CN218319778U - Aluminum strip coil rewinding machine - Google Patents

Abstract

The utility model relates to a rewinding machine technical field, concretely relates to aluminium strip coil rewinding machine, the technical problem who aims at solving lies in overcoming the defect of rewinding in-process among the prior art, mainly can realize through following technical scheme: an aluminum strip coil rewinding machine comprises a rack, a material placing frame, a feeding part, a material pressing part and a material receiving part, wherein the feeding part comprises a plurality of feeding rollers and limiting rollers, and a material buffering area is arranged between the feeding rollers and the limiting rollers; the material pressing part comprises a leading-in part, a material pressing part and a deviation rectifying part, the material collecting part comprises a plurality of material conveying rollers, material collecting rollers and a tightening part, a transmission part is further connected onto the material conveying rollers, unwinding and rewinding of an aluminum tape roll are achieved through the continuous process of discharging, material pressing and material collecting, a limiting roller is arranged in the unwinding process, the edge is guaranteed to be neat, the deviation rectifying part is arranged after material pressing is completed, the position deviation of the aluminum tape is avoided, the material collecting is continuously pressed and extruded to collect the material, the combination between the aluminum tapes is guaranteed to be tight, and gaps between the aluminum tapes are reduced.

Description

Aluminum strip coil rewinding machine

Technical Field

The utility model relates to a rewinding machine technical field, concretely relates to aluminium strip coils rewinding machine.

Background

The rewinding machine can unwind the directly wound coiled material and then rewind the coiled material to wind the coiled material meeting the requirements. In the working procedure of coil processing, most of coils need to be subjected to subsequent finishing after being subjected to a slitting process, in order to ensure that the slit coils meet the requirements of process indexes, poor products need to be rewound and rewound respectively, so that the poor coils such as bending and wrinkling are reprocessed, and the products are qualified.

In the prior art, the operation of the rewinding machine is time-consuming, the manual adjustment is needed to limit the position, and for aluminum strip coils with different sizes, a machine is needed to be continuously adjusted to ensure the stability and the neat edge in the rewinding process in the process of unwinding and rewinding; the aluminum strip coil is very easy to be placed and deviated in the material pressing process, and meanwhile, the material pressing force is not easy to master in the material pressing process and the surface is easy to be extruded and damaged, so that the quality of a final finished product has certain defects; when the aluminum strip coils are wound, tight lamination cannot be carried out between the aluminum strips, and the winding degree and the winding effect are extremely easy to influence.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming the defect of the in-process of backrush among the prior art to a machine of backrush is rolled up to aluminium strip is provided.

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

the utility model provides an aluminium strip coils rewinding machine, includes frame and blowing frame, the blowing frame sets up at the frame front end, the blowing that is provided with the blowing of raw materials roller and drive raw materials roller blowing on the blowing frame moves the piece, still includes:

the feeding part is arranged on the rack and comprises a plurality of feeding rollers and limiting rollers which are arranged in a staggered mode, the feeding rollers and the limiting rollers are positioned and rotatably installed on the rack, the axial lines of the feeding rollers and the limiting rollers are perpendicular to the side face of the rack, and a buffering area is arranged between the feeding rollers and the limiting rollers;

the pressing part is arranged on the rack, the pressing part is arranged on one side of the feeding part, which is far away from the discharging frame, the pressing part comprises a guide-in part, a pressing part and a deviation correcting part which are sequentially arranged, the guide-in part is arranged at the front end of the pressing part, the pressing part comprises an upper pressing block and a lower pressing block, and the lower pressing block is vertically arranged on the rack in a sliding manner;

receive the material part, receive the material part setting in the frame, receive the material part and include a plurality of biography material roller, receipts material roller and support tight piece that transversely set up in the frame side by side, it is close to the setting of pressure material part to pass the material roller, receive the material roller setting and keep away from one side of pressing the material part at passing the material roller, pass the material roller and receive the material roller location rotation and install in the frame, it sets up in receipts material roller one side top to support the piece, it still is connected with the driving medium on the material roller to pass.

By adopting the technical scheme, the aluminum strip coil is firstly sleeved on the raw material roller, is uncoiled to the feeding part by the raw material roller, is conveyed by the feeding roller, the feeding speed is adjusted in the material buffering area according to the bottom position of the aluminum strip, and the limit roller limits the width of the aluminum strip so that the side edge of the aluminum strip can smoothly enter the material pressing part; the aluminum strip is introduced into the pressing part by the introduction part, the aluminum strip is pressed and integrated by the pressing part, the original winding curl is flattened so as to be convenient for subsequent rewinding, the aluminum strip basically cannot deflect in the flattening process, the pressing part continues to convey the aluminum strip after being flattened, and the angle of the aluminum strip is adjusted by the deviation correcting part in the conveying process; pressing the material and rectifying and getting into and receive the material part after accomplishing, passing the material roller and carrying the aluminium strip and get into and receive the material roller, receive the material roller and constantly receive when material the laminating between piece with the aluminium strip inseparable, ensure the rolling effect.

The aluminum strip coiling machine has the advantages that uncoiling and rewinding of an aluminum strip coil are achieved through the continuous process of discharging, pressing and receiving, so that the coiling quality of a final finished product is guaranteed, the limiting roller is arranged in the uncoiling process, the edge is guaranteed to be neat, the deviation rectifying piece is arranged after pressing is completed, the aluminum strip is prevented from being displaced, the aluminum strip is continuously supported tightly to extrude and receive the aluminum strip when the aluminum strip is received, combination among the aluminum strips is guaranteed to be tight, gaps among the aluminum strips are reduced, and the coiling quality is prevented from being influenced.

Further, the feeding roller comprises a material guiding roller, a first guiding roller and a second guiding roller which are vertically arranged in parallel, the material guiding roller is arranged close to the material placing frame, the diameter of the material guiding roller is larger than that of the first guiding roller and that of the second guiding roller, and the diameters of the first guiding roller and the second guiding roller are consistent; the limiting roller comprises a roller body, a roller body and limiting rings at two ends of the roller body, the roller body is sleeved with the roller body, the limiting rings are arranged at two ends of the roller body and are in threaded connection with the roller body, and the diameter of each limiting ring is larger than that of the roller body.

Through adopting above-mentioned technical scheme, the aluminium strip is drawn forth by the blowing frame, gets into through the material guide roller and tentatively presses between first guide roller and the second guide roller, later gets into spacing roller, and the width position of aluminium strip is injectd to the spacing ring at roll body both ends, through injecing aluminium strip both sides, guarantees that the aluminium strip edge is neat in the transportation.

Furthermore, a plurality of altitude sensors are vertically arranged in the material buffering area, the altitude sensor is arranged in the middle of the material buffering area, the altitude sensor is fixedly arranged on the side face of the rack and is in signal control connection with the material discharging moving piece, and the altitude sensor comprises a high-level sensor and a low-level sensor.

By adopting the technical scheme, the material buffering area is used for monitoring the speed of the aluminum strip during unwinding and material receiving, and when the high-position sensor detects the aluminum strip, the winding speed is higher than the unwinding speed, so that the unwinding speed is controlled to be increased; the low-position sensor detects that the aluminum strip is, the rolling speed is smaller than the unreeling speed, and therefore the unreeling speed is controlled to be reduced.

Further, the leading-in piece is including the leading-in board that sets up in pairs and erasing the board, the leading-in board is the arcuation and fixes the one side of pressing the material piece to be close to the pay-off part, it is U type and opening part and leading-in integrated circuit board to connect to erase the board, it still is fixed with and erases cloth to erase the relative interior bottom surface of board, go up the briquetting and still be provided with the loss prevention cloth on the relative side of lower briquetting.

Through adopting above-mentioned technical scheme, when the aluminium strip got into to press the material piece to press the material, wipe upper surface and lower surface dust through erasing the board earlier, erase board and leading-in board joint, be convenient for erase the washing of board and change, go up the briquetting and avoid damaging the aluminium strip surface when the extrusion with the loss prevention cloth in the lower briquetting, influence aluminium strip quality.

Furthermore, the piece of rectifying is including rectifying movable part and indicator, the indicator is close to the terminal setting of pressure material piece, the indicator includes the dead lever and rotates the indicator lever that sets up on the dead lever, the indicator lever is including the solid fixed ring of cover on the dead lever and rotate the rotor plate of connection in solid fixed ring below, the rotor plate normality is parallel with the frame side.

Through adopting above-mentioned technical scheme, the piece control aluminium strip parallel transmission all the time of rectifying, the indicator shows the aluminium strip current transport state, judges partially in the observation.

Furthermore, the deviation rectifying moving part comprises deviation rectifying push blocks which are arranged oppositely, the deviation rectifying push blocks are U-shaped, openings of the deviation rectifying push blocks are arranged oppositely, and one sides, far away from each other, of the deviation rectifying push blocks are respectively connected with a pushing motor.

Through adopting above-mentioned technical scheme, according to the instruction of indicator, the push motor of control one side promotes the ejector pad of rectifying to with the aluminium strip normal position of replying, ensure the steady transportation of aluminium strip.

Further, receive the material roller including receiving the material movable roller and receiving the material and changeing the roller, receive the material movable roller and be close to the biography material roller setting, receive the material movable roller and still be connected with telescopic cylinder, telescopic cylinder fixes in the frame side, telescopic cylinder control is received the material movable roller and is transversely slided in the frame, receive the centre of a circle setting of material movable roller and receive the centre of a circle below of material movable roller.

By adopting the technical scheme, the receiving rotary roller receives the material and then controls the receiving movable roller and the receiving rotary roller according to the winding thickness of the aluminum strip, and the circle center of the receiving movable roller is arranged below the circle center of the receiving rotary roller to avoid the receiving movable roller to extrude and touch the side surface of the wound aluminum strip.

Furthermore, the abutting part comprises an abutting roller and an abutting part, the abutting part drives the abutting roller to move, the axis of the abutting roller is parallel to the axis of the receiving roller, the abutting part comprises a receiving gear which is coaxially arranged with the receiving roller, an abutting gear which is meshed with the receiving gear, an abutting column which penetrates through the axis of the abutting gear and an abutting block which is in threaded connection with the abutting column, the abutting block is sleeved on the abutting column, the abutting block extends to form an extending block for positioning and rotating the abutting roller, the receiving gear and the abutting gear are bevel gears with vertical axes, and the abutting column is axially vertical to the receiving roller.

Through adopting above-mentioned technical scheme, receive during the rolling and expect that the roller rotates and drive and receive the material gear rotation, receive the material gear and support tight gear meshing to drive and support tight post location and rotate, because support tight piece and support tight post threaded connection, consequently support tight piece and transversely slide on supporting tight post, thereby according to coiling thickness, control is supported tight roller and is kept away from gradually and receive the material roller centre of a circle but still supports tightly on the aluminium strip surface of coiling all the time.

To sum up, the utility model discloses technical scheme has following advantage:

1. the utility model provides an aluminium strip coil rewinding machine through blowing-pressing-receiving the continuous process of material, realizes unreeling and coiling again of aluminium strip coil to guarantee final off-the-shelf lapping quality, unreeling the in-process and set up spacing roller, guarantee that the edge is neat, set up the piece of rectifying after pressing the material and accomplish, avoid aluminium strip offset, receive the material and constantly support tight extrusion simultaneously and receive the material, ensure that the combination is inseparable between the aluminium strip, reduce space between the aluminium strip, avoid influencing the lapping quality.

2. The utility model provides an aluminium strip coil rewinding machine receives the material during rolling and changes roller rotation and drive and receive the material gear rotation, receives the material gear and supports tight gear engagement to the drive supports tight post location and rotates, owing to support tight piece and support tight post threaded connection, consequently supports tight piece and transversely slides on supporting tight post, thereby according to coiling thickness, the control is supported tight roller and is kept away from gradually and receive the material and change the roller centre of a circle but still support tightly all the time at the aluminium strip surface of coiling.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of an aluminum strip coil rewinding machine according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a feeding member according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a deviation rectifying member according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a material receiving member according to an embodiment of the present invention.

Description of reference numerals:

1. a frame; 2. a material placing frame; 21. a raw material roller; 22. a discharging moving piece; 3. a feeding part; 31. a feed roller; 311. a material guiding roller; 312. a first guide roller; 313. a second guide roller; 32. a limiting roller; 321. a roller body; 322. a roller; 323. a limiting ring; 33. a material buffering area; 331. a height sensor; 3311. a high-level sensor; 3312. a low-level sensor; 4. a material pressing part; 41. a lead-in member; 411. a guide-in plate; 412. erasing the plate; 4121. wiping cloth; 42. pressing the material; 421. pressing the blocks; 422. pressing the block; 423. preventing cloth from being damaged; 43. a deviation correcting member; 431. a deviation rectifying moving part; 4311. a deviation rectifying push block; 4312. a push motor; 432. an indicator; 4321. fixing the rod; 4322. an indication lever; 43221. a fixing ring; 43222. a rotating plate; 5. a receiving member; 51. a material conveying roller; 511. a transmission member; 52. a material receiving roller; 521. a material receiving moving roller; 5211. a telescopic cylinder; 522. a material receiving roller; 6. an abutting piece; 61. a tightening roller; 62. a butting part; 621. a material receiving gear; 622. tightly abutting the gear; 623. tightly abutting against the column; 624. a propping block; 6241. an extension block.

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.

An aluminum strip coil rewinding machine is shown in fig. 1 and comprises a feeding frame 2, a feeding component 3, a pressing component 4 and a receiving component 5 which are sequentially arranged from right to left, wherein the feeding component 3, the pressing component 4 and the receiving component 5 are all arranged on a machine frame 1, and a raw material roller 21 and a feeding moving component 22 for driving the raw material roller 21 to feed are arranged on the feeding frame 2. The feeding part 3 comprises a plurality of feeding rollers 31 and limiting rollers 32 which are arranged in a staggered mode, the feeding rollers 31 and the limiting rollers 32 are installed on the rack 1 in a rotating mode, the axial lines of the feeding rollers 31 and the limiting rollers 32 are perpendicular to the side face of the rack 1, and a buffering area 33 is arranged between the feeding rollers 31 and the limiting rollers 32. The pressing part 4 comprises a guide-in part 41, a pressing part 42 and a deviation correcting part 43 which are arranged in sequence. The receiving component 5 comprises a plurality of material conveying rollers 51, material receiving rollers 52 and a tightening part 6 which are transversely arranged on the rack 1 in parallel, the material conveying rollers 51 and the material receiving rollers 52 are positioned and rotatably installed on the rack 1, and the tightening part 6 is arranged above one side of the material receiving rollers 52.

Through the continuous process of discharging, pressing and receiving, the aluminum strip coil is unreeled and reeled again, so that the quality of finished coils is guaranteed, the limiting roller 32 is arranged in the unreeling process, the edge is guaranteed to be neat, the deviation rectifying piece 43 is arranged after the pressing is completed, the position deviation of the aluminum strip is avoided, the aluminum strip is continuously supported tightly to extrude and receive the materials when the materials are received, the combination of the aluminum strips is tight, the gap between the aluminum strips is reduced, and the coiling quality is prevented from being influenced.

As shown in fig. 1 and 2, the feeding roller 31 includes a material guiding roller 311, and a first guiding roller 312 and a second guiding roller 313 which are vertically arranged in parallel, the material guiding roller 311 is arranged close to the discharging frame 2, the diameter of the material guiding roller 311 is larger than the diameters of the first guiding roller 312 and the second guiding roller 313, and the diameters of the first guiding roller 312 and the second guiding roller 313 are the same. The aluminum strip is led out from the discharging frame 2, enters between the first guide roller 312 and the second guide roller 313 through the material guiding roller 311 for preliminary pressing, and then enters into the limiting roller 32.

The limiting roller 32 comprises a roller body 321, rollers 322 and limiting rings 323 at two ends of the roller body 321, the rollers 322 are sleeved on the roller body 321, the limiting rings 323 are arranged at two ends of the roller body 321 and are in threaded connection with the roller body 321, the diameter of each limiting ring 323 is larger than that of the roller body 321, the limiting rings 323 at two ends of the roller body 321 limit the width of an aluminum belt, and the edges of the aluminum belt are ensured to be neat in the transportation process by limiting two sides of the aluminum belt. The distance between the limiting rings 323 and the roller body 321 which are in threaded connection can be adjusted so as to adapt to aluminum strips with different sizes.

As shown in fig. 2, two height sensors 331 are arranged in the material buffering area 33 in the vertical direction, the height sensors 331 are arranged in the middle of the material buffering area 33, each height sensor 331 comprises a high position sensor 3311 and a low position sensor 3312, the material buffering area 33 is used for monitoring the speed of unwinding and material receiving of an aluminum strip, and when the high position sensor 3311 detects the aluminum strip, the winding speed is higher than the unwinding speed, so that the unwinding speed is controlled to be increased; the low sensor 3312 detects the aluminum strip, which indicates that the winding speed is less than the unwinding speed, and therefore, the unwinding speed is controlled to be reduced.

As shown in fig. 2, the introducing member 41 includes an introducing plate 411 and an erasing plate 412, which are disposed symmetrically up and down, the introducing plate 411 is arc-shaped and fixed on one side of the pressing member 42 close to the feeding member 3, the erasing plate 412 is U-shaped and the opening thereof is engaged with the introducing plate 411, the erasing cloth 4121 is fixed on the inner bottom surface of the erasing plate 412 opposite to the same, and the damage preventing cloth 423 is disposed on the side surface of the upper pressing block 421 and the lower pressing block 422 opposite to each other. When the aluminum strip enters the pressing piece 42 for pressing, the upper surface and the lower surface of the aluminum strip are firstly wiped by the wiping plate 412, the wiping plate 412 is clamped with the guide-in plate 411, the cleaning and the replacement of the wiping plate 412 are facilitated, and the damage prevention cloth 423 in the upper pressing block 421 and the lower pressing block 422 avoids damaging the surface of the aluminum strip during extrusion and affecting the quality of the aluminum strip.

As shown in fig. 3, the deviation rectifying member 43 includes a deviation rectifying moving member 431 and an indicating member 432, the indicating member 432 is disposed near the end of the material pressing member 42, the indicating member 432 includes a fixed rod 4321 and an indicating rod 4322 rotatably disposed on the fixed rod 4321, the indicating rod 4322 includes a fixed ring 43221 sleeved on the fixed rod 4321 and a rotating plate 43222 rotatably connected below the fixed ring 43221, the rotating plate 43222 is normally parallel to the side surface of the rack 1, the deviation rectifying moving member 431 includes a deviation rectifying push block 4311 disposed oppositely, the deviation rectifying push block 4311 is U-shaped and has openings disposed oppositely, and one side of the deviation rectifying push block 4311 away from each other is connected with a push motor 4312.

When deflection occurs, the aluminum strip drives the rotating plate 43222 to deflect, and the rotating plate 43222 can enlarge the deflection angle of the aluminum strip, so that observation and judgment are facilitated. By observing the deflection direction of the rotating plate 43222, the corresponding pushing motor 4312 is controlled to push the deviation rectifying push block 4311 to rectify the aluminum strip, thereby ensuring the stable transportation of the aluminum strip.

As shown in fig. 1 and 4, the material conveying roller 51 is connected with a transmission part 511, the transmission part 511 drives the material conveying roller 51 to rotate, convey and convey materials, the material receiving roller 52 comprises a material receiving roller 521 and a material receiving roller 522, the material receiving roller 521 is arranged close to the material conveying roller 51, the material receiving roller 521 is further connected with a telescopic cylinder 5211, the telescopic cylinder 5211 is fixed on the side face of the rack 1, the telescopic cylinder 5211 controls the material receiving roller 521 to slide transversely on the rack 1, the material receiving roller 522 controls the distance between the material receiving roller 521 and the material receiving roller 522 according to the winding thickness of the aluminum strip after receiving materials, and the material receiving roller 521 is prevented from extruding the surface of the aluminum strip after the aluminum strip is wound by a certain thickness. The circle center of the receiving roller 521 is arranged below the circle center of the receiving roller 522, so that the receiving roller 521 is prevented from extruding to touch the side surface of the wound aluminum strip.

As shown in fig. 1 and 4, the abutting member 6 includes an abutting roller 61 and an abutting member 62, the abutting member 62 drives the abutting roller 61 to move, the axis of the abutting roller 61 is parallel to the axis of the material receiving roller 52, the abutting member 62 includes a material receiving gear 621 coaxially disposed with the material receiving roller 522, an abutting gear 622 engaged with the material receiving gear 621, an abutting post 623 penetrating through the axis of the abutting gear 622 and an abutting block 624 in threaded connection with the abutting post 623, the abutting block 624 is sleeved on the abutting post 623, the abutting block 624 extends to form an extending block 6241 for the abutting roller 61 to rotate, the material receiving gear 621 and the abutting gear 622 are bevel gears with vertical axes, and the abutting post 623 is axially vertical to the material receiving roller 522.

During winding, the receiving roller 522 rotates to drive the receiving gear 621 to rotate, the receiving gear 621 is meshed with the abutting gear 622 so as to drive the abutting column 623 to rotate in a positioning manner, and the abutting block 624 is in threaded connection with the abutting column 623, so that the abutting block 624 transversely slides on the abutting column 623, and the abutting roller 61 is controlled to be gradually far away from the center of the receiving roller 522 but always abut against the surface of a wound aluminum strip according to the winding thickness.

The working principle and the using method of the aluminum strip coil rewinding machine are as follows: the aluminum strip coil is firstly sleeved on the raw material roller 21, unreeled to the feeding part 3 from the raw material roller 21, conveyed by the feeding roller 31, and adjusted in the feeding speed in the material buffering area 33 according to the bottom position of the aluminum strip, and the limit roller 32 limits the width of the aluminum strip so that the side edge of the aluminum strip can smoothly enter the material pressing part 4; the leading-in part 41 leads the aluminum strip into the pressing part 42, the erasing part erases dust on the surface of the aluminum strip, the aluminum strip is pressed and integrated through the pressing part 42, the original winding degree is flattened to facilitate subsequent rewinding, the aluminum strip basically cannot deflect in the flattening process, the pressing part 42 continues to convey the aluminum strip after being flattened, and the angle of the aluminum strip is adjusted through the deviation rectifying part 43 in the conveying process; the material pressing and rectifying device enters the material receiving part 5 after the material pressing and rectifying, the material conveying roller 51 conveys the aluminum strips to enter the material receiving roller 52, the material receiving roller 52 continuously receives the materials, and meanwhile the abutting piece 6 tightly adheres the aluminum strips, so that the rolling effect is ensured.

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 as defined by the appended claims.

Claims (8)

1. The utility model provides an aluminium strip coil rewinding machine, includes frame (1) and blowing frame (2), blowing frame (2) set up in frame (1) front end, be provided with blowing movable part (22) of raw materials roller (21) and drive raw materials roller (21) blowing on blowing frame (2), its characterized in that still includes:

the feeding part (3) is arranged on the rack (1), the feeding part (3) comprises a plurality of feeding rollers (31) and limiting rollers (32) which are arranged in a staggered mode, the feeding rollers (31) and the limiting rollers (32) are both installed on the rack (1) in a positioning and rotating mode, the axial lines of the feeding rollers (31) and the limiting rollers (32) are perpendicular to the side face of the rack (1), and a material buffering area (33) is arranged between the feeding rollers (31) and the limiting rollers (32);

the pressing component (4) is arranged on the rack (1), the pressing component (4) is arranged on one side, away from the discharging rack (2), of the feeding component (3), the pressing component (4) comprises a guiding piece (41), a pressing piece (42) and a deviation rectifying piece (43) which are sequentially arranged, the guiding piece (41) is arranged at the front end of the pressing piece (42), the pressing piece (42) comprises an upper pressing block (421) and a lower pressing block (422), and the lower pressing block (422) is vertically arranged on the rack (1) in a sliding manner;

receive material part (5), receive material part (5) and set up in frame (1), receive material part (5) including a plurality of horizontal biography material roller (51), receipts material roller (52) that set up side by side in frame (1) and support tight piece (6), it sets up to be close to pressure material part (4) to pass material roller (51), receive material roller (52) set up the one side of keeping away from pressure material part (4) in passing material roller (51), pass material roller (51) and receive material roller (52) location rotation and install in frame (1), it sets up in receipts material roller (52) one side top to support tight piece (6), still be connected with driving medium (511) on passing material roller (51).

2. The aluminum strip coil rewinding machine as claimed in claim 1, characterized in that said feed rollers (31) comprise a priming roller (311) and a first guide roller (312) and a second guide roller (313) arranged vertically side by side, said priming roller (311) being arranged close to the discharge frame (2), said priming roller (311) having a diameter greater than the first guide roller (312) and the second guide roller (313), said first guide roller (312) and said second guide roller (313) having the same diameter; spacing roller (32) include spacing ring (323) at roll body (321), roller (322) and roll body (321) both ends, roller (322) cover is established on roll body (321), spacing ring (323) set up at roll body (321) both ends and with roll body (321) threaded connection, spacing ring (323) diameter is greater than roll body (321) diameter.

3. The aluminum strip coil rewinding machine according to claim 2, characterized in that a plurality of height sensors (331) are vertically arranged in the buffer area (33), the height sensors (331) are arranged in the middle of the buffer area (33), the height sensors (331) are fixedly arranged on the side of the rack (1), the height sensors (331) are in signal control connection with the discharging movable member (22), and each height sensor (331) comprises a high position sensor (3311) and a low position sensor (3312).

4. The aluminum strip coil rewinding machine as claimed in claim 1, wherein the introducing member (41) comprises a pair of introducing plate (411) and a pair of erasing plate (412), the introducing plate (411) is arc-shaped and fixed on one side of the pressing member (42) close to the feeding member (3), the erasing plate (412) is U-shaped and is clamped with the introducing plate (411) at an opening, the erasing cloth (4121) is fixed on the inner bottom surface of the erasing plate (412) opposite to the inner bottom surface, and the anti-damage cloth (423) is arranged on the side surface of the upper pressing block (421) opposite to the lower pressing block (422) opposite to the inner bottom surface.

5. The aluminum strip coil rewinding machine as claimed in claim 4, wherein the deviation correcting member (43) comprises a deviation correcting member (431) and an indicating member (432), the indicating member (432) is disposed near the end of the pressing member (42), the indicating member (432) comprises a fixed rod (4321) and an indicating rod (4322) rotatably disposed on the fixed rod (4321), the indicating rod (4322) comprises a fixed ring (43221) sleeved on the fixed rod (4321) and a rotating plate (43222) rotatably connected below the fixed ring (43221), and the rotating plate (43222) is normally parallel to the side surface of the rack (1).

6. The aluminum strip coil rewinding machine according to claim 5, wherein the deviation rectifying moving member (431) comprises deviation rectifying pushing blocks (4311) which are arranged oppositely, the deviation rectifying pushing blocks (4311) are U-shaped and have openings arranged oppositely, and one sides of the deviation rectifying pushing blocks (4311) far away from each other are respectively connected with a pushing motor (4312).

7. The aluminum strip coil rewinding machine as claimed in claim 1, wherein the receiving roller (52) comprises a receiving roller (521) and a receiving roller (522), the receiving roller (521) is arranged close to the feeding roller (51), the receiving roller (521) is further connected with a telescopic cylinder (5211), the telescopic cylinder (5211) is fixed on the side surface of the rack (1), the telescopic cylinder (5211) controls the receiving roller (521) to slide transversely on the rack (1), and the circle center of the receiving roller (521) is arranged below the circle center of the receiving roller (522).

8. The aluminum strip coil rewinding machine as claimed in claim 7, characterized in that the abutting member (6) comprises an abutting roller (61) and an abutting member (62), the abutting member (62) drives the abutting roller (61) to move, the axis of the abutting roller (61) is parallel to the axis of the receiving roller (52), the abutting member (62) comprises a receiving gear (621) coaxially arranged with the receiving roller (522), an abutting gear (622) meshed with the receiving gear (621), an abutting column (623) penetrating through the axis of the abutting gear (622), and an abutting block (624) in threaded connection with the abutting column (623), the abutting block (624) is sleeved on the abutting column (623), the abutting block (624) extends to form an extending conical block (6241) for positioning and rotating of the abutting roller (61), the receiving gear (621) and the abutting gear (622) are gears with vertical axes, and the abutting column (623) is axially perpendicular to the receiving roller (522).

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