CN219358123U - Aluminum profile cutting machine - Google Patents

Abstract

The utility model discloses an aluminum profile cutting machine, which relates to the field of aluminum profile processing equipment and comprises a cutting machine base, wherein a cutting saw is arranged on the cutting machine base, a supporting rod is fixedly arranged on the top side of the cutting machine base, a pressing structure is arranged on the supporting rod, two T-shaped strips are symmetrically and fixedly arranged on the top side of the cutting machine base, the same pushing structure is slidably arranged on the two T-shaped strips, and two connecting shafts are movably arranged on the pushing structure. According to the utility model, through the arrangement of the structures such as the pushing slide bar, the clamping plates and the like, the limitation of the two connecting shafts can be removed by pulling the two limiting blocks upwards, the positions of the two clamping plates can be adjusted at the moment, the aluminum profile with the corresponding size can be clamped by adjusting the positions of the clamping plates, so that the phenomenon that the aluminum profile is misplaced in the processing process by manually pushing the aluminum profile can be prevented, the cutting precision is improved, and meanwhile, the aluminum profile can be pushed to the lower part of the cutting saw to be processed by pushing the pushing slide bar, so that the cutting saw is convenient and rapid.

Description

Aluminum profile cutting machine

Technical Field

The utility model relates to the technical field of aluminum profile processing equipment, in particular to an aluminum profile cutting machine.

Background

The profile cutting machine is suitable for sawing various special-shaped metal aluminum, aluminum alloy, copper alloy, nonmetal plastic, carbon fiber and other materials, is particularly suitable for sawing aluminum profiles, photo frames, plastic steel, bakelite plates, aluminum extrusion, paper tubes and profiles, is low in material deformation and loss, accurate in sawing angle, small in vibration, low in noise, simple to operate, high in efficiency and capable of sawing single or multiple pieces together.

Among the prior art, the section bar cutting machine is carrying out the in-process of cutting to the aluminium alloy, needs artifical hand aluminium alloy to prevent to take place the skew, is pushing the aluminium alloy simultaneously and is sending to the cutting saw below, is pushing manually and pressing the in-process of aluminium alloy and lead to the position of aluminium alloy to take place the skew easily to lead to the precision of cutting the material to receive the influence, consequently need an aluminium alloy cutting machine to satisfy people's demand.

Disclosure of Invention

The utility model aims to provide an aluminum profile cutting machine, which solves the problem that when the profile cutting machine provided in the background art cuts an aluminum profile, the aluminum profile is required to be pressed all the time and pushed below a cutting saw by manpower, and the cutting accuracy is affected due to offset.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an aluminium alloy cutting machine, includes the cutting machine base, be equipped with the cutting saw on the cutting machine base, the topside fixed mounting of cutting machine base has the bracing piece, is provided with the swage structure on the bracing piece, and the topside symmetry fixed mounting of cutting machine base has two T type strips, and slidable mounting has same pushing structure on two T type strips, and pushing structure is last movable mounting has two connecting axles, equal movable mounting has location structure on two connecting axles.

Preferably, the material pressing structure comprises two sliding rods, the two sliding rods are slidably mounted on the supporting rod, the same pull rod is fixedly mounted on the top sides of the two sliding rods, connecting brackets are fixedly mounted on the bottom sides of the two sliding rods, the same connecting rod is fixedly mounted on the two connecting brackets, and idler wheels are rotatably mounted on the connecting rods.

Preferably, the roller is provided with a rotating hole, the connecting rod is rotatably arranged in the rotating hole, the inner walls of the two sides of the supporting rod are provided with vertical sliding grooves, vertical sliding blocks are slidably arranged in the two vertical sliding grooves, and the two vertical sliding blocks are fixedly arranged on one sides of the two connecting brackets, which are far away from each other.

Preferably, two sliding holes are formed in the supporting rod, the two sliding rods are respectively and slidably installed in the two sliding holes, the two sliding rods are respectively and slidably sleeved with the auxiliary springs, one ends of two ends of the two auxiliary springs are fixedly installed on the supporting rod, and the other ends of the two auxiliary springs are fixedly installed on the top sides of the two connecting brackets respectively.

Preferably, the pushing structure comprises a pushing slide bar, two T-shaped grooves are formed in the pushing slide bar, and the two T-shaped grooves are respectively and slidably arranged in the two T-shaped grooves.

Preferably, the positioning structure comprises two linkage gears, the two linkage gears are fixedly sleeved on the two connecting shafts respectively, the fixed racks are fixedly arranged on the inner wall of the pushing slide bar, the two linkage gears are meshed with the fixed racks, the rotating frames are rotatably arranged on the two connecting shafts, the connecting blocks are fixedly arranged on one sides of the two rotating frames, the clamping plates are fixedly arranged on one sides of the two connecting blocks, which are far away from the two rotating frames, the limiting blocks are fixedly arranged on the two connecting blocks in a sliding manner, the stop blocks are fixedly arranged on the top sides of the two connecting blocks, the limiting springs are fixedly arranged on the two connecting shafts in a sliding manner, and the two ends of the two limiting springs are fixedly arranged on one sides, which are close to the two stop blocks.

Preferably, the pushing slide bar is provided with two limiting slide grooves, the connecting shaft is movably arranged in the two limiting slide grooves, the pushing slide bar is provided with a sliding groove, the connecting block is slidably arranged in the sliding groove, the bottom side of the limiting block is symmetrically and fixedly provided with two clamping blocks, the two clamping blocks are all slidably arranged in one corresponding limiting slide groove, the rotating frame is provided with two movable holes, and the connecting shaft is rotatably arranged in the two movable holes.

Preferably, the limiting block is provided with a vertical sliding hole, the connecting shaft is sleeved in the vertical sliding hole in a sliding manner, the connecting shaft is provided with two limiting sliding grooves, sliding clamping blocks are slidably arranged in the two limiting sliding grooves, and the two sliding clamping blocks are fixedly arranged on the inner walls of the two sides of the vertical sliding hole respectively.

The beneficial effects of the utility model are as follows:

according to the utility model, through the arrangement of the structures such as the pushing slide bar, the clamping plates and the like, the limitation of the two connecting shafts can be removed by pulling the two limiting blocks upwards, the positions of the two clamping plates can be adjusted at the moment, the aluminum profile with the corresponding size can be clamped by adjusting the positions of the clamping plates, so that the phenomenon that the aluminum profile is misplaced in the processing process by manually pushing the aluminum profile can be prevented, the cutting precision is improved, and meanwhile, the aluminum profile can be pushed to the lower part of the cutting saw to be processed by pushing the pushing slide bar, so that the aluminum profile cutting saw is convenient and rapid.

According to the utility model, through the arrangement of the structures such as the supporting rod, the roller, the auxiliary spring and the like, the roller can be extruded on the aluminum profile under the action of the auxiliary spring, so that the offset is prevented, the stability of the aluminum profile is further improved, the conveying of the aluminum profile is not influenced, the manual pressing of the aluminum profile is not required, and the labor is saved.

Drawings

Fig. 1 is a schematic structural view of an aluminum profile cutting machine according to the present utility model;

FIG. 2 is a schematic cross-sectional view of a support rod portion of an aluminum profile cutter according to the present utility model;

fig. 3 is a schematic structural view of a pushing slide part of an aluminum profile cutting machine according to the present utility model;

fig. 4 is a schematic cross-sectional view of a pushing slide part of an aluminum profile cutter according to the present utility model

FIG. 5 is a schematic cross-sectional view of a linkage gear section of an aluminum profile cutter according to the present utility model;

FIG. 6 is a schematic view of a clamping plate portion of an aluminum profile cutter according to the present utility model;

fig. 7 is a schematic cross-sectional view of a connecting shaft of an aluminum profile cutter according to the present utility model.

In the figure: 100. a cutter base; 101. a dicing saw; 200. a support rod; 201. a slide bar; 202. a pull rod; 203. a connection bracket; 204. a connecting rod; 205. a roller; 206. a rotation hole; 207. a sliding hole; 208. an auxiliary spring; 209. a vertical chute; 210. a vertical slider; 300. pushing a material sliding bar; 301. a T-shaped groove; 302. a T-shaped strip; 400. a connecting shaft; 401. a linkage gear; 402. a fixed rack; 403. a rotating frame; 404. a connecting block; 405. a clamping plate; 406. a limiting block; 407. a stop block; 408. a limit spring; 409. limiting the chute; 410. a clamping block; 411. a sliding groove; 412. a movable hole; 413. a vertical slide hole; 414. limiting sliding grooves; 415. and sliding the clamping block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-7, an aluminum profile cutting machine comprises a cutting machine base 100, a cutting saw 101 is arranged on the cutting machine base 100, a supporting rod 200 is fixedly arranged on the top side of the cutting machine base 100, a pressing structure is arranged on the supporting rod 200, two T-shaped strips 302 are symmetrically and fixedly arranged on the top side of the cutting machine base 100, the two T-shaped strips 302 are slidably provided with the same pushing structure, two connecting shafts 400 are movably arranged on the pushing structure, positioning structures are movably arranged on the two connecting shafts 400, aluminum profiles are placed between two clamping plates 405 in use, two limiting blocks 406 are pulled upwards after that, the limiting blocks 406 move upwards and slide in the connecting shafts 400 through vertical sliding holes 413, the limiting blocks 406 slide in two limiting sliding blocks 415 on the connecting shafts 400 respectively, so that the limiting blocks 406 can only slide in the vertical direction, the limiting blocks 406 slide in the same direction, the limiting springs 408 and drive two clamping blocks 410 to move away from limiting sliding grooves 409, at the moment, the limiting blocks 407 can release the limiting of the connecting shafts 400, the connecting shafts 400 can drive the connecting shafts 400 to rotate, the connecting shafts 403 to drive the connecting shafts 403 to rotate, the limiting blocks 403 to slide in the horizontal sliding frames 401 to drive the two sliding frames 401 to move in the horizontal sliding frames 401 through the sliding shafts 401, and the sliding frames 401 to move horizontally, and the two sliding blocks 401 can slide in the sliding frames 401, and the sliding frames are driven to move horizontally, and the sliding frames 401 can move in the sliding frames 401, and the sliding frames are driven to move horizontally, and the sliding blocks 401 in the sliding frames are driven by the sliding frames, and the sliding blocks 401 in the sliding blocks and move in the sliding blocks. The two clamping plates 405 clamp the aluminum profile at the middle position to prevent dislocation in the process of cutting the aluminum profile, at the moment, the two limiting blocks 406 are loosened, the limiting springs 408 push the limiting blocks 406 to restore to the original position, the reset limiting blocks 406 drive the clamping blocks 410 to be inserted into the corresponding limiting sliding grooves 409 so as to re-limit the positions of the connecting shafts 400, the positions of the clamping plates 405 can be adjusted to adapt to aluminum profiles with various widths, then the pull rod 202 is pulled upwards, the two sliding rods 201 are respectively driven to slide in the two sliding holes 207 on the supporting rods 200 by the upward moving pull rod 202, the sliding rods 201 only can slide in the vertical direction, the upward sliding rods 201 drive the connecting brackets 203 to slide upwards and compress the auxiliary springs 208, the vertical sliding blocks 210 are driven to slide in the vertical sliding grooves 209 by the upward sliding of the connecting brackets 203, the connecting bracket 203 can drive the roller 205 to slide upwards through the connecting rod 204 while avoiding the offset in the sliding process of the connecting bracket 203, the pushing slide bar 300 can be pushed at the moment, the sliding pushing slide bar 300 can slide on the two T-shaped bars 302 through the two T-shaped grooves 301 respectively, the stability of the pushing slide bar 300 in the sliding process is ensured, the sliding of the pushing slide bar 300 can not fall off, the aluminum profile can be pushed to be positioned below the roller 205 while the sliding of the pushing slide bar 300 is carried out, at the moment, the connecting bracket 203 which is reset can drive the roller 205 to extrude the aluminum profile, the extrusion limit of the aluminum profile is realized, the offset of the aluminum profile in the processing process of the aluminum profile is prevented, meanwhile, the continuous movement of the aluminum profile can lead the roller 205 to be influenced and rotated, the rotating roller 205 can rotate on the connecting rod 204 through the rotating hole 206, therefore, the normal conveying of the aluminum profile can not be influenced while the aluminum profile is extruded.

Further, the material pressing structure comprises two sliding rods 201, the two sliding rods 201 are slidably mounted on the supporting rod 200, the same pull rod 202 is fixedly mounted on the top sides of the two sliding rods 201, the connecting brackets 203 are fixedly mounted on the bottom sides of the two sliding rods 201, the same connecting rod 204 is fixedly mounted on the two connecting brackets 203, the roller 205 is rotatably mounted on the connecting rod 204, the pull rod 202 is pulled upwards, the two sliding rods 201 are respectively driven to slide in the two sliding holes 207 on the supporting rod 200 by the upward moving pull rod 202, so that the sliding rods 201 can only slide in the vertical direction, the connecting brackets 203 are driven to slide upwards and compress the auxiliary springs 208 by the upward sliding rods 201, the vertical sliding blocks 210 are driven to slide in the vertical sliding grooves 209 by the upward sliding of the connecting brackets 203, the upward sliding of the connecting brackets 203 is avoided, the roller 205 is driven to slide upwards by the connecting brackets 203, the roller 205 is driven to restore the original position by the two auxiliary springs 208, and the reset connecting brackets 203 are driven to press the aluminum profile by the roller 205.

Further, a rotation hole 206 is formed on the roller 205, the connecting rod 204 is rotatably mounted in the rotation hole 206, vertical sliding grooves 209 are formed on inner walls of two sides of the supporting rod 200, vertical sliding blocks 210 are slidably mounted in the two vertical sliding grooves 209, the two vertical sliding blocks 210 are fixedly mounted on one sides of the two connecting brackets 203, which are far away from each other, respectively, and the rotating roller 205 rotates on the connecting rod 204 through the rotation hole 206.

Further, two sliding holes 207 are formed in the supporting rod 200, the two sliding rods 201 are respectively slidably mounted in the two sliding holes 207, the two sliding rods 201 are respectively slidably sleeved with an auxiliary spring 208, one ends of two ends of the two auxiliary springs 208 are fixedly mounted on the supporting rod 200, the other ends of the two auxiliary springs 208 are respectively fixedly mounted on the top sides of the two connecting brackets 203, the two sliding rods 201 are respectively slid in the two sliding holes 207 on the supporting rod 200 by the upward moving pull rod 202, so that the sliding rods 201 can only slide in the vertical direction, the connecting brackets 203 are driven by the upward sliding rods 201 to slide upwards and compress the auxiliary springs 208, the pull rod 202 is loosened, and the connecting brackets 203 are pushed by the two auxiliary springs 208 to restore to the original position.

Further, the pushing structure comprises a pushing slide bar 300, two T-shaped grooves 301 are formed in the pushing slide bar 300, two T-shaped grooves 302 are respectively and slidably arranged in the two T-shaped grooves 301, the pushing slide bar 300 is pushed, the sliding pushing slide bar 300 can slide on the two T-shaped grooves 302 through the two T-shaped grooves 301, stability in the sliding process of the pushing slide bar 300 is guaranteed, the pushing slide bar 300 cannot fall off, and aluminum profiles can be pushed to be positioned below the rollers 205 while the pushing slide bar 300 slides.

Further, the positioning structure comprises two linkage gears 401, the two linkage gears 401 are fixedly sleeved on the two connecting shafts 400 respectively, the fixed racks 402 are fixedly arranged on the inner wall of the pushing slide 300, the two linkage gears 401 are meshed with the fixed racks 402, the rotating frames 403 are rotatably arranged on the two connecting shafts 400, the connecting blocks 404 are fixedly arranged on one sides of the two rotating frames 403, the clamping plates 405 are fixedly arranged on one sides of the two connecting blocks 404, which are far away from the two rotating frames 403, the limiting blocks 406 are slidably sleeved on the two connecting blocks 404, the stop blocks 407 are fixedly arranged on the top sides of the two connecting blocks 404, the limiting springs 408 are slidably sleeved on the two connecting shafts 400, the two ends of the two limiting springs 408 are fixedly arranged on one sides, which are close to the two stop blocks 407, respectively, of the aluminum profile is placed between the two clamping plates 405 when in use, then, the two limiting blocks 406 are pulled upwards, the limiting blocks 406 move upwards and slide on the connecting shaft 400 through the vertical sliding holes 413, the limiting blocks 406 slide and drive the two sliding clamping blocks 415 to slide in the two limiting sliding grooves 414 on the connecting shaft 400 respectively, so that the limiting blocks 406 can only slide in the vertical direction, the limiting springs 408 are compressed and drive the two clamping blocks 410 to be far away from the limiting sliding grooves 409 while the limiting blocks 406 slide, at the moment, the limitation on the connecting shaft 400 can be relieved, the rotating limiting blocks 407 can drive the connecting shaft 400 to rotate, the rotating connecting shaft 400 can drive the linkage gear 401 to rotate, the linkage gear 401 can move while rotating through the cooperation between the linkage gear 401 and the fixed rack 402, the moving linkage gear 401 can drive the connecting shaft 400 to slide and rotate in the two limiting sliding grooves 409 respectively, so that the connecting shaft 400 can only slide and rotate in the horizontal direction, and then make connecting axle 400 rotate and drive rotating frame 403 horizontal slip in two movable holes 412 on rotating frame 403, gliding rotating frame 403 can drive connecting block 404 horizontal slip in slide slot 411 to make gliding connecting block 404 drive splint 405 slide, make two splint 405 with aluminium alloy centre gripping in intermediate position, prevent to appear dislocation at the in-process of cutting the aluminium alloy, at this moment, loosen two stopper 406, spacing spring 408 can promote stopper 406 and resume the normal position, stopper 406 that resets can be in driving fixture block 410 inserts corresponding restriction spout 409, thereby retrain the position of connecting axle 400, and then can realize adjusting splint 405's position, make it adapt to the aluminium alloy of multiple width.

Further, two limiting sliding grooves 409 are formed in the pushing sliding strip 300, the connecting shaft 400 is movably mounted in the two limiting sliding grooves 409, a sliding groove 411 is formed in the pushing sliding strip 300, the connecting block 404 is slidably mounted in the sliding groove 411, two clamping blocks 410 are symmetrically and fixedly mounted at the bottom side of the limiting block 406, the two clamping blocks 410 are respectively and slidably mounted in the corresponding limiting sliding grooves 409, two movable holes 412 are formed in the rotating frame 403, the connecting shaft 400 is rotatably mounted in the two movable holes 412, the limiting block 406 is slidably moved while the two clamping blocks 410 are driven to be away from the limiting sliding grooves 409, at the moment, the limitation on the connecting shaft 400 can be removed, the movable linkage gear 401 can drive the connecting shaft 400 to slide in the two limiting sliding grooves 409 and rotate respectively, so that the connecting shaft 400 can only slide in the horizontal direction and rotate, the connecting shaft 400 can rotate in the two movable holes 412 on the rotating frame 403 and drive the rotating frame 403 to horizontally slide in the sliding groove 411, and the sliding rotating frame 403 can drive the connecting block 404 to horizontally slide in the sliding groove 411.

Further, a vertical sliding hole 413 is formed in the limiting block 406, the connecting shaft 400 is sleeved in the vertical sliding hole 413 in a sliding manner, two limiting sliding grooves 414 are formed in the connecting shaft 400, sliding clamping blocks 415 are slidably mounted in the two limiting sliding grooves 414, the two sliding clamping blocks 415 are fixedly mounted on inner walls of two sides of the vertical sliding hole 413 respectively, the limiting block 406 moves upwards and can slide on the connecting shaft 400 through the vertical sliding hole 413, and the limiting block 406 slides and can drive the two sliding clamping blocks 415 to slide in the two limiting sliding grooves 414 on the connecting shaft 400 respectively, so that the limiting block 406 can only slide in the vertical direction.

The working principle of the utility model is as follows:

when in use, an aluminum profile is placed between two clamping plates 405, two limiting blocks 406 are pulled upwards, the limiting blocks 406 move upwards and slide on the connecting shaft 400 through vertical sliding holes 413, the limiting blocks 406 slide to drive two sliding clamping blocks 415 to slide in two limiting sliding grooves 414 on the connecting shaft 400 respectively, the limiting blocks 406 slide only vertically, limiting springs 408 are compressed and drive the two clamping blocks 410 to be far away from the limiting sliding grooves 409, at the moment, the limiting of the connecting shaft 400 can be released, the rotating limiting blocks 407 can drive the connecting shaft 400 to rotate, the rotating connecting shaft 400 can drive the linkage gear 401 to rotate, the linkage gear 401 moves while rotating through the cooperation between the linkage gear 401 and the fixed racks 402, the moving linkage gear 401 can drive the connecting shaft 400 to slide and rotate in the two limiting sliding grooves 409 respectively, thereby limiting the connecting shaft 400 to slide and rotate only in the horizontal direction, further enabling the connecting shaft 400 to rotate in two movable holes 412 on the rotating frame 403 and driving the rotating frame 403 to slide horizontally, enabling the sliding rotating frame 403 to drive the connecting block 404 to slide horizontally in the sliding slot 411, enabling the sliding connecting block 404 to drive the clamping plates 405 to slide, enabling the two clamping plates 405 to clamp the aluminum profile at the middle position, preventing dislocation in the process of cutting the aluminum profile, at the moment, loosening the two limiting blocks 406, enabling the limiting springs 408 to push the limiting blocks 406 to restore to the original position, enabling the reset limiting blocks 406 to drive the clamping blocks 410 to be inserted into the corresponding limiting sliding slots 409, thereby limiting the position of the connecting shaft 400 again, further realizing the adjustment of the position of the clamping plates 405, enabling the connecting block to adapt to aluminum profiles with various widths, and then pulling the pull rod 202 upwards, the pull rod 202 moving upwards can drive the two slide rods 201 to slide in the two slide holes 207 on the support rod 200 respectively, so that the slide rods 201 can slide in the vertical direction only, the slide rods 201 sliding upwards can drive the connecting brackets 203 to slide upwards and compress the auxiliary springs 208, the connecting brackets 203 can drive the vertical sliding blocks 210 to slide in the vertical sliding grooves 209, further, deflection in the sliding process of the connecting brackets 203 is avoided, the connecting brackets 203 can drive the rollers 205 to slide upwards through the connecting rods 204 while sliding upwards, the pushing slide bars 300 can be pushed at this moment, the sliding pushing slide bars 300 can slide on the two T-shaped bars 302 through the two T-shaped grooves 301 respectively, stability in the sliding process of the pushing slide bars 300 is guaranteed, the pushing slide bars 300 can not fall off, the aluminum profile can be pushed below the rollers 205 while sliding, at this moment, the two auxiliary springs 208 can push the connecting brackets 203 to restore to the original position, the reset connecting brackets 203 can squeeze the aluminum profile at the driving rollers 205, limit the extrusion of the aluminum profile, the aluminum profile is prevented, deflection in the processing process of the aluminum profile can be prevented, the aluminum profile 205 can be continuously influenced by the rotation of the connecting rods 204, and the aluminum profile can not be continuously influenced by the rotation of the connecting rods 204.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides an aluminium alloy cutting machine, includes cutting machine base (100), be equipped with cutting saw (101), its characterized in that on cutting machine base (100): the cutting machine is characterized in that a supporting rod (200) is fixedly arranged on the top side of the cutting machine base (100), a pressing structure is arranged on the supporting rod (200), two T-shaped strips (302) are symmetrically and fixedly arranged on the top side of the cutting machine base (100), the same pushing structure is slidably arranged on the two T-shaped strips (302), two connecting shafts (400) are movably arranged on the pushing structure, and positioning structures are movably arranged on the two connecting shafts (400).

2. An aluminum profile cutter as in claim 1, wherein: the material pressing structure comprises two sliding rods (201), wherein the two sliding rods (201) are slidably mounted on a supporting rod (200), the top sides of the two sliding rods (201) are fixedly provided with the same pull rod (202), the bottom sides of the two sliding rods (201) are fixedly provided with connecting brackets (203), the two connecting brackets (203) are fixedly provided with the same connecting rod (204), and the connecting rod (204) is rotatably provided with idler wheels (205).

3. An aluminum profile cutter as in claim 2, wherein: the roller (205) is provided with a rotating hole (206), the connecting rod (204) is rotatably arranged in the rotating hole (206), the inner walls of the two sides of the supporting rod (200) are provided with vertical sliding grooves (209), the two vertical sliding grooves (209) are internally provided with vertical sliding blocks (210) in a sliding manner, and the two vertical sliding blocks (210) are respectively and fixedly arranged on one sides of the two connecting brackets (203) which are far away from each other.

4. An aluminum profile cutter as in claim 1, wherein: two sliding holes (207) are formed in the supporting rod (200), the two sliding rods (201) are respectively and slidably installed in the two sliding holes (207), auxiliary springs (208) are respectively and slidably sleeved on the two sliding rods (201), one ends of two ends of the two auxiliary springs (208) are fixedly installed on the supporting rod (200), and the other ends of the two auxiliary springs (208) are respectively and fixedly installed on the top sides of the two connecting brackets (203).

5. An aluminum profile cutter as in claim 1, wherein: the pushing structure comprises a pushing slide bar (300), two T-shaped grooves (301) are formed in the pushing slide bar (300), and the two T-shaped bars (302) are respectively and slidably arranged in the two T-shaped grooves (301).

6. An aluminum profile cutter as in claim 1, wherein: the positioning structure comprises two linkage gears (401), the two linkage gears (401) are fixedly sleeved on the two connecting shafts (400) respectively, fixed racks (402) are fixedly arranged on the inner walls of the pushing sliding strips (300), the two linkage gears (401) are meshed with the fixed racks (402), rotating frames (403) are rotatably arranged on the two connecting shafts (400), connecting blocks (404) are fixedly arranged on one sides of the two rotating frames (403), clamping plates (405) are fixedly arranged on one sides, far away from the two rotating frames (403), of the two connecting blocks (404), limiting blocks (406) are fixedly arranged on the two connecting blocks (404) in a sliding sleeve mode, limiting springs (408) are fixedly arranged on the top sides of the two connecting blocks (404) in a sliding sleeve mode, and two ends of each limiting spring (408) are fixedly arranged on one sides, close to the two limiting blocks (407) and the two limiting blocks (406) respectively.

7. An aluminum profile cutter as in claim 5, wherein: two limiting sliding grooves (409) are formed in the pushing sliding strip (300), the connecting shaft (400) is movably mounted in the two limiting sliding grooves (409), the sliding groove (411) is formed in the pushing sliding strip (300), the connecting block (404) is slidably mounted in the sliding groove (411), two clamping blocks (410) are symmetrically and fixedly mounted on the bottom side of the limiting block (406), the two clamping blocks (410) are both slidably mounted in one corresponding limiting sliding groove (409), two movable holes (412) are formed in the rotating frame (403), and the connecting shaft (400) is rotatably mounted in the two movable holes (412).

8. An aluminum profile cutter as in claim 6, wherein: a vertical sliding hole (413) is formed in the limiting block (406), the connecting shaft (400) is sleeved in the vertical sliding hole (413) in a sliding mode, two limiting sliding grooves (414) are formed in the connecting shaft (400), sliding clamping blocks (415) are slidably mounted in the two limiting sliding grooves (414), and the two sliding clamping blocks (415) are fixedly mounted on the inner walls of two sides of the vertical sliding hole (413) respectively.