CN112692576B - Cutting and deburring all-in-one machine for aluminum alloy section - Google Patents

Abstract

The invention discloses a cutting and deburring all-in-one machine for aluminum alloy sections, which comprises an all-in-one machine body, wherein a clamping and conveying mechanism is connected onto the all-in-one machine body, the clamping and conveying mechanism comprises a plurality of pairs of clamping and fixing plates, one sides, close to the clamping and fixing plates, of the pairs of clamping and fixing plates are respectively connected with a first electric telescopic rod, one end, far away from the clamping and fixing plates, of each first electric telescopic rod is connected with a clamping and mounting plate, a first motor is connected onto the clamping and mounting plate, the first motor penetrates through the clamping and mounting plate, and a clamping rubber wheel is connected onto the first motor. According to the aluminum alloy section cutting device, due to the arrangement of the corresponding mechanism on the aluminum alloy section cutting device, the manual participation is reduced, the carrying of workers to the aluminum alloy sections is reduced, the aluminum alloy processing efficiency is greatly improved, meanwhile, the situation that burrs cannot be removed is effectively avoided, the burr removing efficiency is effectively improved, the damage of the burrs to the workers is reduced, and the safety of the workers is improved.

Description

Cutting and deburring all-in-one machine for aluminum alloy section

Technical Field

The invention belongs to the technical field of aluminum alloy sections, and particularly relates to a cutting and deburring all-in-one machine for aluminum alloy sections.

Background

The aluminum alloy is an alloy which is based on aluminum and added with a certain amount of other alloying elements, is one of light metal materials, has the common characteristics of aluminum, has the specific characteristics of certain alloys due to the difference of the types and the quantity of the added alloying elements, has the density of 2.63-2.85 g/cm, has higher strength, specific strength close to high alloy steel, specific rigidity superior to steel, good casting performance and plastic processing performance, good electric conduction and heat conduction performance, good corrosion resistance and weldability, can be used as a structural material, has wide application in aerospace, aviation, transportation, construction, electromechanics, lightening and daily necessities, and is a type of nonferrous metal structural material which is most widely applied in industry.

At present, aluminum alloy ex-trusions are after the cutting, need the manual aluminum alloy ex-trusions transport after the staff will cut to aluminum alloy ex-trusions burring department manually carry out getting rid of burr, the process of transport wastes time and energy, a large amount of time has been wasted, the efficiency of aluminum alloy ex-trusions processing has been seriously influenced, the manual getting rid of burr is not only efficient simultaneously, and there is the condition that the burr can not get rid of completely probably in addition, the staff still may be hindered to the in-process burr that gets rid of at the burr, certain threat has been caused to staff's safety.

Therefore, in order to solve the above technical problems, it is necessary to provide an all-in-one machine for cutting and deburring aluminum alloy sections.

Disclosure of Invention

The invention aims to provide a cutting and deburring all-in-one machine for aluminum alloy sections, which aims to solve the problems that the deburring efficiency is low and the burrs cannot be completely removed.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides an aluminum alloy ex-trusions is with cutting and burring all-in-one, includes the all-in-one body, be connected with centre gripping conveying mechanism on the all-in-one body, centre gripping conveying mechanism includes many pairs of centre gripping fixed plates, and is a pair of one side that the centre gripping fixed plate is close to mutually all is connected with an electric telescopic handle, the one end that centre gripping fixed plate was kept away from to an electric telescopic handle is connected with the centre gripping mounting panel, be connected with first motor on the centre gripping mounting panel, first motor runs through the centre gripping mounting panel setting, be connected with centre gripping rubber wheel on the first motor, all-in-one body in-connection has splashproof cutting mechanism, compression burring mechanism and lift separation mechanism.

Furthermore, the splash-proof cutting mechanism comprises a second motor, the second motor can provide power for the rotation of the cutting blade, so that the cutting blade can cut the aluminum alloy sections more smoothly, and the cutting efficiency of the aluminum alloy sections is improved at the same time, a synchronous sliding groove matched with the second motor is formed in the all-in-one machine body, the second motor can slide due to the arrangement of the synchronous sliding groove, so that the cutting blade can be driven by the second motor to slide, the cutting blade can provide an advancing position for the aluminum alloy sections when the aluminum alloy sections are placed on the all-in-one machine body, the manual operation of workers is avoided, the danger of the cutting blade to the workers is reduced, a pair of second electric telescopic rods is connected to the second motor, and the second electric telescopic rods can be driven or pulled by the control of the control box, the cutting blade can slide, so that the cutting blade can cut aluminum alloy sections more stably, the second motor penetrates through the pair of second electric telescopic rods, the stability of the second motor during sliding is greatly improved due to the fact that the second motor penetrates through the second electric telescopic rods, the situation that the cutting blade inclines is avoided, a balance sliding groove matched with the second electric telescopic rods is formed in the all-in-one machine body, the balance sliding groove can provide a position for the second electric telescopic rods to stretch and retract, blocking of the all-in-one machine body on the second electric telescopic rods is avoided, the cutting blade is connected to the second motor, the cutting blade can rotate at the high speed under the driving of the second motor to cut the aluminum alloy sections, and a scrap recycling groove matched with the cutting blade is formed in the all-in-one machine body, the piece that the cutting produced can fall into the piece accumulator, carries out unified collection or cleans, has avoided the too much cutting piece of adhesion on the all-in-one body.

Further, this internal in-connection of all-in-one has the reservoir, and the setting in reservoir can be collected the piece, and the user can regularly clear up, has avoided the difficult circumstances of clearing up of piece to appear, the reservoir is linked together with the piece accumulator, be connected with a pair of axle bed on the all-in-one, the setting of axle bed can support the rotation of rotating the connecting block, has avoided the condition that the rotating connecting block drops, makes the rotation of rotating the connecting block more stable, and the effectual stability that promotes the splashproof cover is one-to-one be connected with the rotating the connecting block between the axle bed, and the splashproof cover can be connected in the setting of rotating the connecting block, does the extension for the splashproof cover, makes the axis of splashproof cover keep away from, has avoided colliding with of splashproof cover with the all-in-one, has promoted the life of splashproof cover, and the setting of splashproof cover can block the piece of cutting piece cutting, has avoided the condition that the piece collapses, makes the piece can fall into in the piece accumulator, the splash cover is connected with the rotating the connecting block.

Furthermore, the compression type deburring mechanism comprises a compression bin, the compression bin is arranged to temporarily store the Schmann grit flow extracted from the deburring bin, so that the Schmann grit flow can enter the shunting bin, a pneumatic compression plate is connected in the compression bin, the pneumatic compression plate can extrude the Schmann grit flow, the Schmann grit flow can enter the shunting bin through pressure to deburr the aluminum alloy profile, a compression balance shaft is connected in the compression bin, the arrangement of the compression balance shaft can keep the balance of the pneumatic compression plate, the leakage of the Schmann grit flow is avoided, the waste of the Schmann grit flow is greatly reduced, the possibility that the Schmann grit flow enters the first air pump is avoided, the compression balance shaft penetrates through the pneumatic compression plate, and the arrangement of the compression balance shaft penetrating through the pneumatic compression plate effectively improves the stability of the pneumatic compression plate, the balance of the pneumatic compression plate is improved, a sealing element is connected between the compression balance shaft and the pneumatic compression plate, leakage of the Schmann's abrasive flow can be reduced due to the arrangement of the sealing element, the use efficiency of the Schmann's abrasive flow is improved, the first air pump is connected in the all-in-one machine body and can realize vertical sliding of the pneumatic compression plate through continuous air exhaust and deflation, the pneumatic compression plate can extrude the Schmann's abrasive flow, the Schmann's abrasive flow can better enter the one-way valve, an air pressure pipeline is connected between the first air pump and the compression bin, air pumped in the first air pump can enter the compression bin due to the arrangement of the air pressure pipeline, the pneumatic compression plate can better slide and can be better and accurately controlled, the air pressure pipeline penetrates through the compression bin, and a deburring bin is connected in the all-in-one machine body, the deburring bin is provided with the Smann-Ke abrasive flow, a user can regularly replace the Smann-Ke abrasive flow, the quality of burr removal can not be reduced, the Smann-Ke abrasive flow is arranged in the deburring bin and can be removed through flowing in an aluminum alloy profile, so that the inside of the aluminum alloy profile is smoother, the deburring bin is connected with a conveying pipeline, the conveying pipeline can be communicated with the compression bin and the deburring bin, the Smann-Ke abrasive flow can supplement the compression bin, the conveying pipeline penetrates through the deburring bin, a one-way valve is connected between the conveying pipeline and the compression bin, the set of the one-way valve can enable the Smann-Ke abrasive flow to supplement the compression bin when the pneumatic compression plate slides downwards, and the Smann-Ke abrasive flow can not flow back into the conveying pipeline when the pneumatic compression plate slides upwards.

Furthermore, a diversion bin is connected to the all-in-one machine body, the diversion bin is arranged to temporarily store the Schmann's abrasive grain flow and prevent the Schmann's abrasive grain flow from stagnating air in the aluminum alloy section bar, a compression conveying pipeline is connected between the diversion bin and the compression bin, the arrangement of the compression conveying pipeline enables the Schmann's abrasive grain flow to enter the diversion bin, the compression conveying pipeline penetrates through the diversion bin and the compression bin, a second air pump is connected to the all-in-one machine body and can inflate the diversion bin, so that the Schmann's abrasive grain flow stagnating in the aluminum alloy section bar is squeezed out, an air pump cleaning pipe is connected between the second air pump and the diversion bin, the air pump cleaning pipe can communicate with the second air pump and the diversion bin, the air pump cleaning pipe penetrates through the diversion bin, a material distributing plate is arranged in the diversion bin, and the material distributing plate can slide, the entry of a Schmann abrasive flow is avoided when air enters, the entry of air is avoided when the Schmann abrasive flow enters, the deburring of the aluminum alloy section is more stable, the condition that the deburring effect is reduced due to the fact that the Schmann abrasive flow and the air are extruded to form a cavity is avoided, the condition that the Schmann abrasive flow and the air are extruded to each other and the Schmann abrasive flow is retained in the aluminum alloy section is avoided, the two ends of the material distribution plate are connected with sealing air bags, the sealing air bags can be arranged for sealing, the mutual extrusion of the Schmann abrasive flow and the air is further avoided, sliding anti-leakage grooves matched with the sealing air bags are formed in the material distribution bin in a chiseled mode, the two sides of the material distribution plate are connected with third electric telescopic rods, and the arrangement of the third electric telescopic rods can control the positions of the material distribution plate through the control of a control box, make the entering of air and the stream of the abrasive grain of the schmann more convenient control, third electric telescopic handle is connected with the reposition of redundant personnel storehouse, the third electric telescopic handle overcoat is equipped with the protecting tube, and the damage of the stream of the schmann's abrasive grain to third electric telescopic handle has been avoided in the setting of protecting tube, has promoted third electric telescopic handle's life, it has with protecting tube assorted slip seal groove to open in the reposition of redundant personnel storehouse, and the setting of slip seal groove can make the displacement distance of branch flitch not receive the restriction of protecting tube, one side that the reposition of redundant personnel storehouse is close to centre gripping conveying mechanism is connected with multiple induction pipe, and setting up of multiple induction pipe can let in the aluminium alloy ex-trusions with the stream of the schmann's abrasive grain or air, multiple induction pipe runs through the reposition of redundant personnel storehouse and sets up.

Further, lift separation mechanism includes the baffler, and the setting of baffler can bear the weight of the abrasive flow of schmann, has avoided the extravagant condition of the abrasive flow of schmann to appear, it has the slip lift groove with baffler assorted to open on the all-in-one body, and the baffler to the aluminium alloy ex-trusions has been avoided in the setting of slip lift groove, makes aluminium alloy ex-trusions's the hindrance that gos forward more stable, and the hindrance is not hindered, be connected with a plurality of fourth electric telescopic handle between baffler and the all-in-one body, fourth electric telescopic handle can receive the control of control box and go forward and down, rises when aluminium alloy ex-trusions pass through the baffler, it has ascending row of groove to open the chisel on the all-in-one body, and the setting of ascending row of groove can be with the used in the abrasive flow of schmann abrasive flow of leading-in feed bin once more, the effectual waste that reduces the abrasive flow of schmann abrasive flow, has reduced the use cost that the abrasive flow of schmann abrasive flow by a wide margin, baffler and burring all are linked together with ascending row of discharge bin.

Further, be connected with shrink sealing mechanism on the multiple induction pipe, shrink sealing mechanism is including the extrusion bearing plate, and the setting of extrusion bearing plate can provide the position to the installation of slip stripper plate and extrusion gasbag, extrusion bearing plate in-connection has the slip stripper plate, and the slip stripper plate can extrude the extrusion gasbag through the extrusion of aluminum alloy ex-trusions, be connected with the extrusion gasbag between slip stripper plate and the extrusion bearing plate, the setting of extrusion gasbag can extrude each other with the slip stripper plate, makes the leakproofness between slip stripper plate and the aluminum alloy ex-trusions strengthen, the extrusion gasbag in-connection has a plurality of evenly distributed's the flexible storehouse of bearing, and the setting of bearing the flexible storehouse can restrict the slip of built-in flexible storehouse, has promoted the stability of built-in flexible storehouse, it has built-in flexible storehouse to bear the flexible storehouse in-connection, it extrudees to be connected with sealing spring between flexible storehouse and the built-in flexible storehouse, and sealing spring can cooperate the extrusion gasbag to extrude the slip stripper plate.

Further, the one end that the reposition of redundant personnel storehouse was kept away from to the extrusion bearing plate is connected with the deformation and props up the board, and the setting of deformation propping up the board can provide the mounted position for the sealed gasbag of shrink, has avoided breaking away from of the sealed gasbag of shrink simultaneously, promotes the stability of the sealed gasbag of shrink, deformation propping up inboard in-connection has the sealed gasbag of shrink, and the setting of the sealed gasbag of shrink can shrink through the extrusion of extrusion gasbag closing plate and sixth electric telescopic handle, can seal the aluminum alloy ex-trusions of multiple model, be equipped with a pair of extrusion gasbag closing plate in the sealed gasbag of shrink, the setting of extrusion gasbag closing plate can extrude the lateral wall of aluminum alloy ex-trusions through the sealed gasbag of shrink, has avoided revealing of semblance flow, be connected with a pair of sixth electric telescopic handle between extrusion gasbag closing plate and the deformation propping up the board, and the setting of fifth electric telescopic handle can go up and down through the control of control box, and adjust the extrusion force degree to the aluminum alloy ex-situ deformation, promotes the leakproofness of shrink sealing mechanism, sixth electric telescopic handle can extrude the both sides of aluminum alloy through the control box, promotes the shrink sealed gasbag and promotes the connectivity of aluminum alloy, has avoided revealing of semblance flow.

Furthermore, the shrinkage sealing air bag is internally connected with a shrinkage wide rope, the shrinkage wide rope can be set to shrink through the rotation of the third motor, so that the four corners of the aluminum alloy section bar are connected more strongly by the shrinkage sealing air bag, leakage of the abrasive flow of the Schmann's grains is avoided, the sealing performance is improved, a pulling tightening groove matched with the shrinkage wide rope is formed in the shrinkage sealing air bag, the setting of the pulling tightening groove is prevented from providing a position for the shrinkage of the shrinkage wide rope, the shrinkage wide rope is prevented from damaging the shrinkage sealing air bag, the shrinkage wide rope penetrates through the shrinkage sealing air bag and is arranged on a deformation opening plate, the deformation opening plate is connected with the third motor, the third motor can wind the shrinkage wide rope through the control of the control box, so that the shrinkage wide rope is shrunk, the third motor is connected with the shrinkage wide rope, the third motor is connected with a balance support seat, the stability of the third motor can be improved by the arrangement of the balance support seat, the damage of the third motor is avoided, and the balance support seat is connected with the deformation opening plate.

Further, be connected with distance measuring sensor on the all-in-one body, distance measuring sensor can respond to the distance of advance of aluminum alloy ex-trusions, makes the cutting piece more accurate to aluminum alloy ex-trusions's cutting, it has the smooth distance measuring groove with distance measuring sensor assorted to open on the all-in-one body, and the setting in smooth distance measuring groove can avoid aluminum alloy ex-trusions and distance measuring sensor's collision, has promoted distance measuring sensor's life, be connected with the centre gripping inductor on the splash guard, the setting of centre gripping inductor can respond to aluminum alloy ex-trusions, and the response through the centre gripping inductor can make the control box more accurate to first electric telescopic handle's control, makes the control box can know the time of extruding aluminum alloy ex-trusions, has avoided the unstable condition of centre gripping rubber wheel to aluminum alloy ex-trusions's extrusion, be connected with the control box on the all with the control box of first electric telescopic handle, first motor, second electric telescopic handle, first air pump, second air pump, third electric telescopic handle, fourth electric telescopic handle, fifth electric telescopic handle, sixth electric telescopic handle and third electric telescopic handle, fourth electric telescopic handle, fifth electric telescopic handle, sixth electric telescopic handle and third electric telescopic handle and the electric telescopic handle electric motor can control box electric telescopic handle, first electric telescopic handle, second electric motor, electric telescopic handle and the electric motor of opening.

Compared with the prior art, the invention has the following advantages:

according to the aluminum alloy section cutting device, due to the arrangement of the corresponding mechanism on the aluminum alloy section cutting device, the manual participation is reduced, the carrying of workers to the aluminum alloy sections is reduced, the aluminum alloy processing efficiency is greatly improved, meanwhile, the situation that burrs cannot be removed is effectively avoided, the burr removing efficiency is effectively improved, the damage of the burrs to the workers is reduced, and the safety of the workers is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a first sectional front view of an integrated machine for cutting and deburring aluminum alloy sections according to an embodiment of the present invention;

FIG. 2 is a second sectional front view of an integrated cutting and deburring machine for aluminum alloy sections according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a structure A shown in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a top sectional view of an integrated cutting and deburring machine for aluminum alloy sections according to an embodiment of the present invention;

FIG. 5 is a top view of an integrated cutting and deburring machine for aluminum alloy sections in accordance with an embodiment of the present invention;

FIG. 6 is a perspective view of an integrated machine for cutting and deburring aluminum alloy sections according to an embodiment of the present invention;

FIG. 7 is a side sectional view of an integrated cutting and deburring machine for aluminum alloy sections in accordance with an embodiment of the present invention;

FIG. 8 is a first partial cross-sectional view of an integrated cutting and deburring machine for aluminum alloy sections in accordance with an embodiment of the present invention;

FIG. 9 is a schematic diagram of the structure at B in FIG. 8 according to an embodiment of the present invention;

FIG. 10 is a second partial cross-sectional view of an all-in-one machine for cutting and deburring aluminum alloy sections in accordance with an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a point C in fig. 10 according to an embodiment of the present invention.

In the figure: 1. the all-in-one machine comprises an all-in-one machine body, 101, a control box, 2, a clamping and conveying mechanism, 201, a clamping and fixing plate, 202, a first electric telescopic rod, 203, a clamping and mounting plate, 204, a first motor, 205, a clamping rubber wheel, 206, a distance measuring sensor, 3, an anti-splash cutting mechanism, 301, a second motor, 302, a second electric telescopic rod, 303, a cutting blade, 304, a water storage bin, 305, a shaft seat, 306, a rotating connecting block, 307, an anti-splash cover, 308, a clamping sensor, 4, a compression type deburring mechanism, 401, a compression bin, 402, a pneumatic compression plate, 403, a compression balance shaft, 404, a sealing element, 405, a first air pump, 406, an air pressure pipeline, 407, a deburring bin, 408, a Schmann k flow, 409, a material conveying pipeline, 410, a one-way valve, 411, a shunt bin, 412, a compression material conveying pipeline, 413, a second air pump, 414, an air pump cleaning pipe 415, a material distribution plate, 416, a sealing air bag, 417, a third electric telescopic rod, 418, a protective pipe, 419, a multiple inlet pipe, 5, a lifting blocking mechanism, 501, a blocking plate, 502, a fourth electric telescopic rod, 6, a contraction sealing mechanism, 601, a compression bearing plate, 602, a sliding extrusion plate, 603, an extrusion air bag, 604, a bearing telescopic bin, 605, an internal telescopic bin, 606, a sealing spring, 607, a deformation opening plate, 608, a contraction sealing air bag, 609, a compression air bag sealing plate, 610, a fifth electric telescopic rod, 611, a sixth electric telescopic rod, 612, a contraction wide rope, 613, a third motor, 614, a balance supporting seat, 7, a cleaning mechanism, 701, a water pump, 702, a water communicating pipe, 703, an electronic valve, 704, a water pumping pipeline, 705, 706, a cleaning sealing plate, 707, a seventh electric telescopic rod, 708 and a dust filtering net.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses a cutting and deburring all-in-one machine for aluminum alloy sections, which is shown in figures 5 to 6 and comprises an all-in-one machine body 1, wherein a clamping and conveying mechanism 2 is connected to the all-in-one machine body 1, the clamping and conveying mechanism 2 comprises a plurality of pairs of clamping and fixing plates 201, the clamping and fixing plates 201 are arranged to support a first electric telescopic rod 202 so as to avoid the displacement of the first electric telescopic rod 202, the first electric telescopic rods 202 are connected to one sides, close to each other, of the clamping and fixing plates 201, the first electric telescopic rods 202 can be used for extruding the aluminum alloy sections through the induction of a clamping inductor 308, the control of a control box 101 so that the stability of the aluminum alloy sections is greatly improved, the displacement of a cutting blade 303 during the cutting of the aluminum alloy sections is avoided, one end, far away from the clamping and fixing plates 201, of the first electric telescopic rods 202 is connected with a clamping and mounting plate 203, the centre gripping mounting panel 203 set up to provide the position for the installation of first motor 204 and centre gripping rubber wheel 205, be connected with first motor 204 on the centre gripping mounting panel 203, the setting of first motor 204 can make aluminium alloy ex-trusions advance after the extrusion, artificial participation has been avoided, first motor 204 runs through the setting of centre gripping mounting panel 203, be connected with centre gripping rubber wheel 205 on the first motor 204, the setting of centre gripping rubber wheel 205 can rotate through the drive of first motor 204, make the rotation of centre gripping rubber wheel 205 more controllable, make the speed of advance of aluminium alloy ex-trusions can match with the cutting of cutting piece 303 and the lift of separation plate 501 and the sealed of shrink sealing mechanism 6, all-in-one machine body 1 in-connected with splashproof burring cutting mechanism 3, compression burring mechanism 4, and lift separation mechanism 5.

Wherein, the cleaning mechanism 7 is connected on the all-in-one machine body 1, the cleaning mechanism 7 comprises a water pump 701, the water pump 701 is arranged to pump clean water in the water storage bin 304, the flow of the residual Schmann's abrasive grains 408 in the aluminum alloy section is cleaned in the lead-in diversion bin 411, the residual of the flow of the Schmann's abrasive grains 408 is avoided, the cleanness degree of the aluminum alloy section is greatly improved, a water communicating pipe 702 is connected between the water pump 701 and the air pump clean water pipe 414, the water communicating pipe 702 is arranged to lead the clean water into the air pump clean water pipe 414 and enter the diversion bin 411 through the air pump clean water pipe 414, the water communicating pipe 702 is communicated with the air pump clean water pipe 414, the air pump clean water pipe 414 is connected with an electronic valve 703, the electronic valve 703 is arranged to avoid the situation that the clean water enters the second air pump 413, the service life of the second air pump 413 is greatly prolonged, the water pump 701 is connected with a water pumping pipe 704, the arrangement of the water pumping pipeline 704 can enable the water pump 701 to pump clean water from the water storage bin 304, the water pumping pipeline 704 is communicated with the water storage bin 304, the filter screen 705 is connected in the water storage bin 304, the arrangement of the filter screen 705 avoids the situation that cutting debris enters the water pump 701, the service life of the water pump 701 is prolonged, the cleaning sealing plate 706 is connected in the all-in-one machine body 1, the cleaning sealing plate 706 can seal the blocking plate 501, the communication between the blocking plate 501 and the ascending discharge groove is closed, clean water cannot be guided into the deburring storage bin 407, the Schmann abrasive particle flow 408 cannot be damaged, a plurality of seventh electric telescopic rods 707 are connected between the cleaning sealing plate 706 and the all-in-one machine body 1, the seventh electric telescopic rods 707 can be controlled by the control box 101 to stretch and retract to drive the cleaning sealing plate 706 to slide, a water flowing groove is formed in the all-in-one machine body 1, a dust filtering net 708 is arranged in the water flowing groove, and the dust filtering net 708 can block external dust to a certain extent, the difficulty of cleaning the water storage bin 304 by a user is reduced, the dust filtering net 708 is connected with the all-in-one machine body 1, and the water storage bin 304 and the blocking plate 501 are both communicated with the launder.

Referring to fig. 1-4, the splash-proof cutting mechanism 3 includes a second motor 301, the second motor 301 is configured to provide power for the rotation of the cutting blade 303, so that the cutting blade 303 can cut the aluminum alloy profile more smoothly, and the cutting efficiency of the aluminum alloy profile is improved, a synchronous sliding groove matched with the second motor 301 is formed in the all-in-one machine body 1, the second motor 301 can slide due to the arrangement of the synchronous sliding groove, so that the cutting blade 303 can be driven by the second motor 301 to slide, so that the cutting blade 303 can provide an advancing position for the aluminum alloy profile when the aluminum alloy profile is placed on the all-in-one machine body 1, the manual operation of a worker is avoided, the danger of the cutting blade 303 to the worker is reduced, the second motor 301 is connected with a pair of second electric telescopic rods 302, the arrangement of the second electric telescopic rods 302 can push or pull the second motor 301 under the control of the control box 101, so that the cutting blade 303 can slide, so that the cutting blade 303 can cut the aluminum alloy profile more stably, the second motor 301 penetrates through the pair of second electric telescopic rods 301, and the sliding groove 301 can be prevented from being set when the sliding groove of the sliding telescopic rod 303 is set up, so that the sliding groove of the cutting blade 303 is prevented from being tilted, the sliding groove, and the aluminum alloy sliding groove is set up by the balanced electric telescopic rod 301, and the balanced cutting blade 301, when the sliding groove is set up by the sliding groove, and the sliding groove, the sliding groove is set up by the balanced electric telescopic rod 301, the last chisel of all-in-one body 1 has the piece accumulator with cutting piece 303 assorted, and the piece that the cutting produced can fall into the piece accumulator, carries out unified collection or cleans, has avoided the too much cutting piece of adhesion on all-in-one body 1.

Referring to fig. 1-4, a water storage bin 304 is connected in the all-in-one machine body 1, the water storage bin 304 can be used for collecting chips, a user can clean the chips regularly, the situation that the chips are difficult to clean is avoided, the water storage bin 304 is communicated with a chip recovery groove, a pair of shaft seats 305 is connected to the all-in-one machine body 1, the shaft seats 305 can support the rotation of the rotating connecting block 306, the situation that the rotating connecting block 306 falls off is avoided, the rotating connecting block 306 rotates more stably, the stability of the splash guard 307 is effectively improved, the rotating connecting block 306 is connected between the pair of shaft seats 305, the splash guard 307 can be connected to the rotating connecting block 306, the splash guard 307 extends, the axis of the splash guard 307 is far away, the collision between the splash guard 307 and the all-in-one machine body 1 is avoided, the service life of the splash guard 307 is prolonged, the chips cut by the cutting piece 303 can be blocked by the splash guard 307, the situation that the chips fall off is avoided, the chips can fall into the chip recovery groove, and the rotating connecting block 306.

Referring to fig. 1-4, a compression-type deburring mechanism 4 includes a compression bin 401, the compression bin 401 is configured to temporarily store a stream 408 of scanker abrasive particles extracted from a deburring bin 407, the stream 408 of scanker abrasive particles can enter a diversion bin 411, a pneumatic compression plate 402 is connected to the compression bin 401, the pneumatic compression plate 402 is configured to compress the stream 408 of scanker abrasive particles, the stream 408 of scanker abrasive particles can enter the diversion bin 411 by pressure, deburring of aluminum alloy sections is achieved, a compression balance shaft 403 is connected to the compression bin 401, the arrangement of the compression balance shaft 403 can maintain the balance of the pneumatic compression plate 402, leakage of the stream 408 of scanker abrasive particles is avoided, waste of the stream 408 of scanke abrasive particles is greatly reduced, meanwhile, the possibility that the stream 408 of scanke abrasive particles enters a first air pump 405 is avoided, the compression balance shaft 403 is arranged to penetrate the pneumatic compression plate 402, the arrangement of the compression balance shaft 403 to effectively improve the stability of the pneumatic compression plate 402, the balance of the pneumatic compression plate 402 is improved, the balance of the pneumatic compression plate 402, the pneumatic compression balance shaft 403 and the air pump 404 is connected to a sliding air pressure sealing element 405, the pneumatic compression chamber 404 is connected to a sliding air pump 410, the pneumatic compression chamber 405, the pneumatic compression chamber can be connected to a pneumatic compression air pump 405, the pneumatic compression chamber 405, the pneumatic compression plate can be connected to reduce the efficiency of the pneumatic compression chamber 405, the pneumatic compression plate 408, the pneumatic compression chamber 405, the pneumatic compression plate 406, better accurate control, pneumatic line 406 runs through compression storehouse 401 and sets up, all-in-one body 1 in-connection has burring feed bin 407, the setting of burring feed bin 407 can be stored the schmann's grit stream 408, the user can regularly change the schmann's grit stream 408, the quality that the burr was got rid of to the convenient burr does not descend, be equipped with the schmann's grit stream 408 in burring feed bin 407, the inside burr of aluminum alloy ex-trusions can be got rid of through flowing in aluminum alloy ex-trusions to schmann's grit stream 408, make aluminum alloy ex-trusions inside smoother, be connected with conveying pipeline 409 on burring feed bin 407, the setting of conveying pipeline 409 can communicate compression storehouse 401 and burring feed bin 407, make the schmann's grit stream 408 supplement compression storehouse 401 when making pneumatic compression board 402 glide down, conveying pipeline 409 runs through the setting of burring feed bin 407, be connected with check valve 410 between conveying pipeline 409 and the compression storehouse 401, make the schmann's grit stream 408 supplement to compression storehouse 401 when pneumatic compression board 402, slide upward.

Referring to fig. 1 to 11, a diversion bin 411 is connected to the all-in-one machine body 1, the diversion bin 411 is arranged to temporarily store the smann abrasive flow 408 and prevent the smann abrasive flow 408 from retaining air in the aluminum alloy section, a compression delivery pipeline 412 is connected between the diversion bin 411 and the compression bin 401, the compression delivery pipeline 412 is arranged to allow the smann abrasive flow 408 to enter the diversion bin 411, the compression delivery pipeline 412 is arranged to penetrate through the diversion bin 411 and the compression bin 401, a second air pump 413 is connected to the all-in-one machine body 1, the diversion bin 411 is inflated by the second air pump 413, the retained smann abrasive flow 408 in the aluminum alloy section is extruded out, a clean air pipe 414 is connected between the second air pump 413 and the diversion bin 411, the air pump clean air pipe 414 is arranged to communicate the second air pump 413 and the diversion bin 411, the air pump clean air pipe 414 is arranged to penetrate through the diversion bin 411, a material distributing plate 415 is arranged in the material distributing bin 411, the material distributing plate 415 can slide, when air enters, the entrance of the Schmann abrasive particle flow 408 is avoided, when the entrance of the Schmann abrasive particle flow 408 is avoided, the entrance of air is avoided, the deburring of the aluminum alloy section is more stable, the situation that the deburring effect is reduced due to the fact that the Schmann abrasive particle flow 408 and the air are extruded to form a cavity mutually is avoided, meanwhile, the situation that the Schmann abrasive particle flow 408 and the air are extruded to mutually press the Schmann abrasive particle flow 408 to be retained in the aluminum alloy section is avoided, sealing air bags 416 are connected to two ends of the material distributing plate 415, the arrangement of the sealing air bags 416 can carry out sealing, the mutual extrusion of the Schmann abrasive particle flow 408 and the air is further avoided, a sliding anti-leakage groove matched with the sealing air bags 416 is drilled in the material distributing bin 411, and third electric telescopic rods 417 are connected to two sides of the material distributing plate 415, the third electric telescopic rod 417 is arranged to control the position of the distributing plate 415 through the control of the control box 101, so that the air and the semaker abrasive particle stream 408 can enter the distributing plate more conveniently, the third electric telescopic rod 417 is connected with the distributing bin 411, the protecting pipe 418 is sleeved outside the third electric telescopic rod 417, the protecting pipe 418 is arranged to prevent the semaker abrasive particle stream 408 from damaging the third electric telescopic rod 417, the service life of the third electric telescopic rod 417 is prolonged, a sliding sealing groove matched with the protecting pipe 418 is formed in the distributing bin 411, the moving distance of the distributing plate 415 is not limited by the protecting pipe 418 due to the arrangement of the sliding sealing groove, a multiple introducing pipe 419 is connected to one side of the distributing bin 411 close to the clamping and conveying mechanism 2, the multiple introducing pipe 419 is arranged to introduce the semaker abrasive particle stream 408 or the air into the aluminum alloy section, and the multiple introducing pipe 419 penetrates through the distributing bin 411.

Referring to fig. 1-2, the lifting blocking mechanism 5 includes a blocking plate 501, the blocking plate 501 is disposed to bear the smann abrasive flow 408, thereby avoiding the waste of the smann abrasive flow 408, a sliding lifting groove matched with the blocking plate 501 is formed in the integrated machine body 1, the blocking plate 501 is prevented from blocking the aluminum alloy profile by the sliding lifting groove, so that the aluminum alloy profile is more stable and unhindered to advance, a plurality of fourth electric telescopic rods 502 are connected between the blocking plate 501 and the integrated machine body 1, the fourth electric telescopic rods 502 can be controlled by the control box 101 to lift, when the aluminum alloy profile passes through the blocking plate 501, the integrated machine body 1 is raised, an ascending discharge groove is formed in the integrated machine body 1, the used smann abrasive flow 408 can be guided into the deburring bin 407 again by the arrangement of the ascending discharge groove, the waste of the smann abrasive flow 408 is effectively reduced, the use cost of the smann abrasive flow discharge bin 408 is greatly reduced, and both the blocking plate 501 and the deburring bin 407 are communicated with the ascending discharge groove.

Referring to fig. 2 to 9, a contraction sealing mechanism 6 is connected to the multiple inlet pipe 419, the contraction sealing mechanism 6 includes an extrusion bearing plate 601, the extrusion bearing plate 601 is disposed to provide a location for installing a sliding extrusion plate 602 and an extrusion bladder 603, the sliding extrusion plate 602 is connected in the extrusion bearing plate 601, the sliding extrusion plate 602 can extrude the extrusion bladder 603 through extrusion of an aluminum alloy profile, the extrusion bladder 603 is connected between the sliding extrusion plate 602 and the extrusion bearing plate 601, the extrusion bladder 603 is disposed to be capable of extruding with the sliding extrusion plate 602, so that the sealing performance between the sliding extrusion plate 602 and the aluminum alloy profile is enhanced, a plurality of uniformly distributed bearing telescopic bins 604 are connected in the extrusion bladder 603, the sliding of the built-in telescopic bin 605 can be limited by the arrangement of the bearing telescopic bins 604, the stability of the built-in telescopic bin 605 is improved, the built-in telescopic bin 604 is connected with the built-in telescopic bin 605, a sealing spring 606 is connected between the bearing telescopic bin 604 and the built-in telescopic bin 605, and the sealing spring 606 can cooperate with the extrusion bladder to extrude the sliding extrusion bladder 603.

Referring to fig. 2 to 9, one end of the extrusion bearing plate 601, which is far away from the diversion bin 411, is connected with a deformation expanding plate 607, the deformation expanding plate 607 can provide an installation position for a contraction sealing air bag 608, and simultaneously, separation of the contraction sealing air bag 608 is avoided, and stability of the contraction sealing air bag 608 is improved, the contraction sealing air bag 608 is connected in the deformation expanding plate 607, the contraction sealing air bag 608 can be expanded by extrusion of an extrusion air bag sealing plate 609 and a sixth electric telescopic rod 611, and aluminum alloy sections of various types can be sealed, a pair of extrusion air bag sealing plates 609 are arranged in the contraction sealing air bag 608, the arrangement of the extrusion air bag sealing plates 609 can extrude the side walls of the aluminum alloy sections through the contraction sealing air bag 608, and leakage of the smann flow 408 is avoided, a plurality of fifth electric telescopic rods 610 are connected between the extrusion air bag sealing plates 609 and the deformation expanding plate 607, the arrangement of the fifth electric telescopic rods 610 can be lifted and lowered by control of the control box 101, the extrusion force degree of the aluminum alloy sections can be adjusted, and the sealing mechanism 6 is improved, abrasive particles are connected between the contraction sealing air bag 608 and the deformation expanding plate 607, and the six electric telescopic rods 611 are connected between the aluminum alloy sections, and leakage of the expansion grooves is avoided.

Referring to fig. 2 to 9, a contracting wide rope 612 is connected to the contracting airproof bag 608, the contracting wide rope 612 can be arranged to contract by rotation of a third motor 613, so that the contracting airproof bag 608 has stronger connectivity to four corners of the aluminum alloy profile, leakage of the stream of smann abrasive particles 408 is avoided, and the sealing performance is improved, a pulling tightening groove matched with the contracting wide rope 612 is drilled in the contracting airproof bag 608, the pulling tightening groove is arranged to avoid providing a position for contraction of the contracting wide rope 612, damage to the contracting airproof bag 608 caused by the contracting wide rope 612 is avoided, the contracting wide rope 612 penetrates through the contracting airproof bag 608 and a deformation bracing plate 607, the deformation bracing plate 607 is connected with the third motor 613, the third motor 613 can wind the contracting wide rope 612 by control of a control box 101, so that the contracting wide rope 612 is contracted, the third motor 613 is connected with the contracting wide rope 612, the third motor 613 is connected with a balance bracing seat 614, and the balance bracing seat 614 is arranged on the third motor 613, so that the stability of the third motor 613 is improved, and the balance bracing seat 614 is connected with the deformation bracing seat 607.

Referring to fig. 1-11, a distance measuring sensor 206 is connected to the body 1, the distance measuring sensor 206 can sense the advancing distance of the aluminum alloy profile, so that the cutting blade 303 can cut the aluminum alloy profile more accurately, a smooth distance measuring groove matched with the distance measuring sensor 206 is drilled on the body 1, the collision between the aluminum alloy profile and the distance measuring sensor 206 can be avoided due to the smooth distance measuring groove, the service life of the distance measuring sensor 206 is prolonged, a clamping sensor 308 is connected to the splash guard 307, the aluminum alloy profile can be sensed due to the clamping sensor 308, the control of the first electric telescopic rod 202 by the control box 101 can be more accurately achieved due to the sensing of the clamping sensor 308, the time for extruding the aluminum alloy profile can be known by the control box 101, the unstable extrusion of the aluminum alloy profile by the clamping rubber wheel 205 can be avoided, the control box 101 is connected to the body 1, the first electric telescopic rod 202, the first motor 204, the second motor 301, the second electric telescopic rod 302, the first air pump 405, the second air pump 413, the third electric telescopic rod 417, the fourth electric telescopic rod 502, the fifth electric telescopic rod 610, the sixth electric telescopic rod 611, the third motor 613, the water pump 701, the electronic valve 703 and the seventh electric telescopic rod 707 are all electrically connected with the control box 101, the control box 101 can control the opening and closing of the first electric telescopic rod 202, the first motor 204, the second motor 301, the second electric telescopic rod 302, the first air pump 405, the second air pump 413, the third electric telescopic rod 417, the fourth electric telescopic rod 502, the fifth electric telescopic rod 610, the sixth electric telescopic rod 611, the third motor 613, the water pump 701, the electronic valve 703 and the seventh electric telescopic rod 707, a control unit is arranged in the control box 101, the user can control the operation of the first electric telescopic rod 202, the first electric motor 204, the second electric motor 301, the second electric telescopic rod 302, the first air pump 405, the second air pump 413, the third electric telescopic rod 417, the fourth electric telescopic rod 502, the fifth electric telescopic rod 610, the sixth electric telescopic rod 611, the third electric motor 613, the water pump 701, the electronic valve 703 and the seventh electric telescopic rod 707 through the logic language, and the first electric telescopic rod 202, the first electric motor 204, the second electric motor 301, the second electric telescopic rod 302, the first air pump 405, the second air pump 413, the third electric telescopic rod 417, the fourth electric telescopic rod 502, the fifth electric telescopic rod 610, the sixth electric telescopic rod 611, the third electric motor 613, the water pump 701, the electronic valve 703 and the seventh electric telescopic rod 707 can be opened and closed through the control of the control box 101.

When the aluminum alloy deburring machine is used, a user places an aluminum alloy section on the all-in-one machine body 1, the clamping sensor 308 enables the control box 101 to control the first electric telescopic rod 202 to clamp the aluminum alloy section through sensing, the aluminum alloy section advances through the arrangement of the first motor 204, the control box 101 controls the second motor 301 to be started through sensing of the distance measuring sensor 206, then the cutting blade 303 cuts the aluminum alloy section through stretching of the second electric telescopic rod 302, the cut aluminum alloy section continues to advance through rotation of the clamping rubber wheel 205 and is extruded with the sliding extrusion plate 602, the shrinkage sealing mechanism 6 seals the aluminum alloy section through control of the control box 101, then the blocking plate 501 is lifted, then the control box 101 starts the first air pump 405 to enable a Smackk abrasive flow 408 to enter the aluminum alloy section, deburring processing is carried out on the aluminum alloy section, then air is led into the aluminum alloy section through opening of the second air pump 413 to prevent the Smackk abrasive flow 408 from being retained, the Smackk abrasive flow 408 is carried by the Smackk flow 408 through the air pump 501, abrasive flow is led into the deburring bin 407, waste is avoided, finally, cleaning water in the aluminum alloy section is cleaned through the water tank 701 through pumping of the water tank 701 by the water pump 413, and the water storage bin 407, the user can flush the blocking plate 304, and clean water tank 706 again.

According to the technical scheme, the invention has the following beneficial effects:

according to the aluminum alloy section cutting device, due to the arrangement of the corresponding mechanism on the aluminum alloy section cutting device, the manual participation is reduced, the carrying of workers to the aluminum alloy sections is reduced, the aluminum alloy processing efficiency is greatly improved, meanwhile, the situation that burrs cannot be removed is effectively avoided, the burr removing efficiency is effectively improved, the damage of the burrs to the workers is reduced, and the safety of the workers is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the specification has been described in terms of embodiments, not every embodiment includes every single embodiment, and such description is for clarity purposes only, and it will be appreciated by those skilled in the art that the specification as a whole can be combined as appropriate to form other embodiments as will be apparent to those skilled in the art.

Claims (5)

1. The cutting and deburring all-in-one machine for the aluminum alloy profile comprises an all-in-one machine body (1) and is characterized in that a clamping and conveying mechanism (2) is connected onto the all-in-one machine body (1), the clamping and conveying mechanism (2) comprises a plurality of pairs of clamping fixing plates (201), one side, close to each other, of each clamping fixing plate (201) is connected with a first electric telescopic rod (202), one end, far away from each clamping fixing plate (201), of each first electric telescopic rod (202) is connected with a clamping mounting plate (203), each clamping mounting plate (203) is connected with a first motor (204), each first motor (204) penetrates through the corresponding clamping mounting plate (203) and is arranged, each first motor (204) is connected with a clamping rubber wheel (205), a splash-proof cutting mechanism (3), a compression type deburring mechanism (4) and a lifting separation mechanism (5) are connected into the all-in-one machine body (1), each compression type deburring mechanism (4) comprises a compression bin (401), a pneumatic compression bin (402) is connected into the compression bin (401), a compression balance shaft (403), a pneumatic compression balance shaft (403) is arranged, a sealing element (404) is connected with a pneumatic compression pump (405), an air pressure pipeline (406) is connected between the first air pump (405) and the compression bin (401), the air pressure pipeline (406) penetrates through the compression bin (401) and is arranged, a deburring bin (407) is connected in the integrated machine body (1), a Schmann k abrasive particle flow (408) is arranged in the deburring bin (407), a conveying pipeline (409) is connected on the deburring bin (407), the conveying pipeline (409) penetrates through the deburring bin (407) and is arranged, a one-way valve (410) is connected between the conveying pipeline (409) and the compression bin (401), a shunting bin (411) is connected on the integrated machine body (1), a compression conveying pipeline (412) is connected between the shunting bin (411) and the compression bin (401), the compression conveying pipeline (412) penetrates through the shunting bin (411) and the compression bin (401) and is arranged, a second air pump (413) is connected on the integrated machine body (1), a cleaning pipe (414) is connected between the second air pump (413) and the shunting bin (411), an air pump (416) is arranged in the shunting bin (411) and is connected with a sliding material distribution plate sealing groove (416) matched with a material distribution air bag (415), and two material distribution grooves (416) are arranged, the two sides of the material distributing plate (415) are connected with third electric telescopic rods (417), the third electric telescopic rods (417) are connected with a material distributing bin (411), a protective pipe (418) is sleeved outside the third electric telescopic rods (417), a sliding sealing groove matched with the protective pipe (418) is formed in the material distributing bin (411), one side, close to the clamping conveying mechanism (2), of the material distributing bin (411 is connected with a multi-lead-in pipe (419), the multi-lead-in pipe (419) penetrates through the material distributing bin (411), a contraction sealing mechanism (6) is connected onto the multi-lead-in pipe (419), the contraction sealing mechanism (6) comprises an extrusion bearing plate (601), a sliding extrusion plate (602) is connected into the extrusion bearing plate (601), an extrusion air bag (603) is connected between the sliding extrusion plate (602) and the extrusion bearing plate (601), a plurality of uniformly distributed bearing expansion bins (604) are connected into the bearing expansion bins (604), a built-in expansion bin (604) is connected with a built-in expansion spring (605), and one end of the expansion spring (607) is connected with a contraction spring (607), be equipped with a pair of extrusion gasbag sealing plate (609) in shrink sealed gasbag (608), be connected with a plurality of fifth electric telescopic handle (610) between extrusion gasbag sealing plate (609) and the deformation board of strutting (607), be connected with a pair of sixth electric telescopic handle (611) between shrink sealed gasbag (608) and the deformation board of strutting (607), shrink sealed gasbag (608) in-connection has shrink wide rope (612), it pulls the tightening groove with shrink wide rope (612) assorted to open in shrink sealed gasbag (608), shrink wide rope (612) run through shrink sealed gasbag (608) and the setting of deformation board of strutting (607), be connected with third motor (613) on the deformation board of strutting (607), third motor (613) is connected with shrink wide rope (612), be connected with balanced supporting seat (614) on third motor (613), balanced supporting seat (614) is connected with the deformation board of strutting (607).

2. The cutting and deburring all-in-one machine for the aluminum alloy sections as claimed in claim 1, wherein the splash-proof cutting mechanism (3) comprises a second motor (301), a synchronous sliding groove matched with the second motor (301) is formed in the all-in-one machine body (1), a pair of second electric telescopic rods (302) is connected onto the second motor (301), the second motor (301) penetrates through the pair of second electric telescopic rods (302), a balance sliding groove matched with the second electric telescopic rods (302) is formed in the all-in-one machine body (1) in a chiseled mode, a cutting blade (303) is connected onto the second motor (301), and a scrap recovery groove matched with the cutting blade (303) is formed in the all-in-one machine body (1) in a chiseled mode.

3. The cutting and deburring all-in-one machine for the aluminum alloy sections as claimed in claim 2, characterized in that a water storage bin (304) is connected in the all-in-one machine body (1), the water storage bin (304) is communicated with the scrap recycling groove, a pair of shaft seats (305) is connected on the all-in-one machine body (1), a rotary connecting block (306) is connected between the shaft seats (305), a splash guard (307) is connected on the all-in-one machine body (1), and the splash guard (307) is connected with the rotary connecting block (306).

4. The cutting and deburring all-in-one machine as claimed in claim 3, characterized in that the lifting blocking mechanism (5) comprises a blocking plate (501), a sliding lifting groove matched with the blocking plate (501) is formed in the all-in-one machine body (1), a plurality of fourth electric telescopic rods (502) are connected between the blocking plate (501) and the all-in-one machine body (1), an ascending discharge groove is formed in the all-in-one machine body (1), and the blocking plate (501) and the deburring bin (407) are communicated with the ascending discharge groove.

5. The cutting and deburring all-in-one machine for the aluminum alloy sections as claimed in claim 4, wherein a distance measuring sensor (206) is connected to the all-in-one machine body (1), a smooth distance measuring groove matched with the distance measuring sensor (206) is formed in the all-in-one machine body (1), a clamping sensor (308) is connected to the splash guard (307), a control box (101) is connected to the all-in-one machine body (1), and the first electric telescopic rod (202), the first motor (204), the second motor (301), the second electric telescopic rod (302), the first air pump (405), the second air pump (413), the third electric telescopic rod (417), the fourth electric telescopic rod (502), the fifth electric telescopic rod (610), the sixth electric telescopic rod (611) and the third motor (613) are all electrically connected with the control box (101).

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