CN109226882B

CN109226882B - Automatic aluminum profile sawing device

Info

Publication number: CN109226882B
Application number: CN201811282882.XA
Authority: CN
Inventors: 罗东海; 卢健鸿; 彭明冲; 官大荣
Original assignee: Foshan Shunde Sanchi Intelligent Equipment Co ltd
Current assignee: Foshan Shunde Sanchi Intelligent Equipment Co ltd
Priority date: 2018-10-31
Filing date: 2018-10-31
Publication date: 2023-09-19
Anticipated expiration: 2038-10-31
Also published as: CN109226882A

Abstract

The invention discloses an automatic aluminum profile sawing device which comprises a material conveying rack, a feeding mechanism, a material taking mechanism and a sawing device, wherein the feeding mechanism is arranged on the front side of the material conveying rack and can be lifted; the material taking mechanism is provided with a material taking mechanism positioned above the feeding mechanism and a displacement mechanism for changing the position of the material taking mechanism; the feeding rack is provided with a feeding ejector rod positioned at the upper layer and feeding roller assemblies positioned at the lower layer and uniformly arranged; when in actual use, the straight aluminum profile stack which is replaced by processing is placed on a feeding mechanism, then a single or a plurality of straight aluminum profiles are grabbed from the straight aluminum profile stack by a material taking mechanism and placed on a material conveying roller assembly, and the single or the plurality of straight aluminum profiles are pushed to a sawing device by a material feeding ejector rod for sawing; the method avoids manual placement of the straight aluminum profile, improves production and processing efficiency, reduces production cost and improves automation during sawing of the straight aluminum profile.

Description

Automatic aluminum profile sawing device

Technical Field

The invention relates to the field of automatic machining, in particular to an automatic aluminum profile sawing device.

Background

In the existing straight aluminum profile production and processing, the straight aluminum profile is required to be placed on a sawing device by manpower, the efficiency of the mode is low, the production and processing progress is affected, and a targeted automatic processing device is lacking at present, so that the production efficiency and the production cost are affected.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an automatic aluminum profile sawing device.

The technical scheme adopted for solving the technical problems is as follows:

an automatic aluminum profile sawing device comprises a material conveying frame, a feeding mechanism, a material taking mechanism and a sawing device, wherein the feeding mechanism is positioned on the front side of the material conveying frame and can be lifted; the material taking mechanism is positioned above the feeding mechanism and changes the material taking position through the displacement mechanism; the feeding rack is provided with a feeding ejector rod positioned at an upper layer and a feeding roller assembly positioned at a lower layer and uniformly arranged, and the feeding ejector rod pushes the straight aluminum profile which is grabbed by the material taking mechanism and placed on the feeding roller assembly to the sawing device for sawing.

As a preferable item, the feeding mechanism comprises an upper lifting plate, a lower lifting plate and an X-shaped lifting rod arranged between the two layers of lifting plates; the upper lifting plate and the lower lifting plate are oppositely provided with a left fixing support leg positioned at the left wide edge, a folding line rail positioned at the right side and arranged along the horizontal direction, and a right fixing support leg is arranged on a folding sliding block matched with the folding line rail; the end parts of the left side and the right side of the X-shaped lifting rod are respectively connected with the left fixed supporting leg and the right fixed supporting leg in a rotating way.

As a preferred option, the X-shaped lifting rods are in two groups, the intersection points of the two groups of X-shaped lifting rods are connected in series through a connecting rod, a rotating bearing rod driven by a lifting cylinder is sleeved in the middle of the connecting rod, and a rotating shaft seat is arranged at the tail end of the lifting cylinder.

As a preferable item, the material conveying roller assembly comprises an L-shaped roller support arranged on the lower layer of the material conveying rack, a support lifting cylinder for lifting the L-shaped roller support, a telescopic cylinder arranged on the long section of the L-shaped roller support, an outer side roller which extends outwards through the telescopic cylinder, a plane roller arranged on the lateral surface of the outer end of the short section of the L-shaped roller support, and an inner side roller arranged on the top surface of the inner end of the short section of the L-shaped roller support.

As a preferable item, the right end of the feeding ejector rod is provided with a feeding plate, one side of the feeding plate is provided with a fixed column, the other side of the feeding plate is provided with an L-shaped feeding plate, the L-shaped feeding plate is provided with a fixed plate positioned at the opposite side of the fixed column, and the mounting plate is pushed by a fixed cylinder.

As a preferable item, the left end of the feeding ejector rod is fixed on an L-shaped feeding top plate through a fixing clamp, the L-shaped feeding top plate slides left and right on the upper layer of the feeding rack through a bottom plate, a sliding motor is arranged on the bottom plate and is meshed with a sliding straight rack arranged on the upper layer of the feeding rack, a sliding block is arranged on the bottom plate, and the sliding block is matched with a sliding line rail arranged on the feeding rack.

As a preferable item, the displacement mechanism comprises a bottom frame, a stand column arranged on the bottom frame through an L-shaped connecting bottom plate, and a protruding arm arranged on the stand column and protruding to the feeding mechanism; the top surface and the outer side surface of the underframe are both provided with X-axis rails, and the inner side surface of the L-shaped connecting bottom plate is provided with X-axis sliding blocks matched with the X-axis rails; a displacement straight rack is arranged on the outer side of the top surface of the underframe and is meshed with a displacement motor on the L-shaped connecting bottom plate; the automatic feeding and discharging device is characterized in that a Y-axis sliding block is arranged on the outer side face of the extending arm, a Y-axis rail frame is connected to the Y-axis sliding block in a sliding mode, a rotating screw rod is arranged on the Y-axis rail frame and matched with a screw rod nut on the outer side face of the extending arm, and the feeding and discharging mechanism is arranged at the front end of the Y-axis rail frame.

As an preferable item, the material taking mechanism comprises a Y-axis bottom plate connected with the front end of the Y-axis rail frame, a wire rail bracket vertically connected with the Y-axis bottom plate, a mounting plate arranged on the back side of the wire rail bracket, a straight bracket arranged at the bottom end of the mounting plate, and sucking discs arranged at the bottoms of the two ends of the straight bracket; the Y-axis bottom plate is provided with a small sliding block matched with the wire rail bracket, the mounting plate is provided with a lifting screw rod, and the lifting screw rod is matched with a lifting screw rod nut arranged between the small sliding blocks.

As a preferred item, the sawing device comprises a machine table arranged in a supporting frame, a cutting working table plate arranged on the top surface of the machine table, and a turntable bearing arranged at the bottom of the machine table, wherein a sawing saw blade which is driven by a saw blade motor and is vertical to the cutting working table plate is arranged on the cutting working table plate; the rotary stand column is arranged on the inner bottom surface of the machine table, the machine table is driven by the rotary driving device to rotate, and the rotary seat fixed on the support frame is arranged at the tail end of the rotary driving device.

As an preference, the back side of the saw blade motor is connected with an L-shaped connecting plate penetrating through a machine backboard window, the L-shaped connecting plate is provided with a lifting sliding block facing the machine backboard, the outer side surface of the machine backboard is provided with a lifting line rail matched with the lifting sliding block, and the L-shaped connecting plate is pushed to lift by a lifting cylinder positioned on the inner side surface of the machine backboard.

The beneficial effects of the invention are as follows: the automatic aluminum profile sawing device comprises a material conveying frame, a feeding mechanism, a material taking mechanism and a sawing device, wherein the feeding mechanism is positioned on the front side of the material conveying frame and can be lifted; the material taking mechanism is provided with a material taking mechanism positioned above the feeding mechanism and a displacement mechanism for changing the position of the material taking mechanism; the feeding rack is provided with a feeding ejector rod positioned at the upper layer and feeding roller assemblies positioned at the lower layer and uniformly arranged; when in actual use, the straight aluminum profile stack which is replaced by processing is placed on a feeding mechanism, then a single or a plurality of straight aluminum profiles are grabbed from the straight aluminum profile stack by a material taking mechanism and placed on a material conveying roller assembly, and the single or the plurality of straight aluminum profiles are pushed to a sawing device by a material feeding ejector rod for sawing; the method avoids manual placement of the straight aluminum profile, improves production and processing efficiency, reduces production cost and improves automation during sawing of the straight aluminum profile.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a take off mechanism of the present invention;

FIG. 3 is a second perspective view of the take off mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of a sawing device of the present invention;

FIG. 5 is a second schematic cross-sectional view of the sawing device of the present invention;

FIG. 6 is an enlarged schematic view of a portion of the sawing device of the present invention;

FIG. 7 is a partially enlarged schematic illustration of a sawing device of the present invention;

FIG. 8 is a schematic view of a loading ram of the present invention;

FIG. 9 is a schematic view of a feed roll assembly of the present invention;

FIG. 10 is a schematic view of a feed mechanism of the present invention;

FIG. 11 is a schematic cross-sectional view of a feed mechanism of the present invention.

Detailed Description

Referring to fig. 1, an automatic aluminum profile sawing device comprises a material conveying frame 1, a feeding mechanism 2 which is arranged on the front side of the material conveying frame 1 and can be lifted, a material taking mechanism 3 which is arranged on the rear side of the material conveying frame 1, and a sawing device 4 which is arranged on the right side of the material conveying frame 1; the material taking mechanism 3 is provided with a material taking mechanism 3 positioned above the feeding mechanism 2 and a displacement mechanism 5 for changing the position of the material taking mechanism 3; the feeding rack 1 is provided with a feeding ejector rod 6 positioned at the upper layer and a feeding roller assembly 7 positioned at the lower layer and uniformly arranged, the feeding ejector rod 6 pushes the straight aluminum profiles which are grabbed by the material taking mechanism 3 and placed on the feeding roller assembly 7 to the sawing device 4 for sawing, when in actual use, the straight aluminum profile stacks which are to be processed can be placed on the feeding mechanism 2, the feeding mechanism 2 can select the quantity according to the lengths of the straight aluminum profiles, and in the embodiment, the feeding mechanism 2 selects two straight aluminum profile stacks to be placed at two ends of the straight aluminum profile stacks respectively; then, a single or a plurality of straight aluminum profiles are grabbed from the stacks of the straight aluminum profiles through the material taking mechanism 3 and are placed on the material conveying roller assembly 7, and the material conveying roller assembly 7 facilitates rolling conveying of the straight aluminum profiles; pushing a single or a plurality of straight aluminum profiles to the sawing device 4 for sawing through the feeding ejector rod 6; the method avoids manual placement of the straight aluminum profile, improves production and processing efficiency, reduces production cost and improves automation during sawing of the straight aluminum profile.

Referring to fig. 10 and 11, the feeding mechanism 2 includes upper and lower lifting plates 21 and an X-shaped lifting rod 22 provided between the two lifting plates 21; the upper and lower lifting plates 21 are oppositely provided with a left fixing support leg 23 positioned at the left wide edge, a folding line rail 24 positioned at the right side and arranged along the horizontal direction, and a folding sliding block 30 matched with the folding line rail 24 is provided with a right fixing support leg 25; the left and right ends of the X-shaped lifting rod 22 are respectively and rotatably connected with a left fixed support leg 23 and a right fixed support leg 25; when the X-shaped lifting rod 22 works, the right end of the X-shaped lifting rod 22 rotates on the right fixed support leg 25 and drives the folding sliding block 30 to slide leftwards on the folding line rail 24, and meanwhile, the left end of the X-shaped lifting rod 22 rotates on the left fixed support leg 23, so that the X-shaped lifting rod 22 is unfolded upwards to form a lifting effect on the vertical aluminum profile stack upwards; after the lifting is completed, the folding slider 30 slides rightward on the folding line rail 24, causing the X-shaped lifting bar 22 to fold downward.

In order to increase stability during lifting, two groups of X-shaped lifting rods 22 are adopted, the intersection points of the two groups of X-shaped lifting rods 22 are connected in series through a connecting rod 26, a rotating bearing rod 28 driven by a lifting cylinder 27 is sleeved in the middle of the connecting rod 26, and a rotating shaft seat 29 is arranged at the tail end of the lifting cylinder 27; when the lifting cylinder 27 works, under the assistance of the rotating bearing rod 28, the lifting cylinder 27 rotates upwards by taking the rotating shaft seat 29 as the shaft center, and simultaneously pushes the connecting rod 26 to move upwards so as to enable the position of the connecting rod 26 to move upwards, thereby expanding the X-shaped lifting rod 22, and when the X-shaped lifting rod 22 is folded, the opposite is true; the feeding mechanism 2 can stably move upwards, the taking mechanism 3 can conveniently grasp the straight aluminum profiles, and the stacking stability of the straight aluminum profiles is maintained in the upward moving process.

Referring to fig. 9, the feed roller assembly 7 includes an L-shaped roller support 71 mounted on the lower layer of the feed frame 1, a support lifting cylinder 72 for lifting and lowering the L-shaped roller support 71, a telescopic cylinder 73 mounted on the long section of the L-shaped roller support 71, an outer side roller 74 extended by the telescopic cylinder 73, a plane roller 75 mounted on the outer side surface of the short section of the L-shaped roller support 71, and an inner side roller 76 mounted on the upper surface of the inner end of the short section of the L-shaped roller support 71; in order to be convenient for adapt to the straight aluminum profiles with different specifications, the distance between the outer side roller 74 and the inner side roller 76 is controlled by the telescopic air cylinder 73 to adapt to the width of the straight aluminum profile, and meanwhile, the L-shaped roller bracket 71 is lifted by the bracket lifting air cylinder 72 to control the position of the horizontal plane of the straight aluminum profile so as to cooperate with the pushing action of the feeding ejector rod 6.

Referring to fig. 8, a feeding plate 61 is provided at the right end of the feeding rod 6, a fixing column 62 is provided at one side of the feeding plate 61, an L-shaped feeding plate 63 is provided at the other side, a fixing plate 64 located at the opposite side of the fixing column 62 is provided on the L-shaped feeding plate 63, the fixing plate 64 is pushed by a fixing cylinder 65, and the distance between the fixing plate 64 and the fixing column 62 is adjusted by the fixing cylinder 65 to adapt to straight aluminum profiles of different specifications, so that the straight aluminum profiles are kept stable when the feeding rod 6 is pushed, displacement is avoided, and deviation is avoided when sawing is caused.

In order to enable the feeding ejector rod 6 to move towards the sawing device 4, the left end of the feeding ejector rod 6 is fixed on an L-shaped feeding top plate 12 through a fixing clamp 11, the L-shaped feeding top plate 12 slides left and right on the upper layer of the feeding frame 1 through a bottom plate 13, a sliding motor 14 is arranged on the bottom plate 13, the sliding motor 14 is meshed with a sliding straight rack 15 positioned on the upper layer of the feeding frame 1, and when the sliding motor 14 rotates, the sliding motor moves along the sliding straight rack towards the sawing device 4 and drives the bottom plate 13, so that the feeding ejector rod 6 generates a jacking motion, and is matched with the sliding of the bottom plate 13, a sliding block 16 is arranged on the bottom plate 13, and the sliding block 16 is matched with a sliding line rail 17 arranged on the upper layer of the feeding frame 1.

Referring to fig. 2 and 3, the position of the material taking mechanism 3 needs to be changed by a displacement mechanism 5 due to different specifications of different straight aluminum profiles, and the displacement mechanism 5 comprises a bottom frame 51, a stand column 53 arranged on the bottom frame 51 through an L-shaped connecting bottom plate 52, and a protruding arm 54 arranged on the stand column 53 and protruding to the material feeding mechanism 2; in order to control the left and right positions of the material taking mechanism 3, an X-axis rail 55 is arranged on the top surface and the outer side surface of the underframe 51, and an X-axis sliding block 5616 matched with the X-axis rail 55 is arranged on the inner side surface of the L-shaped connecting bottom plate 52, so that the L-shaped connecting bottom plate 52 can slide left and right on the underframe 51; in order to control the displacement of the L-shaped connecting bottom plate 52, a displacement straight rack 57 is arranged on the outer side of the top surface of the bottom frame 51, the displacement straight rack 57 is meshed with a displacement motor 58 on the L-shaped connecting bottom plate 52, and the position of the bottom plate 13 is driven to change by the change of the position on the displacement straight rack 57 after the displacement motor 58 rotates; in order to control the front and rear positions of the material taking mechanism 3, a Y-axis rail frame 59 is arranged on the outer side surface of the extending arm 54, a rotating screw rod 502 is arranged on the Y-axis rail frame 59, the rotating screw rod 502 is matched with a screw rod nut 503 on the outer side surface of the extending arm 54, the Y-axis rail frame 59 is displaced forwards or backwards through the operation of the rotating screw rod 502, and in order to enable the Y-axis rail frame 59 to be displaced smoothly and stably, a Y-axis sliding block 501 matched with the Y-axis rail frame 59 is arranged on the extending arm 54, so that the front and rear positions of the material taking mechanism 3 arranged at the front end of the Y-axis rail frame 59 are changed.

In order to facilitate the removal of the straight aluminum profile stacks from the feeding mechanism 2, the material taking mechanism 3 comprises a Y-axis bottom plate 31 connected with the front end of a Y-axis rail frame 59, a wire rail bracket 32 vertically connected with the Y-axis bottom plate 31, a mounting plate 33 arranged on the back side of the wire rail bracket 32, a straight bracket (37) arranged at the bottom end of the mounting plate 33, and sucking discs (38) arranged at the bottoms of the two ends of the straight bracket (37), wherein the straight aluminum profile is sucked and fixed through the sucking discs (38); the Y-axis bottom plate 31 is provided with a small slide block 36 matched with the wire rail bracket 32, the mounting plate 33 moves on the small slide block 36 along the vertical direction through the wire rail bracket 32, and in order to further control the accuracy of the vertical movement, the mounting plate 33 is provided with a lifting screw rod 34, and the lifting screw rod 34 is matched with a lifting screw rod nut 35 arranged between the small slide blocks 36.

Referring to fig. 4 to 7, the sawing device 4 includes a machine table 42 installed in a supporting frame 41, a cutting table plate 43 installed on the top surface of the machine table 42, and a turntable bearing 44 installed on the bottom of the machine table 42, wherein a sawing saw blade 46 which is driven by a saw blade motor 45 and is perpendicular to the cutting table plate 43 is installed on the cutting table plate 43, and according to different processing requirements, the machine table 42 rotates through the turntable bearing 44 to change the position of the saw blade on the cutting table plate 43, so that the straight aluminum profile can be cut into different angles; in order to enable the machine table 42 to rotate, a rotary upright post 47 is arranged on the inner bottom surface of the machine table 42, the rotary upright post 47 is pushed by a rotary driving device 48 to further enable the machine table 42 to rotate, the rotary driving device 48 adopts an air cylinder in the embodiment, and a rotary seat 49 fixed on the support frame 41 is arranged at the tail end of the rotary driving device 48; when the rotation driving device 48 works, the rotation driving device is matched with the limiting device, and the rotation upright post 47 is pushed to rotate along the circumferential direction, so that the machine table 42 rotates to realize quantitative angles of 45 degrees, 90 degrees and 135 degrees, and the rotation driving device 48 can also adopt an electric cylinder and a rotation motor to realize any angle rotation of 45 degrees to 135 degrees of the machine table 42.

The back side of the saw blade motor 45 is connected with an L-shaped connecting plate 401 penetrating through a back plate window of the machine table 42, the L-shaped connecting plate 401 is provided with a lifting slide block 402 facing the back plate of the machine table 42, the outer side surface of the back plate of the machine table 42 is provided with a lifting line rail 403 matched with the lifting slide block 402, and the L-shaped connecting plate 401 is pushed to lift by a lifting cylinder 404 positioned on the inner side surface of the back plate of the machine table 42, so that the height of the saw blade 46 extending out of the cutting table plate 43 is changed, and the saw blade is suitable for straight aluminum profiles with different specifications.

The present invention is also capable of suitable alterations and modifications in the above-described embodiments, in light of the above principles. Therefore, the invention is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the invention should be also included in the scope of the claims of the invention.

Claims

1. An automatic aluminum profile sawing device is characterized by comprising a material conveying frame (1), a feeding mechanism (2) which is positioned on the front side of the material conveying frame (1) and can be lifted, a material taking mechanism (3) which is positioned on the rear side of the material conveying frame (1), and a sawing device (4) which is positioned on the right side of the material conveying frame (1); the material taking mechanism (3) is positioned above the feeding mechanism (2) and changes the material taking position through the displacement mechanism (5); the feeding rack (1) is provided with a feeding ejector rod (6) positioned at an upper layer and a feeding roller assembly (7) positioned at a lower layer and uniformly arranged, and the feeding ejector rod (6) pushes a straight aluminum profile which is grabbed by the material taking mechanism (3) and placed on the feeding roller assembly (7) to the sawing device (4) for sawing;

the feeding mechanism (2) comprises an upper lifting plate (21) and a lower lifting plate (21), and an X-shaped lifting rod (22) arranged between the upper lifting plate and the lower lifting plate (21); the upper lifting plate (21) and the lower lifting plate are oppositely provided with a left fixing support leg (23) positioned at the left wide edge, a folding line rail (24) positioned at the right side and arranged along the horizontal direction, and a right fixing support leg (25) is arranged on a folding sliding block (30) matched with the folding line rail (24); the end parts of the left side and the right side of the X-shaped lifting rod (22) are respectively and rotatably connected with a left fixed supporting leg (23) and a right fixed supporting leg (25);

the displacement mechanism (5) comprises a bottom frame (51), a stand column (53) arranged on the bottom frame (51) through an L-shaped connecting bottom plate (52), and an extension arm (54) arranged on the stand column (53) and extending to the feeding mechanism (2); the top surface and the outer side surface of the underframe (51) are respectively provided with an X-axis rail (55), and the inner side surface of the L-shaped connecting bottom plate (52) is provided with an X-axis sliding block (56) matched with the X-axis rails (55); a displacement straight rack (57) is arranged on the outer side edge of the top surface of the underframe (51), and the displacement straight rack (57) is meshed with a displacement motor (58) on the L-shaped connecting bottom plate (52); be equipped with Y axle slider (501) on cantilever arm (54) lateral surface, sliding connection has Y axis rail frame (59) on Y axis slider (501), be equipped with on Y axis rail frame (59) and rotate lead screw (502), rotate lead screw (502) and the cooperation of lead screw nut (503) on cantilever arm (54) lateral surface, extracting mechanism (3) are installed in Y axis rail frame (59) front end.

2. An automatic aluminum profile sawing device according to claim 1, wherein two groups of X-shaped lifting rods (22) are adopted, the intersection points of the two groups of X-shaped lifting rods (22) are connected in series through a connecting rod (26), a rotating bearing rod (28) driven by a lifting cylinder (27) is sleeved in the middle of the connecting rod (26), and a rotating shaft seat (29) is arranged at the tail end of the lifting cylinder (27).

3. An automatic aluminum profile sawing device according to claim 1, wherein the material conveying roller assembly (7) comprises an L-shaped roller support (71) arranged on the lower layer of the material conveying frame (1), a support lifting cylinder (72) for lifting the L-shaped roller support (71), a telescopic cylinder (73) arranged on the long section of the L-shaped roller support (71), an outer side roller (74) which extends outwards through the telescopic cylinder (73), a plane roller (75) arranged on the lateral surface of the outer end of the short section of the L-shaped roller support (71), and an inner side roller (76) arranged on the top surface of the inner end of the short section of the L-shaped roller support (71).

4. An automatic aluminum profile sawing device according to claim 1, characterized in that a feeding plate (61) is arranged at the right end of the feeding ejector rod (6), a fixing column (62) is arranged on one side of the feeding plate (61), an L-shaped feeding plate (63) is arranged on the other side of the feeding plate, a fixing plate (64) positioned on the opposite side of the fixing column (62) is arranged on the L-shaped feeding plate (63), and the fixing plate (64) is pushed by a fixing cylinder (65).

5. The automatic aluminum profile sawing device according to claim 4, wherein the left end of the feeding ejector rod (6) is fixed on an L-shaped feeding top plate (12) through a fixing clamp (11), the L-shaped feeding top plate (12) slides left and right on the upper layer of the feeding frame (1) through a bottom plate (13), a sliding motor (14) is arranged on the bottom plate (13), the sliding motor (14) is meshed with a sliding straight rack (15) arranged on the upper layer of the feeding frame (1), a sliding block (16) is arranged on the bottom plate (13), and the sliding block (16) is matched with a sliding line rail (17) arranged on the feeding frame (1).

6. An automatic aluminum profile sawing device according to claim 1, wherein the material taking mechanism (3) comprises a Y-axis bottom plate (31) connected with the front end of a Y-axis rail frame (59), a wire rail bracket (32) vertically connected with the Y-axis bottom plate (31), a mounting plate (33) arranged on the back side of the wire rail bracket (32), a straight bracket (37) arranged at the bottom end of the mounting plate (33) and sucking discs (38) arranged at the bottoms of the two ends of the straight bracket (37); the Y-axis bottom plate (31) is provided with a small sliding block (36) matched with the wire rail bracket (32), the mounting plate (33) is provided with a lifting screw rod (34), and the lifting screw rod (34) is matched with a lifting screw rod nut (35) arranged between the small sliding blocks (36).

7. An automatic aluminum profile sawing device according to claim 1, wherein the sawing device (4) comprises a machine table (42) arranged in a supporting frame (41), a cutting table plate (43) arranged on the top surface of the machine table (42), and a turntable bearing (44) arranged at the bottom of the machine table (42), a sawing saw blade (46) which is driven by a saw blade motor (45) and is perpendicular to the cutting table plate (43) is arranged on the cutting table plate (43), a rotary upright post (47) is arranged on the inner bottom surface of the machine table (42), the rotary upright post (47) is pushed by a rotary driving device (48) to enable the machine table (42) to rotate, and a rotary seat (49) fixed on the supporting frame (41) is arranged at the tail end of the rotary driving device (48).

8. The automatic aluminum profile sawing device according to claim 7, wherein an L-shaped connecting plate (401) penetrating through a back plate window of a machine table (42) is connected to the back side of the saw blade motor (45), a lifting slider (402) facing the back plate of the machine table (42) is arranged on the L-shaped connecting plate (401), a lifting line rail (403) matched with the lifting slider (402) is arranged on the outer side surface of the back plate of the machine table (42), and the L-shaped connecting plate (401) is pushed to lift by a lifting cylinder (404) located on the inner side surface of the back plate of the machine table (42).