CN110899398A

CN110899398A - Aluminum alloy section extrusion device

Info

Publication number: CN110899398A
Application number: CN201911191939.XA
Authority: CN
Inventors: 张燕
Original assignee: Individual
Current assignee: Foshan Yatai Plastic Aluminum Profile Co ltd
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-03-24
Anticipated expiration: 2039-11-28
Also published as: CN110899398B

Abstract

The invention discloses an aluminum alloy section extrusion forming device which comprises an extrusion transmission machine tool and conveying lines arranged on two sides of an extrusion transmission machining bed, wherein the extrusion transmission machining bed comprises a machining support frame seat, and a machining support plate is horizontally fixed in the middle of the machining support frame seat; the processing supporting plate is provided with a transmission leveling device, the middle part of the top end of the processing supporting frame seat is provided with an adjustable jacking mechanism, and the middle part of the surface of the processing supporting plate is provided with a lifting bottom support mechanism. The forming device can polish the upper surface and the lower surface of the section in the transmission process of the aluminum alloy section, then directly perform press-bending forming on the polished section, and then transmit and output the section, so that an integrated processing process is realized, and the processing process is simple and the processing efficiency is effectively improved.

Description

Aluminum alloy section extrusion device

Technical Field

The invention belongs to the field of aluminum alloy section processing, and relates to an aluminum alloy section extrusion molding device.

Background

In the U type aluminum alloy section bar course of working, in order to make the aluminum alloy section bar surface after the processing smooth, polish earlier on aluminum alloy section bar surface usually, treat that aluminum alloy both surfaces are all polished and are being bent after leveling, consequently prior art need polish respectively through grinding device to aluminum alloy section bar's surface and bottom surface in the section bar course of working, then put into the section bar after will polishing and bend in the mechanism and carry out the fold shaping, process through multichannel process, not only the course of working is loaded down with trivial details and influence machining efficiency.

Disclosure of Invention

The invention aims to provide an aluminum alloy profile extrusion molding device which can polish and flatten the upper surface and the lower surface of an aluminum alloy profile in the transmission process of the aluminum alloy profile, then directly perform press-folding molding on the polished profile, and then convey and output the profile, so that an integrated processing process is realized, and the processing process is simple and the processing efficiency is effectively improved.

The purpose of the invention can be realized by the following technical scheme:

an extrusion forming device for aluminum alloy profiles comprises an extrusion transmission machine tool and conveying lines arranged on two sides of an extrusion transmission adding bed, wherein the extrusion transmission adding bed comprises a processing supporting frame seat, and a processing supporting plate is horizontally fixed in the middle of the processing supporting frame seat;

the processing support plate is provided with a transmission leveling device, an adjustable jacking mechanism is arranged in the middle of the top end of the processing support frame seat, and a lifting bottom support mechanism is arranged in the middle of the surface of the processing support plate;

the adjustable jacking mechanism comprises a jacking frame, a fixed block is integrally connected and fixed at the middle part of the top end of the jacking frame, a third bidirectional hydraulic cylinder is fixedly installed on the fixed block, a strip-shaped limiting hole is formed in the bottom end of the frame of the jacking frame, power output ends at two ends of the third bidirectional hydraulic cylinder are respectively provided with a bending hydraulic cylinder, a piston rod of the bending hydraulic cylinder penetrates through the strip-shaped limiting hole, and a bending plate is integrally connected and fixed at the end part of the piston rod of the bending hydraulic cylinder;

the lifting bottom support mechanism comprises an installation plate, the periphery of the top end face of the installation plate is fixed on the bottom face of the processing support plate through four fixing columns, a lifting hydraulic cylinder is installed on the surface of the installation plate, and a bottom support seat is installed at the power output end of the lifting hydraulic cylinder;

the bottom support seat comprises a positioning plate arranged at the power output end of the lifting hydraulic cylinder, two limiting clamping plates are integrally connected and fixed on the surfaces of two ends of the positioning plate, a limiting strip hole extending to one side is formed in the side wall of each limiting clamping plate, a supporting baffle is arranged between the two limiting strip holes, sliding blocks matched with the limiting strip holes are uniformly connected and fixed at two ends of each supporting baffle, threaded holes are formed in the side wall of each sliding block, a second mounting hole communicated with the limiting strip hole is formed in the side wall of each limiting clamping plate, a third transmission screw is arranged in each second mounting hole and connected with the power output end of the small speed reduction motor;

the conveying leveling device comprises a transverse transmission mechanism fixed in the middle of the surface of the processing support plate, a lifting adjusting mechanism is installed on the transverse transmission mechanism, and meanwhile, turning-over leveling mechanisms are arranged on two sides of the lifting adjusting mechanism.

Further, the transfer chain includes the carriage, and the one end of carriage stretches into to the surface of processing backup pad, and the bottom of carriage is provided with the support column simultaneously, and the both ends of carriage are provided with the transmission shaft, and the conveying is connected with driving belt between two transmission shafts, and one of them transmission shaft is connected with the electronic power take off end of first speed reduction simultaneously, realizes treating the conveying of processing aluminum alloy plate through driving belt.

Furthermore, the end face of the supporting baffle is provided with a plurality of magnet blocks, and the aluminum alloy is adsorbed and fixed through the magnet blocks.

Furthermore, the transverse transmission mechanism comprises a transmission fixing lath, a strip-shaped installation groove is formed in the surface of the transmission fixing lath, a first transmission screw rod is arranged between two side walls of the transmission fixing lath, the first transmission screw rod is positioned in the strip-shaped installation groove, and one end of the first transmission screw rod is connected with the power output end of the second speed reducing motor; the surface of the transmission fixing lath is fixed with a supporting lath, a first transmission screw rod is provided with a sliding block through threaded connection, two ends of the sliding block are connected with two side walls of the strip-shaped mounting groove, the surface of the sliding block is fixed with a U-shaped clamping block, the supporting lath is positioned in the U-shaped clamping block, the bottom surface of the supporting lath is connected with the bottom of the U-shaped groove, a supporting block is fixed between two end surfaces of the U-shaped clamping block, and the bottom surface of the supporting block is connected with the surface.

Furthermore, the lifting adjusting mechanism comprises a lifting hydraulic cylinder arranged at one end of the surface of the supporting block, a waist-shaped fixing plate is fixed at the power output end of the lifting hydraulic cylinder, connecting strips are fixed at two ends of the waist-shaped fixing plate, a third speed reduction motor is arranged in the middle of the end face of each connecting strip, and the turnover leveling mechanism is arranged at the power output end of the third speed reduction motor.

Further, turn over a levelling mechanism and install the fixed plate that presss from both sides tight seat including installing at third gear motor power take off end, the bottom surface middle part of upset fixed plate is equipped with spacing fixed strip, and the spacing groove that extends to a terminal surface is opened to the bottom surface of spacing fixed strip, and second drive screw is installed to the one end of spacing fixed strip, installs the lift seat of polishing on the second drive screw, and the internally mounted of fixed plate that overturns simultaneously has two first bi-directional pneumatic cylinders, and the power take off end of two first bi-directional pneumatic cylinders is installed.

Further, press from both sides tight seat including installing the tight fixed plate of clamp at first bidirectional hydraulic cylinder power take off end, the bottom lateral wall that presss from both sides tight fixed plate is opened there is the mounting groove, and the mounting groove tank bottom is opened there is first mounting hole, installs the pinch-off blades in the first mounting hole, and the installation bottom of the groove bottom portion is installed and is rotated little motor simultaneously, and the power take off end that rotates little motor installs the end baffle.

Furthermore, the lifting polishing seat comprises an adjusting hydraulic cylinder which is installed on the second transmission screw through threads, the side wall of the cylinder body of the adjusting hydraulic cylinder is connected with the side wall of the limiting groove, a polishing fixed frame is installed at the power output end of the adjusting hydraulic cylinder, a second bidirectional hydraulic cylinder is installed in the polishing fixed frame, polishing blocks are installed at the power output ends of the two ends of the second bidirectional hydraulic cylinder, and the polishing blocks and the bottom surface of the polishing fixed frame are in the same plane.

The invention has the beneficial effects that:

1. the forming device can polish the upper surface and the lower surface of the section in the transmission process of the aluminum alloy section, then directly perform press-bending forming on the polished section, and then transmit and output the section, so that an integrated processing process is realized, and the processing process is simple and the processing efficiency is effectively improved.

2. According to the transmission leveling device, the two turnover leveling mechanisms are arranged, so that when one turnover leveling mechanism transmits and outputs the processed section, the other turnover leveling mechanism transmits the other aluminum alloy plate to be processed to a processing site, and the processing transmission efficiency is improved through the cooperation of the two turnover leveling mechanisms.

3. The turnover flattening mechanism provided by the invention can realize the transmission process, can polish and flatten the surface of the aluminum alloy plate in the transmission process, and simultaneously polish one surface of the aluminum alloy plate after polishing the other surface of the aluminum alloy plate through the rotation of the turnover flattening mechanism, so that additional polishing equipment is not required, and the polishing efficiency is improved.

4. The adjustable top pressing mechanism and the bottom support seat are matched to realize the press-bending processing and forming of the aluminum alloy plate, and meanwhile, the adjustable top pressing mechanism and the bottom support seat can realize the processing of the plates with different U-shaped widths through the adjusting action of the adjustable top pressing mechanism and the bottom support seat, so that the processing range is expanded.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of an aluminum alloy profile extrusion molding device according to the present invention;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is a schematic view of an adjustable pressing mechanism;

FIG. 4 is a schematic view of a portion of the structure of FIG. 3;

FIG. 5 is a schematic view of the bottom bracket structure;

FIG. 6 is a schematic view of a conveyor leveling device;

FIG. 7 is a schematic view of the lateral transmission mechanism;

FIG. 8 is a schematic view of the folding and leveling mechanism;

FIG. 9 is a schematic view of the folding and leveling mechanism;

fig. 10 is a schematic structural view of the lifting polishing base.

Detailed Description

Please refer to fig. 1-10 for a detailed description of the following embodiments;

an aluminum alloy profile extrusion molding device is shown in figures 1 and 2 and comprises an extrusion transmission machine tool 1 and conveying lines 2 arranged at two sides of the extrusion transmission machine tool 1;

the extrusion transmission machining bed 1 comprises a machining support frame seat 11, and a machining support plate 12 is horizontally fixed in the middle of the machining support frame seat 11;

a conveying leveling device is arranged on the processing supporting plate 12, an adjustable jacking mechanism 3 is arranged in the middle of the top end of the processing supporting frame seat 11, and a lifting bottom support mechanism 4 is arranged in the middle of the surface of the processing supporting plate 12;

the conveying line 2 comprises a conveying frame 21, one end of the conveying frame 21 extends into the surface of the processing supporting plate 12, a supporting column is arranged at the bottom of the conveying frame 21, transmission shafts are arranged at two ends of the conveying frame 21, a transmission belt 22 is connected between the two transmission shafts in a conveying mode, one of the transmission shafts is connected with a first speed reduction electric power output end, and the conveying of the aluminum alloy plate to be processed is achieved through the transmission belt 22;

as shown in fig. 3 and 4, the adjustable jacking mechanism 3 includes a jacking frame 31, a fixed block 32 is integrally connected and fixed at the middle of the top end of the jacking frame 31, a third bidirectional hydraulic cylinder 33 is fixedly mounted on the fixed block 32, a bar-shaped limiting hole 34 is formed at the bottom end of the frame of the jacking frame 31, a pressing and folding hydraulic cylinder 35 is respectively mounted at the power output ends of the two ends of the third bidirectional hydraulic cylinder 33, a piston rod of the pressing and folding hydraulic cylinder 35 passes through the bar-shaped limiting hole 34, and a pressing and folding plate 36 is integrally connected and fixed at the end of the piston rod of the pressing and folding hydraulic cylinder 35;

as shown in fig. 5, the lifting bottom-support mechanism 4 comprises a mounting plate 41, the periphery of the top end face of the mounting plate 41 is fixed on the bottom face of the processing support plate 12 through four fixing columns 42, a lifting hydraulic cylinder 44 is mounted on the surface of the mounting plate 41, and a bottom-support seat 43 is mounted at the power output end of the lifting hydraulic cylinder 44;

the bottom support seat 43 comprises a positioning plate 431 arranged at the power output end of the lifting hydraulic cylinder 42, two limiting clamping plates 432 are integrally connected and fixed on the surfaces of two ends of the positioning plate 431, a limiting strip hole 433 extending to one side is formed in the side wall of each limiting clamping plate 432, a supporting baffle 434 is arranged between the two limiting strip holes 433, sliding blocks 435 matched with the limiting strip holes 433 are uniformly connected and fixed at two ends of each supporting baffle 434, threaded holes are formed in the side wall of each sliding block 435, second mounting holes communicated with the limiting strip holes 433 are formed in the side wall of each limiting clamping plate 432, third transmission screws 436 are arranged in the second mounting holes, and the third transmission screws 436 are connected with the power output end of the small speed reduction motor; the end face of the supporting baffle 434 is provided with a plurality of magnet blocks, and the aluminum alloy is adsorbed and fixed through the magnet blocks; the third transmission screw 436 is driven to rotate by controlling the small deceleration motor to work, the sliding block 435 is driven to move by the thread fit between the third transmission screw 436 and the sliding block 435 in the rotating process, and the limiting clamping plates 432 are driven to move in the moving process of the sliding block 435, so that the position between the two limiting clamping plates 432 is adjusted;

as shown in fig. 6, the conveying leveling device comprises a transverse transmission mechanism 5 fixed in the middle of the surface of the processing support plate 12, a lifting adjusting mechanism 6 is installed on the transverse transmission mechanism 5, and a turnover leveling mechanism 7 is arranged on two sides of the lifting adjusting mechanism 6;

as shown in fig. 7, the transverse transmission mechanism 5 includes a transmission fixing lath 51, a strip-shaped installation slot 511 is formed on the surface of the transmission fixing lath 51, a first transmission screw 52 is installed between two side walls of the transmission fixing lath 51, the first transmission screw 52 is located in the strip-shaped installation slot 511, and one end of the first transmission screw 52 is connected with the power output end of the second speed reduction motor; a supporting lath 53 is fixed on the surface of the transmission fixing lath 51, a sliding block 54 is installed on the first transmission screw 52 through threaded connection, two ends of the sliding block 54 are connected with two side walls of the strip-shaped installation groove 511, a U-shaped clamping block 55 is fixed on the surface of the sliding block 54, the supporting lath 53 is positioned in the U-shaped clamping block 55, the bottom surface of the supporting lath 53 is connected with the bottom of the U-shaped groove, a supporting block 56 is fixed between two end surfaces of the U-shaped clamping block 55, and the bottom surface of the supporting block 56 is connected with the surface of;

the lifting adjusting mechanism 6 comprises a lifting hydraulic cylinder 61 arranged at one end of the surface of the supporting block 56, a waist-shaped fixing plate 62 is fixed at the power output end of the lifting hydraulic cylinder 61, connecting strips 63 are fixed at two ends of the waist-shaped fixing plate 62, a third speed reduction motor is arranged in the middle of the end surface of each connecting strip 63, and the turnover leveling mechanism 7 is arranged at the power output end of the third speed reduction motor;

as shown in fig. 8 and 9, the turnover leveling mechanism 7 includes a turnover fixing plate 71 installed at the power output end of the third speed reduction motor, a limiting fixing strip 711 is disposed in the middle of the bottom surface of the turnover fixing plate 71, a limiting groove 712 extending to one end surface is formed in the bottom surface of the limiting fixing strip 711, a second transmission screw 713 is installed at one end of the limiting fixing strip 711, a lifting polishing seat 72 is installed on the second transmission screw 713, two first bidirectional hydraulic cylinders 73 are installed inside the turnover fixing plate 71, and a clamping seat 74 is installed at the power output end of the two first bidirectional hydraulic cylinders 73;

the clamping seat 74 comprises a clamping fixing plate 741 installed at a power output end of the first bidirectional hydraulic cylinder 73, a mounting groove 742 is formed in the side wall of the bottom end of the clamping fixing plate 741, a first mounting hole is formed in the bottom of the mounting groove 742, a clamping plate 743 is installed in the first mounting hole, a small rotating motor is installed at the bottom of the mounting groove 742, a bottom baffle 744 is installed at the power output end of the small rotating motor, when an aluminum alloy plate to be machined moves to the position below the turnover leveling mechanism 7, the two clamping fixing plates 741 are controlled to move through the first bidirectional hydraulic cylinder 73, the two clamping plates 742 are driven to move towards the middle portion to clamp and fix the aluminum alloy plate, then the small rotating motor is controlled to drive the bottom baffle 744 to rotate to the position below the aluminum alloy plate, blocking and fixing of the aluminum alloy plate are achieved, and the aluminum alloy;

as shown in fig. 10, the lifting polishing base 72 includes an adjusting hydraulic cylinder 721 installed on the second transmission screw 713 through a thread, a cylinder sidewall of the adjusting hydraulic cylinder 721 is connected with a sidewall of the limiting groove 712, a polishing fixing frame 722 is installed at a power output end of the adjusting hydraulic cylinder 721, a second bidirectional hydraulic cylinder 723 is installed in the polishing fixing frame 722, polishing blocks 724 are installed at power output ends of two ends of the second bidirectional hydraulic cylinder 723, and bottom surfaces of the polishing blocks 724 and the polishing fixing frame 722 are in the same plane; when the clamping seat 74 fastens the aluminum alloy plate to be processed, according to different widths of the aluminum alloy plate, the second bidirectional hydraulic cylinder 723 is controlled to drive the two polishing blocks 724 to move, the bottom of the fixing frame 722 and the polishing blocks 724 are used for polishing the surface of the aluminum alloy plate, and the polishing blocks 724 are controlled to move in the polishing process to completely polish the surface of the aluminum alloy plate;

the aluminum alloy profile extrusion molding device has the following specific working process:

firstly, an aluminum alloy plate is conveyed into an extrusion conveying machine tool 1 through a conveying line 2 on one side, when the aluminum alloy plate moves below a turnover leveling mechanism 7, the turnover leveling mechanism 7 is driven to move downwards through controlling a lifting adjusting mechanism 6, then two clamping fixing plates 741 are controlled to move through a first bidirectional hydraulic cylinder 73, two clamping plates 742 are driven to move towards the middle part to clamp and fix the aluminum alloy plate, and then a small rotating motor is controlled to drive a bottom baffle 744 to rotate below the aluminum alloy plate to block and fix the aluminum alloy plate;

secondly, controlling a second bidirectional hydraulic cylinder 723 to drive two polishing blocks 724 to move according to different widths of the aluminum alloy plate, polishing the surface of the aluminum alloy plate through the bottom of a fixing frame 722 and the polishing blocks 724, and controlling the polishing blocks 724 to move in the polishing process to realize complete polishing of the surface of the aluminum alloy plate;

thirdly, after the surface of the aluminum alloy plate is completely polished, the transverse transmission mechanism 5 is controlled to move until the turnover leveling mechanism 7 moves to the position above the bottom support seat 43, then the third speed reducing motor is controlled to rotate to drive the folding leveling mechanism 7 to rotate 180 degrees, then the clamping plate 742 is controlled to loosen, so that the aluminum alloy plate descends to the surface of the base support seat 43, the bottom surface of the aluminum alloy plate faces upwards, then the two clamping and fixing plates 741 are controlled to move through the first bidirectional hydraulic cylinder 73, the two clamping plates 742 are driven to move towards the middle part to clamp and fix the aluminum alloy plate, then the rotary small motor is controlled to drive the bottom baffle 744 to rotate to the lower part of the aluminum alloy plate, so as to realize the blocking and fixing of the aluminum alloy plate, meanwhile, a second bidirectional hydraulic cylinder 723 is controlled to drive two polishing blocks 724 to move, the surface of the aluminum alloy plate is polished through the bottom of a fixing frame 722 and the polishing blocks 724, and the polishing blocks 724 are controlled to move in the polishing process to achieve complete polishing of the bottom surface of the aluminum alloy plate;

fourthly, after the bottom surface of the aluminum alloy plate is completely polished, controlling the two clamping plates 742 to move towards two sides to enable the aluminum alloy plate to fall to the surface of the base support seat 43, adsorbing and fixing the aluminum alloy plate through a magnet block on the base support seat 43, controlling the transverse transmission mechanism 5 to move back at the moment until the base support seat 43 is positioned between the two turnover leveling mechanisms 7, then controlling the third bidirectional hydraulic cylinder 33 in the adjustable jacking mechanism 3 to move downwards until the folded plate 36 is connected with the surface of the aluminum alloy, then controlling the third bidirectional hydraulic cylinder 33 to work to realize the position adjustment between the two folded plates 36 according to the requirements of the aluminum alloy section, controlling the third bidirectional hydraulic cylinder 33 to continuously move downwards after the third bidirectional hydraulic cylinder 33 is adjusted to a certain width, and driving the folded plates 36 to fold downwards the two sides of the aluminum alloy plate to obtain a U-shaped aluminum alloy plate;

and fifthly, controlling the third bidirectional hydraulic cylinder 33 to move upwards, simultaneously controlling the transverse transmission mechanism 5 to continuously move forwards until one of the turnover flattening mechanisms 7 fixes the U-shaped aluminum alloy plate after being folded, clamping and fixing the other aluminum alloy plate to be processed above the conveying line 2 by the other turnover flattening mechanism 7, then controlling the transverse transmission mechanism 5 to continuously move forwards until one of the turnover flattening mechanisms 7 transmits the U-shaped aluminum alloy plate after being folded to the conveying line 2 on the other side, outputting the processed plate, simultaneously enabling the other turnover flattening mechanism 7 to polish the other aluminum alloy plate to be processed, turn over and place the other aluminum alloy plate above the bottom support seat 43, then polishing and then bending, and repeating the operation to realize the automatic processing process of the aluminum alloy plate.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. An aluminum alloy profile extrusion forming device comprises an extrusion transmission machine tool (1) and conveying lines (2) arranged on two sides of the extrusion transmission machining bed (1), and is characterized in that the extrusion transmission machining bed (1) comprises a machining support frame seat (11), and a machining support plate (12) is horizontally fixed in the middle of the machining support frame seat (11);

a conveying leveling device is arranged on the processing supporting plate (12), an adjustable jacking mechanism (3) is arranged in the middle of the top end of the processing supporting frame seat (11), and a lifting bottom support mechanism (4) is arranged in the middle of the surface of the processing supporting plate (12);

the adjustable jacking mechanism (3) comprises a jacking frame (31), a fixed block (32) is integrally connected and fixed at the middle part of the top end of the jacking frame (31), a third bidirectional hydraulic cylinder (33) is fixedly installed on the fixed block (32), a strip-shaped limiting hole (34) is formed in the bottom end of the frame of the jacking frame (31), power output ends at two ends of the third bidirectional hydraulic cylinder (33) are respectively provided with a pressing and folding hydraulic cylinder (35), a piston rod of the pressing and folding hydraulic cylinder (35) penetrates through the strip-shaped limiting hole (34), and meanwhile, a pressing and folding plate (36) is integrally connected and fixed at the end part of the piston rod of the pressing and folding hydraulic cylinder (;

the lifting bottom support mechanism (4) comprises a mounting plate (41), the periphery of the top end face of the mounting plate (41) is fixed on the bottom face of the processing support plate (12) through four fixing columns (42), a lifting hydraulic cylinder (44) is mounted on the surface of the mounting plate (41), and a bottom support seat (43) is mounted at the power output end of the lifting hydraulic cylinder (44);

the bottom support seat (43) comprises a positioning plate (431) arranged at the power output end of the lifting hydraulic cylinder (42), two limiting clamping plates (432) are integrally connected and fixed on the surfaces of two ends of the positioning plate (431), a limiting strip hole (433) extending to one side is formed in the side wall of each limiting clamping plate (432), a supporting baffle (434) is arranged between the two limiting strip holes (433), sliding blocks (435) matched with the limiting strip holes (433) are integrally connected and fixed at two ends of each supporting baffle (434), threaded holes are formed in the side wall of each sliding block (435), a second mounting hole communicated with the limiting strip holes (433) is formed in the side wall of each limiting clamping plate (432), a third transmission screw (436) is arranged in each second mounting hole, and the third transmission screw (436) is connected with the power output end of the small speed reducing motor;

the conveying leveling device comprises a transverse transmission mechanism (5) fixed in the middle of the surface of the processing supporting plate (12), a lifting adjusting mechanism (6) is installed on the transverse transmission mechanism (5), and meanwhile, turning-over leveling mechanisms (7) are arranged on two sides of the lifting adjusting mechanism (6).

2. The aluminum alloy profile extrusion molding device as claimed in claim 1, wherein the conveying line (2) comprises a conveying frame (21), one end of the conveying frame (21) extends into the surface of the processing support plate (12), a support column is arranged at the bottom of the conveying frame (21), transmission shafts are arranged at two ends of the conveying frame (21), a transmission belt (22) is connected between the two transmission shafts in a transmission mode, one of the transmission shafts is connected with a power output end of the first speed reducing motor, and the transmission of the aluminum alloy plate to be processed is achieved through the transmission belt (22).

3. The extrusion molding apparatus for aluminum alloy sections as claimed in claim 1, wherein the supporting baffle plate (434) has magnet blocks on its end face, and the aluminum alloy is fixed by the magnet blocks.

4. The extrusion molding device of the aluminum alloy profile as claimed in claim 1, wherein the transverse transmission mechanism (5) comprises a transmission fixing lath (51), a strip-shaped mounting groove (511) is formed in the surface of the transmission fixing lath (51), a first transmission screw (52) is arranged between two side walls of the transmission fixing lath (51), the first transmission screw (52) is positioned in the strip-shaped mounting groove (511), and one end of the first transmission screw (52) is connected with a power output end of a second speed reduction motor; the surface of the transmission fixing lath (51) is fixed with a supporting lath (53), a sliding block (54) is installed on the first transmission screw rod (52) through threaded connection, two ends of the sliding block (54) are connected with two side walls of the strip-shaped installation groove (511), a U-shaped clamping block (55) is fixed on the surface of the sliding block (54), the supporting lath (53) is positioned in the U-shaped clamping block (55), the bottom surface of the supporting lath is connected with the bottom of the U-shaped groove, a supporting block (56) is fixed between two end surfaces of the U-shaped clamping block (55), and the bottom surface of the supporting block (56) is connected with the surface of the supporting lath.

5. The extrusion molding device of aluminum alloy profiles as claimed in claim 4, wherein the lifting adjustment mechanism (6) comprises a lifting hydraulic cylinder (61) mounted at one end of the surface of the supporting block (56), a waist-shaped fixing plate (62) is fixed at the power output end of the lifting hydraulic cylinder (61), connecting slats (63) are fixed at the two ends of the waist-shaped fixing plate (62), a third speed reduction motor is mounted in the middle of the end face of each connecting slat (63), and the turnover leveling mechanism (7) is mounted at the power output end of the third speed reduction motor.

6. The aluminum alloy profile extrusion molding device as claimed in claim 1, wherein the turnover leveling mechanism (7) comprises a turnover fixing plate (71) installed at a power output end of a third speed reduction motor, a limiting fixing strip (711) is arranged in the middle of the bottom surface of the turnover fixing plate (71), a limiting groove (712) extending to one end surface is formed in the bottom surface of the limiting fixing strip (711), a second transmission screw (713) is installed at one end of the limiting fixing strip (711), a lifting polishing seat (72) is installed on the second transmission screw (713), two first bidirectional hydraulic cylinders (73) are installed inside the turnover fixing plate (71), and a clamping seat (74) is installed at power output ends of the two first bidirectional hydraulic cylinders (73).

7. The extrusion molding device of aluminum alloy profile according to claim 6, wherein the clamping seat (74) comprises a clamping fixing plate (741) installed at the power output end of the first bidirectional hydraulic cylinder (73), the bottom side wall of the clamping fixing plate (741) is provided with a mounting groove (742), the bottom of the mounting groove (742) is provided with a first mounting hole, the first mounting hole is provided with the clamping plate (743), the bottom of the mounting groove (742) is provided with the small rotating motor, and the power output end of the small rotating motor is provided with the bottom baffle (744).

8. The extrusion molding device of the aluminum alloy profile as claimed in claim 6, wherein the lifting grinding seat (72) comprises an adjusting hydraulic cylinder (721) which is installed on the second transmission screw (713) through threads, the side wall of the adjusting hydraulic cylinder (721) is connected with the side wall of the limiting groove (712), meanwhile, a grinding fixing frame (722) is installed at the power output end of the adjusting hydraulic cylinder (721), a second bidirectional hydraulic cylinder (723) is installed in the grinding fixing frame (722), grinding blocks (724) are installed at the power output ends of the two ends of the second bidirectional hydraulic cylinder (723), and the bottom surfaces of the grinding blocks (724) and the grinding fixing frame (722) are in the same plane.