CN109648351B - Aluminum-magnesium alloy sliding door frame processing device - Google Patents

Abstract

The invention relates to a processing device of an aluminum-magnesium alloy sliding door frame, which comprises a processing table, a drilling mechanism and a balance plate, wherein a lifting frame is arranged above the processing table, a sliding groove is fixed on the outer side of the top of the lifting frame, the processing table is connected with the lifting frame through a screw, a telescopic adjusting rod is arranged on the inner side of the sliding groove, a push plate is arranged at the top end of the telescopic adjusting rod, the sliding groove is movably connected with the telescopic adjusting rod, the telescopic adjusting rod is connected with the push plate through a screw, a pressing cylinder is arranged below the push plate, a pressing plate is arranged below the pressing cylinder, and the push plate is connected with the pressing cylinder through a screw. The invention has the beneficial effects that: this processingequipment of aluminium magnesium alloy's push-and-pull door frame is provided with the baffle, can prevent the excessive removal of push pedal, and then has avoided the push pedal excessive shrinkage and has caused it to take place to damage to make the push pedal can be safer carry out work.

Description

Aluminum-magnesium alloy sliding door frame processing device

Technical Field

The invention relates to the technical field of sliding door processing, in particular to a processing device of an aluminum-magnesium alloy sliding door frame.

Background

The sliding door is a common household door and can be pushed and pulled. With the development of technology and the diversification of decoration means, the function and the application range of the sliding door are continuously expanded from the surface of the traditional plate material to glass, cloth, rattan plaited materials and aluminum alloy sectional materials, and from the sliding door, the folding door to the partition door, and the processing device of the aluminum-magnesium alloy sliding door frame is an integral structure frame of the sliding door.

The robot workstation and the processing method for automatically processing the aluminum alloy door frame disclosed in the Chinese patent application publication No. CN 201510799364A, although the robot workstation and the processing method for automatically processing the aluminum alloy door frame adopt a robot to grab a workpiece and intelligently process (cut, mill a groove and drill a hole) on a cutter device; the robot can grab the workpiece and can be matched with the welding platform to intelligently clamp the workpiece; the automatic machining robot workstation and the machining method have the advantages that manual work is replaced, more complex logic analysis can be completed by a robot, more accurate and various actions can be completed than manual work, the manual operation cutting machine which is high in intelligent degree and solves the defects or technical problems of the existing LE products cuts workpieces, cutting precision has errors and causes unqualified products, a manual operation machine tool is used for drilling and milling the workpieces, particularly, when the workpieces are milled, machined surface roughness is very poor, requirements on operation skills of workers are high, but the automatic machining robot workstation and the machining method for the aluminum alloy door frame have the defects that the positions of drilling cannot be quickly positioned, and the device easily causes the defect that position differences are generated between pressing plates and raw materials when the raw materials of different shapes are adjusted.

Disclosure of Invention

The invention aims to provide a processing device for an aluminum-magnesium alloy sliding door frame, which aims to solve the problems that the position of a drilled hole cannot be quickly positioned and the position difference between each pressure plate and raw materials is easily generated when the device is used for adjusting the raw materials in different shapes in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a machining device for an aluminum-magnesium alloy sliding door frame comprises a machining table, a drilling mechanism and a balance plate, wherein a lifting frame is installed above the machining table, a sliding groove is fixed on the outer side of the top of the lifting frame, the machining table is connected with the lifting frame through a screw, a telescopic adjusting rod is arranged on the inner side of the sliding groove, a push plate is arranged at the top end of the telescopic adjusting rod, the sliding groove is movably connected with the telescopic adjusting rod, the telescopic adjusting rod is connected with a positioning plate through a screw, a pressing cylinder is installed below the positioning plate, a pressing plate is arranged below the pressing cylinder, the positioning plate is connected with the pressing cylinder through a screw, the pressing cylinder is connected with the pressing plate through a screw, the drilling mechanism is fixed on the outer side of the machining table, a conveying belt is arranged inside the drilling mechanism, and the drilling mechanism is connected with the conveying belt, the improved automatic waste scrap cutting machine is characterized in that a lifting cylinder is installed above the conveyor belt, the bottom of the lifting cylinder is connected with a motor, the conveyor belt is connected with the lifting cylinder through screws, the lifting cylinder is connected with the motor through screws, a drill bit is installed at the top end of the motor and fixedly connected with the motor, the balance plate is fixed above the processing table, a waste scrap collecting box is installed below the balance plate, the waste scrap collecting box is movably connected with the processing table, a drilling plate is connected to the top end of the push plate and fixedly connected with the push plate, a scale adjusting box is arranged on the inner side of the push plate, a resetting mechanism is installed on the outer side of the scale adjusting box, the scale adjusting box is connected with the processing table through screws, the processing table is connected with the resetting mechanism through screws, and the scale adjusting box comprises a slide way, a slide plate and a motor, The scale adjusting mechanism comprises a top plate, a push plate and a screwing bolt, a slide way is bonded on the inner side of the scale adjusting box, a sliding plate is mounted on the inner side of the slide way, the sliding plate is movably connected with the slide way, the top end of the sliding plate is connected with the top plate, the sliding plate is fixedly connected with the top plate, the push plate is fixed above the sliding plate, the screwing bolt penetrates through the upper part of the push plate, the push plate is movably connected with the screwing bolt, the sliding plate and the scale adjusting box form a sliding structure through the slide way, the sliding plate and the scale adjusting box form a fixed structure through the screwing bolt, the resetting mechanism comprises a photoelectric sensor, a sponge filling ring, a baffle and a resetting spring, the photoelectric sensor is mounted on the inner side of the resetting mechanism, the sponge filling ring is arranged above the photoelectric sensor, the resetting mechanism is in screw connection with the photoelectric sensor, and the, and the outside at baffle top is fixed with reset spring, be swing joint between sponge packing ring and the baffle, and be fixed connection between reset spring and the canceling release mechanical system, the baffle passes through sponge packing ring and constitutes block structure with canceling release mechanical system, and the baffle passes through reset spring and canceling release mechanical system constitution elastic construction.

Preferably, the shape of the balance plate is an L-shaped structure, four balance plates are arranged, and the balance plates are symmetrical about the midline of the processing table.

Preferably, the drilling board includes hole mould, smooth pearl, base ring, pivot, clamping board and clamping spring, the top of drilling board is run through there is the hole mould, and the inboard of hole mould is fixed with smooth pearl, the bottom of smooth pearl is connected with the base ring, and is fixed connection between base ring and the smooth pearl, the inboard of base ring is fixed with the pivot, and installs the clamping board in the top of pivot, be swing joint between pivot and the clamping board, the bottom on clamping board top is fixed with clamping spring, and is fixed connection between clamping spring and the base ring, the base ring is provided with two, and its even distribution is in the inside of hole mould to the base ring constitutes sliding structure through smooth pearl and hole mould.

Preferably, the clamping plate and the base ring form a rotating structure through a rotating shaft, and the rotating range of the clamping plate is 0-45 degrees.

Preferably, the outer side of the sponge filling ring is tightly attached to the inner side of the resetting mechanism, and the sponge filling ring is connected with the resetting mechanism in an adhesion mode.

Preferably, the bottom of the pressing plate is made of rubber, and the lifting range of the pressing plate is 20-100 mm.

Preferably, the diameter of the hole die is 12mm, the range of motion between every two clamping plates is 2mm-4mm, and the inner side of each clamping plate is made of sponge.

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

1. according to the invention, through the arrangement of the rubber material at the bottom of the pressure plate, the position with high strength of the pressure plate can be prevented from directly contacting with the raw material, so that the rigid contact between the pressure plate and the raw material is avoided, and the possibility of raw material damage is further reduced, and the thickness of the conventional sliding door is generally 20-100 mm, so that the device can process most sliding doors in the market, and the application range of the device is enlarged.

2. According to the invention, through the arrangement of the balance plate, the push plate can be supported, and the uneven stress of the push plate due to the weight of parts below the push plate is prevented when the push plate moves, so that the possibility of damage of the push plate is reduced, the device can work more stably, and the balance plate can also block waste materials generated in drilling, prevent the waste materials from entering the device, and further reduce the possibility of failure.

3. The invention can fix the drill bits with different sizes by the clamping plate and the clamping spring, thereby preventing the waste chips generated during drilling from entering between the drill bit and the clamping plate along the drill bit, further reducing the possibility of abrasion of the clamping plate, leading the device to be capable of stably working, and the sliding ball can rotate along with the drill bit during drilling, thereby avoiding the friction between the drill bit and the clamping plate, further prolonging the service life of the clamping plate, simultaneously avoiding the separation between the clamping plate and other parts caused by the work of the drill bit, further reducing the cost loss of maintaining and replacing the drilling plate, reducing the gap between the drilling bit and the sponge material at the bottom of the clamping plate, further avoiding the gap between the drill bit and the clamping plate during working, and further preventing the damage of the drill bit to the reinforcing plate, and the diameter of the existing fixing screw of the sliding door is generally between 4mm and 8mm, so that the device can fix drill bits with different diameters, and the application range of the device is widened.

4. According to the invention, through the arrangement of the screwing bolt, the sliding plate can be abutted against the slide way, the gap between the sliding plate and the slide way is reduced, the friction force between the sliding plate and the slide way is increased, and the possibility that the sliding plate is moved when the device is used is further avoided, so that data change during the process of carrying out the device is avoided, and the scale adjusting box can clearly know the pushing distance, so that the possibility that the data change occurs during the process of carrying out the device is further avoided, and the deviation of the drilling position is avoided.

5. According to the invention, through the arrangement of the baffle, the push plate can be prevented from moving excessively, so that the push plate is prevented from being damaged due to excessive contraction, the push plate can work more safely, the time consumption of maintenance and protection of the device is avoided, the device can work more safely, and the sponge filling ring can reduce dust from entering the reset mechanism, so that the influence of the dust on the photoelectric sensor is avoided.

Drawings

Fig. 1 is a schematic vegetarian diet structure diagram of a processing device of an aluminum-magnesium alloy sliding door frame;

fig. 2 is a schematic front structural view of a processing device of a sliding door frame made of aluminum magnesium alloy;

fig. 3 is a schematic structural view of a scale adjusting box of the processing device of the aluminum-magnesium alloy sliding door frame;

fig. 4 is a schematic structural diagram of the position of a return spring of the processing device of the aluminum-magnesium alloy sliding door frame;

fig. 5 is a schematic structural view of a processing device of a sliding door frame made of aluminum magnesium alloy, which is placed at a position A in fig. 1.

In the figure: 1. a processing table; 2. a lifting frame; 201. a chute; 202. a telescopic adjusting rod; 203. positioning a plate; 204. a pressing cylinder; 205. pressing a plate; 3. a drilling mechanism; 301. a conveyor belt; 302. a lifting cylinder; 303. an electric motor; 304. a drill bit; 4. a balance plate; 5. drilling a plate; 501. a hole die; 502. a sliding bead; 503. a base ring; 504. a rotating shaft; 505. clamping the plate; 506. a clamping spring; 6. a scale regulating box; 601. a slideway; 602. a slide plate; 603. a top plate; 604. pushing the plate; 605. screwing the bolt; 7. a reset mechanism; 701. a photosensor; 702. a sponge filling ring; 703. a baffle plate; 704. a return spring; 8. a scrap collecting box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a processing device of an aluminum-magnesium alloy sliding door frame comprises a processing table 1, a lifting frame 2, a sliding chute 201, a telescopic adjusting rod 202, a positioning plate 203, a pressing cylinder 204, a pressing plate 205, a drilling mechanism 3, a conveying belt 301, a lifting cylinder 302, a motor 303, a drill bit 304, a balance plate 4, a drilling plate 5, a hole die 501, a sliding ball 502, a base ring 503, a rotating shaft 504, a clamping plate 505, a clamping spring 506, a scale adjusting box 6, a slideway 601, a sliding plate 602, a top plate 603, a pushing plate 604, a screwing bolt 605, a resetting mechanism 7, a photoelectric sensor 701, a sponge filling ring 702, a baffle 703, a resetting spring 704 and a scrap collecting box 8, wherein the lifting frame 2 is installed above the processing table 1, the sliding chute 201 is fixed on the outer side of the top of the lifting frame 2, the processing table 1 is connected with the lifting frame 2 through screws, the inner side of the sliding chute 201 is provided with the telescopic, the chute 201 is movably connected with the telescopic adjusting rod 202, the telescopic adjusting rod 202 is in screw connection with the positioning plate 203, the pressing cylinder 204 is installed below the positioning plate 203, the pressing plate 205 is arranged below the pressing cylinder 204, the positioning plate 203 is in screw connection with the pressing cylinder 204, the pressing cylinder 204 is in screw connection with the pressing plate 205, the bottom of the pressing plate 205 is made of rubber, the lifting range of the pressing plate 205 is 20-100 mm, when the area of the raw material is large, the telescopic adjusting rod 202 is rotated clockwise to drive the positioning plate 203 to move towards the outer side, then the pressing cylinder 204 is filled with gas to drive the pressing plate 205 to descend to fix the raw material, the position with large strength of the pressing plate 205 can be prevented from directly contacting the raw material through the rubber material at the bottom of the pressing plate 205, so that the rigid contact between the positioning plate and the raw material is avoided, and the possibility of damage of the, moreover, the thickness of the existing sliding door is generally between 20mm and 100mm, so the device can process most sliding doors on the market, thereby increasing the application range of the device, the drilling mechanism 3 is fixed at the outer side of the processing table 1, the conveyor belt 301 is arranged in the drilling mechanism 3, the drilling mechanism 3 is in screw connection with the conveyor belt 301, the lifting cylinder 302 is arranged above the conveyor belt 301, the bottom of the lifting cylinder 302 is connected with the motor 303, the conveyor belt 301 is in screw connection with the lifting cylinder 302, the lifting cylinder 302 is in screw connection with the motor 303, the drill bit 304 is arranged at the top end of the motor 303, the drill bit 304 is fixedly connected with the motor 303, the balance plate 4 is fixed above the processing table 1, the scrap collecting box 8 is arranged below the balance plate 4, and the scrap collecting box 8 is movably connected with the processing table 1, the balance plate 4 is in an L-shaped structure, four balance plates 4 are arranged, the balance plates 4 are symmetrical with respect to the center line of the processing table 1, the balance plates 4 can support the positioning plate 203, and the positioning plate 203 is prevented from being stressed unevenly due to the weight of parts below the positioning plate 203 when moving, so that the possibility of damage to the push plate 604 is reduced, the device can work more stably, the balance plates 4 can also block waste materials generated by drilling, and the drilling is prevented from entering the device, so that the possibility of failure is reduced;

the top end of the positioning plate 203 is connected with a drilling plate 5, the drilling plate 5 is fixedly connected with the positioning plate 203, the drilling plate 5 comprises a hole die 501, a sliding ball 502, a base ring 503, a rotating shaft 504, a clamping plate 505 and a clamping spring 506, the hole die 501 penetrates through the upper part of the drilling plate 5, the sliding ball 502 is fixed on the inner side of the hole die 501, the base ring 503 is connected with the bottom of the sliding ball 502, the base ring 503 is fixedly connected with the sliding ball 502, the rotating shaft 504 is fixed on the inner side of the base ring 503, the clamping plate 505 is installed on the upper part of the rotating shaft 504, the rotating shaft 504 is movably connected with the clamping plate 505, the clamping spring 506 is fixed on the bottom of the top end of the clamping plate 505, the clamping spring 506 is fixedly connected with the base ring 503, the two base rings 503 are uniformly distributed in the hole die 501, the base ring 503 forms a sliding structure with the hole die 501 through the sliding ball 502, the clamping plate 505 forms a rotating structure with, the rotation range is 0-45 degrees, the positioning plate 203 moves to drive the drilling plates 5 to move, when the hole dies 501 on the two drilling plates 5 at the drilling positions are overlapped, the drill bit 304 enters the hole dies 501, the clamping plate 505 clamps the drill bit 304 under the action of the clamping spring 506, the hole dies 501 can fix the drill bits 304 with different sizes under the action of the clamping plate 505 and the clamping spring 506, thereby preventing waste chips generated during drilling from entering between the drill bit 304 and the clamping plate 505 along the drill bit 304, further reducing the possibility that the clamping plate 505 is abraded, enabling the device to stably work, and the sliding ball 502 can rotate along with the drill bit 304 during drilling, thereby avoiding the friction between the drill bit 304 and the clamping plate 505, prolonging the service life of the clamping plate 505, and simultaneously avoiding the separation between the clamping plate 505 and other parts caused by the work of the drill bit 304, further reducing the cost loss of maintaining and replacing the drilling plate 5, the diameter of the hole die 501 is 12mm, the movable range between every two clamping plates 505 is 2mm-4mm, the inner side of each clamping plate 505 is made of sponge, the gap between the hole die and the drill bit 304 can be reduced through the sponge at the bottom of the clamping plate 505, so that the gap between the drill bit 304 and the clamping plate 505 when in work is avoided, the damage of the drill bit 304 to the clamping plates 505 is prevented, the common diameter of the fixing screw of the existing sliding door is 4mm-8mm, so that the device can fix the drill bits 304 with different diameters, the application range of the device is improved, the scale adjusting box 6 is arranged on the inner side of the positioning plate 203, the resetting mechanism 7 is arranged on the outer side of the scale adjusting box 6, and the scale adjusting box 6 is connected with the processing table 1 through the screw, the scale adjusting box 6 is connected between the processing table 1 and the reset mechanism 7 by a screw, and comprises a slide 601, a slide plate 602, a top plate 603, a push plate 604 and a tightening bolt 605, the slide 601 is adhered to the inner side of the scale adjusting box 6, the slide plate 602 is installed on the inner side of the slide 601, the slide plate 602 is movably connected with the slide 601, the top end of the slide plate 602 is connected with the top plate 603, the slide plate 602 is fixedly connected with the top plate 603, the push plate 604 is fixed above the slide plate 602, the tightening bolt 605 penetrates through the upper part of the push plate 604, the push plate 604 is movably connected with the tightening bolt 605, the slide plate 602 forms a sliding structure with the scale adjusting box 6 through the slide 601, the slide plate 602 forms a fixed structure with the scale adjusting box 6 through the tightening bolt 605, the push plate 604 to the outside to drive the slide plate 602 to move towards the outer side of the scale adjusting box 6, the sliding plate 602 is supported on the slideway 601 by screwing the bolt 605, so that a gap between the sliding plate 602 and the slideway 601 is reduced, the friction force between the sliding plate 602 and the slideway 601 is increased, the possibility of the movement of the device when the sliding plate 602 is used is further avoided, the data change of the device during the process of adjustment is further avoided, the pushing distance can be clearly known by the scale adjusting box 6, the possibility of the data change of the device during the processing is further avoided, the deviation of the drilling position is avoided, the resetting mechanism 7 comprises a photoelectric sensor 701, a sponge filling ring 702, a baffle 703 and a resetting spring 704, the photoelectric sensor 701 is arranged on the inner side of the resetting mechanism 7, the sponge filling ring 702 is arranged above the photoelectric sensor 701, the resetting mechanism 7 is connected with the photoelectric sensor 701 through a screw, the baffle 703 is arranged on the inner side of the sponge filling ring 702, and the resetting spring 704 is fixed on the outer side of, the sponge filling ring 702 is movably connected with the baffle 703, the return spring 704 is fixedly connected with the return mechanism 7, the baffle 703 forms a clamping structure with the return mechanism 7 through the sponge filling ring 702, the baffle 703 forms an elastic structure with the return mechanism 7 through the return spring 704, the outer side of the sponge filling ring 702 is tightly attached to the inner side of the return mechanism 7, the sponge filling ring 702 is adhesively connected with the return mechanism 7, when the positioning plate 203 moves to contact with the baffle 703, and the baffle 703 moves towards the return mechanism 7 under the action of the positioning plate 203 when moving, when the baffle 703 shields the signal of the photoelectric sensor 701, the positioning plate 203 stops moving, and by using the baffle 703, the excessive movement of the positioning plate 203 can be prevented, thereby avoiding the positioning plate 203 from being damaged due to excessive shrinkage, and enabling the positioning plate 203 to work more safely, the time consumption of device maintenance protection is avoided, the device can work more safely, and the sponge filling ring 702 can reduce dust entering the resetting mechanism 7, so that the dust is prevented from influencing the photoelectric sensor 701.

The working principle of the embodiment is as follows: the aluminum-magnesium alloy sliding door frame processing device pushes the push plate 604 outwards to drive the sliding plate 602 to move towards the outer side of the scale adjusting box 6, when the sliding door frame is pushed to a specified position, the screwing bolt 605 is rotated clockwise, the sliding plate 602 is pushed against the slide channel 601 through the screwing bolt 605, a gap between the sliding plate 602 and the slide channel 601 is reduced, the friction force between the sliding plate and the slide channel 601 is increased, the possibility that the sliding plate 602 is used for moving is avoided, data change during device progressive adjustment is avoided, then the telescopic adjusting rod 202 is rotated clockwise to drive the positioning plate 203 to move towards the outer side, then the compressing cylinder 204 is filled with gas to drive the pressing plate 205 to descend to fix raw materials, through the rubber material at the bottom of the pressing plate 205, the situation that the position with high strength of the pressing plate 205 is directly contacted with the raw materials is avoided, rigid contact between the positioning plate and the raw materials, the positioning plate 203 moves towards the outside to drive the drilling plates 5 to move, when the hole dies 501 on the two drilling plates 5 at the drilling positions are overlapped, the lifting cylinder 302 is filled with gas to drive the drill bit 304 to descend, then the drill bit 304 enters the hole dies 501, meanwhile, the clamping plate 505 clamps the drill bit 304 under the action of the clamping spring 506, under the action of the clamping plate 505 and the clamping spring 506, the hole dies 501 can fix the drill bits 304 with different sizes, so that waste chips generated during drilling are prevented from entering between the drill bit 304 and the clamping plate 505 along the drill bit 304, the possibility that the clamping plate 505 is abraded is further reduced, the device can stably work, the sliding ball 502 can rotate along with the drill bit 304 during drilling, friction between the drill bit 304 and the clamping plate 505 is avoided, and the service life of the clamping plate 505 can be prolonged, then the motor 303 rotates, the model number of the motor 303 is Y280M-2, the drill bit 304 is driven to process, when the positioning plate 203 moves to be in contact with the baffle 703, and when the positioning plate moves, the baffle 703 moves towards the reset mechanism 7 under the action of the positioning plate 203, when the baffle 703 blocks signals of the photoelectric sensor 701, the photoelectric sensor 701 has the model number of E3JK-T31-N, then the positioning plate 203 stops moving, through the use of the baffle 703, the excessive movement of the positioning plate 203 can be prevented, further the damage of the positioning plate 203 due to the excessive shrinkage of the positioning plate 203 is avoided, so that the positioning plate 203 can work more safely, the time consumption of the maintenance and protection of the device is avoided, the device can work more safely, the sponge packing ring 702 can reduce dust entering the reset mechanism 7, and further avoid the influence of dust on the photoelectric sensor 701, the working principle of the processing device of the aluminum-magnesium alloy sliding door frame is that.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides an almag's push-and-pull door frame's processingequipment, includes processing platform (1), drilling mechanism (3) and balance plate (4), its characterized in that: the lifting frame (2) is installed above the processing table (1), a sliding groove (201) is fixed on the outer side of the top of the lifting frame (2), the processing table (1) is connected with the lifting frame (2) through screws, a telescopic adjusting rod (202) is arranged on the inner side of the sliding groove (201), a positioning plate (203) is arranged at the top end of the telescopic adjusting rod (202), the sliding groove (201) is movably connected with the telescopic adjusting rod (202), the telescopic adjusting rod (202) is connected with the positioning plate (203) through screws, a compression air cylinder (204) is installed below the positioning plate (203), a pressing plate (205) is arranged below the compression air cylinder (204), the positioning plate (203) is connected with the compression air cylinder (204) through screws, the compression air cylinder (204) is connected with the pressing plate (205) through screws, and the drilling mechanism (3) is fixed on the outer side of the processing table (1), a conveying belt (301) is arranged in the drilling mechanism (3), the drilling mechanism (3) is in screw connection with the conveying belt (301), a lifting cylinder (302) is installed above the conveying belt (301), a motor (303) is connected to the bottom of the lifting cylinder (302), the conveying belt (301) is in screw connection with the lifting cylinder (302), the lifting cylinder (302) is in screw connection with the motor (303), a drill bit (304) is installed at the top end of the motor (303), the drill bit (304) is fixedly connected with the motor (303), the balance plate (4) is fixed above the processing table (1), a scrap collecting box (8) is installed below the balance plate (4), the scrap collecting box (8) is movably connected with the processing table (1), and the top end of the positioning plate (203) is connected with a drilling plate (5), the drilling plate (5) is fixedly connected with the positioning plate (203), the scale adjusting box (6) is arranged on the inner side of the positioning plate (203), the reset mechanism (7) is arranged on the outer side of the scale adjusting box (6), the scale adjusting box (6) is in screw connection with the processing table (1), the processing table (1) is in screw connection with the reset mechanism (7), the scale adjusting box (6) comprises a slide way (601), a sliding plate (602), a top plate (603), a push plate (604) and a screwing bolt (605), the slide way (601) is bonded on the inner side of the scale adjusting box (6), the sliding plate (602) is arranged on the inner side of the slide way (601), the sliding plate (602) is movably connected with the slide way (601), the top end of the sliding plate (602) is connected with the top plate (603), and the sliding plate (602) is fixedly connected with the top plate (603), a push plate (604) is fixed above the sliding plate (602), a screwing bolt (605) penetrates through the upper portion of the push plate (604), the push plate (604) is movably connected with the screwing bolt (605), the sliding plate (602) forms a sliding structure with the scale adjusting box (6) through a sliding way (601), the sliding plate (602) forms a fixed structure with the scale adjusting box (6) through the screwing bolt (605), the resetting mechanism (7) comprises a photoelectric sensor (701), a sponge filling ring (702), a baffle (703) and a resetting spring (704), the photoelectric sensor (701) is installed on the inner side of the resetting mechanism (7), the sponge filling ring (702) is arranged above the photoelectric sensor (701), the resetting mechanism (7) is in screw connection with the photoelectric sensor (701), the baffle (703) is arranged on the inner side of the sponge filling ring (702), and the outside at baffle (703) top is fixed with reset spring (704), be swing joint between sponge packing circle (702) and baffle (703), and be fixed connection between reset spring (704) and canceling release mechanical system (7), baffle (703) constitute the block structure through sponge packing circle (702) and canceling release mechanical system (7), and baffle (703) constitute elastic construction through reset spring (704) and canceling release mechanical system (7).

2. A device for processing a frame of an al-mg sliding door according to claim 1, wherein: the shape of the balance plates (4) is of an L-shaped structure, four balance plates (4) are arranged, and the balance plates (4) are symmetrical relative to the center line of the processing table (1).

3. A device for processing a frame of an al-mg sliding door according to claim 1, wherein: the drilling plate (5) comprises a hole die (501), a sliding ball (502), a base ring (503), a rotating shaft (504), a clamping plate (505) and clamping springs (506), the hole die (501) penetrates through the upper part of the drilling plate (5), the sliding ball (502) is fixed on the inner side of the hole die (501), the base ring (503) is connected to the bottom of the sliding ball (502), the base ring (503) is fixedly connected with the sliding ball (502), the rotating shaft (504) is fixed on the inner side of the base ring (503), the clamping plate (505) is installed above the rotating shaft (504), the rotating shaft (504) is movably connected with the clamping plate (505), the clamping springs (506) are fixed to the bottom of the top end of the clamping plate (505), the clamping springs (506) are fixedly connected with the base ring (503), the base ring (503) is provided with two clamping springs, and the two clamping springs are uniformly distributed in the hole die (501), and the base ring (503) and the hole die (501) form a sliding structure through a sliding ball (502).

4. A device for processing a frame of an al-mg sliding door according to claim 3, wherein: the clamping plate (505) and the base ring (503) form a rotating structure through a rotating shaft (504), and the rotating range of the clamping plate is 0-45 degrees.

5. A device for processing a frame of an al-mg sliding door according to claim 1, wherein: the outer side of the sponge filling ring (702) is tightly attached to the inner side of the resetting mechanism (7), and the sponge filling ring (702) is connected with the resetting mechanism (7) in an adhesion manner.

6. A device for processing a frame of an al-mg sliding door according to claim 1, wherein: the bottom of the pressing plate (205) is made of rubber, and the lifting range of the pressing plate (205) is 20-100 mm.

7. A device for processing a frame of an al-mg sliding door according to claim 3, wherein: the diameter of the hole die (501) is 12mm, the range of motion between every two clamping plates (505) is 2mm-4mm, and the inner side of each clamping plate (505) is made of sponge.

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