CN116372279A - Aluminum profile cutting device with angle adjusting mechanism - Google Patents

Abstract

The invention relates to an aluminum profile cutting device with an angle adjusting mechanism, which belongs to the technical field of aluminum profiles, and aims to solve the technical problems that the cutting direction of a cutter of the aluminum profile cutting device is transverse or longitudinal, so that the cutting angle of the cutter is inconvenient to adjust according to the cutting requirement, and the adopted scheme is as follows: the cutting device for cutting the machining raw materials is arranged on the side surfaces of the first machining table and the second machining table, the adjusting device for adjusting the angle is arranged on the back surface of the cutting installation shell, and the conveying device for moving the machining raw materials is arranged in the first machining table.

Description

Aluminum profile cutting device with angle adjusting mechanism

Technical Field

The invention relates to the technical field of aluminum profiles, in particular to an aluminum profile cutting device with an angle adjusting mechanism.

Background

The plating solution components of the plating process comprise nickel sulfate, nickel chloride, boric acid, sodium dodecyl sulfate, saccharin and brightening agent, and the process has the advantages of simplicity, practicality, good effect and the like, and the prepared titanium-gold-aluminum profile has the film hardness HV approximately equal to 1500, is more wear-resistant than 22K gold under the same condition and is 150 times more wear-resistant, and can be processed into various bright series aluminum profile products with golden, colorful, black and the like in various forms.

In the aluminium alloy production and processing process, need use cutting device to carry out deep-processing, the cutting direction of current aluminium alloy cutting device cutter is horizontal or vertical, is inconvenient for according to the cutting needs, adjusts the cutting angle of cutter, simultaneously, when aluminium alloy cutting device processes, pressing mechanism can only compress tightly the aluminium alloy of specific shape, has reduced aluminium alloy cutting device's performance.

An aluminum profile cutting device with an angle adjusting mechanism is designed so as to solve the problems.

Disclosure of Invention

The invention aims to provide an aluminum profile cutting device with an angle adjusting mechanism, so as to solve the problems in the background art.

In order to achieve the above object, the present invention provides an aluminum profile cutting device with an angle adjusting mechanism: including first processing platform, second processing platform, processing raw materials, containing box, first mounting bracket, second mounting bracket, first electric putter and second electric putter, first processing platform one side is provided with the second processing platform, first processing platform and second processing platform inside have placed the processing raw materials, first processing platform and second processing platform central point put and are provided with the containing box, first processing platform and second processing platform side are provided with first mounting bracket and second mounting bracket, first mounting bracket surface fixedly connected with first electric putter, second mounting bracket installs the second electric putter in the below, first processing platform and second processing platform side are provided with the cutting device who is used for cutting the processing raw materials, cutting device is provided with cutting installation shell, cutting installation groove, shrink shell, first slider and second slider including cutting installation shell, cutting installation shell inside is seted up, cutting installation groove inside slip installation has a shell, shrink shell inside slip connection has first slider and second slider shrink connection first slider and second slider, and first electric putter is used for cutting the side to the first mounting bracket, and the first electric putter is used for carrying the side of the processing raw materials to the first side, the first electric putter is pressed down, the first electric putter is carried the cutting device is carried down to the side, the first electric putter is carried the side of being used for cutting device, the cutting device is carried down the side is carried the cutting device to the side, the first side is carried down, the cutting device is carried down to the side is used for cutting raw materials to the side, the side is carried down, the cutting device is carried down the side is carried down and is used for the cutting device is used for the cutting raw materials, and is used for the raw materials, the cutting raw materials and has, the clamping device is driven to press and clamp the processing raw materials, the adjusting device is started again, the cutting installation shell is driven to rotate, the shrinkage shell slides along the inside of the cutting installation groove, the first sliding block and the second sliding block slide on the inner wall of the cutting installation groove, the shrinkage shell is close to the processing raw materials, bevel angle cutting is carried out on the processing raw materials after cutting, the processed raw materials after cutting are pressed and clamped by the clamping device at the bottom end of the second electric push rod, and waste materials generated by cutting can automatically fall into the storage box.

Preferably, the platform is placed to second processing platform fixed surface connection, the inside fixedly connected with third electric putter of second mounting bracket, the inside sliding connection of second mounting bracket has movable block, and third electric putter and movable block fixed connection, movable block bottom and second electric putter top fixed connection, the clamping device of second electric putter bottom is the stable centre gripping of the processing raw materials of processing completion, and third electric putter contracts fast, drives the movable block and slides at the second mounting bracket inner wall, moves the processing raw materials of processing completion to place the platform top, and clamping device opens automatically, places the processing raw materials of processing completion in place the platform inside.

Preferably, the cooling tank has been seted up to cutting installation shell surface symmetry, and when shrink shell income cutting installation inslot portion, lets in compressed air in the cooling tank is inside, can blow off the air conditioning, not only can cool down for the cutter, can also blow off the slag when cutting or drilling, prevents to influence machining precision, cools down the cutter of processing, increase of service life.

Preferably, the cutting device further comprises a first motor, a first screw rod, a second motor and a cutting blade, the first motor is fixedly installed inside the cutting installation groove, an output shaft of the first motor is fixedly connected with the first screw rod, the surface of the first screw rod is in meshed connection with the inside of the second sliding block, the second motor is fixedly installed inside the shrink shell, the inner wall of the shrink shell is rotationally connected with the cutting blade, the output shaft of the second motor is in meshed connection with the side surface of the cutting blade through a bevel gear, the first motor inside the cutting installation groove is started to drive the first screw rod to rotate, the shrink shell is moved out of the inside of the cutting installation groove, when the shrink shell is moved out of the inside of the cutting installation groove, the second motor is started, the output shaft of the second motor is matched with the bevel gear on the side surface of the cutting blade to drive the cutting blade to rotate, the first motor drives the first screw rod to reversely rotate, the shrink shell is retracted inside the cutting installation groove, and the cutting blade can be retracted into the inside the cutting installation groove rapidly.

Preferably, the adjusting device comprises an adjusting installation shell, a third motor, a first driving wheel, a second driving wheel, a third driving wheel and a driving belt, wherein the back surface of the cutting installation shell is provided with the adjusting installation shell, the third motor is fixedly installed inside the adjusting installation shell, the inner wall of the adjusting installation shell is symmetrically and rotatably connected with the first driving wheel and the second driving wheel, the side surface of the first driving wheel is fixedly connected with the output shaft of the third motor, the back surface of the cutting installation shell is fixedly connected with the third driving wheel, the surfaces of the first driving wheel and the second driving wheel are in meshed connection with the driving belt, the third motor is started to drive the first driving wheel to rotate when the raw materials to be processed are cut at an oblique angle, the driving belt on the surface of the first driving wheel drives the second driving wheel and the third driving wheel to rotate, the third driving wheel is driven to drive the cutting installation shell to rotate along with the cutting angle of the cutting installation shell, and the cutting angle of the cutting device is adjusted.

Preferably, the adjusting device further comprises a guide groove and a guide block, the guide groove is formed in the surface of the adjusting installation shell, the guide block is fixedly connected with the surface of the cutting installation shell and is in sliding connection with the guide block, when the cutting installation shell rotates, the guide block slides on the inner wall of the guide groove, the stability is kept in the rotation process of the cutting installation shell, the cutting installation shell is ensured to be not easy to shake in the rotation process, and the stability of the cutting installation shell is improved.

Preferably, the conveying device comprises a conveying installation groove, a fourth motor, a second screw rod, a first conveying block and a second conveying block, the conveying installation groove is formed in the first processing table, the fourth motor is fixedly installed in the conveying installation groove, the second screw rod is connected with the inner wall of the conveying installation groove in a rotating mode, the first conveying block is connected with the inner wall of the conveying installation groove in a sliding mode, the first conveying block is connected with the surface of the second screw rod in a meshed mode, the second conveying block is fixedly connected with the top of the first conveying block, an output shaft of the fourth motor is connected with the surface of the second screw rod in a meshed mode through a bevel gear, the fourth motor is started, the bevel gear of the output shaft of the fourth motor is matched with the bevel gear on the side face of the second screw rod, the second screw rod is driven to rotate, the rotation number of the fourth motor is converted into the rotation number of the second screw rod, the first conveying block is driven to slide along the inner wall of the conveying installation groove, the second conveying block is driven to move the processing raw materials to the lower portion of the first installation frame, and the fourth motor is reversely rotated to conveniently reset the second conveying block.

Preferably, the clamping device comprises a clamping installation shell, a clamping installation groove, a fifth motor, a bidirectional screw rod and a clamping block, the clamping installation shell is fixedly connected to the bottom end of the first electric push rod and the bottom end of the second electric push rod, the clamping installation groove is formed in the clamping installation shell, the fifth motor is fixedly installed in the clamping installation groove, the bidirectional screw rod is rotationally connected to the inner wall of the clamping installation groove, the fifth motor and the bidirectional screw rod are in meshed connection through flat gears, the clamping block is symmetrically and slidingly connected to the inner wall of the clamping installation groove, the clamping block is internally connected with the surface of the bidirectional screw rod in a meshed manner, the first electric push rod and the second electric push rod drive the clamping installation shell to be close to a processing raw material, the fifth motor is started, the flat gear of an output shaft of the fifth motor is matched with the flat gear of the bidirectional screw rod to drive the bidirectional screw rod to rotate, the rotation number of turns of the output shaft of the fifth motor to be two-way screw rod, the clamping block is mutually close to the clamping block, and the processing raw material is tightly clamped by the clamping block, and aluminum profiles with different shapes can be rapidly pressed.

Preferably, the fillet has been seted up to grip block edge position, and when overhauling the maintenance to clamping device, maintainer can contact the edge position of grip block, and the edge position of grip block can not cause the fish tail to maintainer's palm, has improved the security performance of grip block.

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

1. through installation cutting device, adjusting device, conveyor and clamping device, can be when cutting the processing raw materials and add, adjust cutting blade's angle as required, simultaneously, conveniently press from both sides tight processing raw materials of pressing down, cool down the protection to cutting blade.

2. The cooling grooves are symmetrically formed in the surfaces of the cutting installation shells, compressed air is introduced into the cooling grooves when the shrinkage shells are retracted into the cutting installation grooves, cold air can be blown out, the temperature of the cutter can be lowered, slag during cutting or drilling can be blown out, the machining precision is prevented from being influenced, the temperature of the machined cutter is lowered, and the service life is prolonged.

3. Round corners are formed in the edge positions of the clamping blocks, when the clamping device is overhauled and maintained, overhaulers can contact the edge positions of the clamping blocks, the edge positions of the clamping blocks cannot scratch the palm of the overhaulers, and therefore the safety performance of the clamping blocks is improved.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic view of a cutting device according to the present invention;

FIG. 3 is a second schematic diagram of the cutting device of the present invention;

FIG. 4 is a schematic view of the structure of the adjusting device of the present invention;

FIG. 5 is a schematic view of a conveying apparatus according to the present invention;

FIG. 6 is a schematic view of the internal structure of a second mounting frame according to the present invention;

fig. 7 is a schematic structural view of a clamping device according to the present invention.

In the figure: 1. a first processing station; 2. a second processing station; 3. processing raw materials; 4. a cutting device; 41. cutting the mounting shell; 42. cutting the mounting groove; 43. shrink-wrapping the shell; 44. a first slider; 45. a second slider; 46. a first motor; 47. a first screw rod; 48. a second motor; 49. a cutting blade; 5. an adjusting device; 51. adjusting the mounting shell; 52. a third motor; 53. a first driving wheel; 54. a second driving wheel; 55. a third driving wheel; 56. a transmission belt; 57. a guide groove; 58. a guide block; 6. a conveying device; 61. a conveying installation groove; 62. a fourth motor; 63. a second screw rod; 64. a first transport block; 65. a second transport block; 7. a clamping device; 71. clamping the mounting shell; 72. clamping the mounting groove; 73. a fifth motor; 74. a two-way screw rod; 75. a clamping block; 8. a storage box; 9. a first mounting frame; 10. a second mounting frame; 11. a first electric push rod; 12. a second electric push rod; 13. a placement table; 14. a cooling tank; 15. a third electric push rod; 16. a movable block.

Detailed Description

The following description will clearly and fully describe the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1 and 2, the embodiment provides an aluminum profile cutting device with an angle adjusting mechanism, which comprises a first processing table 1, a second processing table 2, a processing raw material 3, a storage box 8, a first mounting frame 9, a second mounting frame 10, a first electric push rod 11 and a second electric push rod 12, wherein the second processing table 2 is arranged at one side of the first processing table 1, the processing raw material 3 is placed inside the first processing table 1 and the second processing table 2, the storage box 8 is arranged at the center position of the first processing table 1 and the second processing table 2, the first mounting frame 9 and the second mounting frame 10 are arranged at the side surfaces of the first processing table 1 and the second processing table 2, the first electric push rod 11 is fixedly connected to the surface of the first mounting frame 9, the second electric push rod 12 is arranged below the second mounting frame 10, the side surfaces of the first processing table 1 and the second processing table 2 are provided with a cutting device 4 for cutting the processing raw materials 3, the cutting device 4 comprises a cutting installation shell 41, a cutting installation groove 42, a shrinkage shell 43, a first sliding block 44 and a second sliding block 45, the side surfaces of the first processing table 1 and the second processing table 2 are provided with the cutting installation shell 41, the inside of the cutting installation shell 41 is provided with the cutting installation groove 42, the inside of the cutting installation groove 42 is slidably provided with the shrinkage shell 43, the two sides of the shrinkage shell 43 are fixedly connected with the first sliding block 44 and the second sliding block 45, the first sliding block 44 and the second sliding block 45 are slidably connected with the inner wall of the cutting installation groove 42, the back surface of the cutting installation shell 41 is provided with an adjusting device 5 for adjusting angles, the inside of the first processing table 1 is provided with a conveying device 6 for moving the processing raw materials 3, the clamping device 7 used for pressing and clamping the processing raw materials 3 is fixedly connected to the bottom ends of the first electric push rod 11 and the second electric push rod 12.

Firstly, the processing raw materials 3 are placed in the groove of the first processing table 1, the conveying device 6 in the first processing table 1 is started, the processing raw materials 3 move leftwards, the processing raw materials 3 are close to the lower portion of the first mounting frame 9, the first electric push rod 11 stretches downwards, the clamping device 7 is driven to clamp the processing raw materials 3, the adjusting device 5 is started again, the cutting mounting shell 41 is driven to rotate, the shrinkage shell 43 slides along the inside of the cutting mounting groove 42, the first sliding block 44 and the second sliding block 45 slide on the inner wall of the cutting mounting groove 42, the shrinkage shell 43 is close to the processing raw materials 3, bevel angle cutting is carried out on the processing raw materials 3, the cut processing raw materials 3 are pressed and clamped by the clamping device 7 at the bottom end of the second electric push rod 12, and waste materials generated by cutting can automatically fall into the storage box 8.

Example two

Referring to fig. 1 and 6, a further improvement is made on the basis of embodiment 1: the second processing platform 2 fixedly connected with places the platform 13, the inside fixedly connected with third electric putter 15 of second mounting bracket 10, the inside sliding connection of second mounting bracket 10 has movable block 16, and third electric putter 15 and movable block 16 fixed connection, movable block 16 bottom and the fixed connection in second electric putter 12 top, the clamping device 7 of second electric putter 12 bottom is with the stable centre gripping of processing raw materials 3 that processing was accomplished, and third electric putter 15 contracts fast, drives movable block 16 and slides at second mounting bracket 10 inner wall, moves the processing raw materials 3 that processing was accomplished to place platform 13 top, and clamping device 7 opens automatically, places the processing raw materials 3 that processing was accomplished inside placing the platform 13.

Example III

Referring to fig. 2 and 3, a further improvement is made on the basis of embodiment 2: the cooling tank 14 has been seted up to cutting installation shell 41 surface symmetry, and when shrink shell 43 income cutting installation groove 42 was inside, lets in compressed air in cooling tank 14 inside, can blow off the air conditioning, not only can cool down for the cutter, can also blow off the slag when cutting or drilling, prevents to influence machining precision, cools down the cutter of processing, increase of service life.

Example IV

Referring to fig. 2 and 3, a further improvement is made on the basis of embodiment 3: the cutting device 4 further comprises a first motor 46, a first screw rod 47, a second motor 48 and a cutting blade 49, the first motor 46 is fixedly arranged in the cutting installation groove 42, an output shaft of the first motor 46 is fixedly connected with the first screw rod 47, the surface of the first screw rod 47 is in meshed connection with the inside of the second sliding block 45, the second motor 48 is fixedly arranged in the shrink shell 43, the inner wall of the shrink shell 43 is rotationally connected with the cutting blade 49, an output shaft of the second motor 48 is in meshed connection with the side face of the cutting blade 49 through a bevel gear, the first motor 46 in the cutting installation groove 42 is started, the first screw rod 47 is driven to rotate, the shrink shell 43 is moved out of the cutting installation groove 42, when the shrink shell 43 is moved out of the cutting installation groove 42, the bevel gear is driven to rotate by matching with the side face of the cutting blade 49, the cutting blade 49 is driven to cut the processing raw materials 3, the first motor 46 drives the first screw rod 47 to reversely rotate, the shrink shell 43 is cut into the inside the installation groove 42, and the cutting blade 49 can be quickly retracted into the inside the cutting installation groove 42.

Example five

Referring to fig. 1 and 4, a further improvement is made on the basis of embodiment 4: the adjusting device 5 comprises an adjusting installation shell 51, a third motor 52, a first driving wheel 53, a second driving wheel 54, a third driving wheel 55 and a driving belt 56, wherein the back surface of the cutting installation shell 41 is provided with the adjusting installation shell 51, the third motor 52 is fixedly installed in the adjusting installation shell 51, the first driving wheel 53 and the second driving wheel 54 are symmetrically and rotatably connected to the inner wall of the adjusting installation shell 51, the side surface of the first driving wheel 53 is fixedly connected with the output shaft of the third motor 52, the back surface of the cutting installation shell 41 is fixedly connected with the third driving wheel 55, the surfaces of the first driving wheel 53 and the second driving wheel 54 are in meshed connection with the driving belt 56, the third driving wheel 55 is in meshed connection with the driving belt 56, when the bevel angle cutting needs to be carried out on the processed raw materials 3, the third motor 52 output shaft drives the first driving wheel 53 to rotate, the driving belt 56 on the surface of the first driving wheel 53 drives the second driving wheel 54 and the third driving wheel 55 to rotate, the third driving wheel 55 is driven to rotate, the cutting installation shell 41 is driven to rotate along with the cutting angle of the driving wheel 4.

Example six

Referring to fig. 4, a further improvement was made on the basis of example 5: the adjusting device 5 further comprises a guide groove 57 and a guide block 58, the guide groove 57 is formed in the surface of the adjusting installation shell 51, the guide block 58 is fixedly connected to the surface of the cutting installation shell 41, the guide groove 57 and the guide block 58 are in sliding connection, when the cutting installation shell 41 rotates, the guide block 58 slides on the inner wall of the guide groove 57, the stability is kept in the rotation process of the cutting installation shell 41, the cutting installation shell 41 is guaranteed to not shake easily in the rotation process, and the stability of the cutting installation shell 41 is improved.

Example seven

Referring to fig. 1 and 5, a further improvement is made on the basis of example 6: the conveying device 6 comprises a conveying installation groove 61, a fourth motor 62, a second screw rod 63, a first conveying block 64 and a second conveying block 65, the conveying installation groove 61 is formed in the first processing table 1, the fourth motor 62 is fixedly installed in the conveying installation groove 61, the second screw rod 63 is rotatably connected to the inner wall of the conveying installation groove 61, the first conveying block 64 is slidably connected to the inner wall of the conveying installation groove 61, the first conveying block 64 is internally meshed with the surface of the second screw rod 63, the second conveying block 65 is fixedly connected to the top of the first conveying block 64, the output shaft of the fourth motor 62 is meshed with the surface of the second screw rod 63 through a bevel gear, the fourth motor 62 is started, the bevel gear of the output shaft of the fourth motor 62 is matched with the bevel gear on the side face of the second screw rod 63 to drive the second screw rod 63 to rotate, the rotation number of the fourth motor 62 is converted into the rotation number of the second screw rod 63, the first conveying block 64 is driven to slide along the inner wall of the conveying installation groove 61, the second conveying block 65 is driven to move the processing raw material 3 to the lower side of the first 9, the fourth motor 62 is driven to reversely rotate, and the second conveying block 65 is reset conveniently.

Example eight

Referring to fig. 1 and 7, a further improvement is made on the basis of embodiment 7: the clamping device 7 comprises a clamping installation shell 71, a clamping installation groove 72, a fifth motor 73, a bidirectional screw rod 74 and a clamping block 75, the clamping installation shell 71 is fixedly connected to the bottom ends of the first electric push rod 11 and the second electric push rod 12, the clamping installation groove 72 is formed in the clamping installation shell 71, the fifth motor 73 is fixedly installed in the clamping installation groove 72, the bidirectional screw rod 74 is rotatably connected to the inner wall of the clamping installation groove 72, the fifth motor 73 and the bidirectional screw rod 74 are in meshed connection through flat gears, the clamping block 75 is symmetrically and slidably connected to the inner wall of the clamping installation groove 72, the clamping block 75 is in meshed connection with the surface of the bidirectional screw rod 74, the first electric push rod 11 and the second electric push rod 12 drive the clamping installation shell 71 to be close to the processing raw materials 3, the fifth motor 73 is started, the flat gears of the output shaft of the fifth motor 73 are matched with the surface of the bidirectional screw rod 74 to drive the bidirectional screw rod 74 to rotate, the rotation turns of the output shaft of the fifth motor 73 are converted into rotation turns of the bidirectional screw rod 74, the clamping block 75 is close to each other, the clamping block 75 tightly clamps the processing raw materials 3, and aluminum profiles with different shapes can be quickly clamped.

Example nine

Referring to fig. 7, a further improvement is made on the basis of example 8: rounded corners are formed at the edge positions of the clamping blocks 75, when the clamping device 7 is overhauled and maintained, overhaulers can contact the edge positions of the clamping blocks 75, the edge positions of the clamping blocks 75 cannot scratch the palm of the overhaulers, and the safety performance of the clamping blocks 75 is improved.

Working principle: firstly, the processing raw material 3 is placed in a groove of a first processing table 1, a conveying device 6 in the first processing table 1 is started, a fourth motor 62 is started, a bevel gear of an output shaft of the fourth motor 62 is matched with a bevel gear on the side face of a second screw rod 63 to drive the second screw rod 63 to rotate, the rotation circle number of the fourth motor 62 is converted into the rotation circle number of the second screw rod 63, a first conveying block 64 is driven to slide along the inner wall of a conveying installation groove 61, a second conveying block 65 is driven to move the processing raw material 3 to the lower side of a first installation frame 9, the fourth motor 62 is reversely rotated to conveniently reset the second conveying block 65, the processing raw material 3 is moved leftwards, the processing raw material 3 is close to the lower side of the first installation frame 9, a first electric push rod 11 stretches downwards to drive a clamping device 7 to clamp the processing raw material 3, the first electric push rod 11 and a second electric push rod 12 drive a clamping installation shell 71 to be close to the processing raw material 3, starting a fifth motor 73, matching a flat gear on the output shaft of the fifth motor 73 with a flat gear on the surface of a bidirectional screw rod 74 to drive the bidirectional screw rod 74 to rotate, converting the rotation number of the output shaft of the fifth motor 73 into the rotation number of the bidirectional screw rod 74, approaching the clamping blocks 75 to each other, tightly clamping the processing raw materials 3 by the clamping blocks 75, rapidly clamping aluminum profiles with different shapes, restarting the adjusting device 5, starting a third motor 52 when the processing raw materials 3 need to be cut at an oblique angle, driving the first driving wheel 53 to rotate by the output shaft of the third motor 52, driving the second driving wheel 54 and the third driving wheel 55 to rotate by the driving belt 56 on the surface of the first driving wheel 53, driving the cutting installation shell 41 to rotate along with the rotation of the third driving wheel 55, adjusting the cutting angle of the cutting device 4, sliding the guide blocks 58 on the inner wall of the guide grooves 57 when the cutting installation shell 41 rotates, in the rotation process of the cutting installation shell 41, the stability is kept, the cutting installation shell 41 is prevented from shaking easily in the rotation process, the stability of the cutting installation shell 41 is improved, the cutting installation shell 41 is driven to rotate, the shrinkage shell 43 slides along the inside of the cutting installation groove 42, the first sliding block 44 and the second sliding block 45 slide on the inner wall of the cutting installation groove 42, the shrinkage shell 43 is close to the processed raw material 3, the first motor 46 in the inside of the cutting installation groove 42 is started, the first screw rod 47 is driven to rotate, the shrinkage shell 43 is moved out of the inside of the cutting installation groove 42, the second motor 48 is started when the shrinkage shell 43 is moved out of the inside of the cutting installation groove 42, the bevel gear of the output shaft of the second motor 48 is matched with the bevel gear on the side of the cutting blade 49, the cutting blade 49 is driven to rotate, the processed raw material 3 is cut, the first motor 46 drives the first screw rod 47 to reversely rotate, the shrinkage shell 43 is retracted into the inside of the cutting installation groove 42, the cutting blade 49 is rapidly retracted into the inside of the cutting installation groove 42, the processed raw material 3 is cut, the cut is bevel-finished, the processed raw material 3 is pressed by the clamping device 7 at the bottom of the second electric push rod 12, and the generated waste is automatically clamped into the storage box 8.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an aluminium alloy cutting device with angle adjustment mechanism, includes first processing platform (1), second processing platform (2), processing raw materials (3), containing box (8), first mounting bracket (9), second mounting bracket (10), first electric putter (11) and second electric putter (12), first processing platform (1) one side is provided with second processing platform (2), processing raw materials (3) have been placed to first processing platform (1) and second processing platform (2) inside, first processing platform (1) and second processing platform (2) central point put and are provided with containing box (8), first processing platform (1) and second processing platform (2) side are provided with first mounting bracket (9) and second mounting bracket (10), first mounting bracket (9) fixed surface are connected with first electric putter (11), second electric putter (12) are installed to second mounting bracket (10) below, its characterized in that: the cutting device comprises a first processing table (1) and a second processing table (2), wherein a cutting device (4) for cutting processing raw materials (3) is arranged on the side face of the first processing table (1) and the side face of the second processing table (2), the cutting device (4) comprises a cutting installation shell (41), a cutting installation groove (42), a contraction shell (43), a first sliding block (44) and a second sliding block (45), an adjusting device (5) for adjusting angles is arranged on the back face of the cutting installation shell (41), the cutting installation groove (42) is formed in the side face of the first processing table (1) and the side face of the second processing table (2), the contraction shell (43) is arranged in the cutting installation groove (42) in a sliding mode, the first sliding block (44) and the second sliding block (45) are fixedly connected to two sides of the contraction shell (43), the first sliding block (44) and the second sliding block (45) are in sliding connection with the inner wall of the cutting installation groove (42), a conveying device (6) for moving the processing raw materials (3) is arranged on the inner side face of the first processing table (1), and the bottom end of the first electric pushing rod (11) and the second pushing rod (12) are fixedly connected with a clamping device for clamping the raw materials (7).

2. An aluminum profile cutting device with an angle adjustment mechanism according to claim 1, characterized in that: the machining device is characterized in that the second machining table (2) is fixedly connected with the placement table (13), a third electric push rod (15) is fixedly connected inside the second mounting frame (10), a movable block (16) is slidably connected inside the second mounting frame (10), the third electric push rod (15) is fixedly connected with the movable block (16), and the bottom of the movable block (16) is fixedly connected with the top end of the second electric push rod (12).

3. An aluminum profile cutting device with an angle adjustment mechanism according to claim 1, characterized in that: cooling grooves (14) are symmetrically formed in the surface of the cutting installation shell (41).

4. An aluminum profile cutting device with an angle adjustment mechanism according to claim 1, characterized in that: the cutting device (4) further comprises a first motor (46), a first screw rod (47), a second motor (48) and a cutting blade (49), the first motor (46) is fixedly installed inside the cutting installation groove (42), the first screw rod (47) is fixedly connected with an output shaft of the first motor (46), the surface of the first screw rod (47) is connected with the inner portion of the second sliding block (45) in a meshed mode, the second motor (48) is fixedly installed inside the shrinkage shell (43), and the cutting blade (49) is rotationally connected to the inner wall of the shrinkage shell (43).

5. The aluminum profile cutting device with an angle adjustment mechanism according to claim 4, wherein: the output shaft of the second motor (48) is connected with the side surface of the cutting blade (49) through bevel gears in a meshed mode.

6. An aluminum profile cutting device with an angle adjustment mechanism according to claim 1, characterized in that: the adjusting device (5) comprises an adjusting installation shell (51), a third motor (52), a first driving wheel (53), a second driving wheel (54), a third driving wheel (55) and a driving belt (56), wherein the back of the cutting installation shell (41) is provided with the adjusting installation shell (51), the third motor (52) is fixedly installed inside the adjusting installation shell (51), the first driving wheel (53) and the second driving wheel (54) are symmetrically and rotatably connected to the inner wall of the adjusting installation shell (51), the side face of the first driving wheel (53) is fixedly connected with the output shaft of the third motor (52), the third driving wheel (55) is fixedly connected to the back of the cutting installation shell (41), the driving belt (56) is connected to the surface of the first driving wheel (53) and the surface of the second driving wheel (54) in a meshed mode, and the third driving wheel (55) is connected to the driving belt (56) in a meshed mode.

7. The aluminum profile cutting device with an angle adjustment mechanism of claim 6, wherein: the adjusting device (5) further comprises a guide groove (57) and a guide block (58), the guide groove (57) is formed in the surface of the adjusting installation shell (51), the guide block (58) is fixedly connected to the surface of the cutting installation shell (41), and the guide groove (57) is in sliding connection with the guide block (58).

8. An aluminum profile cutting device with an angle adjustment mechanism according to claim 1, characterized in that: the conveying device (6) comprises a conveying installation groove (61), a fourth motor (62), a second screw rod (63), a first conveying block (64) and a second conveying block (65), the conveying installation groove (61) is formed in the first processing table (1), the fourth motor (62) is fixedly installed in the conveying installation groove (61), the second screw rod (63) is rotationally connected to the inner wall of the conveying installation groove (61), the first conveying block (64) is slidingly connected to the inner wall of the conveying installation groove (61), the first conveying block (64) is in meshed connection with the surface of the second screw rod (63), the second conveying block (65) is fixedly connected to the top of the first conveying block (64), and the output shaft of the fourth motor (62) is meshed with the surface of the second screw rod (63) through a bevel gear.

9. An aluminum profile cutting device with an angle adjustment mechanism according to claim 1, characterized in that: clamping device (7) are including centre gripping mounting shell (71), centre gripping mounting groove (72), fifth motor (73), two-way lead screw (74) and grip block (75), first electric putter (11) and second electric putter (12) bottom fixedly connected with centre gripping mounting shell (71), centre gripping mounting groove (72) have been seted up to centre gripping mounting shell (71) inside, inside fixed mounting of centre gripping mounting groove (72) has fifth motor (73), centre gripping mounting groove (72) inner wall rotation is connected with two-way lead screw (74), and fifth motor (73) and two-way lead screw (74) are connected through flat gear engagement, centre gripping mounting groove (72) inner wall symmetry sliding connection has grip block (75), and grip block (75) inside and two-way lead screw (74) surface engagement are connected.

10. The aluminum profile cutting device with an angle adjustment mechanism of claim 9, wherein: rounded corners are formed at the edge positions of the clamping blocks (75).

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