CN212917819U - Full-automatic cutting deburring equipment for aluminum profiles - Google Patents

Abstract

The utility model discloses a full-automatic cutting and deburring device for aluminum profiles, which comprises an L-shaped workbench, an aluminum profile product placing station and a multi-station flexible feeding station which are sequentially arranged on the L-shaped workbench, and a product positioning station, wherein a first feeding device is arranged on the left side of the aluminum profile product placing station; the rear end at the flexible pay-off station of multistation is equipped with the aluminium alloy product on the flexible pay-off station of multistation and carries next station, the material equipment that draws of final output, the transmission area who draws the material equipment sets gradually the electronic burring equipment that carries out the burring to the product, will treat that the product of burring carries out the pneumatic burring equipment of secondary burring, blow the sweeps equipment of sweeps to the burring position of the aluminium alloy after the burring, be equipped with the cutting mechanism that cuts the product on the flexible pay-off station of multistation in the below of the flexible pay-off station of multistation, this structure improves work efficiency.

Description

Full-automatic cutting deburring equipment for aluminum profiles

Technical Field

The utility model relates to a technical field of processing equipment, in particular to full automatic cutout burring equipment of aluminium alloy.

Background

The aluminium alloy is the very extensive product of present application, applied to many places, but the aluminium alloy must process when using, the cutting, make it become suitable size of a dimension, but present aluminium alloy is when the cutting, generally hold the cutter cutting through the manual work, lead to the cutting effect poor, and can produce the burr after the cutting, the later stage still needs burring to handle, consequently present aluminium alloy processing equipment all does not carry out automation mechanized operation, and often lead to the location to compress tightly the effect poor and lead to the final product to scrap in cutting or burring in-process, can't reach preset size, so lead to work efficiency low, compress tightly the poor problem of effect.

Disclosure of Invention

An object of the utility model is to provide a full automatic cutout burring equipment of aluminium alloy to solve the problem that the work efficiency of the current aluminium alloy processing equipment that proposes among the above-mentioned background art is low, compress tightly that the effect is poor, can't play automatic effect.

In order to achieve the above object, the utility model provides a following technical scheme: the full-automatic cutting and deburring equipment for the aluminum profile comprises an L-shaped workbench, an aluminum profile product placing station, a multi-station flexible feeding station and a product positioning station, wherein the aluminum profile product placing station, the multi-station flexible feeding station and the product positioning station are sequentially arranged on the L-shaped workbench; the rear end of the multi-station flexible feeding station is provided with a pulling device which is used for conveying the aluminum profile products on the multi-station flexible feeding station to the next station and outputting the aluminum profile products finally, the transmission area of the pulling device is sequentially provided with an electric deburring device which is used for deburring the products, a pneumatic deburring device which is used for deburring the products to be deburred for the second time, a scrap blowing device which is used for blowing scraps to the deburring position of the aluminum profile after deburring, a cutting mechanism which is used for cutting the products on the multi-station flexible feeding station is arranged below the multi-station flexible feeding station, the cutting mechanism comprises an eighth air cylinder which is arranged below an L-shaped workbench, the output of the eighth air cylinder is connected with a cutting fixing plate which can move back and forth, a cutting motor is arranged above the cutting fixing plate, and the output of the cutting motor is connected with a cutting disc which is arranged on one side of the multi-, draw material equipment including upper and lower interval distribution's last horizontal pole and two sheer poles, and the vertical pole that sets up through more than one interval between last horizontal pole and two sheer poles connects and constitutes frame type carriage, the interval is equipped with and is used for carrying out spacing more than one spacing unit on frame type carriage with the product both sides, each spacing unit includes spacing and the spacing frame in the right side of a left side, is equipped with the actuating mechanism who drives frame type carriage and remove on L type workstation at the side of frame type carriage.

In order to improve the deburring effect, electronic burring equipment be two, locate respectively and draw the left and right sides both ends of material equipment, carry out deburring processing once to the both ends of drawing the aluminium alloy product on the material equipment, pneumatic burring equipment be two, locate respectively and draw the left and right sides both ends of material equipment, carry out secondary deburring processing to drawing the aluminium alloy product both ends that the material equipment went up and has passed through a burring.

Preferably, in order to make the whole structure operation simpler, the pneumatic deburring device comprises a fifth cylinder, a first burr slide rail is connected to the output of the fifth cylinder, second burr slide rails which are convenient to slide back and forth of the first burr slide rail are arranged on two sides below the first burr slide rail, the two second burr slide rails are fixed on the L-shaped workbench, a first deburring support capable of moving left and right is connected to the first burr slide rail in a sliding mode, a sixth cylinder for driving the deburring support to work is arranged on the side edge of the first burr slide rail, a pneumatic deburring rotary disc is arranged on the first deburring support, and a seventh cylinder is arranged below the pneumatic deburring rotary disc.

Preferably, in order to make the whole structure operation simpler, the electric deburring device comprises a deburring motor and a deburring roller which can be rotatably connected, a third belt pulley is connected to the output of the deburring motor, a fourth belt pulley is arranged on one side of the deburring roller, the third belt pulley and the fourth belt pulley are connected through a second belt, the surface of the deburring roller can abut against a cutting surface conveyed by the material pulling device, the deburring motor is fixed on a second deburring support, two sides of the lower part of the second deburring support are slidably connected to a deburring slide rail, and a deburring cylinder which drives the second deburring support to move left and right on the deburring slide rail is further arranged on the L-shaped workbench.

Preferably, in order to make the whole structure operation simpler, the position of the upper end of the material pulling device corresponding to the electric deburring device and the pneumatic deburring device is provided with a deburring pressing device for pressing the aluminum profile product, the deburring pressing device comprises a first pressing cylinder which is vertically arranged and has a downward output piston, the output of the first pressing cylinder is connected with a first pressing plate, and a first pressing table is arranged below the first pressing plate.

Preferably, in order to make the whole structure operation simpler, a second pressing mechanism for pressing the aluminum profile is arranged on the multi-station flexible feeding station, the second pressing mechanism comprises a second pressing cylinder which is vertically arranged and has a downward output piston, and the output of the second pressing cylinder is connected with a second pressing table.

Preferably, in order to make the operation of the whole structure simpler, the multi-station flexible feeding station comprises a first guide rail horizontally arranged, a first 7-shaped fixing plate is connected on the first guide rail in a sliding manner, a guide rail cylinder driving the first fixing plate to slide is arranged on the side edge of the first guide rail, a fourth cylinder is arranged above the first fixing plate, the output of the fourth cylinder is connected with a second fixing plate, a third connecting plate horizontally arranged is arranged on the side edge of the second fixing plate, more than one horizontally arranged flexible conveying tables are arranged on the third connecting plate at intervals, a buffer spring is sleeved outside the flexible conveying tables, two ends of the buffer spring respectively abut against the third connecting plate and the flexible conveying tables, and the upper surfaces of all the flexible conveying tables are on the same horizontal plane and face the right side.

As preferred, for making whole structure operation simpler, product location station including fixing the location platform on L type workstation, be fixed with the ninth motor on the location platform, be equipped with the fourth slide rail that is located on L type workstation in the below both sides of location platform, sliding connection has the locator that is located the location platform below on the fourth slide rail, the left side of locator can offset with the product tip, and the top of locator is equipped with the dodge through-hole that the support of the fixed station of being convenient for stretched into, is equipped with the actuating lever on the locator, the cover has the ninth belt pulley on the actuating lever, has the tenth belt pulley at the output connection of ninth motor, the cover has the third belt between ninth belt pulley and the tenth belt pulley.

Preferably, in order to improve the working efficiency, the scrap blowing device comprises more than one pneumatic blowing head.

Preferably, in order to simplify the operation of the whole structure, a cutting shaft is arranged at the center of the cutting disc, and one end of the cutting shaft is in fit connection with the output of the cutting motor through a fourth belt and a second belt pulley.

Compared with the prior art, the beneficial effects of the utility model are that: the mechanism consists of a feeding station, a product placing station, a multi-station flexible feeding station, an electric deburring station, a pneumatic deburring station, a scrap blowing station, a product cutting and pressing station, a product positioning station and a cutting station, wherein when the mechanism is used, a worker places a product in the product placing station, a device button is started, a first feeding device conveys the cut product to the multi-station flexible feeding station, the multi-station flexible feeding station conveys the product to be cut to the product positioning station, the product is pressed by a second pressing mechanism at the moment, the product is cut by the cutting mechanism, after the cutting is finished, a pulling device conveys the cut product to the electric deburring device, the deburring pressing device presses the product to be deburred, the electric deburring devices on two sides perform deburring processing on the product, and after the deburring is finished, the pulling device conveys the product to the pneumatic deburring device, the burring compresses tightly equipment and compresses tightly the product of treating the burring, then utilize pneumatic burring equipment to carry out the burring of second time to the product both ends, blow sweeps equipment department with the product transport by drawing material equipment after the burring of second time is accomplished, blow by blowing sweeps equipment and purify the product of burring, blow and purify and carry out the product from equipment by drawing material equipment after accomplishing, the production cycle of a product finishes, consequently, set up through above-mentioned structure and realize that the product that can make things convenient for fast carries, the cutting, the burring, realize automatic operation, and the work efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a direction of a full-automatic cutting and deburring device for aluminum profiles in the embodiment 1;

FIG. 2 is a schematic view of the multi-station flexible feed station of FIG. 1 with the plate removed and the cutting mechanism exposed;

fig. 3 is a schematic structural view of the full-automatic cutting and deburring device for the aluminum profile in another direction in the embodiment 1;

FIG. 4 is an enlarged view of a portion A of FIG. 2;

FIG. 5 is an enlarged view of a portion B of FIG. 2;

FIG. 6 is an enlarged view of a portion C of FIG. 2;

FIG. 7 is an enlarged view of a portion D of FIG. 2;

fig. 8 is a schematic structural view of a product positioning station.

In the figure: an L-shaped workbench 1, an aluminum profile product placing station 2, a multi-station flexible feeding station 3, a product positioning station 4, a first feeding device 5, a pulling device 6, an electric deburring device 7, a pneumatic deburring device 8, a scrap blowing device 9, a cutting mechanism 10, an eighth cylinder 11, a cutting fixing plate 12, a cutting motor 13, a cutting disc 14, an upper cross rod 15, a lower cross rod 16, a longitudinal rod 17, a frame-shaped conveying frame 18, a left limiting frame 19, a right limiting frame 20, a driving mechanism 21, a fifth cylinder 22, a first burr sliding rail 23, a second burr sliding rail 24, a first deburring bracket 25, a sixth cylinder 26, a pneumatic deburring rotary disc 27, a seventh cylinder 28, a deburring motor 29, a deburring roller 30, a third belt pulley 31, a fourth belt pulley 32, a second belt 33, a deburring device 34, a first pressing cylinder 35, a first pressing plate 36, a first pressing table 37, a first pressing plate 37, a second pressing plate, the device comprises a second pressing mechanism 38, a second pressing air cylinder 40, a second pressing platform 39, a first guide rail 41, a first fixing plate 42, a fourth air cylinder 43, a second fixing plate 44, a third connecting plate 45, a soft conveying platform 46, a buffer spring 47, a positioning platform 48, a ninth motor 49, a fourth slide rail 50, a positioner 51, an avoiding through hole 52, a driving rod 53, a ninth belt pulley 54, a tenth belt pulley 55, a third belt 56, a pneumatic blow head 57, a cutting shaft 58, a fourth belt 59, a second belt pulley 60, a guide rail air cylinder 61, a second deburring support 62, a deburring slide rail 63 and a deburring air cylinder 64.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1:

referring to fig. 1 to 8, the utility model provides a full-automatic cutting and deburring device for aluminum profiles, which comprises an L-shaped worktable 1, an aluminum profile product placing station 2, a multi-station flexible feeding station 3 and a product positioning station 4 for positioning an aluminum profile product, which are sequentially arranged on the L-shaped worktable 1, wherein a first feeding device 5 for transmitting the aluminum profile product on the aluminum profile product placing station 2 to the multi-station flexible feeding station 3 is arranged on the left side of the aluminum profile product placing station 2; the rear end of the multi-station flexible feeding station 3 is provided with a pulling device 6 for conveying an aluminum profile product on the multi-station flexible feeding station 3 to a next station and finally outputting the aluminum profile product, a transmission area of the pulling device 6 is sequentially provided with an electric deburring device 7 for deburring the product, a pneumatic deburring device 8 for deburring the product to be deburred for the second time, a scrap blowing device 9 for blowing scraps to a deburring position of the deburred aluminum profile, a cutting mechanism 10 for cutting the product on the multi-station flexible feeding station 3 is arranged below the multi-station flexible feeding station 3, the cutting mechanism 10 comprises an eighth cylinder 11 positioned below the L-shaped workbench 1, a cutting fixing plate 12 capable of moving back and forth is connected to the output of the eighth cylinder 11, a cutting motor 13 is arranged above the cutting fixing plate 12, and the output of the cutting motor 13 is connected to one side of the multi-station flexible feeding station 3 and can position the positioned The cutting disc 14 for cutting the product, the material pulling device 6 comprises an upper cross rod 15 and two lower cross rods 16 which are distributed at intervals, the upper cross rod 15 and the two lower cross rods 16 are connected through more than one longitudinal rod 17 which is arranged at intervals to form a frame-shaped conveying frame 18, more than one limiting unit for limiting two sides of the product is arranged on the frame-shaped conveying frame 18 at intervals, each limiting unit comprises a left limiting frame 19 and a right limiting frame 20, and a driving mechanism 21 for driving the frame-shaped conveying frame 18 to move left and right on the L-shaped worktable 1 is arranged on the side edge of the frame-shaped conveying frame 18.

When the structure works, the cutting disc can move back and forth under the action of the cylinder and the slide rail, and finally the effect of cutting a product on the multi-station flexible feeding station 3 can be realized by moving the position of the cutting disc 14, and meanwhile, in the initial position, the foremost position on the frame-shaped conveying frame 18 is ensured to be just positioned at the position of the multi-station flexible feeding station 3, so that in the process of positioning and cutting the product, an aluminum profile is ensured to be just clamped at the foremost position of the frame-shaped conveying frame 18, then the aluminum profile is positioned through the product positioning station 4, after the positioning, the aluminum profile is cut through the cutting mechanism, after the cutting is finished, the foremost end of the frame-shaped conveying frame 18 is driven by the driving mechanism 21 to move to the electric deburring device 7, the product at the initial position is deburred, and at the moment, the next area of the frame-shaped conveying frame 18, and by analogy, the operation process of the assembly line is realized. The drive mechanism 21 described in this embodiment may be a pneumatic mechanism.

In order to improve the deburring effect, electronic burring equipment 7 be two, locate respectively and draw material equipment 6 about both ends, carry out deburring processing once at the both ends of drawing the aluminium alloy product on the material equipment 6, pneumatic burring equipment 8 be two, locate respectively and draw material equipment 6 about both ends, carry out secondary deburring processing to drawing on the material equipment 6 and having carried out the aluminium alloy product both ends of once burring.

Preferably, in order to make the whole construction operation simpler, said pneumatic deburring device 8 comprises a fifth cylinder 22, the output of the fifth cylinder 22 is connected with a first burr slide rail 23, two sides below the first burr slide rail 23 are provided with second burr slide rails 24 which are convenient for the first burr slide rail 23 to slide back and forth, the two second burr slide rails 24 are fixed on the L-shaped worktable 1, a first deburring bracket 25 which can move left and right is connected on the first deburring slide rail 23 in a sliding way, a sixth air cylinder 26 which drives the first deburring bracket 25 to work is arranged at the side edge of the first deburring slide rail 23, a pneumatic deburring rotary table 27 is arranged on the first deburring bracket 25, a seventh cylinder 28 is arranged below the pneumatic deburring rotary table 27, the pneumatic deburring rotary table 27 can move left and right and back and forth through the structural design, and finally the end deburring processing process of the product at the station is realized.

Preferably, in order to make the whole structure and operation simpler, the electric deburring device 7 comprises a deburring motor 29 and a deburring roller 30 which can be rotatably connected, a third belt pulley 31 is connected to the output of the deburring motor 29, a fourth belt pulley 32 is arranged on one side of the deburring roller 30, the third belt pulley 31 is connected with the fourth belt pulley 32 through a second belt 33, the surface of the deburring roller 30 can abut against the cutting surface conveyed by the material pulling device 6, the deburring motor 29 is fixed on a second deburring bracket 62, two sides below the second deburring bracket 62 are slidably connected on a deburring slide rail 63, a deburring cylinder 64 for driving the second deburring bracket 62 to move left and right on the slide rail 63 is further arranged on the L-shaped worktable 1, and the third belt pulley 31 is driven to rotate by driving the deburring motor 29 during operation, and the fourth belt pulley 32 is synchronously driven to rotate by the second belt 33, and finally the deburring roller 30 is driven to rotate, so that the end part deburring process is carried out on the product at the station.

Preferably, in order to make the whole structure operation simpler, a deburring pressing device 34 for pressing the aluminum profile product is arranged at the position, corresponding to the electric deburring device 7 and the pneumatic deburring device 8, of the upper end of the material pulling device 6, the deburring pressing device 34 comprises a first pressing cylinder 35 which is vertically arranged and has a downward output piston, the output of the first pressing cylinder 35 is connected with a first pressing plate 36, a first pressing table 37 is arranged below the first pressing plate 36, the first pressing plate 36 is driven to move downwards through the work of the first pressing cylinder 35 in order to press the product in the deburring process, then the first pressing table 37 is driven to move downwards synchronously, finally, the product on the material pulling device 6 is effectively pressed, and the deburring effect is prevented from being influenced by the left and right movement of the product in the deburring process.

Preferably, in order to simplify the whole structure and operation, a second pressing mechanism 38 for pressing the aluminum profile is arranged on the multi-station flexible feeding station 3, the second pressing mechanism 38 comprises a second pressing cylinder 40 which is vertically arranged and the output piston of which faces downwards, and a second pressing table 39 is connected to the output of the second pressing cylinder 40.

Preferably, in order to simplify the overall structure and operation, the multi-station flexible feeding station 3 includes a first guide rail 41 horizontally disposed, a first fixing plate 42 having a 7-shape is slidably connected to the first guide rail 41, a guide rail cylinder 61 for driving the first fixing plate 42 to slide is disposed at a side of the first guide rail 41, a fourth cylinder 43 is disposed above the first fixing plate 42, a second fixing plate 44 is connected to an output of the fourth cylinder 43, a third connecting plate 45 horizontally disposed is disposed at a side of the second fixing plate 44, one or more horizontally disposed flexible conveying tables 46 are disposed at intervals on the third connecting plate 45, a buffer spring 47 is externally sleeved on the flexible conveying tables 46, two ends of the buffer spring 47 respectively abut against the third connecting plate 45 and the flexible conveying tables 46, and upper surfaces of all the flexible conveying tables 46 are on the same horizontal plane and face to the right side.

Preferably, in order to make the whole structure operation simpler, the product positioning station 4 includes a positioning table 48 fixed on the L-shaped table 1, a ninth motor 49 is fixed on the positioning table 48, fourth slide rails 50 located on the L-shaped table 1 are arranged on two sides below the positioning table 48, a positioner 51 located below the positioning table 48 is slidably connected on the fourth slide rails 50, the left side of the positioner 51 can abut against the end of the product, an avoiding through hole 52 convenient for the bracket of the fixing table to extend into is arranged above the positioner 51, a driving rod 53 is arranged on the positioner 51, a ninth belt pulley 54 is sleeved on the driving rod 53, a tenth belt pulley 55 is connected to the output of the ninth motor 49, a third belt 56 is sleeved between the tenth belt pulley 55 and the tenth belt pulley 55, during operation, the tenth belt pulley 55 is driven by the operation of the ninth motor 49 and synchronously driven by the third belt 56 to rotate, finally, the positioner 51 is driven to move left and right along the fourth slide rails 50 on the two sides, so that the right end of the product conveyed from the left side is pressed against the right end of the product, and then the product is cut by the lower cutting mechanism.

Preferably, in order to improve the working efficiency, the scrap blowing device 9 comprises more than one pneumatic blowing head 57, and the effect of rapidly blowing the scraps on the product is realized by arranging the pneumatic blowing heads 57.

Preferably, in order to make the whole structure and operation simpler, the cutting shaft 58 is arranged at the center of the cutting disc 14, one end of the cutting shaft 58 is connected with the output of the cutting motor 13 through a fourth belt 59 and a second belt pulley 60 in a matching manner, one second belt pulley 60 which is driven by the operation of the cutting motor 13 to output the cutting motor 13 synchronously drives the second belt pulley 60 on the cutting shaft 58 to operate through the fourth belt 59, and finally the cutting shaft 58 is driven to rotate so as to drive the cutting disc 14 to rotate to realize the cutting function.

The working principle is as follows: the mechanism consists of a feeding station, a product placing station, a multi-station flexible feeding station 3, an electric deburring station, a pneumatic deburring station, a scrap blowing station, a product cutting and pressing station, a product positioning station 4 and a cutting station, when the mechanism is used, a worker places a product in the product placing station 2, an equipment button is started, a first feeding device 5 conveys the cut product to the multi-station flexible feeding station 3, the multi-station flexible feeding station 3 conveys the product to be cut to the product positioning station 4, at the moment, the product is pressed through a second pressing mechanism 38, the product is cut through a cutting mechanism 10, the cut product is conveyed to an electric deburring device 7 through a material pulling device 6 after the cutting is finished, the deburring pressing device 34 presses the product to be deburred, the electric deburring devices 7 on two sides perform deburring processing on the product, carry the product to pneumatic burring equipment 8 by drawing material equipment 6 after the burring is accomplished, the burring compresses tightly equipment 34 and will treat the product of burring and compress tightly, then utilize pneumatic burring equipment 8 to carry out the burring for the second time to the product both ends, carry the product by drawing material equipment 6 after the burring is accomplished and blow sweeps equipment 9 department, blow the purification to the product that has deburred by blowing sweeps equipment 9, blow and carry out the product from equipment by drawing material equipment 6 after the purification is accomplished, the production cycle of a product ends, consequently, set up through above-mentioned structure and realize that the product that can make things convenient for quick carries, the cutting, the burring, realize automation mechanized operation, and the work efficiency is improved.

The applicant needs to say that the air cylinder and the motor related in the present embodiment are all conventional technologies, and the specific structure and parameter selection thereof are all known to those skilled in the art according to actual requirements and therefore are not described in detail.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 a full automatic cutout burring equipment of aluminium alloy, includes L type workstation (1), its characterized in that: the aluminum profile product positioning device comprises an aluminum profile product placing station (2), a multi-station flexible feeding station (3) and a product positioning station (4) for positioning an aluminum profile product, which are sequentially arranged on an L-shaped workbench (1), wherein a first feeding device (5) for transmitting the aluminum profile product on the aluminum profile product placing station (2) to the multi-station flexible feeding station (3) is arranged on the left side of the aluminum profile product placing station (2); the rear end of the multi-station flexible feeding station (3) is provided with a pulling device (6) for conveying an aluminum profile product on the multi-station flexible feeding station (3) to a next station and outputting the aluminum profile product finally, an electric deburring device (7) for deburring the product, a pneumatic deburring device (8) for deburring the product to be deburred, a scrap blowing device (9) for blowing scraps to the deburring position of the deburred aluminum profile product, a cutting mechanism (10) for cutting the product on the multi-station flexible feeding station (3) is arranged below the multi-station flexible feeding station (3), the cutting mechanism (10) comprises an eighth air cylinder (11) positioned below the L-shaped workbench (1), and the output of the eighth air cylinder (11) is connected with a cutting fixing plate (12) capable of moving back and forth, a cutting motor (13) is arranged above the cutting fixing plate (12), the output of the cutting motor (13) is connected with a cutting disc (14) which is positioned at one side of the multi-station flexible feeding station (3) and can cut the positioned product, the material pulling equipment (6) comprises an upper cross bar (15) and two lower cross bars (16) which are distributed at intervals up and down, and the upper cross bar (15) and the two lower cross bars (16) are connected through more than one longitudinal bar (17) arranged at intervals to form a frame-shaped conveying frame (18), more than one limiting unit for limiting two sides of the product is arranged on the frame-shaped conveying frame (18) at intervals, each limiting unit comprises a left limiting frame (19) and a right limiting frame (20), a driving mechanism (21) for driving the frame-shaped conveying frame (18) to move left and right on the L-shaped worktable (1) is arranged at the side edge of the frame-shaped conveying frame (18).

2. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 1, characterized in that: the two electric deburring devices (7) are respectively arranged at the left end and the right end of the material pulling device (6), primary deburring processing is carried out at the two ends of an aluminum profile product on the material pulling device (6), the two pneumatic deburring devices (8) are respectively arranged at the left end and the right end of the material pulling device (6), and secondary deburring processing is carried out at the two ends of the aluminum profile product which is on the material pulling device (6) and is subjected to primary deburring.

3. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 2, characterized in that: pneumatic burring equipment (8) include fifth cylinder (22), there is first burr slide rail (23) at the output connection of fifth cylinder (22), below both sides of first burr slide rail (23) are equipped with and make things convenient for gliding second burr slide rail (24) around first burr slide rail (23), two second burr slide rails (24) are fixed on L type workstation (1), sliding connection has first burring support (25) that can remove about on first burr slide rail (23), the side of first burr slide rail (23) is equipped with sixth cylinder (26) of the work of drive first burring support (25), be equipped with pneumatic turntable (27) on first burring support (25), the below of pneumatic burring turntable (27) is equipped with seventh cylinder (28).

4. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 2, characterized in that: the electric deburring device (7) comprises a deburring motor (29) and a deburring roller (30) which can be rotatably connected, the output of the deburring motor (29) is connected with a third belt pulley (31), one side of the deburring roller (30) is provided with a fourth belt pulley (32), the third belt pulley (31) and the fourth belt pulley (32) are connected through a second belt (33), and the surface of the deburring roller (30) can be abutted against the cutting surface conveyed by the material pulling equipment (6), the deburring motor (29) is fixed on the second deburring bracket (62), two sides below the second deburring bracket (62) are connected on the deburring slide rail (63) in a sliding way, and the L-shaped worktable (1) is also provided with a deburring cylinder (64) for driving the second deburring bracket (62) to move left and right on the deburring slide rail (63).

5. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 2, characterized in that: the position that corresponds electronic burring equipment (7) and pneumatic burring equipment (8) in the upper end of drawing material equipment (6) is equipped with the burring that compresses tightly the aluminium alloy product and compresses tightly equipment (34), burring compress tightly equipment (34) including perpendicular setting and output piston first compress tightly cylinder (35) down, there is first clamp plate (36) at the output connection of first compress tightly cylinder (35), is equipped with first platform (37) that compresses tightly in the below of first clamp plate (36).

6. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 1, 2, 3, 4 or 5, characterized in that: be equipped with on multistation flexible feeding station (3) and carry out second hold-down mechanism (38) that compress tightly to the aluminium alloy, second hold-down mechanism (38) compress tightly cylinder (40) including perpendicular setting and output piston second down, compress tightly the output connection of cylinder (40) at the second and have the second to compress tightly platform (39).

7. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 1, 2, 3, 4 or 5, characterized in that: the multi-station flexible feeding station (3) comprises a first guide rail (41) which is horizontally arranged, a 7-shaped first fixing plate (42) is connected on the first guide rail (41) in a sliding way, a guide rail cylinder (61) for driving the first fixing plate (42) to slide is arranged at the side edge of the first guide rail (41), a fourth cylinder (43) is arranged above the first fixed plate (42), the output of the fourth cylinder (43) is connected with a second fixed plate (44), a third connecting plate (45) which is horizontally arranged is arranged at the side edge of the second fixed plate (44), more than one flexible conveying table (46) which is horizontally arranged is arranged on the third connecting plate (45) at intervals, a buffer spring (47) is sleeved outside the flexible conveying platform (46), two ends of the buffer spring (47) are respectively abutted against the third connecting plate (45) and the flexible conveying platform (46), and the upper surfaces of all the soft conveying tables (46) are on the same horizontal plane and face towards the right side.

8. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 1, 2, 3, 4 or 5, characterized in that: the product positioning station (4) comprises a positioning table (48) fixed on the L-shaped worktable (1), a ninth motor (49) is fixed on the positioning table (48), fourth slide rails (50) positioned on the L-shaped worktable (1) are arranged at two sides below the positioning table (48), a positioner (51) positioned below the positioning table (48) is connected on the fourth slide rail (50) in a sliding way, the left side of the locator (51) can be abutted against the end part of a product, an avoiding through hole (52) which is convenient for the bracket of the fixed table to extend into is arranged above the locator (51), a drive rod (53) is arranged on the positioner (51), a ninth belt pulley (54) is sleeved on the drive rod (53), a tenth belt pulley (55) is connected to the output of the ninth motor (49), and a third belt (56) is sleeved between the ninth belt pulley (54) and the tenth belt pulley (55).

9. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 1, 2, 3, 4 or 5, characterized in that: the scrap blowing device (9) comprises more than one pneumatic blowing head (57).

10. The full-automatic cutting and deburring equipment for aluminum profiles as claimed in claim 1, 2, 3, 4 or 5, characterized in that: the center of cutting dish (14) is equipped with cutting shaft (58), through fourth belt (59) and second belt pulley (60) cooperation connection between the output of one end of cutting shaft (58) and cutting motor (13).

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