CN212094094U - Aluminum honeycomb core stretcher - Google Patents

Abstract

The utility model discloses an aluminum honeycomb core stretcher, which comprises a feeding device for conveying materials to be processed to a working station, a feeding conveyer belt, a feeding motor and a pressing structure; the stretching device for stretching and forming the material to be processed comprises a goods receiving plate, two frames and two stretching roller sets; the stretching roller group comprises a lower pressing roller arranged at the joint of the goods receiving plate and the feeding conveying belt, an upper pressing roller corresponding to the upper part of the lower pressing roller, two motors respectively used for driving the lower pressing roller and the upper pressing roller to rotate and a first adjusting structure fixed on the frame and used for adjusting the distance between the lower pressing roller and the upper pressing roller; the rotating speed of the stretching roller group at the rear end of the goods receiving plate is greater than that of the stretching roller group at the front end of the goods receiving plate; a cutting device for cutting the stretched aluminum honeycomb core, and a discharging device for conveying the processed and cut materials out. This scheme is through integrating many devices and carrying out automated design, makes aluminium honeycomb core's machining efficiency higher, need not the manual work simultaneously and pay close attention to by, saves the cost of labor.

Description

Aluminum honeycomb core stretcher

Technical Field

The utility model belongs to aluminium alloy processing equipment field, concretely relates to aluminium honeycomb core stretcher.

Background

The aluminum honeycomb plate is suitable for civil buildings, vehicle and ship decorations and the like. Is the application of aviation and aerospace materials in the field of civil buildings. The whole processing process is completed in a modern factory, a hot-press molding technology is adopted, and due to the high heat conduction value between the aluminum skin and the honeycomb, the expansion with heat and the contraction with cold of the inner aluminum skin and the outer aluminum skin are synchronous; the honeycomb aluminum skin is provided with small holes, so that gas in the plate can flow freely; the slidably mounted buckle system does not cause structural deformation when subjected to thermal expansion and cold contraction. The aluminum honeycomb plate is structurally made of a middle aluminum honeycomb core and aluminum plates superposed on the upper end and the lower end of the aluminum honeycomb core. The aluminum honeycomb core is an extremely main processing structure of the aluminum honeycomb plate, and the molding effect of the aluminum honeycomb core directly influences the normal use of the aluminum honeycomb plate.

The aluminum honeycomb core is formed by bonding a plurality of layers of aluminum foils, laminating, and stretching and unfolding the aluminum honeycomb core into a regular hexagonal honeycomb core. The aluminum honeycomb core has sharp and clear hole walls and no burrs, and is suitable for bonding high-quality core to surface materials and other purposes. The existing device is used for independently processing the aluminum honeycomb cores by a plurality of single devices respectively, namely, after each single device is processed, a worker carries the single device to other devices for processing on the next step, so that the automation degree is low, the processing efficiency is low, and higher labor cost can be caused.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an aluminum honeycomb core stretcher, which comprises a feeding device for conveying materials to be processed to a working station, a feeding motor for controlling the rotation of the feeding conveyer belt and a pressing structure which is arranged at the front end of the feeding conveyer belt and is used for pressing the materials; the stretching device for stretching and forming the material to be processed comprises a goods receiving plate, two frames and two stretching roller sets, wherein the goods receiving plate is arranged at the tail end of a feeding conveyer belt in a bearing mode, the two frames are arranged on the left side and the right side of the goods receiving plate, and the two stretching roller sets are respectively arranged at the front end and the rear end of the goods receiving plate; the stretching roller group comprises a lower pressing roller arranged at the joint of the goods receiving plate and the feeding conveying belt, an upper pressing roller corresponding to the upper part of the lower pressing roller, two motors respectively used for driving the lower pressing roller and the upper pressing roller to rotate and a first adjusting structure fixed on the frame and used for adjusting the distance between the lower pressing roller and the upper pressing roller; the rotating speed of the stretching roller group at the rear end of the goods receiving plate is greater than that of the stretching roller group at the front end of the goods receiving plate; the cutting device for cutting the stretched aluminum honeycomb core comprises a longitudinal cutting structure for longitudinal cutting and a transverse cutting structure for transverse cutting; and the discharging device is used for conveying the processed and cut materials out. This scheme is through integrating many devices and carrying out automated design, makes aluminium honeycomb core's machining efficiency higher, need not the manual work simultaneously and pay close attention to by, saves the cost of labor.

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

an aluminum honeycomb core stretcher comprises

A feeding device: the feeding device comprises a feeding conveyer belt, a feeding motor for controlling the feeding conveyer belt to rotate and a pressing structure which is arranged at the front end of the feeding conveyer belt and used for pressing materials;

a stretching device: the stretching device comprises a goods receiving plate, two frames and two stretching roller sets, wherein the goods receiving plate is arranged at the tail end of the feeding conveying belt in a bearing mode, the two frames are arranged on the left side and the right side of the goods receiving plate, and the two stretching roller sets are respectively arranged at the front end and the rear end of the goods receiving plate; the stretching roller group comprises a lower pressing roller arranged at the joint of the goods receiving plate and the feeding conveying belt, an upper pressing roller corresponding to the upper part of the lower pressing roller, two motors respectively used for driving the lower pressing roller and the upper pressing roller to rotate and a first adjusting structure fixed on the frame and used for adjusting the distance between the lower pressing roller and the upper pressing roller; the rotating speed of the stretching roller group at the rear end of the cargo receiving plate is greater than that of the stretching roller group at the front end of the cargo receiving plate;

a cutting device: the cutting device is used for cutting the stretched aluminum honeycomb core and comprises a longitudinal cutting structure for longitudinal cutting and a transverse cutting structure for transverse cutting;

a discharging device: used for conveying the processed and cut materials out.

Further, press the material structure including the interval set up in the arc pressure comb of material loading conveyer belt top, set up perpendicularly in the regulation post at arc pressure comb both ends and be used for adjusting the arc pressure comb with the second of distance is adjusted to the structure between the material loading conveyer belt.

Furthermore, the first adjusting structure and the second adjusting structure are both of a worm and gear structure, the worm of the first adjusting structure is connected with the upper compression roller, and the worm gear drives the scroll rod to slide in the vertical direction when rotating so as to adjust the distance between the upper compression roller and the lower compression roller; the worm of the second adjusting structure is connected with the adjusting column, and the worm wheel drives the worm to slide in the vertical direction when rotating so as to adjust the distance between the arc-shaped pressure comb and the feeding conveying belt.

Further, the arc pressure comb is bent towards the direction of the feeding conveying belt, and a strip-shaped pressing portion is arranged in the middle of the arc pressure comb.

Furthermore, the longitudinal cutting structure comprises two vertical slide rails respectively and vertically arranged on the two frames, two tool rests respectively capable of sliding along the vertical slide rails, a rotating shaft connected with the two tool rests, a longitudinal cutting blade fixed on the rotating shaft, a longitudinal cutting motor driving the rotating shaft to rotate and a lifting cylinder used for driving the tool rests to lift along the vertical slide rails; the lifting cylinder is fixed on the frame, and a push rod of the lifting cylinder is fixedly connected with the tool rests on the same side respectively.

Further, the horizontal cutting structure set up in the rear end of vertical cutting structure, the horizontal cutting structure includes the horizontal slide rail of perpendicular to processing material advancing direction, can along the gliding mounting bracket of horizontal slide rail, drive the mounting bracket along the gliding horizontal cylinder of horizontal slide rail, be fixed in pneumatic motor on the mounting bracket, fixed mounting horizontal blade on the pneumatic motor output shaft and with the board that connects the goods is parallel and set up in the backup pad of pneumatic motor top.

Furthermore, a pressing structure used for pressing materials is further arranged between the longitudinal cutting structure and the transverse cutting structure, the pressing structure comprises a pressing roller perpendicular to the material conveying direction and a third adjusting structure used for adjusting the height of the pressing roller in the perpendicular direction, and the third adjusting structure is the same as the first adjusting structure in structure.

Further, discharging device includes ejection of compact conveyer belt and drive ejection of compact motor that ejection of compact conveyer belt rotated.

Furthermore, the aluminum honeycomb core stretcher is also provided with a support frame for supporting the feeding device, the stretching device, the cutting device and the discharging device.

Further, the aluminum honeycomb core stretcher is further provided with a control cabinet, and the control cabinet is arranged on the side face of the support frame.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses an aluminum honeycomb core stretcher, which comprises a feeding device for conveying materials to be processed to a working station, and comprises a feeding conveyer belt, a feeding motor for controlling the rotation of the feeding conveyer belt, and a material pressing structure which is arranged at the front end of the feeding conveyer belt and is used for pressing the materials; the stretching device for stretching and forming the material to be processed comprises a goods receiving plate, two frames and two stretching roller sets, wherein the goods receiving plate is arranged at the tail end of a feeding conveyer belt in a bearing mode, the two frames are arranged on the left side and the right side of the goods receiving plate, and the two stretching roller sets are respectively arranged at the front end and the rear end of the goods receiving plate; the stretching roller group comprises a lower pressing roller arranged at the joint of the goods receiving plate and the feeding conveying belt, an upper pressing roller corresponding to the upper part of the lower pressing roller, two motors respectively used for driving the lower pressing roller and the upper pressing roller to rotate and a first adjusting structure fixed on the frame and used for adjusting the distance between the lower pressing roller and the upper pressing roller; the rotating speed of the stretching roller group at the rear end of the goods receiving plate is greater than that of the stretching roller group at the front end of the goods receiving plate; the cutting device for cutting the stretched aluminum honeycomb core comprises a longitudinal cutting structure for longitudinal cutting and a transverse cutting structure for transverse cutting; and the discharging device is used for conveying the processed and cut materials out. This scheme is through integrating many devices and carrying out automated design, makes aluminium honeycomb core's machining efficiency higher, need not the manual work simultaneously and pay close attention to by, saves the cost of labor.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the aluminum honeycomb core stretcher of the present invention;

fig. 2 is a partially enlarged view of a in fig. 1 according to the present invention.

In the figure: 1. an aluminum honeycomb core stretcher; 2. a feeding device; 21. a feeding conveyer belt; 22. a feeding motor; 23. a material pressing structure; 231. an arc-shaped pressure comb; 2311. a strip-shaped pressing part; 232. an adjustment column; 233. a second adjustment structure; 3. a stretching device; 31. receiving a cargo board; 32. a frame; 33. a set of draw rolls; 331. a lower pressing roller; 332. an upper compression roller; 333. a motor; 34. a first adjustment structure; 4. a cutting device; 41. a longitudinal cutting structure; 411. a vertical slide rail; 412. a tool holder; 413. a rotating shaft; 414. a slitting blade; 415. a slitting motor; 416. a lifting cylinder; 42. a transverse cutting structure; 421. a transverse slide rail; 422. a mounting frame; 423. a pneumatic motor; 424. a cross cutting blade; 425. a support plate; 43. a compression structure; 431. a pressure roller; 432. a third adjustment structure; 5. a discharging device; 51. a discharge conveyer belt; 52. a discharging motor; 6. a support frame; 7. a control cabinet.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model discloses aluminium honeycomb core stretcher 1 is as shown in fig. 1-fig. 2, including being used for carrying the loading attachment 2 to the work station with waiting to process the material for will waiting to process the tensile fashioned stretching device 3 of material, be used for cutting the cutting device 4 of the good aluminium honeycomb core of drawing and be used for processing the discharging device 5 that the good material of cutting was carried out. This scheme is through integrating many devices and carrying out automated design, makes aluminium honeycomb core's machining efficiency higher, need not the manual work simultaneously and pay close attention to by, saves the cost of labor.

The feeding device 2 in this embodiment includes a feeding conveyor belt 21, a feeding motor 22 for controlling the feeding conveyor belt 21 to rotate, and a pressing structure 23 disposed at the front end of the feeding conveyor belt 21 and used for pressing the material; by placing the material to be processed on the feeding conveyor belt 21 and simultaneously activating the feeding motor 22, the material is automatically moved forward to the next processing device.

Meanwhile, in order to ensure the stability of the material in the moving process and the pulling of the material by the subsequent stretching device 3 in the stretching process, in order to ensure the normal stretching and forming of the aluminum honeycomb core, the feeding device 2 is further provided with a pressing structure 23, wherein the pressing structure 23 comprises an arc-shaped pressure comb 231 arranged above the feeding conveyor belt 21 at intervals, adjusting columns 232 vertically arranged at two ends of the arc-shaped pressure comb 231, and a second adjusting structure 233 used for adjusting the distance between the arc-shaped pressure comb 231 and the feeding conveyor belt 21. Wherein the arc pressure comb 231 towards the bending of material loading conveyer belt 21 direction, just the middle part of arc pressure comb 231 is equipped with strip portion 2311 that compresses tightly, compresses tightly the material middle part better through strip portion 2311 that compresses tightly, and it is better to make stretch forming be the effect.

Preferably, the second adjusting structure 233 is a worm and gear structure, wherein the worm of the adjusting structure is connected to the adjusting column 232, and the worm gear rotates to drive the worm to slide in the vertical direction so as to adjust the distance between the arc-shaped pressure comb 231 and the feeding conveyor belt 21. The turbine is also connected with an external manual rotating wheel, and besides automatic control, workers can manually rotate the adjusting rotating wheel to realize accurate adjustment.

The stretching device 3 in this embodiment includes a receiving plate 31 disposed at the end of the feeding conveyor belt 21, two frames 32 disposed at the left and right sides of the receiving plate 31, and two stretching roller sets 33 disposed at the front and rear ends of the receiving plate 31; the stretching roller group 33 comprises a lower pressing roller 331 arranged at the joint of the goods receiving plate 31 and the feeding conveyor belt 21, an upper pressing roller 332 corresponding to the upper part of the lower pressing roller 331, two motors 333 respectively used for driving the lower pressing roller 331 and the upper pressing roller 332 to rotate, and a first adjusting structure 34 fixed on the frame 32 and used for adjusting the distance between the lower pressing roller 331 and the upper pressing roller 332; the rotation speed of the drawing roller group 33 at the rear end of the cargo receiving plate 31 is higher than that of the drawing roller group 33 at the front end of the cargo receiving plate 31; wherein all the cover is equipped with the gum cover on lower compression roller 331 and the last compression roller 332, and the design of gum cover multiplicable both compress tightly the frictional force that the material drove the material and gos forward, also can play the effect of protection material when compressing tightly simultaneously. Because the aluminum honeycomb core is formed by bonding and laminating multiple layers of aluminum foils, the aluminum honeycomb core needs to be stretched before being put into use to expand the internal structure of the aluminum honeycomb core, after the aluminum honeycomb core is conveyed to a specified station by the feeding conveyer belt 21 in front, the first adjusting structures 34 of the front and rear stretching roller sets 33 are adjusted to enable the two upper pressing rollers 332 to descend until to be in contact with the upper surface of the material, and meanwhile, the motors 333 of the front and rear stretching roller sets 33 have different rotating speeds, and the rotating speed of the motor 333 at the rear end is higher than that of the motor 333 at the front end in the embodiment. At the moment, a rotation speed difference is formed between the front and the rear, and finally the effect that the two stretching roller sets 33 can stretch the aluminum honeycomb core while conveying the material forwards is achieved.

Preferably, the first adjusting structure 34 is a worm and gear structure, the worm of the adjusting structure is connected to the upper press roll 332, and the worm gear drives the scroll rod to slide in the vertical direction when rotating so as to adjust the distance between the upper press roll 332 and the lower press roll 331. The turbine is also connected with an external manual rotating wheel, and besides automatic control, workers can manually rotate the adjusting rotating wheel to realize accurate adjustment.

The cutting device 4 in this embodiment comprises a longitudinal cutting structure 41 for longitudinal cutting and a transverse cutting structure 42 for transverse cutting; cutting the stretched aluminum honeycomb core in multiple sizes can be accomplished by cutting in two directions.

In this embodiment, the longitudinal cutting structure 41 includes two vertical sliding rails 411 respectively and vertically disposed on the two frames 32, two tool holders 412 respectively capable of sliding along the vertical sliding rails 411, a rotating shaft 413 connected to the two tool holders 412, a slitting blade 414 fixed to the rotating shaft 413, a slitting motor 415 driving the rotating shaft 413 to rotate, and a lifting cylinder 416 for driving the tool holders 412 to lift along the vertical sliding rails 411; the lifting cylinder 416 is fixed to the frame 32, and push rods of the lifting cylinder 416 are respectively and fixedly connected to the tool holders 412 on the same side. During cutting, the position of the longitudinal cutting blade 414 on the rotating shaft 413 is adjusted, the lifting cylinder 416 is controlled at the same time, the cylinder is contracted to drive the tool rest 412, the rotating shaft 413 and the longitudinal cutting blade 414 to descend to a position which can completely cut off the aluminum honeycomb core, the longitudinal cutting motor 415 is started to rotate the longitudinal cutting blade 414, and at the moment, the stretched aluminum honeycomb core coming out of the stretching device 3 is longitudinally cut after passing through the longitudinal cutting blade 414.

Since the transversely cut material is not fixed well and the subsequent longitudinal cutting action is affected if the transverse cutting is performed first, in this embodiment, the transverse cutting structure 42 is disposed at the rear end of the longitudinal cutting structure 41, and the transverse cutting structure 42 includes a transverse slide rail 421 perpendicular to the advancing direction of the processed material, a mounting frame 422 capable of sliding along the transverse slide rail, a transverse cylinder driving the mounting frame 422 to slide along the transverse slide rail 421, an air motor 423 fixed on the mounting frame 422, a transverse cutting blade 424 fixedly mounted on an output shaft of the air motor 423, and a supporting plate 425 parallel to the cargo receiving plate 31 and disposed above the air motor 423. During transverse cutting, the position of the transverse cutting blade 424 is fixed, adjustment is not needed, the cutting length is controlled only by controlling the distance of the longitudinally cut materials moving forwards, then the pneumatic motor 423 is started to enable the transverse cutting blade 424 to rotate, the transverse cylinder is started to drive the pneumatic motor 423 to move for transverse cutting, and when the transverse cylinder contracts or extends to the limit position, transverse cutting is completed.

In the cutting action process, the aluminum honeycomb core after longitudinal cutting is firstly divided into a left part and a right part, and can shake in the process of back cutting to influence the effect of the cross cutting, a pressing structure 43 for pressing materials is further arranged between the longitudinal cutting structure 41 and the cross cutting structure 42, the pressing structure 43 comprises a pressing roller 431 perpendicular to the material conveying direction and a third adjusting structure 432 for adjusting the height of the pressing roller 431 in the perpendicular direction, the aluminum honeycomb core cut by the longitudinal cutting structure 41 passes through a gap between the goods receiving plate 31 and the pressing roller 431, the pressing roller 431 descends until being tightly attached to the upper part of the aluminum honeycomb core by adjusting the third adjusting structure 432, the aluminum honeycomb core is pressed and fixed, the back cross cutting is more stable and tidy, and the cutting effect is better.

Preferably, the third adjusting structure 432 is also a worm and gear structure, which is the same as the first adjusting structure 34, wherein the worm of the adjusting structure is connected to both ends of the pressure roller 431, and the worm gear drives the scroll to slide in the vertical direction when rotating so as to adjust the vertical distance between the pressure roller 431 and the cargo receiving plate 31. The turbine is also connected with an external manual rotating wheel, and besides automatic control, workers can manually rotate the adjusting rotating wheel to realize accurate adjustment.

The discharging device 5 in this embodiment has the same structure as the charging structure, and includes a discharging conveyor belt 51 and a discharging motor 52 for driving the discharging conveyor belt 51 to rotate. The cut material is finally discharged from the structure of the tail-most discharging device 5.

In this embodiment, the aluminum honeycomb core stretcher 1 is further provided with a support frame 6 for supporting the feeding device 2, the stretching device 3, the cutting device 4 and the discharging device 5. Wherein the aluminum honeycomb core stretcher 1 is further provided with a control cabinet 7, and the control cabinet 7 is arranged on the side surface of the support frame 6. Wherein the supporting frame 6 and the frame 32 are both made of metal materials, have stronger strength and can ensure the good operation of the device above

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. Aluminium honeycomb core stretcher, its characterized in that: comprises that

A feeding device: the feeding device comprises a feeding conveyer belt, a feeding motor for controlling the feeding conveyer belt to rotate and a pressing structure which is arranged at the front end of the feeding conveyer belt and used for pressing materials;

a stretching device: the stretching device comprises a goods receiving plate, two frames and two stretching roller sets, wherein the goods receiving plate is arranged at the tail end of the feeding conveying belt in a bearing mode, the two frames are arranged on the left side and the right side of the goods receiving plate, and the two stretching roller sets are respectively arranged at the front end and the rear end of the goods receiving plate; the stretching roller group comprises a lower pressing roller arranged at the joint of the goods receiving plate and the feeding conveying belt, an upper pressing roller corresponding to the upper part of the lower pressing roller, two motors respectively used for driving the lower pressing roller and the upper pressing roller to rotate and a first adjusting structure fixed on the frame and used for adjusting the distance between the lower pressing roller and the upper pressing roller; the rotating speed of the stretching roller group at the rear end of the cargo receiving plate is greater than that of the stretching roller group at the front end of the cargo receiving plate;

a cutting device: the cutting device is used for cutting the stretched aluminum honeycomb core and comprises a longitudinal cutting structure for longitudinal cutting and a transverse cutting structure for transverse cutting;

a discharging device: used for conveying the processed and cut materials out.

2. An aluminum honeycomb core stretcher as claimed in claim 1 wherein: the material pressing structure comprises an arc-shaped pressure comb arranged above the feeding conveying belt at intervals, adjusting columns vertically arranged at two ends of the arc-shaped pressure comb and a second adjusting structure used for adjusting the distance between the arc-shaped pressure comb and the feeding conveying belt.

3. An aluminum honeycomb core stretcher as claimed in claim 2 wherein: the first adjusting structure and the second adjusting structure are both of a worm and gear structure, the worm of the first adjusting structure is connected with the upper compression roller, and the worm gear drives the scroll rod to slide in the vertical direction when rotating so as to adjust the distance between the upper compression roller and the lower compression roller; the worm of the second adjusting structure is connected with the adjusting column, and the worm wheel drives the worm to slide in the vertical direction when rotating so as to adjust the distance between the arc-shaped pressure comb and the feeding conveying belt.

4. An aluminum honeycomb core stretcher as claimed in claim 2 wherein: the arc pressure comb is bent towards the direction of the feeding conveying belt, and a strip-shaped pressing portion is arranged in the middle of the arc pressure comb.

5. An aluminum honeycomb core stretcher as claimed in claim 1 wherein: the longitudinal cutting structure comprises two vertical sliding rails respectively and vertically arranged on the two frames, two tool rests respectively capable of sliding along the vertical sliding rails, a rotating shaft connected with the two tool rests, a longitudinal cutting blade fixed on the rotating shaft, a longitudinal cutting motor driving the rotating shaft to rotate and a lifting cylinder used for driving the tool rests to lift along the vertical sliding rails; the lifting cylinder is fixed on the frame, and a push rod of the lifting cylinder is fixedly connected with the tool rests on the same side respectively.

6. An aluminum honeycomb core stretcher as claimed in claim 1 wherein: the horizontal cutting structure set up in the rear end of vertical cutting structure, the horizontal cutting structure include perpendicular to processing material direction of advance horizontal slide rail, can along the gliding mounting bracket of horizontal slide rail, drive the mounting bracket along the gliding horizontal cylinder of horizontal slide rail, be fixed in pneumatic motor, fixed mounting on the mounting bracket last horizontal cutting blade of pneumatic motor output shaft and with connect the pallet parallel and set up in the backup pad of pneumatic motor top.

7. An aluminum honeycomb core stretcher as claimed in claim 1 wherein: the vertical cutting structure and the transverse cutting structure are also provided with a pressing structure used for pressing materials, the pressing structure comprises a pressing roller perpendicular to the material conveying direction and a third adjusting structure used for adjusting the height of the pressing roller in the perpendicular direction, and the third adjusting structure is the same as the first adjusting structure in structure.

8. An aluminum honeycomb core stretcher as claimed in claim 1 wherein: the discharging device comprises a discharging conveyer belt and a discharging motor for driving the discharging conveyer belt to rotate.

9. An aluminum honeycomb core stretcher as claimed in claim 1 wherein: the aluminum honeycomb core stretcher is also provided with a support frame for supporting the feeding device, the stretching device, the cutting device and the discharging device.

10. An aluminum honeycomb core stretcher as claimed in claim 9 wherein: the aluminum honeycomb core stretcher is further provided with a control cabinet, and the control cabinet is arranged on the side face of the support frame.

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