阅读说明：本技术 铝型材加工装置及加工方法 (Aluminum profile machining device and method ) 是由 汪劦 房继业 于 2021-04-23 设计创作，主要内容包括：本发明公开了一种铝型材加工装置及加工方法,属于铝型材加工领域,用于型材加工,其轮齿板体、外板体上对应加工有矩形通孔；所述轮齿板体设置有内夹板驱动,内夹板驱动通过内夹板驱动杆与内夹板连接；所述外板体上加工有外夹板滑轨,矩形通孔两侧的外夹板滑轨上分别滑动连接有外侧夹板,外侧夹板加工有外夹板固定孔、外夹板引导孔,外夹板固定孔内固定有外夹板齿条,相邻的外夹板齿条之间通过外夹板齿轮进行传动；所述轮齿板体的顶端、底端位于齿条引导板内,齿条引导板的内部设置有与其相对滑动的轮齿驱动齿条,轮齿驱动齿条的两端连接有齿条连杆。其能够实现铝型材加工过程中的夹持及翻转,以实现铝型材不同侧面之间的加工,提高加工效率。(The invention discloses an aluminum profile processing device and a processing method, which belong to the field of aluminum profile processing and are used for processing a profile, wherein rectangular through holes are correspondingly processed on a gear tooth plate body and an outer plate body; the gear tooth plate body is provided with an inner clamping plate drive, and the inner clamping plate drive is connected with an inner clamping plate through an inner clamping plate drive rod; the outer plate body is provided with outer clamping plate sliding rails, the outer clamping plate sliding rails on two sides of the rectangular through hole are respectively connected with outer clamping plates in a sliding mode, the outer clamping plates are provided with outer clamping plate fixing holes and outer clamping plate guide holes, outer clamping plate racks are fixed in the outer clamping plate fixing holes, and transmission is carried out between the adjacent outer clamping plate racks through outer clamping plate gears; the top end and the bottom end of the gear tooth plate body are located in the rack guide plate, a gear tooth driving rack which slides relative to the rack guide plate is arranged in the rack guide plate, and two ends of the gear tooth driving rack are connected with rack connecting rods. It can realize centre gripping and upset in the aluminium alloy course of working to realize the processing between the different sides of aluminium alloy, improve machining efficiency.)

1. The utility model provides an aluminium alloy processingequipment which characterized in that: the gear tooth plate comprises a gear tooth plate body (3) and an outer plate body (4) which are coaxially arranged and connected through a connecting piece, wherein rectangular through holes are correspondingly processed on the gear tooth plate body (3) and the outer plate body (4); the gear tooth plate body (3) is provided with inner clamping plate drives (21) at the top and the bottom of the end face facing the outer plate body (4), the inner clamping plate drives (21) are located between the gear tooth plate body (3) and the outer plate body (4), the inner clamping plate drives (21) are connected with an inner clamping plate (20) through inner clamping plate driving rods (18), the inner clamping plate (20) is a U-shaped plate body, and the rectangular through hole is located on the inner side of the U-shaped plate body; the end face, far away from the gear tooth plate body (3), of the outer plate body (4) is provided with an outer clamping plate sliding rail (13), and the outer clamping plate sliding rail (13) is located on two sides of the rectangular through hole of the outer plate body (4); outer clamping plates (5) are respectively connected to outer clamping plate sliding rails (13) on two sides of the rectangular through hole in a sliding mode, outer clamping plate fixing holes (14) and outer clamping plate guide holes (15) are respectively machined in the positions, above and below the rectangular through hole, of the outer clamping plates (5), outer clamping plate racks (10) are fixed in the outer clamping plate fixing holes (14), and transmission is carried out between the adjacent outer clamping plate racks (10) through outer clamping plate gears (11); the top end and the bottom end of the gear tooth plate body (3) are located in the rack guide plate (2), a gear tooth driving rack (22) which slides relative to the rack guide plate is arranged inside the rack guide plate (2), and two ends of the gear tooth driving rack (22) are connected with the rack connecting rod (1).

2. The aluminum profile processing device according to claim 1, characterized in that: interior splint (20) are interior splint, lower interior splint on the upper portion that the U-shaped plate body constitutes, and interior splint, lower interior splint set up respectively in the top of teeth of a cogwheel plate body (3) rectangle through-hole, bottom, and the lateral surface of upper portion interior splint, the medial surface of interior splint down have processed the gear structure respectively, and teeth of a cogwheel structure and interior splint gear (23) meshing transmission, interior splint gear (23) are located between the lateral surface of upper portion interior splint, the medial surface of interior splint down.

3. The aluminum profile processing device according to claim 2, characterized in that: the inner side bottom surface of the inner clamping plate (20) is provided with an inner clamping plate roller body (19), and the inner clamping plate roller body (19) is installed on the inner clamping plate (20) through a shaft body and a bearing structure.

4. The aluminum profile processing device according to claim 1, characterized in that: the outer splint gear (11) is connected with an output shaft of the gear driver (17) through a shaft body, and the gear driver (17) is fixed on the outer plate body (4) through a gear driving plate (16).

5. The aluminum profile processing device according to claim 1, characterized in that: the outer side clamping plates (5) are provided with outer clamping plate roller bodies (9) connected through shaft bodies at positions close to the rectangular through holes of the outer plate bodies (4), and the outer clamping plate roller bodies (9) are vertically distributed on two sides of the rectangular through holes.

6. The aluminum profile processing device according to claim 5, characterized in that: outside splint (5) are including left side splint and right side splint, and the output shaft of connecting rod and outer splint driver (6) is passed through to left side splint, and right side splint pass through outer splint guide rod (12) and correspond outer splint drive fixed plate (7) sliding connection of side, outer splint drive fixed plate (7) are fixed in on outer plate body (4) through the fix with screw.

7. The aluminum profile processing apparatus according to any one of claims 1 to 6, characterized in that: the rack guide plate (2) is of a U-shaped structure in which the top end and the bottom end of the gear tooth plate body (3) are accommodated.

8. An aluminum profile processing method using the aluminum profile processing apparatus as set forth in any one of claims 1 to 7, characterized in that: after the aluminum profile penetrates through the rectangular through holes of the gear tooth plate body (3) and the outer plate body (4), the inner clamping plate (20) and the outer clamping plate (5) are close to the aluminum profile, and the inner clamping plate roller body (19) and the outer clamping plate roller body (9) are respectively contacted with and pressed against the side face of the aluminum profile; when the gear wheel plate body (3) is driven by the gear wheel driving rack (22), the gear wheel plate body (3) drives the outer plate body (4) to rotate and simultaneously drives the clamped aluminum profile to rotate, so that the aluminum profile is cut on different sides.

Technical Field

The invention belongs to the field of aluminum profile processing, and particularly relates to an aluminum profile processing device and method.

Background

Because the aluminium alloy has beautiful outward appearance and can be convenient for clear up after gluing the greasy dirt, and the aluminium alloy has the characteristics that need not welding, environmental protection after assembling into the product, and installation, dismantlement are all comparatively convenient moreover, and it is comparatively extensive to use in building door and window, curtain, indoor outer decoration and building structure. Because the demand of aluminium alloy is comparatively extensive, it needs in the course of working different side processing different through-holes etc. for the centre gripping of aluminium alloy and upset are comparatively frequent, and this makes the processingequipment of aluminium alloy seem very important.

Disclosure of Invention

The invention aims to provide an aluminum profile machining device and an aluminum profile machining method, which can realize clamping and overturning in the aluminum profile machining process so as to realize machining of different side surfaces of an aluminum profile and improve machining efficiency.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the aluminum profile processing device comprises a gear tooth plate body and an outer plate body which are coaxially arranged and connected through a connecting piece, wherein rectangular through holes are correspondingly processed on the gear tooth plate body and the outer plate body; the gear tooth plate body is provided with inner clamping plate drives at the top and the bottom of the end face facing the outer plate body respectively, the inner clamping plate drives are located between the gear tooth plate body and the outer plate body, the inner clamping plate drives are connected with the inner clamping plate through an inner clamping plate driving rod, the inner clamping plate is a U-shaped plate body, and the rectangular through hole is located on the inner side of the U-shaped plate body; the end face of the outer plate body, far away from the gear tooth plate body, is provided with outer clamping plate slide rails, and the outer clamping plate slide rails are positioned on two sides of the rectangular through hole of the outer plate body; outer clamping plates are respectively connected to the outer clamping plate sliding rails on the two sides of the rectangular through hole in a sliding mode, outer clamping plate fixing holes and outer clamping plate guide holes are respectively machined in the positions above and below the rectangular through hole of the outer clamping plates, outer clamping plate racks are fixed in the outer clamping plate fixing holes, and transmission is carried out between the adjacent outer clamping plate racks through outer clamping plate gears; the top end and the bottom end of the gear tooth plate body are located in the rack guide plate, a gear tooth driving rack which slides relative to the rack guide plate is arranged in the rack guide plate, and two ends of the gear tooth driving rack are connected with rack connecting rods.

Furthermore, the inner clamping plates are an upper inner clamping plate and a lower inner clamping plate which are formed by U-shaped plate bodies, the upper inner clamping plate and the lower inner clamping plate are respectively arranged at the top end and the bottom end of the rectangular through hole of the gear tooth plate body, gear tooth structures are respectively processed on the outer side surface of the upper inner clamping plate and the inner side surface of the lower inner clamping plate, the gear tooth structures are in meshing transmission with the gear of the inner clamping plates, and the gear of the inner clamping plates is located between the outer side surface of the upper inner clamping plate and the inner side surface of the lower inner clamping plate.

Further, an inner clamping plate roller body is arranged on the inner bottom surface of the inner clamping plate, and the inner clamping plate roller body is installed on the inner clamping plate through a shaft body and a bearing structure.

Furthermore, the outer splint gear is connected with an output shaft of the gear driver through a shaft body, and the gear driver is fixed on the outer plate body through the gear driving plate.

Further, the outer clamping plate roller bodies connected through the shaft body are arranged at the positions, close to the rectangular through holes of the outer plate body, of the outer clamping plate, and the outer clamping plate roller bodies are vertically distributed on two sides of the rectangular through holes.

Furthermore, the outer side clamping plate comprises a left side clamping plate and a right side clamping plate, the left side clamping plate is connected with an output shaft of the outer clamping plate driver through a connecting rod, the right side clamping plate is connected with the outer clamping plate driving fixing plate on the corresponding side in a sliding mode through an outer clamping plate guiding rod, and the outer clamping plate driving fixing plate is fixed on the outer plate body through screws.

Further, the rack guide plate is of a U-shaped structure, and the top end and the bottom end of the gear tooth plate body are accommodated in the U-shaped structure.

After the aluminum profile passes through the rectangular through holes of the gear tooth plate body and the outer plate body, the inner clamping plate and the outer clamping plate approach the aluminum profile and enable the inner clamping plate roller body and the outer clamping plate roller body to be respectively contacted and pressed with the side surface of the aluminum profile; when the pinion rack body is driven by the pinion driving rack, the pinion rack body drives the outer plate body to rotate and simultaneously drives the clamped aluminum profile to rotate, so that the aluminum profile is cut and processed on different sides.

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

according to the invention, the aluminum profile processing device, especially the clamping device, is effectively arranged, so that the processing between different side surfaces of the aluminum profile is realized, and the processing efficiency and the processing quality of the aluminum profile are improved.

Drawings

Fig. 1 is a first schematic structural diagram of the present invention.

FIG. 2 is a second schematic structural diagram of the present invention.

Fig. 3 is a third schematic structural diagram of the present invention.

Fig. 4 is a fourth schematic structural view of the present invention.

In the figure: 1. a rack connecting rod; 2. a rack guide plate; 3. a gear tooth plate body; 4. an outer plate body; 5. an outer splint; 6. an outer clamp plate driver; 7. the outer clamping plate drives the fixing plate; 8. a clamping plate chute; 9. an outer clamping plate roller body; 10. an outer splint rack; 11. an outer clamp plate gear; 12. an outer clamp plate guide rod; 13. an outer clamp plate slide rail; 14. an outer splint fixing hole; 15. an outer splint guide hole; 16. A gear drive plate; 17. a gear drive; 18. an inner splint driving rod; 19. an inner clamping plate roller body; 20. an inner splint; 21. driving the inner clamping plate; 22. the gear teeth drive the rack; 23. an inner splint gear.

Detailed Description

The technical solution of the present invention will be further described and illustrated with reference to the following examples. It should be noted that the following paragraphs may refer to terms of orientation, including but not limited to "upper, lower, left, right, front, rear" and the like, which are all based on the visual orientation shown in the drawings corresponding to the specification, and should not be construed as limiting the scope or technical aspects of the present invention, but merely as facilitating better understanding of the technical aspects of the present invention by those skilled in the art.

In the description of the present specification, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1

A processing device for aluminum profiles comprises a gear tooth plate body 3 and an outer plate body 4 which are coaxially arranged and connected through a connecting piece, wherein rectangular through holes are correspondingly processed on the gear tooth plate body 3 and the outer plate body 4; the gear tooth plate body 3 is provided with inner clamping plate drives 21 at the top and the bottom of the end surface facing the outer plate body 4 respectively, the inner clamping plate drives 21 are located between the gear tooth plate body 3 and the outer plate body 4, the inner clamping plate drives 21 are connected with an inner clamping plate 20 through inner clamping plate driving rods 18, the inner clamping plate 20 is a U-shaped plate body, and rectangular through holes are located on the inner side of the U-shaped plate body; the end face, far away from the gear tooth plate body 3, of the outer plate body 4 is provided with outer clamping plate slide rails 13, and the outer clamping plate slide rails 13 are positioned on two sides of the rectangular through hole of the outer plate body 4; the outer splint sliding rails 13 on two sides of the rectangular through hole are respectively connected with the outer splint 5 in a sliding manner, the outer splint 5 is respectively provided with an outer splint fixing hole 14 and an outer splint guide hole 15 at the upper position and the lower position of the rectangular through hole, the outer splint fixing hole 14 is internally fixed with an outer splint rack 10, and the adjacent outer splint racks 10 are transmitted through an outer splint gear 11; the top end and the bottom end of the gear tooth plate body 3 are located in the rack guide plate 2, a gear tooth driving rack 22 which slides relative to the rack guide plate 2 is arranged in the rack guide plate 2, and two ends of the gear tooth driving rack 22 are connected with the rack connecting rod 1.

Example 2

An aluminum profile processing device is characterized in that an inner clamping plate 20 is an upper inner clamping plate and a lower inner clamping plate which are formed by a U-shaped plate body, the upper inner clamping plate and the lower inner clamping plate are respectively arranged at the top end and the bottom end of a rectangular through hole of a gear tooth plate body 3, gear tooth structures are respectively processed on the outer side surface of the upper inner clamping plate and the inner side surface of the lower inner clamping plate, the gear tooth structures are in meshing transmission with an inner clamping plate gear 23, and the inner clamping plate gear 23 is located between the outer side surface of the upper inner clamping plate and the inner side surface of the lower inner clamping plate; an inner clamping plate roller body 19 is arranged on the bottom surface of the inner side of the inner clamping plate 20, and the inner clamping plate roller body 19 is arranged on the inner clamping plate 20 through a shaft body and a bearing structure; the outer splint gear 11 is connected with an output shaft of a gear driver 17 through a shaft body, and the gear driver 17 is fixed on the outer plate body 4 through a gear driving plate 16; the outer clamping plate 5 is provided with outer clamping plate roller bodies 9 connected through a shaft body at the position close to the rectangular through hole of the outer plate body 4, and the outer clamping plate roller bodies 9 are vertically distributed at two sides of the rectangular through hole; the outer side clamping plate 5 comprises a left side clamping plate and a right side clamping plate, the left side clamping plate is connected with an output shaft of the outer clamping plate driver 6 through a connecting rod, the right side clamping plate is connected with an outer clamping plate driving fixing plate 7 on the corresponding side in a sliding mode through an outer clamping plate guiding rod 12, and the outer clamping plate driving fixing plate 7 is fixed on the outer plate body 4 through screws; the rack guide plate 2 is a U-shaped structure which accommodates the top end and the bottom end of the gear tooth plate body 3. The structure and connection relationship of the rest parts are the same as those described in any of the foregoing embodiments, and are not described herein again to avoid the tedious text.

Example 3

An aluminum profile processing method based on the device in the embodiment 1 to the embodiment 2 is characterized in that after the aluminum profile penetrates through the rectangular through holes of the gear tooth plate body 3 and the outer plate body 4, the inner clamping plate 20 and the outer clamping plate 5 approach the aluminum profile and enable the inner clamping plate roller body 19 and the outer clamping plate roller body 9 to be respectively contacted with and pressed against the side face of the aluminum profile; when the gear wheel plate body 3 is driven by the gear wheel driving rack 22, the gear wheel plate body 3 drives the outer plate body 4 to rotate and simultaneously drives the clamped aluminum profile to rotate, so that the aluminum profile is cut on different sides. The structure and connection relationship of the rest parts are the same as those described in any of the foregoing embodiments, and are not described herein again to avoid the tedious text.

On the basis of the above embodiments, the present invention continues to describe the technical features and functions of the technical features in the present invention in detail to help those skilled in the art fully understand the technical solutions of the present invention and reproduce them.

As shown in fig. 1 to 4, in the aluminum profile processing apparatus according to the present invention, the gear tooth plate 3 is a circular plate with a gear tooth structure formed at an edge position, and a rectangular through hole is formed at a middle position of the gear tooth plate 3. The teeth of a cogwheel plate body 3 distributes on the circumferencial direction of rectangle through-hole has a plurality of connecting rods in order to realize with the connection and the fixed of planking body 4, specifically speaking, processing threaded hole on the connecting rod, processing has the through-hole that corresponds with this connecting rod on planking body 4, realizes fixing planking body 4 on the connecting rod of teeth of a cogwheel plate body 3 through the screw.

In the invention, after the outer plate body 4 is fixed on the connecting rod through the screw, the outer plate body 4 and the gear tooth plate body 3 can be kept parallel, and a space for accommodating the inner clamping plate 20 is formed, so that the inner clamping plate 20 can be limited towards two side surfaces of the outer plate body 4 and the gear tooth plate body 3, and the normal movement of the inner clamping plate 20 is ensured. The inner clamping plate 20 is a U-shaped plate, and two ends of the U-shaped plate are distributed on two sides of the rectangular through hole to accommodate the rectangular through hole on the gear tooth plate 3. The plate body of rectangle through-hole both sides still is provided with interior splint gear 23 on teeth of a cogwheel plate body 3, and interior splint gear 23 is located between two interior splint 20 of mutually supporting to realize power transmission through engaged mode and two interior splint 20.

The inner clamping plate 20 comprises an upper inner clamping plate and a lower inner clamping plate which are both U-shaped plate bodies, gear tooth structures are respectively processed on two outer side surfaces parallel to each other in the upper inner clamping plate and two inner side surfaces parallel to each other in the lower inner clamping plate, and the gear tooth structures can realize power transmission with the inner clamping plate gear 23 in the above section. Specifically, when the upper inner splint drives the inner splint driving rod 18 to move downwards under the action of the inner splint drive 21, the inner splint driving rod 18 can drive the inner splint gear 23 to rotate through the gear teeth of the upper inner splint, the inner splint gear 23 can drive the lower inner splint outside the upper inner splint to move upwards, and the upper inner splint and the lower inner splint can be close to the middle position of the rectangular through hole due to the upward movement of the lower inner splint. The inner clamping plate driving device 21 comprises a power device and a gear set connected with the power device, the power device realizes the rotation of the inner clamping plate driving rod 18 with a screw rod structure through the gear set, and the inner clamping plate driving rod 18 drives the upper inner clamping plate to move downwards because the bottom end of the inner clamping plate driving rod 18 is connected with the upper inner clamping plate through a bearing structure.

In the invention, the inner clamping plate roller bodies 19 are arranged on the upper inner clamping plate and the lower inner clamping plate, and the inner clamping plate roller bodies 19 can be contacted with the upper end surface and the lower end surface of the aluminum profile, so that the feeding and the returning of the aluminum profile can be realized, and the clamping operation of the aluminum profile can also be realized. The centre gripping operation of aluminium alloy is realized through applying the exogenic action to interior splint 20, and when the interior splint of last was driven by interior splint drive 21 and is driven interior splint actuating lever 18 drive promptly, lower interior splint can be close to gradually to rectangle through-hole middle part under the effect of splint guide arm 25, interior splint guide holder 24 including with it cooperation to interior splint roll body 19 on the realization interior splint 20 is pressed on two terminal surfaces of aluminium alloy. One end of an inner splint guide rod 25 is fixed on the lower inner splint, and the other end of the inner splint guide rod 25 extends out after penetrating through the through hole of the inner splint guide seat 24. The inner clamping plate guide seat 24 and the inner clamping plate drive 21 are arranged in parallel and are respectively positioned at two sides of the rectangular through hole.

In the invention, the outer plate body 4 is provided with collinear outer splint slide rails 13 at two sides of the rectangular through hole, and the outer splint slide rails 13 comprise two rails which are arranged in pairs and are parallel to the horizontal plane. Sliding connection has two outside splint 5 on the outer splint slide rail 13, is left side splint and right side splint respectively, and two sides of left side splint and right side splint are processed respectively have with outer splint slide rail 13 complex spout to the degree of difficulty when reducing the assembly and the efficiency when improving the assembly. Meanwhile, two sets of through holes are processed on the upper portion and the lower portion of the left side clamping plate and the right side clamping plate respectively, each set of through holes comprises an outer clamping plate fixing hole 14 and an outer clamping plate guide hole 15, the outer clamping plate fixing holes 14 are used for being connected with the outer clamping plate rack 10, and the outer clamping plate guide holes 15 are used for containing the outer clamping plate rack 10 to enable the left side clamping plate to be close to the right side clamping plate. Specifically, the outer cleat rack 10 of the left cleat is located on the outer side of the left cleat, the outer cleat rack 10 of the right cleat is located on the inner side of the right cleat, and the adjacent outer cleat racks 10 are connected to the outer cleat gear 11 via gear teeth. The left splint and the right splint can be driven to move by a single power source in a manner that the outer splint rack 10 and the outer splint gear 11 are meshed for transmission. Meanwhile, in the present invention, the outer splint gear 11 may be connected to an output shaft of the gear driver 17 through a shaft body, and the gear driver 17 is a stepping motor. The gear driver 17 can be fixed to a gear driving plate 16 formed by an L-shaped plate body, and the gear driving plate 16 is located on the outer plate body 4.

In the invention, outer clamping plate guide rods 12 are arranged on two sides of the outer clamping plate 5. The outer clamp guide rod 12 of the present invention serves to guide and restrict the movement of the outer clamp, and to maintain the normal movement of the outer clamp 5. The outer clamping plate guiding rod 12 passes through the through hole of the outer clamping plate driving fixing plate 7 and then extends out of the outer edge of the outer plate body 4. Of course, a person skilled in the art may attach the outer clamp driving anchor 6 to the outer clamp guide rod 12 to which the outer clamp 5 of one of the outer clamps is attached. The cylinder is selected to outer splint driver 6, and it can realize the drive to the left splint through driving outer splint guide rod 12, and the left splint drives outer splint gear 11 through the teeth of a cogwheel structure and rotates, and outer splint gear 11 can drive right side splint and be close to left splint. When the left side splint are close to with the outer splint roll body 9 on the right side splint, can contact with the both sides terminal surface of aluminum alloy respectively, realize the centre gripping operation to aluminum alloy ex-trusions then.

In the invention, the feeding, the returning and the clamping of the aluminum alloy section bar can not effectively improve the operation efficiency of the aluminum alloy, and the aluminum alloy section bar needs to be rotated to meet the processing operation requirements of different side surfaces at different positions. Therefore, the gear tooth plate body 3 is adopted as the bottom plate in the invention. The top and the bottom of the gear tooth plate body 3 are respectively provided with a rack guide plate 2 with a U-shaped longitudinal section, and the rack guide plate 2 can limit the movement of the gear tooth plate body 3, so that the gear tooth plate body 3 can be driven by a gear tooth driving rack in the rack guide plate 2. Meanwhile, in the present invention, the rack guide plate may be provided as a U-shaped plate body to enhance the right and left limitation of the gear tooth plate body 3. Specifically, the rack guide plate 2 formed of a plate body having a U-shaped structure is provided with gears on both sides thereof to be engaged with the teeth of the gear tooth plate body 3, or with gears to be engaged with the gear tooth plate body 3 at a frame where the gear tooth plate body 3 is installed, and the above-described limitation is not included in the present application and is not shown in the drawings. When rack railing 1 drives the teeth of a cogwheel drive rack 22 and makes teeth of a cogwheel plate body 3 rotate, can guarantee that teeth of a cogwheel plate body 3 is still injectd by the teeth of a cogwheel drive rack 22, the rack guide board 2 of top, bottom, the limit gear of both sides, can not take place horizontal relative displacement.

After the structure is adopted, the invention also provides a processing method using the device, after the aluminum profile passes through the rectangular through holes of the gear tooth plate body 3 and the outer plate body 4, the inner clamping plate 20 and the outer clamping plate 5 approach the aluminum profile, and the inner clamping plate roller body 19 and the outer clamping plate roller body 9 are respectively contacted and pressed with the side surface of the aluminum profile; when the gear wheel plate body 3 is driven by the gear wheel driving rack 22, the gear wheel plate body 3 drives the outer plate body 4 to rotate and simultaneously drives the clamped aluminum profile to rotate, so that the aluminum profile is cut on different sides.

Finally, although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description of the present description is for clarity reasons only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can be appropriately combined to form other embodiments that can be understood by those skilled in the art.