CN219904908U - Film laying structure of aluminum parting bead packing device - Google Patents

Abstract

The utility model relates to a film laying structure of an aluminum parting strip packing device, which comprises a stacking table and a film laying device, wherein the film laying device comprises a supporting table, a transverse translation mechanism, two groups of film laying guide seats and film laying clamping arms, the supporting table is arranged on the outer side of the stacking table, the two groups of film laying guide seats are respectively arranged at two ends of the supporting table and used for supporting and placing film rolls, the transverse translation mechanism is arranged on the supporting table and is arranged on the rear side of the stacking table, and the transverse translation mechanism is in driving connection with the film laying clamping arms, so that the film laying clamping arms can clamp the end parts of the film rolls and move along the length direction of the stacking table. According to the utility model, through the matched use of the film spreading clamping arms and the two groups of film spreading guide seats in the film spreading device, the film can be pulled from the two ends of the aluminum parting strip to move and cover the aluminum parting strip when the film is spread on the aluminum parting strip, so that the working efficiency of film spreading and covering of the aluminum parting strip is improved, and the replacement frequency of film rolls is reduced.

Description

Film laying structure of aluminum parting bead packing device

Technical Field

The utility model relates to the technical field of aluminum parting bead packing machines, in particular to a film laying structure of an aluminum parting bead packing device.

Background

After the hollow aluminum parting strips are processed, cooled and taken off line, bundling and packaging are needed, so that storage and transportation are convenient, when the aluminum parting strips are packaged in the prior art, a plurality of aluminum parting strips are usually required to be aligned and placed, then stacking is carried out, and bundling and packaging are carried out on the stacked aluminum parting strips.

In order to prevent friction scratch between the stacked aluminum parting strips and reduce collision between the stacked aluminum parting strips, thin film materials are often paved between the stacked aluminum parting strips to separate the stacked aluminum parting strips, a roll of thin film materials are often suspended at one end of a processing table when thin films are paved in the prior art, and the thin film materials are covered on the horizontally aligned aluminum parting strips to be paved by pulling the end parts of the thin films to move.

The following problems exist during the above operation: because the aluminum parting strips are longer, the laying and using consumption of the film is faster, and the replacement and placement of the film material are more frequent; in addition, the film roll is arranged at one end of the processing table, and the film roll needs to be moved to the placing position of the film roll to pull and lay the film when the film is laid every time, so that the film laying efficiency is lower.

Disclosure of Invention

(one) solving the technical problems

The utility model provides a film laying structure of an aluminum parting bead packing device, which aims to solve the problem of lower efficiency of laying films on aluminum parting beads.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the film laying structure of the aluminum parting strip packing device comprises a stacking table and a film laying device, wherein the film laying device comprises a supporting table, a transverse translation mechanism, two groups of film laying guide seats and film laying clamping arms,

the support table is arranged on the outer side of the stacking table, the two groups of film laying guide seats are respectively arranged at two ends of the support table and support and place film rolls, the transverse translation mechanism is arranged on the support table and is positioned on the rear side of the stacking table, the transverse translation mechanism is in driving connection with the film laying clamping arm, and a gap with adjustable height is formed in the middle of the film laying clamping arm, so that the film laying clamping arm can clamp the end parts of the film rolls and move along the length direction of the stacking table.

Preferably, the film laying guide seat comprises a seat body, a rotating roller, two groups of guide rollers and a positioning plate, a placing cavity penetrating through the seat body is formed on one side of the seat body, a film roll is arranged on the outer side of the rotating roller and is rotationally connected to the upper side of the seat body, two groups of guide rollers are rotationally connected to the placing cavity, the end parts of the film roll penetrate through two groups of gaps between the guide rollers and are in contact with the guide rollers, the top of the positioning plate is fixed on the inner wall of the top of the placing cavity, the bottom of the positioning plate extends to the gap between the two groups of guide rollers, and a plurality of groups of grooves longitudinally penetrating through the positioning plate are formed in the bottom of the positioning plate.

In a further preferred aspect, the film laying clamping arm comprises a supporting frame which is arranged on the transverse translation mechanism and driven to move by the transverse translation mechanism, a guide groove is formed in the supporting frame, a supporting plate is fixed at the inner bottom of the guide groove, a film clamping hydraulic cylinder is fixedly arranged at the inner top of the guide groove, a film clamping table is arranged at the output end of the film clamping hydraulic cylinder, a gap with adjustable height at the middle part of the film laying clamping arm is formed between the film clamping table and the supporting plate, and a plurality of groups of avoiding grooves matched with the positioning plate are formed at the bottom of the film clamping table.

In a further preferred embodiment, the film laying structure of the aluminum parting strip packing device further includes at least one group of moving manipulators installed and arranged at the rear side of the stacking table, the moving manipulators include moving clamping arms, a traversing pneumatic cylinder and a longitudinal translation mechanism, the rear side of the traversing pneumatic cylinder is installed and arranged on the longitudinal translation mechanism and driven to longitudinally move by the longitudinal translation mechanism, the output end of the traversing pneumatic cylinder is fixedly connected with the rear side of the moving clamping arms, so that the moving clamping arms can move in a telescopic manner along the width direction of the stacking table, and a gap with adjustable height is formed in the middle of the moving clamping arms, so that the moving clamping arms can clamp the aluminum parting strips and move to the stacking table to be placed.

In a further preferred embodiment, the transporting clamping arm includes a positioning frame mounted and fixed at an output end of the traversing pneumatic cylinder, an upper pressing plate and a lower pressing plate are slidably connected in front of the positioning frame, a clamping pneumatic cylinder driving the upper pressing plate to longitudinally move is mounted at the top of the positioning frame, a clamping pneumatic cylinder driving the lower pressing plate to longitudinally move is mounted at the bottom of the positioning frame, and a gap with adjustable height in the middle of the transporting clamping arm is formed between the upper pressing plate and the lower pressing plate.

In a further preferred embodiment, the front section auxiliary clamping device is installed on the front side of the top of the upper pressing plate, the front section auxiliary clamping device comprises a connecting frame, two groups of moving rods and two groups of springs, the connecting frame is fixed on the upper surface of the upper pressing plate, two ends of the top of the connecting frame extend to the outer side of the upper pressing plate, the two groups of moving rods are respectively longitudinally and slidably connected to two ends of the top of the connecting frame, each group of springs are respectively sleeved on the outer sides of one group of moving rods, and two ends of each spring are respectively connected and fixed with the connecting frame and the moving rods.

In a further preferred embodiment, the top of the upper platen is further provided with a middle-section auxiliary clamp, the middle-section auxiliary clamp is located at the rear side of the front-section auxiliary clamp, the middle-section auxiliary clamp comprises a connecting piece, a casing and an elastic pad, the connecting piece is connected with the upper platen through a bolt, the side of the connecting piece is fixedly connected with the casing, the casing is located on the side of the upper platen, a groove for placing the elastic pad is formed on one side of the casing facing the upper platen, the top of the elastic pad is attached to contact with the upper platen, and a space is reserved between the bottom of the elastic pad and the lower platen.

(III) beneficial effects

Compared with the prior art, the utility model provides a film laying structure of an aluminum parting strip packing device, which has the following beneficial effects:

1. according to the utility model, through the matched use of the film spreading clamping arms and the two groups of film spreading guide seats in the film spreading device, the film can be pulled from the two ends of the aluminum parting strip to move and cover the aluminum parting strip when the film is spread on the aluminum parting strip, so that the working efficiency of film spreading and covering of the aluminum parting strip is improved, and the replacement frequency of film rolls is reduced.

2. According to the utility model, through the arrangement of the structure of the film laying clamping arm, the end part of the stable clamping film roll is convenient to pull and move when the film is laid on the aluminum parting bead, so that the film laying operation is convenient to continuously and stably carry out on the aluminum parting bead.

3. According to the utility model, through the arrangement and use of the transfer manipulator, the aluminum parting strips can be clamped and moved to be stacked on the stacking table, so that stacking and film laying of the aluminum parting strips are facilitated.

4. According to the aluminum parting strip clamping device, the front section auxiliary clamping device and the middle section auxiliary clamping device are arranged, so that the aluminum parting strip is convenient to clamp and move when being clamped and moved, and offset movement when the aluminum parting strip moves is reduced.

5. According to the utility model, the aluminum parting strip is clamped and lifted by the upper pressing plate and the lower pressing plate, so that friction scratch of the aluminum parting strip when the aluminum parting strip is driven to move on the stacking table can be reduced.

Drawings

FIG. 1 is a schematic structural view of a film laying structure of an aluminum division bar packing apparatus according to an embodiment;

FIG. 2 is a schematic view of another angle of the film laying structure of the aluminum division bar packing device of FIG. 1;

FIG. 3 is a schematic structural view of a transporting robot according to an embodiment;

FIG. 4 is a schematic structural view of a transporting gripper arm according to an embodiment;

FIG. 5 is a schematic structural view of a front section auxiliary clamp according to an embodiment;

FIG. 6 is a schematic structural view of a mid-section auxiliary clamp according to an embodiment;

FIG. 7 is a schematic structural view of a film spreader according to an embodiment;

FIG. 8 is a schematic structural view of a film laying guide base and a film laying clamp arm according to an embodiment;

fig. 9 is a schematic structural view of a film laying guide base according to an embodiment;

fig. 10 is a schematic structural view of a film laying clamp arm according to an embodiment.

In the figure: 10. a stacking table; 20. a transfer manipulator; 21. a transporting clamping arm; 211. a positioning frame; 212. an upper press plate; 213. clamping a pneumatic cylinder; 214. a lower pressing plate; 215. a front section auxiliary clamp; 2151. a connecting frame; 2152. a moving rod; 2153. a spring; 216. a middle section auxiliary clamp; 2161. a connecting sheet; 2162. a casing; 2163. an elastic pad; 22. a traversing pneumatic cylinder; 23. a longitudinal translation mechanism; 30. a film laying device; 31. a support table; 32. a lateral translation mechanism; 33. film laying guide seats; 331. a base; 332. a rotating roller; 333. a guide roller; 334. a positioning plate; 335. slotting; 34. film laying clamping arms; 341. a support frame; 342. a supporting plate; 343. a membrane clamping table; 344. an avoidance groove; 345. and a membrane clamping hydraulic cylinder.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-10, a film laying structure of an aluminum division bar packing apparatus may include a palletizing table 10, at least one group of transfer robots 20 and a film spreader 30, and a conveyor belt (not shown) may be provided in front of the palletizing table 10. The transferring manipulator 20 can be installed at the rear side of the stacking table 10, and the transferring manipulator 20 can be used for clamping the aluminum parting strips which finish the previous process and are arranged in a row side by side on the conveyor belt, so that the aluminum parting strips are moved to the stacking table 10 to be placed. The film may then be laid over the aluminum spacer using the film laying machine 30, and after film laying, the film may be cut using scissors, and then the aluminum spacer may be laid again from over the film and the above operation repeated.

In this embodiment, the palletizing table 10 may be configured as a platform welded and fixed by steel plates and steel frames, the upper surface of the palletizing table 10 may be used for supporting aluminum spacers, and the upper surface of the palletizing table 10 is lower than the upper surface of the conveyor belt by a certain height so as to facilitate the movable placement of the aluminum spacers on the palletizing table 10 for stacking.

Referring to fig. 3, the translation robot 20 may include a translation gripping arm 21, a traversing cylinder 22, and a longitudinal translation mechanism 23. The rear side of the traversing cylinder 22 may be fixed to the longitudinal translation mechanism 23 with a bracket mount such that the traversing cylinder 22 may be driven to move longitudinally by the longitudinal translation mechanism 23. The longitudinal translation mechanism 23 can adopt a linear driving structure in the prior art, for example, the longitudinal translation mechanism 23 can adopt a ball screw structure, and the screw is driven to rotate by a motor, so that nuts which are matched with the screw and convert rotary motion into linear motion drive a bracket connected and fixed with the screw and a transverse moving pneumatic cylinder 22 on the bracket to longitudinally move; the longitudinal translation mechanism 23 can also adopt a hydraulic cylinder, and the telescopic movement of the output end of the hydraulic cylinder is utilized to drive the bracket fixedly connected with the hydraulic cylinder and the transverse movement pneumatic cylinder 22 on the bracket to carry out longitudinal movement. The output end of the traversing pneumatic cylinder 22 is fixedly connected with the rear side of the transporting clamping arm 21, so that the transporting clamping arm 21 can stretch and retract along the width direction of the stacking table 10. The middle part of the transporting clamping arm 21 is provided with a gap with adjustable height, so that the transporting clamping arm 21 can clamp aluminum parting strips on a conveyor belt, move the aluminum parting strips to the stacking table 10 for placement, and after the aluminum parting strips are placed, the transporting clamping arm 21 is parked by the traversing pneumatic cylinder 22 to the rear of the stacking table 10, thereby avoiding affecting the action of the film spreader 30.

Referring to fig. 4, the transporting and clamping arm 21 may include a positioning frame 211 installed and fixed at an output end of the traversing pneumatic cylinder 22, an upper pressing plate 212 and a lower pressing plate 214 are slidably connected in front of the positioning frame 211, and the upper pressing plate 212 and the lower pressing plate 214 may each use a stainless steel plate with a length similar to the width of the stacking table 10, so that a plurality of aluminum parting strips can be clamped and placed between the upper pressing plate 212 and the lower pressing plate 214 to move onto the stacking table 10. The top of the positioning frame 211 may be provided with a clamping pneumatic cylinder 213 driving the upper platen 212 to move longitudinally, and the bottom of the positioning frame 211 may be provided with a clamping pneumatic cylinder 213 driving the lower platen 214 to move longitudinally. A gap with adjustable height is formed between the upper platen 212 and the lower platen 214 in the middle of the transporting and clamping arm 21, so that the aluminum parting strip can be clamped by the opposite movement of the upper platen 212 and the lower platen 214. Two groups of limiting plates which are driven to move by the output end of the pneumatic cylinder can be arranged at two ends of the stacking table 10 in the length direction, and the two groups of limiting plates can press the end parts of the aluminum parting strips after being driven to move in opposite directions, so that on one hand, the end parts of the aluminum parting strips which can be placed are aligned, and on the other hand, when the upper pressing plate 212 and the lower pressing plate 214 do not clamp the aluminum parting strips any more and are driven to move to the rear side of the stacking table 10 by the transverse moving pneumatic cylinder 22, the aluminum parting strips on the stacking table 10 can be prevented from moving.

Referring to fig. 5, a front-section auxiliary clamp 215 may be installed at a top front side of the upper platen 212, and the front-section auxiliary clamp 215 may include a connection frame 2151, two sets of moving bars 2152, and two sets of springs 2153. The connection frame 2151 is fixed on the upper surface of the upper platen 212, and two ends of the top of the connection frame 2151 extend to the outside of the upper platen 212, and two sets of moving rods 2152 are respectively connected to two ends of the top of the connection frame 2151 in a longitudinally sliding manner. The bottom end of the moving rod 2152 may be provided in a circular truncated cone shape, and the top end of the moving rod 2152 may be provided with external threads and sleeved with a nut, so that the moving rod 2152 may slide longitudinally and may not fall on the connection frame 2151. Each set of springs 2153 may be sleeved outside a set of moving rods 2152, and two ends of each spring 2153 are respectively connected and fixed with the connecting frame 2151 and the moving rods 2152. When the upper and lower platens 212, 214 clamp the aluminum spacer, the moving rod 2152 may contact the aluminum spacer and compress the compression springs 2153 such that the moving rod 2152 abuts the aluminum spacer to assist in clamping the aluminum spacer.

Referring to fig. 6, a middle auxiliary clamp 216 may be installed on the top of the upper platen 212, and the middle auxiliary clamp 216 is located at the rear side of the front auxiliary clamp 215. The middle auxiliary clamp 216 may include a connecting piece 2161, a sleeve 2162 and an elastic pad 2163, the connecting piece 2161 is connected with the upper platen 212 by a bolt, the side surface of the connecting piece 2161 is fixedly connected with the sleeve 2162, the sleeve 2162 is located on the side surface of the upper platen 212, and a recess for placing the elastic pad 2163 is formed on the side of the sleeve 2162 facing the upper platen 212. The resilient pad 2163 may be provided with a resilient rubber pad, the resilient pad 2163 being inserted into the recess of the sleeve 2162, and the top of the resilient pad 2163 being in contact with the upper platen 212 with a space between the bottom of the resilient pad 2163 and the lower platen 214. When the upper and lower platens 212, 214 clamp the aluminum spacer bars, the lower surface of the resilient pad 2163 may contact the aluminum spacer bars and enable the resilient pad 2163 to be compressively deformed such that the resilient pad 2163 abuts the aluminum spacer bars against the lower platen 214.

Referring to fig. 7, the film spreader 30 may include a support table 31, a lateral translation mechanism 32, two sets of film spreading guide seats 33, and a film spreading clamp arm 34. The supporting table 31 may be disposed outside the palletizing table 10, and two sets of film laying guide seats 33 are respectively installed at both ends of the supporting table 31 and support and place the film roll. The transverse translation mechanism 32 is installed on the supporting table 31 and is located at the rear side of the stacking table 10, the transverse translation mechanism 32 can adopt a linear driving structure existing in the prior art, for example, the transverse translation mechanism 32 can adopt a ball screw structure, and the screw is driven to rotate by a motor, so that a nut matched with the screw to convert rotary motion into linear motion on the screw drives the film laying clamping arm 34 connected with the nut to transversely move. The middle part of the film laying clamping arm 34 is provided with a gap with adjustable height, so that the film laying clamping arm 34 can clamp the end part of the film roll and move along the length direction of the stacking table 10, and films are laid on the aluminum parting strips.

Referring to fig. 8 and 9, the film laying guide seat 33 may include a seat 331, a rotating roller 332, two sets of guide rollers 333, and a positioning plate 334, where a film roll is installed at the outer side of the rotating roller 332 and is rotatably connected to the upper side of the seat 331. The base 331 is formed with a placing cavity that can run through the base 331 toward one side of the palletizing table 10, and the end of the film roll extends into the placing cavity. The two sets of guide rollers 333 are rotatably connected in the placement chamber, and the end of the film roll can pass through the gap between the two sets of guide rollers 333 and contact the outer wall of the guide rollers 333, so that the film can be transferred between the two sets of guide rollers 333 when being pulled. The top of the positioning plate 334 may be fixed on the top inner wall of the placement cavity, and the bottom of the positioning plate 334 may extend to the gap between the two sets of guide rollers 333, and the positioning plate 334 may abut against the film so that it does not tilt upward. The bottom of the locating plate 334 is provided with a plurality of groups of slots 335 longitudinally penetrating the locating plate 334.

Referring to fig. 8 and 10, the film laying clamp arm 34 includes a support frame 341, a pallet 342, a film clamping table 343, and a film clamping hydraulic cylinder 345. The supporting frame 341 is connected and installed on the lateral translation mechanism 32 and can be driven to move by the lateral translation mechanism 32. The support frame 341 is provided with a guide groove, the supporting plate 342 is fixed at the bottom in the guide groove, the film clamping hydraulic cylinder 345 is fixed at the top in the guide groove, and the output end of the film clamping hydraulic cylinder 345 is fixedly connected with the top of the film clamping table 343, so that the film clamping table 343 can be driven to move by the output end of the film clamping hydraulic cylinder 345. A gap with adjustable height is formed between the film clamping table 343 and the supporting plate 342 in the middle of the film laying clamping arm 34, and the end of the film clamped by the film clamping table 343 and the supporting plate 342 can be pulled to move. The bottom of the film clamping table 343 is provided with a plurality of groups of avoiding grooves 344 matched with the positioning plate 334, and the staggered matching of the avoiding grooves 344 and the grooves 335 can prevent the film clamping table 343 from interfering with the positioning plate 334 when the film clamping table 343 moves up and down.

In this embodiment, a fixed pneumatic cylinder may be installed on the side of the support table 31 facing the stacking table 10, and the set of pneumatic cylinders may be close to the positioning plate 334, and the set of pneumatic cylinders may be provided with fixed scissors, after the film is laid on the aluminum parting strip, the set of pneumatic cylinders may be provided with the output ends of the pneumatic cylinders driving the scissors to move along the width direction of the stacking table 10, and the scissors may be made to scratch and place the film on the aluminum parting strip.

The embodiment can also comprise a control system for controlling the motor, the pneumatic cylinder and the like to carry out the automatic operation of clamping and moving the aluminum parting strip and laying the film. It should be understood that the control system is not particularly limited, and may be implemented by a control technology in the prior art, and will not be described herein.

In all the above mentioned solutions, in which the connection between two components can be chosen according to the actual situation, a welded, bolt-and-nut-fitted connection, a bolt-or-screw connection or other known connection means, which are not described in detail herein, where reference is made to a written fixed connection, the preferred consideration is welding, although embodiments of the utility model have been shown and described, it will be understood by those skilled in the art that numerous variations, modifications, substitutions and alterations can be made to these embodiments without departing from the principle and spirit of the utility model, the scope of which is defined by the appended claims and their equivalents.

Claims (5)

1. The utility model provides a shop's membrane structure of aluminium parting bead packing apparatus, includes pile up neatly platform (10) and shop's membrane ware (30), its characterized in that, shop's membrane ware (30) include brace table (31), horizontal translation mechanism (32), two sets of shop's membrane guide holder (33) and shop's membrane clamping arm (34), brace table (31) set up in the outside of pile up neatly platform (10), two sets of shop's membrane guide holder (33) are installed respectively in the both ends of brace table (31) and support and place the film roll, horizontal translation mechanism (32) install and set up on brace table (31) and be in pile up neatly platform (10) rear side, horizontal translation mechanism (32) drive connection shop's membrane clamping arm (34), the middle part of shop's membrane clamping arm (34) is formed with adjustable height's space, makes shop's membrane clamping arm (34) can centre gripping film roll's tip and follow pile up neatly platform (10) length direction and remove,

the film laying guide seat (33) comprises a seat body (331), a rotating roller (332), two groups of guide rollers (333) and a positioning plate (334), wherein a placing cavity penetrating through the seat body (331) is formed on one side of the seat body (331) towards the stacking table (10), a film roll is arranged on the outer side of the rotating roller (332) and is rotationally connected to the upper side of the seat body (331), two groups of guide rollers (333) are rotationally connected to the placing cavity, the end part of the film roll penetrates through a gap between the two groups of guide rollers (333) and is in contact with the guide rollers (333), the top of the positioning plate (334) is fixed on the inner wall of the top of the placing cavity, the bottom of the positioning plate (334) extends to the gap between the two groups of guide rollers (333), and a plurality of grooves (335) longitudinally penetrating through the positioning plate (334) are formed in the bottom of the positioning plate (334);

wherein, spread membrane centre gripping arm (34) is including installing support frame (341) that set up on horizontal translation mechanism (32) and be driven by horizontal translation mechanism (32) and remove, be formed with the guiding groove on support frame (341), the interior bottom of guiding groove is fixed with layer board (342), the interior top installation of guiding groove is fixed with double-layered membrane pneumatic cylinder (345), the output installation of double-layered membrane pneumatic cylinder (345) is provided with double-layered membrane platform (343), form between double-layered membrane platform (343) and layer board (342) and spread membrane centre gripping arm (34) middle part height-adjustable's space, a plurality of groups of dodging groove (344) with locating plate (334) matched with are seted up to the bottom of double-layered membrane platform (343).

2. The film laying structure of the aluminum parting strip packing device according to claim 1, wherein: the automatic stacking machine is characterized by further comprising at least one group of moving manipulators (20) which are arranged on the rear side of the stacking table (10), each moving manipulator (20) comprises a moving clamping arm (21), a transverse moving pneumatic cylinder (22) and a longitudinal translation mechanism (23), the rear side of each transverse moving pneumatic cylinder (22) is arranged on each longitudinal translation mechanism (23) and driven to longitudinally move by each longitudinal translation mechanism (23), the output end of each transverse moving pneumatic cylinder (22) is fixedly connected with the rear side of each moving clamping arm (21) so that each moving clamping arm (21) can stretch out and draw back along the width direction of the stacking table (10), and a gap with adjustable height is formed in the middle of each moving clamping arm (21) so that each moving clamping arm (21) can clamp an aluminum parting strip and move to the stacking table (10) to be placed.

3. The film laying structure of the aluminum parting strip packing device according to claim 2, wherein: the movable clamping arm (21) comprises a positioning frame (211) which is fixedly arranged at the output end of the transverse moving pneumatic cylinder (22), an upper pressing plate (212) and a lower pressing plate (214) are connected in a sliding manner in front of the positioning frame (211), a clamping pneumatic cylinder (213) which drives the upper pressing plate (212) to longitudinally move is arranged at the top of the positioning frame (211), a clamping pneumatic cylinder (213) which drives the lower pressing plate (214) to longitudinally move is arranged at the bottom of the positioning frame (211), and a gap with adjustable height in the middle of the movable clamping arm (21) is formed between the upper pressing plate (212) and the lower pressing plate (214).

4. A film laying structure of an aluminum division bar packing device according to claim 3, wherein: the top front side installation of top board (212) is provided with anterior segment auxiliary clamp (215), anterior segment auxiliary clamp (215) are including link (2151), two sets of movable rod (2152) and two sets of springs (2153), link (2151) are fixed in the upper surface of top board (212) and the both ends at link (2151) top extend to the top board (212) outside, two sets of movable rod (2152) are vertical sliding connection respectively in the both ends at link (2151) top, every group spring (2153) all overlaps the outside of locating a set of movable rod (2152), and the both ends of spring (2153) are connected fixedly between link (2151) and movable rod (2152) respectively.

5. The film laying structure of the aluminum parting strip packing device according to claim 4, wherein: the top of top board (212) is still installed and is provided with middle section auxiliary clamp (216), middle section auxiliary clamp (216) are located the rear side of anterior section auxiliary clamp (215), middle section auxiliary clamp (216) are including connection piece (2161), cover shell (2162) and elastic pad (2163), pass through bolted connection between connection piece (2161) and the top board (212), fixed connection between the side of connection piece (2161) and cover shell (2162), cover shell (2162) are located the side of top board (212), and cover shell (2162) are formed with the recess of placing elastic pad (2163) towards one side of top board (212), the top laminating of elastic pad (2163) contacts top board (212), and the bottom of elastic pad (2163) with have the interval between lower board (214).