

an aluminum strip scrap edge collecting device comprises a material receiving platform, a winding mechanism arranged on the material receiving platform and a material pressing mechanism arranged on one side of the material receiving platform; the winding mechanism comprises a sliding plate horizontally and slidably mounted on the material receiving platform, two vertically arranged supports are symmetrically arranged on the sliding plate, and the two supports are relatively slidably mounted on the sliding plate along the sliding direction of the sliding plate; the two supports are of an L-shaped structure with downward openings and face the material pressing mechanism, one sides of the two supports, which are close to each other, are positioned and rotatably provided with half rollers axially arranged along the sliding direction of the supports, and the two half rollers are positioned right above the material pressing mechanism; the pressing mechanism comprises a pressing chamber which is positioned under the half roller and fixed on the side wall of the material receiving platform, a pressing plate vertically slides in the pressing chamber, and the outer wall of the pressing plate is abutted against the inner wall of the pressing chamber; the upper end of the pressing chamber is of an open structure, and a blocking cover is horizontally installed at the opening of the pressing chamber in a sliding mode.

By adopting the technical scheme, the device is placed at the scrap edge discharge port of the aluminum strip, and the half roller is ensured to be vertical to the discharge direction; firstly, driving the two brackets to mutually approach and slide on the sliding plate, enabling the mutually approaching ends of the two half rollers to be abutted and combined into a winding roller for winding the waste edges, and enabling the half rollers to rotate to wind the waste edges; in the process of rotating the half roller, the sliding plate integrally slides on the material receiving platform in a reciprocating mode to drive two half rollers to synchronously reciprocate, so that the half roller rotates while reciprocates to wind the winding waste edge, the waste edge is spirally wound on the two half rollers, the waste edge winding process is prevented from overturning, the waste edge is wound into a long-roll waste roll, and the waste edge of the aluminum strip is neatly collected. When the slitter edge is about to roll up and finishes, the shifting board stops to remove and with keeping off the lid of pressing the material room opening part and move away from for pressing the material room uncovered, driving two supports and keeping away from each other on the shifting board and sliding after that, two half rollers keep away from each other like this and take out from the coil of slitter center, the coil of slitter directly drops on pressing the board in pressing the material room, realizes quick unloading. The opening that removes the fender lid and will press the material room blocks, and drive clamp plate upward movement extrudees the coil of strip, and along with the continuous motion of clamp plate, the space that the coil of strip occupied in pressing the material room is more and more littleer, and final coil of strip is extruded for more firm neat's waste material piece, is convenient for transport. The waste edge collecting device is simple in structure, waste edges are spirally wound and collected in a rotating mode while moving, the waste edges of the aluminum strip are orderly collected, the two half rollers are far away from each other, waste rolls can fall off and fall into the material pressing chamber, discharging of the waste rolls is facilitated, the waste rolls are extruded into waste blocks in the material pressing chamber, and transferring of waste materials is facilitated.

Furthermore, receive material platform up end and be equipped with rather than perpendicular and follow the base that the slide plate slip direction set up, the base up end is equipped with the dovetail that sets up along its length direction, the slide plate bottom is equipped with the forked tail piece of slidable mounting in the dovetail, just be equipped with the drive structure that the drive slide plate slided along the dovetail reciprocating on the base.

Through adopting above-mentioned technical scheme, dovetail block slidable mounting on the sliding plate is in the dovetail, and the dovetail plays direction and limiting displacement to dovetail block's slip, realizes with sliding plate slidable mounting on the base, and guarantees sliding plate movable support and half roller whole reciprocating motion's stability. Wherein, the sliding plate slidable mounting is on the base rather than slidable mounting and is receiving the material bench, and there is certain difference in height between sliding plate and the receipts material bench like this, will drive the reciprocating sliding's of sliding plate drive structure setting on the base, and more easy to assemble avoids taking place to interfere with the receipts material bench, simplifies and receives the material bench structure.

Furthermore, the driving structure comprises a driving wheel which is positioned and rotatably arranged on the side wall of the base, and the axis of the driving wheel is vertical to the length direction of the dovetail groove and is horizontally arranged; the side wall of the base is also rotatably provided with a rocker, the lower end of the rocker is rotatably arranged on the side wall of the base, and the rotating axis of the rocker is parallel to the rotating axis of the driving wheel and is positioned below the driving wheel; the outer wall of the driving wheel is provided with an eccentrically arranged clamping column, and the rocker is provided with a guide groove which is arranged along the length direction of the rocker and is matched with the clamping column; the central position of the side wall of the sliding plate along the length direction is provided with a shifting column, and the rocker is provided with a shifting groove which is arranged along the length direction and is matched with the shifting column.

Through adopting above-mentioned technical scheme, drive wheel rotates, and the card post on the drive wheel is eccentric rotation along with the drive wheel together, and under the mating reaction of the guide way on card post and the rocker, the card post drives the reciprocating swing of rocker. In the reciprocating swing process of the rocker, under the matching action of the shifting groove and the shifting column, the shifting column is driven to drive the sliding plate to slide in a reciprocating manner, namely the sliding plate is driven to drive the support and the half roller to integrally slide in a reciprocating manner, and the waste edges are moved and wound. The driving wheel in the driving structure can drive the sliding plate to slide back and forth only by rotating around one direction, the gear rotates without repeated alternation, the service life and the driving effect of the driving structure are effectively prolonged, the structure is simple, and the operation is convenient and the effect is obvious.

Furthermore, the upper end face of the sliding plate is provided with a limiting groove arranged along the sliding direction of the sliding plate, and the bottoms of the two brackets are respectively provided with a limiting block which is slidably arranged in the limiting groove; the limiting groove is internally and rotatably provided with a screw rod arranged along the length direction, the limiting blocks on the support are respectively in threaded connection with the screw rod, and the thread turning directions of the limiting blocks are opposite.

Through adopting above-mentioned technical scheme, the stopper slidable mounting of support bottom is at the spacing inslot, realizes with support slidable mounting on the board that slides, and guarantees the gliding stability of support. When two supports need to be driven to be close to or keep away from each other, the screw rod is driven to rotate positively or reversely, and under the limiting guide effect of the limiting groove on the limiting block and the threaded connection effect of the screw rod and the limiting block, the limiting block is driven to slide along the limiting groove, namely, the driving support drives the half roller to slide on the sliding plate. Wherein, because two stopper are opposite with lead screw threaded connection's screw revolve to, so at the in-process of lead screw corotation or reversal, two stopper are close to or keep away from in step, can accelerate support sliding speed like this, and it effectively simplifies structure and convenient operation.

Furthermore, two one end that half roller is close to each other is equipped with locating hole and reference column of mutually supporting respectively, the reference column outer wall is equipped with along its axial setting's card strip, the locating hole inner wall be equipped with card strip complex draw-in groove.

Through adopting above-mentioned technical scheme, when two half rollers were close to each other, the reference column inserted the reference column, and in the card strip inserted the draw-in groove, under the mating reaction of reference column and locating hole, the stability of connecting after guaranteeing two half roller combinations, and then the stability to the aluminium strip slitter edge rolling is guaranteed. Under the cooperation of card strip and draw-in groove, realize the joint between two half rollers, so long as drive half roller rotate can drive another half roller synchronous rotation, avoid two half rollers to rotate asynchronous influence to the winding rolling effect of aluminium strip slitter edge.

Furthermore, one of the half rollers is connected with a winding motor which drives the half roller to rotate and is fixed on the corresponding support, a compression roller parallel to the other half roller is arranged above the other half roller, and the compression roller is vertically and slidably mounted on the corresponding support.

By adopting the technical scheme, the winding motor drives one of the half rollers to rotate and drives the other half roller to synchronously rotate, so that the winding and winding effects on the aluminum strip waste edges are ensured. In the winding and winding process of the aluminum strip slitter edge, the compression roller is pressed on the surface of the slitter edge, the slitter edge is prevented from overturning, and the neatness of the slitter edge winding is ensured. Along with the coil of strip rolling external diameter is bigger and bigger, the compression roller is followed the vertical slip of support, guarantees that the compression roller can support all the time and carry on spacingly at the slitter edge outer wall to it, and its simple structure and effect are obvious.

Furthermore, a bearing seat is arranged at one end of the compression roller, a vertical abdicating groove is arranged on the corresponding support, and the bearing seat is vertically and slidably arranged in the abdicating groove; the telescopic link that is equipped with vertical setting between the bearing frame bottom and the groove diapire of stepping down, just the telescopic link overcoat is equipped with the straining spring that both ends were fixed respectively in the bearing frame bottom and on the groove diapire of stepping down.

Through adopting above-mentioned technical scheme, the bearing frame vertical sliding is in the inslot of stepping down, realizes installing the vertical slidable mounting of compression roller on the support. In a normal state, under the tensioning action of a tensioning spring, the outer wall of the compression roller is close to the outer wall of the corresponding half roller; when rolling aluminium strip slitter edge, compression roller outer wall and the butt of slitter edge outer wall, and along with the slitter edge external diameter is bigger and bigger, the compression roller by jack-up that makes progress, nevertheless under the tensile force effect of taut spring, guarantee the compression roller all the time with the slitter edge butt. Wherein, the tensioning spring cover is established outside the telescopic link, and the telescopic link plays spacing guard action to tensioning spring, avoids tensioning spring to take place radial deformation after long-time the use, guarantees tensioning spring's life.

Furthermore, one side of the material receiving platform close to the material pressing chamber is provided with a guide rail which is horizontally arranged in a direction perpendicular to the sliding direction of the sliding plate, the guide rail is symmetrically arranged on two sides of the material pressing chamber, the openings of the guide rail are opposite, and the blocking cover is provided with a guide block which is slidably arranged in the guide rail.

Through adopting above-mentioned technical scheme, guide block slidable mounting realizes with fender lid slidable mounting on the guide rail in the guide rail, and the opening of guide rail is relative, and the fender lid can only follow the horizontal slip of guide rail like this, avoids keeping off the lid and is backed up when the clamp plate rebound extrudees the useless book. Wherein, the guide rail is fixed at receiving the material bench, and the room of pressing is also fixed at receiving the material bench, and swager constructs like this and receives the integrative setting of material bench, need not extra debugging installation, as long as with this device removal install can use at aluminium strip slitter edge discharge gate, convenient province trouble.

In conclusion, the utility model has the following beneficial effects:

1. the winding mechanism is arranged on the material receiving platform, the material pressing mechanism is arranged on one side of the material receiving platform, the winding mechanism winds and winds the aluminum strip waste edges, and the waste rolls directly fall into the material pressing mechanism after winding is finished and are extruded into waste blocks by the material pressing mechanism, so that the volume of the waste materials is reduced, the regularity of the waste materials is ensured, and the waste materials are convenient to transport;

2. the winding mechanism comprises a sliding plate which is arranged on the material receiving platform in a reciprocating sliding mode, two supports which are symmetrically arranged are arranged on the sliding plate in a sliding mode, one side, close to each other, of each support is provided with a half roller, the two supports are close to each other, so that the two half rollers combine a winding shaft for winding waste edges, the waste edges are wound by the rotation of the half rollers, the supports and the half rollers are driven to reciprocate by the sliding plate, the half rollers rotate and reciprocate at the same time, spiral winding and winding of the waste edges are achieved, the waste edges are wound in order, and the outer diameters of waste rolls are reduced when the waste edges with the same length are wound; in addition, after the slitter edge rolling is finished, the two supports are driven to drive the half rollers to be away from each other, so that the slitter edge can directly fall into the material pressing chamber, the blanking is convenient, and the manual disassembly and the carrying are not needed.

Drawings

FIG. 1 is a schematic view of the front view of an aluminum strip scrap edge collecting device;

FIG. 2 is a schematic rear view of an aluminum strip scrap edge collecting apparatus;

fig. 3 is a partial cross-sectional view of an aluminum strip scrap edge collection apparatus.

In the figure, 1, a material receiving platform; 2. a winding mechanism; 3. a material pressing mechanism; 4. a base; 41. a dovetail groove; 42. a drive wheel; 421. clamping the column; 43. a reciprocating motor; 44. a rocker; 441. a guide groove; 442. a groove is poked; 5. a slide plate; 51. a dovetail block; 52. column shifting; 53. a limiting groove; 54. a screw rod; 55. a servo motor; 6. a support; 61. a limiting block; 62. a yielding groove; 63. a compression roller; 64. a bearing seat; 65. a telescopic rod; 66. tensioning the spring; 7. half a roll; 71. positioning holes; 711. a card slot; 72. a positioning column; 721. clamping the strip; 73. a winding motor; 8. a material pressing chamber; 81. pressing a plate; 811. a material pressing cylinder; 82. a blocking cover; 821. a guide block; 822. a pressure sensor; 83. a guide rail; 84. a screw; 85. and a cover moving motor.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The utility model provides an aluminium strip slitter edge collection device, as shown in figure 1, is equipped with the winding mechanism 2 that is used for rolling aluminium strip slitter edge including receiving material platform 1, receiving 1 up end of material platform, is equipped with the swager constructs 3 that is used for pressing the material to the coil of slitter edge that winding mechanism 2 rolling was accomplished in receiving material platform 1 one side and handles.

As shown in fig. 1, in the present embodiment, a base 4 is provided on the upper end surface of the material receiving table 1, the base being perpendicular to the material receiving table and being provided along the longitudinal direction of the material receiving table 1, and a slide plate 5 is provided on the upper end surface of the base 4, the slide plate being horizontally provided and sliding along the longitudinal direction of the slide plate. Two vertically arranged supports 6 are symmetrically arranged on the upper end face of the sliding plate 5, the two supports 6 are of L-shaped structures with openings facing downwards and facing the material pressing mechanism 3, and the bottoms of the two supports 6 are slidably mounted on the sliding plate 5 along the sliding direction of the sliding plate 5. One side that two supports 6 are close to each other is equipped with the half roller 7 that the axial set up along 5 slip directions of slide plate, and two half rollers 7 are located swager constructs 3 directly over.

As shown in fig. 2, a positioning hole 71 and a positioning column 72 which are matched with each other are respectively arranged at one end of each of the two half rollers 7 close to each other, a clamping strip 721 arranged along the axial direction of the positioning column 72 is arranged on the outer wall of the positioning column 72, a clamping groove 711 matched with the clamping strip 721 is arranged on the inner wall of the positioning hole 71, and the clamping connection of the two half rollers 7 is realized under the matching action of the clamping strip 721 and the clamping groove 711. One of the half rollers 7 is connected with a winding motor 73 which drives the half roller 7 to rotate and is fixed on the corresponding support 6, and the winding motor 73 drives the corresponding half roller 7 to rotate so as to drive the other half roller 7 to synchronously rotate.

As shown in figures 1 and 2, the device is placed at the scrap edge discharge port of the aluminum strip, and the half roller 7 is ensured to be vertical to the discharge direction. The two supports 6 are driven to slide close to each other on the sliding plate 5, so that the positioning columns 72 on the two half rollers 7 are inserted into the positioning holes 71, the clamping strips 721 are clamped into the clamping grooves 711, the two pressing rollers 63 are clamped and combined into the winding roller for winding the waste edges, and the winding motor 73 drives the half rollers 7 to rotate to wind the waste edges. At half roller 7 pivoted in-process, the whole reciprocating sliding on base 4 of slide plate 5 drives two half roller 7 synchronous reciprocating motion promptly, and half roller 7 rotates while reciprocating motion winding rolling slitter edge like this, and the slitter edge is the heliciform winding on two half rollers 7, avoids slitter edge rolling in-process to tumble, and is the slitter edge of long book with the slitter edge rolling, reduces the slitter edge external diameter under the certain circumstances of slitter edge length, realizes the neat collection to the aluminium strip slitter edge. When the slitter edge is about to roll up and finishes, the shifting board 5 stops moving, drives two supports 6 to keep away from each other and slide on the shifting board 5, and two half rollers 7 keep away from each other like this and take out from the coil scrap center, and the coil scrap directly falls in pressing material mechanism 3, realizes quick unloading, and pressing material mechanism 3 press the material to the coil scrap and handle can.

As shown in fig. 1 or fig. 2, in order to slidably mount the sliding plate 5 on the base 4 and drive the sliding plate 5 to drive the bracket 6 to slide back and forth, a dovetail groove 41 is provided on the upper end surface of the base 4 along the longitudinal direction thereof, a dovetail block 51 slidably mounted in the dovetail groove 41 is provided at the bottom of the sliding plate 5, and the stability of the sliding plate 5 on the base 4 is ensured by the cooperation of the dovetail block 51 and the dovetail groove 41. A driving structure for driving the sliding plate 5 to slide back and forth along the dovetail groove 41 is further arranged on the base 4, the driving structure is used for driving the sliding plate 5 to drive the support 6 to slide back and forth on the bottom plate, and the purpose that the half roller 7 rotates and moves back and forth to receive materials spirally is achieved.

As shown in fig. 1 and 2, in the present embodiment, the driving structure includes a driving wheel 42 rotatably fixed on the side wall of the base 4, the axis of the driving wheel 42 is horizontally arranged perpendicular to the length direction of the dovetail groove 41, and the driving wheel 42 is connected with a reciprocating motor 43 for driving the driving wheel 42 to rotate. A rocker 44 is rotatably mounted on the side wall of the base 4 where the driving wheel 42 is arranged, the lower end of the rocker 44 is rotatably mounted on the side wall of the base 4, the rotation axis of the rocker 44 is parallel to the rotation axis of the driving wheel 42, and the rotation center of the rocker is positioned below the driving wheel 42. The driving wheel 42 is provided with an eccentrically arranged clamping column 421 on the outer wall close to the pressure lever, the rocker 44 is provided with a guide groove 441 which is arranged along the length direction and is matched with the clamping column 421, and the clamping column 421 is positioned in the guide groove 441. The side wall of the sliding plate 5 close to the driving wheel 42 is provided with a shifting column 52 at the center position in the length direction, the rocker 44 is provided with a shifting groove 442 which is arranged along the length direction and is matched with the shifting column 52, and the shifting groove 442 is positioned above the guide groove 441.

As shown in fig. 1 and 2, the reciprocating motor 43 drives the driving wheel 42 to rotate, the locking pin 421 on the driving wheel 42 eccentrically rotates along with the driving wheel 42, and the locking pin 421 drives the rocking bar 44 to swing back and forth under the cooperation of the locking pin 421 and the guiding groove 441 on the rocking bar 44. In the process of reciprocating swing of the rocker 44, under the matching action of the shifting groove 442 and the shifting column 52, the shifting column 52 is driven to drive the sliding plate 5 to slide in a reciprocating manner, namely the sliding plate 5 is driven to drive the support 6 and the half roller 7 to integrally slide in a reciprocating manner, and the waste edge is moved and wound. Wherein, the driving wheel 42 can drive the sliding plate 5 to move back and forth by rotating along one direction, the reciprocating motor 43 does not need to be frequently reversed, and the service life of the reciprocating motor 43 is effectively prolonged.

As shown in fig. 1 or fig. 2, in order to slidably mount the two brackets 6 on the sliding plate 5 and drive the brackets 6 to slide on the sliding plate 5 in a reciprocating manner, a limiting groove 53 is formed in the upper end surface of the sliding plate 5 along the sliding direction of the sliding plate, and limiting blocks 61 slidably mounted in the limiting grooves 53 are respectively arranged at the bottoms of the two brackets 6, so as to ensure the stability of the sliding of the brackets 6 on the sliding plate 5. A screw rod 54 arranged along the length direction of the limiting groove 53 is also positioned and rotatably arranged in the limiting groove 53, and one end of the screw rod 54 extends out of the limiting groove 53 and is connected with a servo motor 55 for driving the screw rod to rotate; the limiting blocks 61 on the two brackets 6 are respectively in threaded connection with the screw rod 54, and the thread turning directions are opposite.

As shown in fig. 1 or fig. 2, the servo motor 55 drives the screw rod 54 to rotate forward or backward, and under the limiting and guiding effect of the limiting groove 53 on the limiting block 61 and the threaded connection effect of the screw rod 54 and the limiting block 61, the limiting block 61 is driven to slide along the limiting groove 53, that is, the driving support 6 drives the half roller 7 to slide on the sliding plate 5. Because the thread screwing directions of the two limit blocks 61 and the screw rod 54 in threaded connection are opposite, the two limit blocks 61 are synchronously close to or far away from each other in the process of forward rotation or reverse rotation of the screw rod 54, and the speed of mutually closing to or far away from the two supports 6 is accelerated.

As shown in fig. 1 and 3, in order to further ensure the neatness of the waste selvedge winding, a pressing roller 63 parallel to the half roller 7 is arranged above the half roller 7 which is not connected with the winding motor 73, and the length of the pressing roller 63 is larger than that of the half roller 7. A bearing seat 64 is arranged at one end of the pressing roller 63 far away from the winding motor 73, and the pressing roller 63 is positioned and rotatably arranged on the bearing seat 64; the side wall of the support 6 close to the bearing seat 64 is provided with a vertical abdicating groove 62, the bearing seat 64 is slidably mounted in the abdicating groove 62, so that the pressing roller 63 is vertically slidably mounted on the support 6. A vertically arranged telescopic rod 65 is arranged between the bottom of the bearing seat 64 and the bottom wall of the abdicating groove 62, and a tension spring 66 with two ends fixed on the bottom of the bearing seat 64 and the bottom wall of the abdicating groove 62 is sleeved outside the telescopic rod 65.

As shown in fig. 3, in a normal state, under the tensioning action of the tensioning spring 66, the outer wall of the press roller 63 is close to the outer wall of the corresponding half roller 7; when rolling aluminium strip slitter edge, compression roller 63 outer wall and slitter edge outer wall butt, and along with the slitter edge external diameter is bigger and bigger, compression roller 63 is by jack-up that makes progress, nevertheless under the tensile force effect of taut spring 66, guarantees compression roller 63 all the time with the slitter edge butt, and then avoids overturning at rolling in-process slitter edge, guarantees the regularity and the security of slitter edge rolling. Wherein, the tensioning spring 66 cover is established outside telescopic link 65, and telescopic link 65 plays spacing guard action to tensioning spring 66, avoids tensioning spring 66 to take place radial deformation after using for a long time, guarantees tensioning spring 66's life.

As shown in fig. 3, in the present embodiment, the pressing mechanism 3 includes a pressing chamber 8 located right below the half roller 7 and fixed on the side wall of the material receiving platform 1, a pressing plate 81 vertically slides in the pressing chamber 8, and the outer wall of the pressing plate 81 abuts against the inner wall of the pressing chamber 8. The upper end and the lower end of the pressing chamber 8 are both of an open structure, the lower end face of the pressing plate 81 is connected with a pressing cylinder 811 which is vertically arranged and fixed on the material receiving platform 1, and a piston rod of the pressing cylinder 811 extends into the pressing chamber 8 and is fixedly connected with the lower end face of the pressing plate 81. A blocking cover 82 is horizontally and slidably mounted at an opening at the upper end of the material pressing chamber 8, a guide rail 83 which is horizontally arranged perpendicular to the sliding direction of the sliding plate 5 is arranged on one side of the material receiving platform 1 close to the material pressing chamber 8, the guide rails 83 are symmetrically arranged on two sides of the material pressing chamber 8, the openings of the guide rails are opposite, and a guide block 821 which is slidably mounted in the guide rail 83 is arranged on the blocking cover 82, so that the blocking cover 82 is slidably mounted in the guide rail 83. A screw 84 is rotatably and internally installed in one of the guide rails 83 along the length direction thereof, a guide block 821 in the guide rail 83 is in threaded connection with the screw 84, and one end of the screw 84 extending out of the guide rail 83 is connected with a cover moving motor 85 for driving the screw to rotate.

As shown in fig. 1 and 3, before the two supports 6 are driven to move away from each other for blanking, the cover moving motor 85 drives the screw rod 84 to rotate, and under the limiting and guiding effects of the guide rail 83 on the guide block 821 and the threaded connection effect of the screw rod 84 and the guide block 821, the guide block 821 is driven to move in the guide rail 83, and the blocking cover 82 is moved away from the opening at the upper end of the material pressing chamber 8. The servo motor 55 works to drive the two brackets 6 to be away from each other, the two half rollers 7 are drawn out from the center of the waste roll, and the waste roll directly falls onto the pressing plate 81 in the pressing chamber 8. Move lid motor 85 reversal drive and keep off lid 82 and reset and cover the opening of pressing material room 8, press material cylinder 811 to drive clamp plate 81 rebound extrusion waste roll, along with the continuous motion of clamp plate 81, the space that the waste roll occupied in pressing material room 8 is more and more littleer, and final waste roll is extruded for more firm orderly waste material piece, reduces the volume and guarantees regularity, the transportation of the waste material of being convenient for.

As shown in fig. 3, a pressure sensor 822 is embedded in the blocking cover 82, the pressure sensor 822 is in communication control connection with the cover moving motor 85, and when the pressure sensor 822 reaches a set value, the cover moving motor 85 is controlled to operate to move the blocking cover 82 away from the opening at the upper end of the pressing chamber 8, so that the pressing plate 81 continues to move upwards to eject the waste material block out of the pressing chamber 8.

The working principle and the using method of the utility model are as follows:

place this device in aluminium strip slitter edge discharge gate department, and guarantee that half roller 7 is perpendicular with ejection of compact direction. The servo motor 55 drives the screw rod 54 to rotate, the two supports 6 are driven to slide on the sliding plate 5 close to each other, the positioning columns 72 on the two half rollers 7 are inserted into the positioning holes 71, the clamping strips 721 are clamped into the clamping grooves 711, the two pressing rollers 63 are clamped and combined into the winding roller for winding waste edges, and the winding motor 73 drives the half rollers 7 to rotate for winding the waste edges. At half roller 7 pivoted in-process, reciprocating motor 43 drive wheel 42 rotates, and then drives slide 5 through the driving lever and drive two half roller 7 synchronous reciprocating motion, and half roller 7 rotates like this and twines the winding slitter edge of reciprocating motion, and the slitter edge is the heliciform winding on two half roller 7, and at slitter edge rolling in-process compression roller 63 all the time with the butt of slitter edge outer wall, avoids slitter edge rolling in-process to overturn, realizes the neat collection to the aluminium strip slitter edge.

When the waste edge is to be rolled, the reciprocating motor 43 stops working, the sliding plate 5 stops moving, and the cover moving motor 85 works at the same time, so that the blocking cover 82 is moved away from the opening at the upper end of the material pressing chamber 8. The servo motor 55 works to drive the two brackets 6 to be away from each other, the two half rollers 7 are drawn out from the center of the waste roll, and the waste roll directly falls onto the pressing plate 81 in the pressing chamber 8. Cover moving motor 85 rotates reversely to drive blocking cover 82 to reset and cover the opening of pressing chamber 8, pressing cylinder 811 drives pressing plate 81 to move upwards to extrude waste rolls, along with the continuous movement of pressing plate 81, the space occupied by waste rolls in pressing chamber 8 is smaller and smaller, and finally waste rolls are extruded into solid and tidy waste blocks. When the pressure sensor 822 reaches the set value, the cover moving motor 85 is controlled to operate to move the blocking cover 82 away from the upper opening of the pressing chamber 8, so that the pressing plate 81 continues to move upwards to eject the waste material block out of the pressing chamber 8.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the utility model 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. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. The utility model provides an aluminium strip slitter edge collection device which characterized in that: comprises a material receiving platform (1), a winding mechanism (2) arranged on the material receiving platform (1) and a material pressing mechanism (3) arranged on one side of the material receiving platform (1); the winding mechanism (2) comprises a sliding plate (5) which is horizontally and slidably mounted on the material receiving platform (1), two vertically arranged supports (6) are symmetrically arranged on the sliding plate (5), and the two supports (6) are relatively slidably mounted on the sliding plate (5) along the sliding direction of the sliding plate (5); the two supports (6) are of an L-shaped structure with downward openings and face the material pressing mechanism (3), one side, close to each other, of each support (6) is provided with a half roller (7) in a positioning and rotating mode, the half roller (7) is axially arranged along the sliding direction of the support (6), and the half rollers (7) are located right above the material pressing mechanism (3); the pressing mechanism (3) comprises a pressing chamber (8) which is positioned under the half roller (7) and fixed on the side wall of the material receiving platform (1), a pressing plate (81) vertically slides in the pressing chamber (8), and the outer wall of the pressing plate (81) is abutted to the inner wall of the pressing chamber (8); the upper end of the material pressing chamber (8) is of an open structure, and a blocking cover (82) is horizontally installed at the opening in a sliding mode.

2. The aluminum strip scrap edge collection apparatus according to claim 1, wherein: receive material platform (1) up end and be equipped with base (4) that sets up rather than perpendicular and along sliding plate (5) slip direction, base (4) up end is equipped with dovetail (41) that set up along its length direction, sliding plate (5) bottom is equipped with dovetail block (51) of slidable mounting in dovetail (41), just be equipped with drive sliding plate (5) along dovetail (41) reciprocating sliding's drive structure on base (4).

3. The aluminum strip scrap edge collection apparatus according to claim 2, wherein: the driving structure comprises a driving wheel (42) which is positioned and rotatably arranged on the side wall of the base (4), and the axis of the driving wheel (42) is vertical to the length direction of the dovetail groove (41) and is horizontally arranged; the side wall of the base (4) is also rotatably provided with a rocker (44), the lower end of the rocker (44) is rotatably arranged on the side wall of the base (4), and the rotating axis of the rocker (44) is parallel to the rotating axis of the driving wheel (42) and is positioned below the driving wheel (42); the outer wall of the driving wheel (42) is provided with an eccentrically arranged clamping column (421), and the rocker (44) is provided with a guide groove (441) which is arranged along the length direction and matched with the clamping column (421); the central position of slide block (5) lateral wall along its length direction is equipped with dials post (52), be equipped with on rocker (44) along its length direction set up and with dial post (52) complex group groove (442).

4. The aluminum strip scrap edge collecting apparatus in accordance with any one of claims 1 to 3, wherein: the upper end surface of the sliding plate (5) is provided with a limiting groove (53) arranged along the sliding direction of the sliding plate, and the bottoms of the two brackets (6) are respectively provided with a limiting block (61) which is arranged in the limiting groove (53) in a sliding manner; the screw rod (54) arranged along the length direction of the limiting groove (53) is positioned and rotatably installed in the limiting groove (53), the limiting blocks (61) on the two supports (6) are in threaded connection with the screw rod (54) respectively, and the thread turning directions of the limiting blocks are opposite.

5. The aluminum strip scrap edge collection apparatus according to claim 1, wherein: one end of each of the two half rollers (7) close to each other is provided with a positioning hole (71) and a positioning column (72) which are matched with each other, the outer wall of each positioning column (72) is provided with a clamping strip (721) which is arranged along the axial direction of the positioning column, and the inner wall of each positioning hole (71) is provided with a clamping groove (711) which is matched with the clamping strip (721).

6. The aluminum strip scrap edge collection apparatus according to claim 5, wherein: one of the half rollers (7) is connected with a winding motor (73) which drives the half roller to rotate and is fixed on the corresponding support (6), a pressing roller (63) which is parallel to the other half roller is arranged above the other half roller (7), and the pressing roller (63) is vertically and slidably mounted on the corresponding support (6).

7. The aluminum strip scrap edge collection apparatus according to claim 6, wherein: a bearing seat (64) is arranged at one end of the pressing roller (63), a vertical abdicating groove (62) is arranged on the corresponding support (6), and the bearing seat (64) is vertically and slidably arranged in the abdicating groove (62); the telescopic link (65) that are equipped with vertical setting between bearing frame (64) bottom and the groove of stepping down (62) diapire, just telescopic link (65) overcoat is equipped with straining spring (66) that both ends are fixed respectively on bearing frame (64) bottom and the groove of stepping down (62) diapire.

8. The aluminum strip scrap edge collection apparatus according to claim 1, wherein: one side of the material receiving platform (1) close to the material pressing chamber (8) is provided with a guide rail (83) which is horizontally arranged in a direction perpendicular to the sliding direction of the sliding plate (5), the guide rail (83) is symmetrically arranged on two sides of the material pressing chamber (8) and has opposite openings, and the blocking cover (82) is provided with a guide block (821) which is slidably arranged in the guide rail (83).

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