CN218311099U - Automatic cutting device who uses on bridge cut-off aluminium alloy - Google Patents

Abstract

The utility model relates to a bridge cut-off aluminium processing equipment field especially relates to an automatic cutting device who uses on bridge cut-off aluminium alloy, contains the frame, be fixed with the bottom plate in the frame, the equal vertical slide bar that is fixed with in bottom plate top both sides, the slide bar is all fixed on the roof, still be provided with the slide between roof and the bottom plate, the slide bar pass the slide and with slide sliding connection, the terminal surface is fixed with a plurality of lift cylinders under the roof, the lift cylinder is all fixed through piston rod and aforementioned slide, be fixed with the cutting motor on the slide, the cutting motor is fixed through cutting axle and cutting wheel, cutting wheel periphery side still is provided with the guard shield, be provided with the spacing hole that runs through the guard shield on the guard shield, the slide top still is fixed with the connecting plate. Can cut off into appointed length with the back aluminium alloy of production through this device to the section bar cutting is gone on inside the guard shield, can effectively avoid the problem that the metal fillings splashed and lead to take place.

Description

Automatic cutting device who uses on bridge cut-off aluminium alloy

[ technical field ] A method for producing a semiconductor device

The utility model relates to a bridge cut-off aluminium processing equipment field especially relates to an automatic cutting device who uses on bridge cut-off aluminium alloy.

[ background ] A method for producing a semiconductor device

Aluminum profiles have a density of about one-third that of steel, copper or brass, and aluminum can exhibit excellent corrosion resistance under most environmental conditions, including in air, water, petrochemistry, and many chemical systems. Aluminum profiles are often chosen for their excellent electrical conductivity. On a weight-equal basis, aluminum has approximately twice the conductivity of copper. The aluminum has extremely high recoverability, and the characteristics of the secondary aluminum are hardly different from those of the primary aluminum. Therefore, the aluminum material is widely used in modern society and has extremely high environmental protection characteristic.

The section bar needs to be cut after the production of the section bar, and the cutting device can emit spark light when contacting the section bar in the cutting process of the section bar, and can arouse a large amount of fragments, thereby causing great hidden danger to the safety and health of people and serious pollution to the environment.

The utility model discloses it is not enough to provide to study to prior art promptly.

[ Utility model ] A method for manufacturing a semiconductor device

The utility model aims at overcoming the shortcoming of above-mentioned prior art, provide an automatic cutting device who uses on bridge cut-off aluminium alloy.

The utility model discloses can realize through following technical scheme:

the utility model discloses an automatic cutting device who uses on bridge cut-off aluminium alloy contains the frame, be fixed with the bottom plate in the frame, the equal vertical slide bar that is fixed with in bottom plate top both sides, the slide bar is all fixed on the roof, still be provided with the slide between roof and the bottom plate, the slide bar pass the slide and with slide sliding connection, the terminal surface is fixed with a plurality of lift cylinders under the roof, the lift cylinder all is fixed with aforementioned slide through the piston rod, be fixed with the cutting motor on the slide, the cutting motor passes through the cutting axle and is fixed with the cutting wheel, cutting wheel periphery side still is provided with the guard shield, be provided with the spacing hole that runs through the guard shield on the guard shield, the slide top still is fixed with the connecting plate, be fixed with many connecting rods on the guard shield, the connecting rod passes the connecting plate and with connecting plate sliding connection, the connecting rod top all is fixed with the stopper, still be fixed with the connecting spring of compression state between guard shield and the connecting plate, all be fixed with conveyor on the bottom plate of cutting wheel both sides, conveyor contains the strutting arrangement of evenly fixing on the bottom plate, strutting arrangement is including fixing the back shaft of fixing the back shaft, and the transport mechanism both sides of fixing the transport mechanism and transport mechanism are fixed with the transport mechanism.

Preferably, the output end of the conveying motor is fixed with one of the conveying shafts, driven wheels are fixed at corresponding positions on the conveying shafts, and the driven wheels are wound and connected through a synchronous belt.

Preferably, positioning mechanism contains the backup pad of fixing on the bottom plate, bottom plate top between backup pad and the conveying mechanism still is provided with the locating plate, evenly be fixed with many location axles on the locating plate, the epaxial location axle that all is fixed with of location passes and rotates the registration roller of being connected with the location axle, still be fixed with many locating levers on the locating plate, the locating lever all pass the backup pad and with backup pad sliding connection, still be fixed with a plurality of compression state's positioning spring between locating plate and the backup pad, the locating piece all is fixed with the locating piece at the locating lever end.

Preferably, the material blocking mechanism comprises a material blocking cylinder fixed on the bottom plate, and the material blocking cylinder is fixed with the material blocking block through a piston rod.

The working principle is that after the section bar is produced, the section bar is transported by a transporting device, the bottom of the section bar is supported by a roller, one side of the section bar is fixed by a positioning roller, the positioning spring pushes a positioning plate, the positioning roller on the positioning plate extrudes the section bar, the section bar is fixed between the positioning roller and the transporting roller, the transporting roller is driven to rotate by a transporting motor, the section bar moves close to a cutting wheel when the transporting roller rotates, one end of the section bar passes through the lower part of the cutting wheel, the section bar reaches the position of a material blocking block, the section bar stops moving, the cutting wheel is driven to rotate at high speed by the cutting motor, a lifting cylinder is started, a piston rod on the lifting cylinder extends, a sliding plate descends, the connecting plate descends along with the sliding plate, the section bar passes through a limiting hole on the protective cover after the protective cover below the connecting plate is contacted with the section bar, the protective cover is fixed on the connecting plate by a connecting rod, and the connecting rod passes through the connecting plate in sliding connection, after the top end of the limiting hole is contacted with the section bar, the protective cover stops moving, the cutting wheel continues descending, the cutting wheel rotating at a high speed is contacted with the section bar to cut the section bar, after the section bar is cut off, the piston rod on the lifting cylinder is shortened, the sliding plate and the connecting plate both ascend, the protective cover is still fixed with the section bar due to the action of the connecting spring, after the cutting wheel is separated from the section bar, the limiting block at the top end of the connecting rod is contacted with the connecting plate, the connecting rod drives the protective cover to ascend, after the protective cover is separated from the section bar, the material blocking cylinder is started, the piston rod on the material blocking cylinder is shortened, the material blocking block descends, after the cut-off section bar passes through the material blocking block, the material blocking cylinder is started again, the piston rod on the material blocking cylinder extends, the material blocking block ascends, the section bar is blocked again by the cutting wheel, the circular operation is realized, the aluminum section bar can be cut into a specified length after being produced by the device, and because the cutting wheel sets up in the guard shield, the section bar cutting is gone on inside the guard shield, and the metal fillings that the cutting splashes are blockked by the guard shield, can effectively avoid the problem that the metal fillings splashes and lead to take place.

Compared with the prior art, the utility model has the advantages that:

can cut off into appointed length with the back aluminium alloy of production through this device to because the cutting wheel sets up in the guard shield, the section bar cutting is gone on inside the guard shield, and the metal fillings that the cutting splashes are blockked by the guard shield, can effectively avoid the problem that the metal fillings splashes and lead to take place.

[ description of the drawings ]

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is another angle structure diagram of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 isbase:Sub>A cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is an enlarged view of FIG. 2 at B;

in the figure: 0. a section bar; 1. a frame; 2. a base plate; 3. a cutting wheel; 4. a shield; 5. a limiting hole; 6. cutting the shaft; 7. cutting the motor; 8. a slide plate; 9. a connecting rod; 10. a connecting plate; 11. a limiting block; 12. a connecting spring; 13. a conveying device; 14. a support device; 141. a support shaft; 142. a roller; 15. a delivery shaft; 16. a conveying roller; 17. a conveying motor; 18. a driven wheel; 19. a synchronous belt; 20. a support plate; 21. positioning a plate; 22. positioning the shaft; 23. a positioning roller; 24. positioning a rod; 25. a positioning spring; 26. positioning a block; 27. a slide bar; 28. a material blocking cylinder; 29. a material blocking block; 30. a top plate; 31. a lifting cylinder;

[ detailed description ] A

The following detailed description of embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1 to 5, the utility model discloses an automatic cutting device used on a bridge-cut-off aluminum profile, comprising a frame 1, wherein a bottom plate 2 is fixed on the frame 1, slide rods 27 are vertically fixed on both sides above the bottom plate 2, the slide rods 27 are fixed on a top plate 30, a slide plate 8 is further arranged between the top plate 30 and the bottom plate 2, the slide rods 27 pass through the slide plate 8 and are slidably connected with the slide plate 8, a plurality of lifting cylinders 31 are fixed on the lower end surface of the top plate 30, the lifting cylinders 31 are fixed with the slide plate 8 through piston rods, a cutting motor 7 is fixed on the slide plate 8, the cutting motor 7 is fixed with a cutting wheel 3 through a cutting shaft 6, a shield 4 is further arranged on the periphery side of the cutting wheel 3, a limiting hole 5 penetrating through the shield 4 is arranged on the shield 4, a connecting plate 10 is further fixed above the slide plate 8, a plurality of connecting rods 9 are fixed on the protective cover 4, the connecting rods 9 penetrate through the connecting plate 10 and are in sliding connection with the connecting plate 10, the tops of the connecting rods 9 are respectively fixed with a limiting block 11, a compressed connecting spring 12 is fixed between the protective cover 4 and the connecting plate 10, conveying devices 13 are fixed on the bottom plates 2 at two sides of the cutting wheel 3, each conveying device 13 comprises a supporting device 14 which is uniformly fixed on the bottom plate 2, each supporting device 14 comprises a supporting shaft 141 which is fixed above the bottom plate 2, a roller 142 which penetrates through the supporting shaft 141 and is rotatably connected with the supporting shaft 141 is fixed on the supporting shaft 141, conveying mechanisms and positioning mechanisms are respectively fixed on the bottom plates 2 at two sides of the supporting device 14, each conveying mechanism comprises a plurality of conveying shafts 15 which are fixed on the bottom plates 2 and are rotatably connected with the bottom plates 2, and conveying rollers 16 are fixed on the conveying shafts 15, the conveying shaft 15 is driven by a conveying motor 17 to rotate, and a material blocking mechanism is further fixed on the bottom plate 2 at one conveying mechanism position.

Preferably, the output end of the conveying motor 17 is fixed to one of the conveying shafts 15, driven wheels 18 are fixed to corresponding positions on the conveying shafts 15, and the driven wheels 18 are wound and connected through a synchronous belt 19.

Preferably, positioning mechanism contains the backup pad 20 of fixing on bottom plate 2, 2 tops of bottom plate between backup pad 20 and the conveying mechanism still are provided with locating plate 21, evenly be fixed with many location axles 22 on locating plate 21, all be fixed with location axle 22 on the location axle 22 and pass and with location axle 22 rotation connection's registration roller 23, still be fixed with many locating levers 24 on locating plate 21, locating lever 24 all pass backup pad 20 and with backup pad 20 sliding connection, still be fixed with a plurality of compression state's positioning spring 25 between locating plate 21 and the backup pad 20, the terminal locating piece 26 that all is fixed with of locating lever 24.

Preferably, the material blocking mechanism comprises a material blocking cylinder 28 fixed on the bottom plate 2, and the material blocking cylinder 28 is fixed with the material blocking block 29 through a piston rod.

The working principle is that after the section bar 0 is produced, the section bar 0 is transported through the conveying device 13, the bottom of the section bar 0 is supported through the roller 142, one side of the section bar 0 is fixed through the positioning roller 23, the positioning spring 25 pushes the positioning plate 21, the positioning roller 23 on the positioning plate 21 extrudes the section bar 0, the section bar 0 is fixed between the positioning roller 23 and the conveying roller 16, the conveying roller 16 is driven to rotate through the conveying motor 17, when the conveying roller 16 rotates, the section bar 0 is close to the cutting wheel 3 to move, after one end of the section bar 0 passes through the lower part of the cutting wheel 3, the section bar 0 reaches the position of the material blocking block 29, the section bar 0 stops moving due to the blocking of the material blocking block 29, the cutting wheel 3 is driven to rotate at a high speed through the cutting motor 7, the lifting cylinder 31 is started, the piston rod on the lifting cylinder 31 extends, the sliding plate 8 descends, the connecting plate 10 descends along with the sliding plate 8, and after the shield 4 below the connecting plate 10 is contacted with the section bar 0, the section bar 0 passes through a position of a limiting hole 5 on a protective cover 4, the protective cover 4 is fixed on a connecting plate 10 through a connecting rod 9, the connecting rod 9 passes through the connecting plate 10 to be connected in a sliding way, after the top end of the limiting hole 5 is contacted with the section bar 0, the protective cover 4 stops moving, the cutting wheel 3 continues descending, the cutting wheel 3 rotating at high speed is contacted with the section bar 0 to cut the section bar 0, after the section bar 0 is cut off, a piston rod on a lifting cylinder 31 is shortened, a sliding plate 8 and the connecting plate 10 are both lifted, the protective cover 4 is still fixed with the section bar 0 due to the action of a connecting spring 12, after the cutting wheel 3 is separated from the section bar 0, a limiting block 11 at the top end of the connecting rod 9 is contacted with the connecting plate 10, the connecting rod 9 drives the protective cover 4 to ascend, after the protective cover 4 is separated from the section bar 0, a material blocking cylinder 28 is started, the piston rod on the material blocking cylinder 28 is shortened, a material blocking block 29 descends, and the cut section bar 0 passes through the material blocking block 29, keep off material cylinder 28 restart, keep off the extension of piston rod on the material cylinder 28, keep off material block 29 and rise, keep off material block 29 and block section bar 0 once more, descend once more through cutting wheel 3 and cut section bar 0, the circulation operation can be cut off into appointed length with production back aluminium alloy 0 through this device, and because cutting wheel 3 sets up in guard shield 4, section bar 0 cutting is gone on in guard shield 4 is inside, the metal fillings that the cutting splashes are blockked by guard shield 4, can effectively avoid the problem that the metal fillings splashes and lead to take place.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many changes, modifications, substitutions and variations can be made to the embodiments without departing from the technical principles of the present invention, and these changes, modifications, substitutions and variations should also be regarded as the protection scope of the present invention.

Claims (4)

1. The utility model provides an automatic cutting device who uses on bridge cut-off aluminium alloy, contains the frame, its characterized in that: the cutting machine is characterized in that a bottom plate is fixed on the frame, slide rods are vertically fixed on two sides above the bottom plate and fixed on the top plate, a slide plate is further arranged between the top plate and the bottom plate and penetrates through the slide plate and is in sliding connection with the slide plate, a plurality of lifting cylinders are fixed on the lower end face of the top plate and are fixed with the slide plate through piston rods, a cutting motor is fixed on the slide plate and is fixed with a cutting wheel through a cutting shaft, a shield is further arranged on the outer peripheral side of the cutting wheel and is provided with a limiting hole penetrating through the shield, a connecting plate is further fixed on the upper side of the slide plate, a plurality of connecting rods are fixed on the shield and penetrate through the connecting plate and are in sliding connection with the connecting plate, limiting blocks are fixed on the tops of the connecting rods, connecting springs in a compressed state are further fixed between the shield and the connecting plate, conveying devices are fixed on the bottom plates on two sides of the cutting wheel and comprise supporting devices which are uniformly fixed on the bottom plate, the supporting devices comprise supporting shafts fixed on the bottom plate, supporting shafts are fixed with idler wheels which are rotatably connected with the supporting shafts, conveying mechanisms and are respectively fixed on the bottom plate, and conveying shafts, and conveying mechanisms are fixed on the conveying shafts, and conveying mechanisms are all fixed on the conveying shafts, and conveying rollers.

2. The automatic cutting device used on the bridge-cut aluminum profile according to claim 1 is characterized in that: the output end of the conveying motor is fixed with one of the conveying shafts, driven wheels are fixed at corresponding positions on the conveying shafts, and the driven wheels are connected in a winding mode through synchronous belts.

3. The automatic cutting device used on the bridge-cut aluminum profile according to claim 1, characterized in that: positioning mechanism contains the backup pad of fixing on the bottom plate, bottom plate top between backup pad and the conveying mechanism still is provided with the locating plate, evenly be fixed with many location axles on the locating plate, the epaxial location axle that all is fixed with of location passes and rotates the registration roller of being connected with the location axle, still be fixed with many locating levers on the locating plate, the locating lever all pass the backup pad and with backup pad sliding connection, still be fixed with the location spring of a plurality of compression states between locating plate and the backup pad, the locating lever end all is fixed with the locating piece.

4. The automatic cutting device used on the bridge-cut aluminum profile according to claim 1 is characterized in that: the material blocking mechanism comprises a material blocking cylinder fixed on the bottom plate, and the material blocking cylinder is fixed with the material blocking block through a piston rod.

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