CN114985843A

CN114985843A - Aluminum template cutting device

Info

Publication number: CN114985843A
Application number: CN202210750133.5A
Authority: CN
Inventors: 陈雪波
Original assignee: Jiangxi Boao Aluminum Mold Technology Co ltd
Current assignee: Jiangxi Boao Aluminum Mold Technology Co ltd
Priority date: 2022-06-28
Filing date: 2022-06-28
Publication date: 2022-09-02
Anticipated expiration: 2042-06-28
Also published as: CN114985843B

Abstract

The invention discloses an aluminum template cutting device, which relates to the technical field of aluminum template processing equipment and comprises a cutting device body, wherein the cutting device body is provided with an embossing device and a material guide mechanism, and the material guide mechanism penetrates through the lower part of the output end of the embossing device; the stamping device is characterized by further comprising a separating mechanism, a discharging mechanism and a recovering mechanism, wherein the recovering mechanism and the discharging mechanism are located on one side of the output end of the material guiding mechanism, the separating mechanism is located between the stamping device and the discharging mechanism, the separating mechanism is arranged below the material guiding mechanism, and the discharging mechanism is located above the separating mechanism; the invention drives the ejector rod to move along the surface of the inner shell through the rotating circulating belt, and the ejector rod ejects and separates the stamped objects upwards along the fluctuation when passing through the bulge part, and simultaneously transfers the ejected stamped objects. Let remaining leftover bits simultaneously by pressing on guide mechanism to two directions separate the material after the cross cutting from upper and lower respectively, the better accuracy of separation effect is higher.

Description

Aluminum template cutting device

Technical Field

The invention relates to the technical field of aluminum template processing equipment, in particular to an aluminum template cutting device.

Background

The aluminum alloy template is a new generation template system after plywood template, combined steel template system, steel frame wood (bamboo) plywood system, large template system and early-dismantling template system. The aluminum alloy template is a template which is made of aluminum alloy sections as main materials through processes of machining, welding and the like and is suitable for concrete engineering, and is formed by combining a panel, ribs, main section bars, a plane template, a corner template and an early-dismantling device according to the 50mm modulus design. The design and construction application of the aluminum alloy template are the innovation of the concrete engineering template technology, the promotion of the assembly type concrete technology and the realization of the industrialization of the construction technology.

The aluminum alloy template system can be divided into a pull rod system and a pull piece system according to different stress modes. The pull rod system aluminum alloy template consists of a template system, a fastening system, a supporting system and an accessory system, has a complete matched template system, is suitable for template systems of different ranges such as city pipe corridors, public buildings, residential buildings and the like, consists of three systems of the template system, the supporting system and the accessory system, has a complete matched template system, and is generally suitable for residential buildings.

To the aluminium template can produce a large amount of aluminium template leftover bits of different length in the course of working, prior art can only process out the part of smaller size than aluminium template leftover bits on the basis of aluminium template leftover bits, but because the part demand of smaller size is few, consequently can be more than out a lot of aluminium template leftover bits. The leftover materials need to be removed, but the existing cutting mechanism for the leftover materials only separates the leftover materials in a mode of pulling the leftover materials downwards, but the separation effect is poor, so that the leftover materials cannot be completely separated, and partial finished products are wound together with the leftover materials, so that waste is caused.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an aluminum template cutting device which comprises a cutting device body, wherein the cutting device body is provided with an embossing device and a material guide mechanism, and the material guide mechanism penetrates through the lower part of the output end of the embossing device; the stamping device is characterized by further comprising a separating mechanism, a discharging mechanism and a recovering mechanism, wherein the recovering mechanism and the discharging mechanism are located on one side of the output end of the material guiding mechanism, the separating mechanism is located between the stamping device and the discharging mechanism, the separating mechanism is arranged below the material guiding mechanism, and the discharging mechanism is located above the separating mechanism;

the separating mechanism comprises an inner shell, a driving module, a circulating belt and an ejector rod; the inner shell transversely comprises a base part, a protruding part and a magnetic attraction layer, the cross section of the base part is in a straight notch shape, the protruding part is arranged at the upper end of the base part, the height of the protruding part is gradually increased from one end close to the imprinting device to the other end and then gradually reduced, and the magnetic attraction layer surrounds the outer peripheral ring arranged on the inner shell; the circulating belt is arranged around the outer side of the inner shell;

the output end of the driving module is connected with the circulating belt and used for driving the circulating belt to rotate circularly along the periphery of the inner shell in the material conveying direction; a plurality of sliding grooves are arranged on the circulating belt in a penetrating mode, the ejector rod is connected with the sliding grooves in a sliding mode, and the lower end of the ejector rod is in sliding abutting contact with the outer side of the magnetic absorption layer;

when the circulating belt drives the ejector rod to move to the top end of the protruding portion, the upper end of the ejector rod moves upwards from the port of the sliding groove, and the imprinting objects passing through the upper material guide mechanism are ejected into the input end of the discharging mechanism.

Further scheme is, the lower extreme of cutting device body is provided with a plurality of and is used for right the cutting device body carries out absorbing damper, damper includes:

the damping support seat is arranged below the cutting device body and supports the cutting device body;

and the vibration power generation mechanism is arranged on the vibration-damping supporting seat and generates power through the vibration of the vibration-damping supporting seat.

Further scheme is, shock attenuation supporting seat includes:

the base is fixed on the ground, and a vertical sliding groove is formed in the base;

the sliding support rod is in sliding fit with the base;

the fixed block is arranged on the sliding support rod;

the fixing ring is fixed on the lower end face of the cutting device body, and the outer side of the fixing ring is connected with the sliding support rod;

the buffering elastic piece is sleeved on the sliding support rod and located between the fixed blocks and the bases.

Further, the vibration power generation mechanism comprises:

the permanent magnets are fixed on two sides of the base, and magnetic fields generated by the permanent magnets cover the buffer elastic pieces and the positions of the fixed blocks;

and the upper part of the inner side of the coil is fixed on the fixing block.

The stamping device comprises a main frame, wherein a telescopic cylinder group is arranged at the upper end of the main frame, and the output end of the telescopic cylinder group is vertically downward and fixedly connected with a stamping block; the material guide mechanism comprises a bottom plate and guide assemblies, the bottom plate is arranged below the stamping block, and the guide assemblies are symmetrically arranged on two sides of the bottom plate; the guide assembly comprises a material guide conveying belt and a driving wheel set, and the driving wheel set is connected with the material guide conveying belt and used for driving the material guide conveying belt to operate.

The material guide device is characterized in that a baffle is arranged on one side, away from the bottom plate, of the material guide conveying belt, a pressing roller is arranged above the material guide conveying belt, and the pressing roller is arranged on the baffle.

The further scheme is that the drive module includes runner, pivot and belt drive group, the pivot rotate set up in both ends around the inner shell, the runner symmetry set up in the both ends of pivot, the output of belt drive group is connected with the pivot of one side, the endless belt with the runner rotates and connects.

The further scheme is that a groove is formed in the lower end of the ejector rod, a magnetic ball is connected in the groove in a rotating mode, and the magnetic ball is connected with the magnetic attraction layer in a rolling mode.

The discharging mechanism comprises a connecting plate and a discharging conveying belt group, one end of the connecting plate is arranged on one side of the input end of the discharging conveying belt group, and the other end of the connecting plate extends to the upper part of the separating mechanism; the connection plates are arranged in an inclined mode.

The recovery mechanism comprises a drawing roller group and a recovery box, and the recovery box is arranged below the drawing roller group.

Compared with the prior art, the invention has the following beneficial effects:

according to the aluminum template cutting device provided by the invention, the rotating circulating belt drives the ejector rod to move along the surface of the inner shell, and when the ejector rod passes through the convex part, the ejected imprinting objects are ejected upwards and separated along the fluctuation, and are transferred at the same time. Let remaining leftover bits simultaneously by the pressure on guide mechanism to separate the material after the cross cutting from two upper and lower directions respectively, the better accuracy of separation effect is higher.

The cutting device comprises a cutting device body, a damping mechanism is arranged on the cutting device body, and the damping mechanism is arranged on the cutting device body and used for supporting the cutting device body. Simultaneously through setting up vibrations electricity generation mechanism on the shock attenuation supporting seat for the shock attenuation supporting seat can also generate electricity at the in-process of vibrations, improves the utilization ratio of energy, improves the generating efficiency.

Drawings

Fig. 1 is a front view of an aluminum die plate cutting apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a shock-absorbing support seat provided in the embodiment of the present invention:

FIG. 3 is an enlarged schematic view at A in FIG. 1;

FIG. 4 is a schematic view of a portion of a supply of embodiments of the present invention above an endless belt;

fig. 5 is a schematic structural diagram of the cutting device according to the embodiment of the present invention when performing die cutting.

The attached drawings are marked as follows: 1-cutting the device body; 2-an embossing device; 20-the main frame; 21-telescopic cylinder group; 22-an embossing block; 23-a baffle; 24-a press roller; 3-a material guiding mechanism; 30-a bottom plate; 31-a guide assembly; 310-guide conveyor belt; 311-a drive wheel set; 4-a separation mechanism; 40-an inner shell; 400-a base; 401-a boss; 402-a magnetic absorption layer; 41-a driving module; 410-a rotating wheel; 411-a rotating shaft; 412-a belt drive group; 42-a circulating belt; 420-a chute; 43-a top rod; 430-grooves; 431-magnetic balls; 5-a discharging mechanism; 50-connector tiles; 51-an outfeed conveyor set; 6-a recovery mechanism; 60-a set of draw rolls; 61-a recovery tank; 7-damping support seats; 70-a base; 71-sliding support bars; 72-fixed block; 73-a fixed ring; 74-a cushion spring; 8-a vibration power generation mechanism; 80-permanent magnets; 81-coil.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 5, an embodiment of the present invention discloses an aluminum template cutting device, which includes a cutting device body 1, wherein the cutting device body 1 is provided with an imprinting device 2 and a material guiding mechanism 3, and the material guiding mechanism 3 passes through the lower part of the output end of the imprinting device 2; the stamping device is characterized by further comprising a separating mechanism 4, a discharging mechanism 5 and a recovering mechanism 6, wherein the recovering mechanism 6 and the discharging mechanism 5 are positioned on one side of the output end of the material guiding mechanism 3, the separating mechanism 4 is positioned between the stamping device 2 and the discharging mechanism 5, the separating mechanism 4 is arranged below the material guiding mechanism 3, and the discharging mechanism 5 is positioned above the separating mechanism 4;

the material of this embodiment is impressed by the impression device and is drawn a little separated indentation after the input of guide mechanism gets into, follow-up separation mechanism to the impression thing with remaining material separation.

The separating mechanism 4 comprises an inner shell 40, a driving module 41, a circulating belt 42 and a mandril 43; the inner shell 40 transversely comprises a base 400, a convex part 401 and a magnetic absorption layer 402, the cross section of the base 400 is in a straight notch shape, the convex part 401 is arranged at the upper end of the base 400, the height of the convex part 401 is gradually increased from one end close to the imprinting device 2 to the other end and then gradually reduced, and the magnetic absorption layer 402 surrounds the outer circumference ring arranged on the inner shell 400; the circulation belt 42 is disposed around the outside of the inner case 400;

wherein, the circulating belt and the base are arranged at equal intervals.

The output end of the driving module 41 is connected with the circulating belt 42 and used for driving the circulating belt 42 to circularly rotate along the periphery of the inner shell 40 in the material conveying direction; a plurality of sliding grooves 420 are arranged on the circulating belt 42 in a penetrating manner, the push rod 43 is connected with the sliding grooves 420 in a sliding manner, and the lower end of the push rod 43 is in sliding contact with the outer side of the magnetic attraction layer 402;

when the circulation area operation of this embodiment rotated, the ejector pin that sets up in the spout removed thereupon to when the ejector pin removed in the bellying top, because the fluctuation of bellying lets the ejector pin rebound, and when the circulation area drove the ejector pin and removed the top to the bellying, the port rebound of spout was followed to the upper end of ejector pin, and with the impression thing top income discharge mechanism's that passes through in the guide mechanism of top input. Wherein, can install the ejector pin in the spout on different positions according to different figures.

When the circulating belt 42 drives the top rod 43 to move to the top end of the protruding portion 401, the upper end of the top rod 43 moves upward from the port of the chute 420, and pushes the imprinting material passing through the upper material guiding mechanism 3 into the input end of the material discharging mechanism 5.

The aluminum template cutting device comprises the following steps when in use:

step S1: after the material is put into the material guide mechanism from the input end of the material guide mechanism, the cutting device body is started to be debugged and arranged, and a mandril is arranged at a proper position on the circulating belt;

step S2: when the material passes through the lower part of the stamping device, the stamping block is driven by the telescopic cylinder group to stamp a stamped object on the material, and the stamped object moves forwards continuously;

step S3: the driving module drives the circulating belt to rotate circularly, drives the ejector rod to move on the surface of the magnetic attraction layer, presses two sides of the material through the pressing roller, pushes the imprinting object onto the connecting plate along with the upward movement of the protruding part, and simultaneously gradually separates the imprinting object from the material integrally, so that the imprinting object enters the discharging conveying belt group to be transported away;

step S4: meanwhile, the residual materials separated out of the presswork are guided to a recovery box along with the traction roller group for collection.

In this embodiment, the lower extreme of cutting device body 1 is provided with a plurality of and is used for carrying out absorbing damper to cutting device body 1, and damper includes:

the damping supporting seat 7 is arranged below the cutting device body 1, and the damping supporting seat 7 supports the cutting device body 1;

and the vibration power generation mechanism 8 is arranged on the vibration-damping supporting seat 7, and the vibration power generation mechanism 8 generates power through the vibration of the vibration-damping supporting seat 7.

This embodiment is through setting up damper in the below of cutting device body, cushions the vibrations energy that the cutting device body during operation produced through damper. Simultaneously through setting up vibrations electricity generation mechanism on the shock attenuation supporting seat for the shock attenuation supporting seat can also generate electricity at the in-process of vibrations, improves the utilization ratio of energy, improves the generating efficiency.

In this embodiment, the shock-absorbing support base 7 includes:

the base 70, the base 70 is fixed on the ground, the base 70 is equipped with the vertical sliding slot;

the sliding support rod 71, the sliding support rod 71 is in sliding fit on the base 70;

a fixed block 72, wherein the fixed block 72 is arranged on the sliding support rod 71;

a fixing ring 73, the fixing ring 73 is fixed on the lower end face of the cutting device body 1, and the outer side of the fixing ring 73 is connected with the sliding support rod 71;

the buffering elastic member 74, the buffering elastic member 74 is sleeved on the sliding support rod 71, and the buffering elastic member 74 is located between the fixing block 72 and the base 70.

It should be noted that the buffering elastic member of the present embodiment may be a spring, a spring plate, or other elastic structure. When the cutting device body vibrates in operation or the cutting device body vibrates under the action of external impact force, the buffering elastic piece can play a role in buffering, and the vibration of the cutting device body is relieved.

In the present embodiment, the vibration power generation mechanism 8 includes:

the permanent magnet 80 is fixed on two sides of the base 70, and a magnetic field generated by the permanent magnet 80 covers the positions of the buffer elastic piece 74 and the fixed block 72;

and a coil 81, wherein the upper part of the inner side of the coil 81 is fixed on the fixed block 72.

When the cutting device body vibrates in operation or when the cutting device body vibrates due to external impact force, the cutting device body transmits the vibration to the fixing block in the damping supporting seat, the fixing block vibrates up and down, so that the coil fixed on the fixing block moves up and down, the coil cuts magnetic induction lines generated by the permanent magnets on two sides, and current is generated in the coil. The coil of this embodiment may be connected to a device or apparatus to be powered by a wire. So that the current generated in the coil supplies power to the equipment to be powered through the lead. The embodiment generates electricity through vibration, improves the utilization rate of energy and improves the generating efficiency.

In the present embodiment, the imprinting device 2 includes a main frame 20, an upper end of the main frame 20 is provided with a telescopic cylinder group 21, an output end of the telescopic cylinder group 21 is vertically downward and fixedly connected with an imprinting block 22; the material guiding mechanism 3 comprises a bottom plate 30 and guiding assemblies 31, the bottom plate 30 is arranged below the stamping block 22, and the guiding assemblies 31 are symmetrically arranged on two sides of the bottom plate 30; the guiding assembly 31 includes a material guiding conveyor 310 and a driving wheel set 311, wherein the driving wheel set 311 is connected to the material guiding conveyor 310 for driving the material guiding conveyor 310 to run.

The drive wheel group drive guide transmission band operation of this embodiment, when the material on the guide transmission band passes through, pushes away the impression block through flexible cylinder group and carry out the impression to the material, and wherein the bottom plate plays the effect of support when the impression.

In this embodiment, a baffle 23 is disposed on a side of the material guiding conveyor 20 away from the bottom plate 30, a pressing roller 24 is disposed above the material guiding conveyor 310, and the pressing roller 24 is mounted on the baffle 23.

This embodiment can realize through above-mentioned setting that the material removes between guide transmission band and press the gyro wheel, can play the effect of location to the material through pressing the gyro wheel to when the ejector pin upwards ejecting press the thing, through pressing the gyro wheel and downwards pressing leftover bits, can be higher separate both.

In this embodiment, the driving module 41 includes a rotating wheel 410, a rotating shaft 411 and a belt driving set 412, the rotating shaft 411 is rotatably disposed at the front and rear ends of the inner casing 40, the rotating wheels 410 are symmetrically disposed at the two ends of the rotating shaft 411, the output end of the belt driving set 412 is connected to the rotating shaft 411 at one side, and the circulating belt 42 is rotatably connected to the rotating wheel 410.

This embodiment can realize through above-mentioned setting that belt drive group drives the pivot and rotates, lets the runner rotate simultaneously to let the circulation area move.

In this embodiment, the lower end of the top rod 43 is provided with a groove 430, a magnetic ball 431 is rotatably connected in the groove 430, and the magnetic ball 431 is in rolling connection with the magnetic attraction layer 402.

This embodiment can realize through above-mentioned setting that it is more smooth and easy when can letting the ejector pin remove through set up the magnetism ball in the ejector pin bottom, simultaneously through the magnetism connection between magnetism suction layer and the magnetism ball, lets the bottom of ejector pin remove on magnetism suction layer surface all the time.

In the embodiment, the discharging mechanism 5 comprises a connecting plate 50 and a discharging conveyor belt group 51, one end of the connecting plate 50 is arranged on one side of the input end of the discharging conveyor belt group 51, and the other end extends to the upper part of the separating mechanism 4; the connector tiles 50 are arranged in an inclined manner.

The embodiment can realize that when the ejector rod is separated against the stamp, the part of the front end of the stamp which is separated is higher than the lower end of the connecting joint plate, and when the stamp is not completely separated, the stamp still advances, and finally is completely separated and conveyed away by contacting with the discharging conveying belt group.

In the present embodiment, the recovery mechanism 6 includes a pull roll group 60 and a recovery tank 61, and the recovery tank 61 is provided below the pull roll group 60.

This embodiment can realize through above-mentioned setting that the residual material that goes out the presswork to having separated out draws direction to collection box to guarantee that the material keeps steadily at the removal in-process.

Finally, only specific embodiments of the present invention are described in detail above. The invention is not limited to the specific embodiments described above. Equivalent modifications and substitutions by those skilled in the art are also within the scope of the present invention. Accordingly, equivalent alterations and modifications are intended to be included within the scope of the present invention, without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an aluminum mould board cutting device, includes cutting device body (1), its characterized in that:

the cutting device body (1) is provided with an embossing device (2) and a material guide mechanism (3), and the material guide mechanism (3) penetrates through the lower part of the output end of the embossing device (2); the stamping device is characterized by further comprising a separating mechanism (4), a discharging mechanism (5) and a recovering mechanism (6), wherein the recovering mechanism (6) and the discharging mechanism (5) are located on one side of the output end of the material guiding mechanism (3), the separating mechanism (4) is located between the stamping device (2) and the discharging mechanism (5), the separating mechanism (4) is arranged below the material guiding mechanism (3), and the discharging mechanism (5) is located above the separating mechanism (4);

the separating mechanism (4) comprises an inner shell (40), a driving module (41), a circulating belt (42) and a push rod (43); the inner shell (40) comprises a base (400)), a protruding portion (401) and a magnetic absorption layer (402) in the transverse direction, the cross section of the base (400) is in a straight notch shape, the protruding portion (401) is arranged at the upper end of the base (400), the height of the protruding portion (401) is gradually increased from one end close to the imprinting device (2) to the other end and then gradually decreased, and the magnetic absorption layer (402) surrounds the outer periphery of the inner shell (400); the circulating belt (42) is arranged around the outer side of the inner shell (400);

the output end of the driving module (41) is connected with the circulating belt (42) and used for driving the circulating belt (42) to rotate circularly along the periphery of the inner shell (40) in the material conveying direction; a plurality of sliding grooves (420) are arranged on the circulating belt (42) in a penetrating mode, the ejector rod (43) is connected with the sliding grooves (420) in a sliding mode, and the lower end of the ejector rod (43) is in sliding abutting contact with the outer side of the magnetic absorption layer (402);

when the circulating belt (42) drives the ejector rod (43) to move to the top end of the protruding portion (401), the upper end of the ejector rod (43) moves upwards from the port of the sliding groove (420), and the imprinting materials passing through the upper material guiding mechanism (3) are ejected into the input end of the discharging mechanism (5).

2. The aluminum die plate cutting device according to claim 1, wherein:

the lower extreme of cutting device body (1) is provided with a plurality of and is used for right cutting device body (1) carries out absorbing damper, damper includes:

the damping support seat (7) is arranged below the cutting device body (1), and the damping support seat (7) supports the cutting device body (1);

the vibration power generation mechanism (8), the vibration power generation mechanism (8) is arranged on the damping supporting seat (7) and generates power through the vibration of the damping supporting seat (7).

3. The aluminum die plate cutting device according to claim 2, wherein:

shock attenuation supporting seat (7) include:

the base (70), the said base (70) is fixed on ground, offer the vertical sliding tray on the said base (70);

the sliding support rod (71), the sliding support rod (71) is in sliding fit with the base (70);

the fixing block (72) is arranged on the sliding supporting rod (71), and the fixing block (72) is arranged on the sliding supporting rod (71);

the fixing ring (73), the fixing ring (73) is fixed on the lower end face of the cutting device body (1), and the outer side of the fixing ring (73) is connected with the sliding support rod (71);

the buffering elastic piece (74) is sleeved on the sliding support rod (71), and the buffering elastic piece (74) is located between the fixing block (72) and the base (70).

4. The aluminum die plate cutting device according to claim 3, wherein:

the vibration power generation mechanism (8) includes:

the permanent magnet (80), the said permanent magnet (80) is fixed to the said both sides of base (70), and the magnetic field that the said permanent magnet (80) produces covers the said buffering elastic component (74) and the said fixed block (72) locates the position;

and the upper part of the inner side of the coil (81) is fixed on the fixed block (72).

5. The aluminum die plate cutting device according to any one of claims 1 to 3, wherein:

the embossing device (2) comprises a main frame (20), wherein the upper end of the main frame (20) is provided with a telescopic cylinder group (21), and the output end of the telescopic cylinder group (21) is vertically downward and fixedly connected with an embossing block (22); the material guide mechanism (3) comprises a bottom plate (30) and guide assemblies (31), the bottom plate (30) is arranged below the stamping block (22), and the guide assemblies (31) are symmetrically arranged on two sides of the bottom plate (30); the guide assembly (31) comprises a material guide conveying belt (310) and a driving wheel set (311), wherein the driving wheel set (311) is connected with the material guide conveying belt (310) and used for driving the material guide conveying belt (310) to run.

6. The aluminum die plate cutting device according to claim 5, wherein:

one side of the material guide conveying belt (20) far away from the bottom plate (30) is provided with a baffle (23), a pressing roller (24) is arranged above the material guide conveying belt (310), and the pressing roller (24) is arranged on the baffle (23).

7. The aluminum die plate cutting device according to claim 1, wherein:

drive module (41) include runner (410), pivot (411) and belt drive group (412), pivot (411) rotate set up in both ends around inner shell (40), runner (410) symmetry set up in the both ends of pivot (411), the output of belt drive group (412) is connected with pivot (411) of one side, endless belt (42) with runner (410) rotate and are connected.

8. The aluminum die plate cutting device according to claim 1, wherein:

the lower end of the ejector rod (43) is provided with a groove (430), a magnetic ball (431) is connected in the groove (430) in a rotating mode, and the magnetic ball (431) is connected with the magnetic absorption layer (402) in a rolling mode.

9. The aluminum die plate cutting device according to claim 1, wherein:

the discharging mechanism (5) comprises a connecting plate (50) and a discharging conveying belt group (51), one end of the connecting plate (50) is arranged on one side of the input end of the discharging conveying belt group (51), and the other end of the connecting plate extends to the upper part of the separating mechanism (4); the connection plates (50) are arranged in an inclined mode.

10. The aluminum die plate cutting device according to claim 1, wherein:

the recovery mechanism (6) comprises a drawing roller group (60) and a recovery box (61), and the recovery box (61) is arranged below the drawing roller group (60).