CN117840768B

CN117840768B - Automatic cutting machine for building aluminum plate and use method

Info

Publication number: CN117840768B
Application number: CN202410114113.8A
Authority: CN
Inventors: 倪陆伟
Original assignee: Jiaxing Baofeili Building Materials Co ltd
Current assignee: Jiaxing Baofeili Building Materials Co ltd
Priority date: 2024-01-27
Filing date: 2024-01-27
Publication date: 2024-06-11
Anticipated expiration: 2044-01-27
Also published as: CN117840768A

Abstract

The invention relates to the field of aluminum plate processing. The invention discloses an automatic cutting machine for building aluminum plates and a use method thereof, and aims to solve the problems that the existing aluminum plate cutting equipment needs to polish the cutting part of the aluminum plate to avoid burrs on the cutting surface of the aluminum plate after cutting the aluminum plate, and when the aluminum plate is subjected to equivalent cutting processing, the cut aluminum plate needs to be transferred to the polishing equipment one by an operator after cutting, so that the cutting processing efficiency of the aluminum plate is affected. According to the invention, the grinding surfaces on two sides of the processing wheel disc can be contacted with the side wall of the aluminum plate at the cutting position through the cutting equipment, so that the movable frame can be reset and the aluminum plate at the cutting position can be ground through the processing wheel disc, and the processing efficiency of the aluminum plate is improved.

Description

Automatic cutting machine for building aluminum plate and use method

Technical Field

The invention relates to the field of aluminum plate processing, in particular to an automatic cutting machine for a building aluminum plate and a using method.

Background

The aluminum plate is a rectangular plate formed by rolling an aluminum ingot and is divided into a pure aluminum plate, an alloy aluminum plate, a thin aluminum plate, a medium-thickness aluminum plate and a patterned aluminum plate; the aluminum plate cutting machine is mainly used for batch cutting processing of aluminum plates, so that processing requirements in different occasions are met.

The prior patent (publication number: CN 109093448A) discloses an aluminum plate cutting machine, which comprises a bottom plate, a conveying mechanism, a detection mechanism, a top plate, a cutting mechanism, a blanking block, a damping mechanism and a pressing mechanism; according to the invention, in the process that the aluminum plate is output, the end part of the aluminum plate can push the baffle to move, so that the scale tape is pulled out, and a processor can judge the overhanging length of the aluminum plate according to the numerical value indicated by the indicating needle, so that the accurate sectional cutting of the aluminum plate is realized; after the aluminum plate stretches out required length outward, can switch on each electro-magnet power for electro-magnet and magnet adsorb together, and the baffle can contradict to avoid aluminum plate displacement to aluminum plate, and the clamp plate can carry out further spacing centre gripping to aluminum plate, makes aluminum plate more stable in the course of working, can not violent vibrations for the machining precision is higher, and the vibration of cutting motor during operation can be offset to the cushioning mechanism, further improves the machining stability. In the process of implementing the present invention, the inventor finds that at least the following problems in the prior art are not solved: the existing aluminum plate cutting equipment needs to polish the cutting part of the aluminum plate to avoid burrs on the cutting surface of the aluminum plate after cutting the aluminum plate, and when the aluminum plate is cut in an equivalent amount, the aluminum plate is cut and then needs to be transferred to polishing equipment one by an operator, so that the cutting machining efficiency of the aluminum plate is affected.

Disclosure of Invention

The invention aims to provide an automatic cutting machine for building aluminum plates and a use method thereof, which are used for solving the problems in the background technology. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an automatic guillootine of building aluminum plate, is including being the processing platform that the level set up, aluminum plate has been placed at the top of processing platform, the top of processing platform is provided with aluminum plate's position and is provided with the spacing, the top of processing platform is still fixed to be provided with the supporting seat, be provided with the cutting equipment of processing aluminum plate on the supporting seat.

Preferably, the cutting equipment includes the stroke jar of fixed setting on the supporting seat, the flexible end of stroke jar is provided with the promotion frame, the top of promoting the frame is equipped with and is the wave arch, the top slip of processing platform is provided with the alignment jig, be provided with the threaded rod on the alignment jig, the bottom of promoting the frame articulates and is provided with the promotion frame, the constant head tank has been seted up on the outer wall of promotion frame, be provided with a plurality of screw holes of group on the constant head tank, threaded rod on the alignment jig and the constant head tank screw fit on the promotion frame and can remove in the constant head tank, still be provided with the baffle of articulated setting on the promotion frame, the baffle can only deflect towards one side.

Preferably, the supporting seat is further provided with a jacking rod in a sliding manner, the top of the jacking rod is provided with a contact wheel, the contact wheel is in contact with the wavy bulge on the pushing frame, a pressure spring is arranged between the jacking rod and the supporting seat, the side wall of the jacking rod is provided with a jacking frame in a sliding manner, the jacking rod is connected with the side wall of the jacking frame, the supporting seat is provided with a rotating gear in a rotating manner, a transmission frame is hinged between the jacking frame and the rotating gear, the supporting seat is further provided with a rotating rod in a rotating manner, the rotating rod is provided with a rotating gear meshed with the rotating gear, and the rotating rod is fixedly provided with a bearing frame.

Preferably, be provided with electronic slip table on the carriage, it is provided with the sliding plate to slide on the electronic slip table, the both sides of sliding plate are provided with the draw-in bar that the relative slip set up, the fixed removal frame that is provided with in bottom of draw-in bar, all the cover is equipped with tension spring and tension spring's both ends are connected with removal frame and sliding plate respectively on every group of draw-in bar, it is provided with driving motor to remove on the frame to fix, driving motor's main shaft transmission is connected with drive gear, it is provided with drive gear to rotate on the inner wall of removal frame, drive gear meshes with drive gear, be provided with two sets of connecting rods of relative setting on drive gear's the terminal surface, be provided with the locating lever on the opposite side inner wall of removal frame, the cover is equipped with rotatory sleeve on the locating lever, rotatory sleeve and locating lever sliding fit, two sets of connecting rods that set up on the drive gear terminal surface extend in the rotatory sleeve, fixedly on the outer wall of rotatory sleeve is provided with processing rim plate, the edge of processing rim plate is the cutting face, the both sides outer wall of processing rim plate is the grinding face.

Preferably, the inner wall of the movable frame is further hinged with an adjusting disk, a connecting spring is arranged between the adjusting disk and the inner wall of the movable frame, a cylinder is fixedly arranged on one side, facing the adjusting disk, of the rotary sleeve, a ball which is elastically arranged is arranged in the cylinder, the ball is in contact with the adjusting disk, a ring groove which is oppositely arranged is further formed in the outer side of the rotary sleeve, two groups of cleaning frames which are oppositely arranged in a sliding mode are arranged on the movable frame, a ball body which is in contact with the ring groove is arranged at the end portion of each cleaning frame, and a receiving groove is further formed in the lower portion, located on the cutting equipment, of the processing table.

Preferably, the bearing frame is further provided with a sliding frame in a sliding manner, an abutting spring is arranged between the sliding frame and the bearing frame, an elastic wedge-shaped block is arranged on one side, facing the rotating sleeve, of the sliding frame, a clamping block abutted to the elastic wedge-shaped block is arranged on the moving frame, an abutting rod is further arranged on the sliding frame, the abutting rod is in contact with the outer wall of the adjusting disc, the other end, far away from the sliding frame, of the bearing frame is provided with a reset stop block in contact with the elastic wedge-shaped block, the outer wall of the sliding frame is further provided with an inclined wedge-shaped frame, and a wedge groove in contact with the inclined wedge-shaped frame is formed in the side wall of the moving frame.

Preferably, the other end of the sliding frame is also fixedly provided with a movable rack, the outer wall of the bearing frame is rotatably provided with a large gear, the bearing frame is also provided with a transmission rack reversely oppositely arranged with the movable rack, the movable rack and the transmission rack are both meshed with the large gear, and the movable rack and the transmission rack are both fixedly provided with L-shaped elastic fixing frames.

Preferably, the application method of the automatic cutting machine for the building aluminum plate comprises the following steps:

S1: when the aluminum plate is processed, the aluminum plate is placed at the top of the processing table, one side of the outer wall of the aluminum plate is contacted with a baffle plate on the pushing frame, the pushing frame is driven to move at equal intervals through a stroke electric cylinder, when the pushing frame moves, the pushing frame drives the pushing frame which is hinged to deflect by taking a threaded rod on the adjusting frame as a fulcrum, at the moment, the baffle plate arranged at the bottom of the pushing frame can push the aluminum plate on the processing table forwards, and when the distance between the threaded rod on the adjusting frame and a positioning groove on the pushing frame is adjusted, the distance of each forward pushing of the aluminum plate can be adjusted, so that the equal distance cutting effect in the aluminum plate cutting process is realized, and the working efficiency of the aluminum plate processing is improved;

s2: when the pushing frame moves, the wavy bulge on the pushing frame is contacted with the abutting wheel, the abutting wheel drives the jacking rod to enable the jacking frame to move, the transmission frame is driven to deflect when the jacking frame moves, the rotating gear deflects to drive the rotating gear to rotate, the rotating gear rotates to drive the bearing frame to rotate, when the aluminum plate is pushed forwards, the bearing frame is separated from the aluminum plate, when the aluminum plate is located at a cutting position of the aluminum plate, the bearing frame is pressed down to drive the L-shaped elastic fixing frame to press the aluminum plate, and the aluminum plate is limited and fixed;

S3: when the aluminum plate on the processing table is cut, the driving motor drives the transmission gear to rotate, the transmission gear drives the driving gear to rotate, when the driving gear rotates, two groups of connecting rods arranged on the driving gear drive the rotating sleeve to move in a rotating mode, at the moment, a cutting surface at the edge of the processing wheel disc on the rotating sleeve cuts the aluminum plate placed on the processing table, the electric sliding table drives the sliding plate to move, and the sliding plate drives the moving frame connected with the bottom to move transversely, so that the cutting operation of the aluminum plate is realized;

S4: when the cutting surface on the rotary sleeve cuts the aluminum plate under the drive of the moving frame, the moving frame moves to the position on the bearing frame, at the moment, the clamping block on the moving frame contacts with the elastic wedge-shaped block on the moving frame to enable the clamping block to be in butt joint with the cross section of the elastic wedge-shaped block, at the moment, the butt rod on the moving frame contacts with the adjusting disc hinged on the moving frame to further enable the adjusting disc to deflect on the moving frame, when the electric sliding table drives the moving frame to reset, at the moment, the adjusting disc contacts with the spherical ball in the cylinder on the rotary sleeve due to the deflection of the adjusting disc, the cylinder moves around the circumference of the rotary sleeve, and then the rotary sleeve reciprocates on the positioning rod in the rotating process when the rotary sleeve reciprocates, at the moment, the side wall of the aluminum plate after cutting contacts with the outer wall of the processing wheel disc, the aluminum plate is cut by the aluminum plate outside the cutting part under the pushing of the outer wall of the processing wheel disc, the cut aluminum plate is separated from the plate body, when the movable frame is in contact and clamping connection with the sliding frame, the inclined wedge-shaped frame contacts with the wedge-shaped groove on the movable frame, so that the movable frame moves downwards on the clamping rod on the sliding plate, the movable frame moves downwards at the moment to drive the processing wheel disc to move downwards, the polishing surface on the processing wheel disc moves downwards to contact with the surface of the aluminum plate at the cutting part, the polishing surfaces on two sides of the processing wheel disc can contact with the side wall of the aluminum plate at the cutting part while the rotary sleeve rotates in a reciprocating manner on the positioning rod, the movable frame can polish the aluminum plate at the cutting part through the processing wheel disc while resetting, the processing efficiency of the aluminum plate is improved, the cutting part of the aluminum plate is provided with a receiving groove on the processing table, so that the cutting and polishing operation of the processing wheel disc cannot be influenced;

S5: when the clamping block on the movable frame is contacted and clamped with the elastic wedge-shaped block, the movable frame is driven to move when being moved and reset, the movable frame can drive the movable rack to enable the large gear to rotate, the large gear can drive the other group of transmission racks to move, at the moment, the movable rack and the transmission racks can drive the L-shaped elastic fixing frame to clamp the side wall of the cut aluminum plate, further, the situation that the machining effect of the cut aluminum plate is affected by position deviation when the cut aluminum plate is polished is avoided, then after the movable frame is reset to an initial position, the elastic wedge-shaped block on the movable frame is contacted with the reset stop block, and then the movable frame is contacted with the connection between the movable frame and the movable frame, and further, polishing operation after cutting can be performed repeatedly when next group of cutting is performed on the aluminum plate.

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

according to the invention, when the aluminum plate is processed, the aluminum plate is placed at the top of the processing table, one side of the outer wall of the aluminum plate is contacted with the baffle plate on the pushing frame, the pushing frame is driven to move equidistantly through the arranged travel electric cylinder, when the pushing frame moves, the pushing frame drives the pushing frame which is hinged to deflect by taking the threaded rod on the adjusting frame as a fulcrum, at the moment, the baffle plate arranged at the bottom of the pushing frame can push the aluminum plate on the processing table forwards, and when the distance between the threaded rod on the adjusting frame and the positioning groove on the pushing frame is adjusted, the distance of each forward pushing of the aluminum plate can be adjusted, so that the equal distance cutting effect in the aluminum plate cutting process is realized, and the working efficiency of the aluminum plate processing is improved.

In the invention, when the pushing frame moves, the wavy bulge on the pushing frame is contacted with the abutting wheel, the abutting wheel drives the jacking rod to enable the jacking frame to move, the jacking frame drives the transmission frame to deflect when moving, the rotary gear deflects to drive the rotary gear to rotate, the rotary gear rotates to drive the bearing frame to rotate, when the aluminum plate is pushed forwards, the bearing frame is separated from the aluminum plate, when the aluminum plate is positioned at the cutting part of the bearing frame, the bearing frame is pressed down to drive the L-shaped elastic fixing frame to press the aluminum plate, and the aluminum plate is limited and fixed.

According to the invention, when the aluminum plate on the processing table is cut, the driving motor drives the transmission gear to rotate, the transmission gear drives the driving gear to rotate, when the driving gear rotates, the two groups of connecting rods arranged on the driving gear drive the rotating sleeve to move in a rotating way, at the moment, the cutting surface at the edge of the processing wheel disc on the rotating sleeve cuts the aluminum plate placed on the processing table, and the electric sliding table drives the sliding plate to move, so that the sliding plate drives the moving frame connected with the bottom to move transversely, and the cutting operation of the aluminum plate is realized.

In the invention, after the cutting surface on the rotary sleeve cuts the aluminum plate under the drive of the movable frame, the movable frame moves to the position on the bearing frame, at the moment, the clamping block on the movable frame contacts with the elastic wedge-shaped block on the movable frame to enable the clamping block to be in butt joint with the cross section of the elastic wedge-shaped block, at the moment, the abutting rod on the movable frame contacts with the adjusting disc hinged on the movable frame to further deflect the adjusting disc on the movable frame, when the electric sliding table drives the movable frame to reset, at the moment, the adjusting disc contacts with the spherical ball in the cylinder body on the rotary sleeve due to the deflection of the adjusting disc, the cylinder body moves around the circumference of the rotary sleeve to enable the rotary sleeve to reciprocate on the positioning rod in the rotating process of resetting, at the moment, the rotary sleeve reciprocates, the side wall of the cut aluminum plate contacts with the outer wall of the processing wheel disc, the aluminum plate is cut by the aluminum plate outside the cutting part under the pushing of the outer wall of the processing wheel disc, the cut aluminum plate is separated from the plate body, when the movable frame is in contact and clamping connection with the sliding frame, the inclined wedge-shaped frame contacts with the wedge-shaped groove on the movable frame, so that the movable frame moves downwards on the clamping rod on the sliding plate, the movable frame moves downwards at the moment to drive the processing wheel disc to move downwards, the polishing surface on the processing wheel disc moves downwards to contact with the surface of the aluminum plate at the cutting part, the polishing surfaces on two sides of the processing wheel disc can contact with the side wall of the aluminum plate at the cutting part while the rotary sleeve rotates in a reciprocating manner on the positioning rod, the movable frame can polish the aluminum plate at the cutting part through the processing wheel disc while resetting, the processing efficiency of the aluminum plate is improved, the material receiving groove arranged on the processing table is positioned at the cutting part of the aluminum plate, so that the cutting and polishing operation of the processing wheel disc cannot be influenced.

According to the invention, when the clamping block on the movable frame is contacted and clamped with the elastic wedge-shaped block, the movable frame is driven to move when being moved and reset, the movable frame drives the movable rack to enable the large gear to rotate, the large gear drives the other group of transmission racks to move, at the moment, the movable rack and the transmission racks drive the L-shaped elastic fixing frame to clamp the side wall of the cut aluminum plate, so that the processing effect of the cut aluminum plate is prevented from being influenced by position deviation when the cut aluminum plate is polished, and then after the movable frame is reset to an initial position, the elastic wedge-shaped block on the movable frame is contacted with the reset stop block, so that the movable frame is contacted with the movable frame, and then the cut aluminum plate can be polished in a reciprocating manner when being cut in the next group.

Drawings

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

FIG. 2 is a schematic view of a partial perspective view of the present invention;

FIG. 3 is a schematic perspective view of a cutting apparatus according to the present invention;

FIG. 4 is a schematic view of a partial perspective view of a cutting apparatus according to the present invention;

FIG. 5 is a schematic diagram showing a partial perspective view of a cutting apparatus according to the present invention;

FIG. 6 is a schematic diagram of a partial perspective view of the present invention;

Fig. 7 is a schematic diagram of a partial perspective view of the present invention.

In the figure: 1. a processing table; 11. a limiting frame; 12. a support base; 2. cutting equipment; 21. a stroke electric cylinder; 22. a pushing frame; 23. a wavy bulge; 24. an adjusting frame; 25. a threaded rod; 26. a propulsion rack; 27. a positioning groove; 28. a baffle; 3. a lifting rod; 31. a contact wheel; 32. a pressure spring; 33. a jacking frame; 34. a rotary gear; 35. a transmission frame; 36. a rotating lever; 37. rotating the gear; 4. a carrier; 41. an electric sliding table; 42. a sliding plate; 43. a clamping rod; 44. a moving rack; 45. a tension spring; 46. a drive gear; 47. a connecting rod; 48. a positioning rod; 49. rotating the sleeve; 491. machining a wheel disc; 492. cutting a surface; 493. polishing the surface; 494. a driving motor; 495. a transmission gear; 5. a section plate; 51. a connecting spring; 52. a column; 53. a ball; 54. a ring groove; 55. a cleaning rack; 56. a sphere; 57. a material collecting groove; 6. a carriage; 61. a contact spring; 62. an elastic wedge block; 63. a clamping block; 64. a touch-up rod; 65. resetting the stop block; 66. an inclined wedge-shaped frame; 67. wedge grooves; 68. moving the rack; 69. a large gear; 691. a drive rack; 692. l-shaped elastic fixing frame.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides an automatic guillootine of building aluminum plate, is including being the processing platform 1 that the level set up, aluminum plate has been placed at the top of processing platform 1, the position that processing platform 1's top was provided with aluminum plate is provided with spacing 11, the top of processing platform 1 is still fixed to be provided with supporting seat 12, be provided with the cutting equipment 2 of processing aluminum plate on the supporting seat 12.

In this embodiment, as shown in fig. 1,2 and 3, the cutting device 2 includes a travel cylinder 21 fixedly disposed on a supporting seat 12, a pushing frame 22 is disposed at a telescopic end of the travel cylinder 21, a wavy protrusion 23 is disposed at a top of the pushing frame 22, an adjusting frame 24 is slidably disposed at a top of the processing table 1, a threaded rod 25 is disposed on the adjusting frame 24, a pushing frame 26 is hinged at a bottom of the pushing frame 22, a positioning groove 27 is disposed on an outer wall of the pushing frame 26, a plurality of sets of threaded holes are disposed on the positioning groove 27, the threaded rod 25 on the adjusting frame 24 is in threaded fit with the positioning groove 27 on the pushing frame 26 and can move in the positioning groove 27, a baffle 28 which is hinged is disposed on the pushing frame 26, and the baffle 28 can deflect only toward one side;

when carrying out aluminum plate processing, place aluminum plate at the top of processing platform 1, the outer wall one side of aluminum plate and the baffle 28 contact on pushing the frame 26, drive pushing the frame 22 equidistance through the travel jar 21 that sets up and remove, when pushing the frame 22 and remove, its pushing the frame 22 then can drive the articulated pushing the frame 26 that sets up and regard the threaded rod 25 on the alignment jig 24 as the fulcrum department deflection, the baffle 28 that pushing the frame 26 bottom set up then can promote the aluminum plate that is in processing platform 1 forward, and the distance that the threaded rod 25 on the alignment jig 24 and pushing the constant head tank 27 on the frame 26 then can adjust aluminum plate at every turn when the distance that advances, and then realize the effect of equivalent distance cutting in the aluminum plate cutting process, improve aluminum plate processing's work efficiency.

In this embodiment, as shown in fig. 1, 2 and 3, the supporting seat 12 is further provided with a lifting rod 3 in a sliding manner, a contact wheel 31 is disposed at the top of the lifting rod 3, the contact wheel 31 contacts with the wavy bulge 23 on the pushing frame 22, a pressure spring 32 is disposed between the lifting rod 3 and the supporting seat 12, a lifting frame 33 is disposed on the side wall of the lifting rod 3 in a sliding manner, the lifting rod 3 is connected with the side wall of the lifting frame 33, a rotating gear 34 is rotatably disposed on the supporting seat 12, a transmission frame 35 is hinged between the lifting frame 33 and the rotating gear 34, a rotating rod 36 is further rotatably disposed on the supporting seat 12, a rotating gear 37 meshed with the rotating gear 34 is disposed on the rotating rod 36, and a bearing frame 4 is fixedly disposed on the rotating rod 36;

When the pushing frame 22 moves, the wavy bulge 23 on the pushing frame 22 is contacted with the contact wheel 31, the contact wheel 31 drives the lifting rod 3 to enable the lifting frame 33 to move, the driving frame 35 is driven to deflect the rotating gear 34 when the lifting frame 33 moves, the rotating gear 34 deflects to drive the rotating gear 37 to rotate, the rotating gear 37 rotates to drive the bearing frame 4 to rotate, when the aluminum plate is pushed forwards, the bearing frame 4 is separated from the aluminum plate, when the aluminum plate is located at a cutting position of the aluminum plate, the bearing frame 4 is pressed down to drive the L-shaped elastic fixing frame 692 to press the aluminum plate, and the aluminum plate is limited and fixed.

In this embodiment, as shown in fig. 1,3, 4 and 5, an electric sliding table 41 is disposed on the bearing frame 4, a sliding plate 42 is slidably disposed on the electric sliding table 41, two opposite sets of connecting rods 47 are disposed on two sides of the sliding plate 42, a moving frame 44 is fixedly disposed at the bottom of the clamping rod 43, a tension spring 45 is sleeved on each set of clamping rods 43, two ends of the tension spring 45 are respectively connected with the moving frame 44 and the sliding plate 42, a driving motor 494 is fixedly disposed on the moving frame 44, a transmission gear 495 is connected with a spindle transmission of the driving motor 494, a driving gear 46 is rotatably disposed on an inner wall of the moving frame 44, the transmission gear 495 is meshed with the driving gear 46, two sets of connecting rods 47 disposed opposite to each other are disposed on an end surface of the driving gear 46, a positioning rod 48 is disposed on an inner wall of the other side of the moving frame 44, a rotating sleeve 49 is slidably engaged with the positioning rod 48, two sets of connecting rods 47 disposed on an end surface of the driving gear 46 are rotatably sleeved on the rotating sleeve 49, and the rotating sleeve 49 extends to an inner wall of the rotating sleeve 49, and the outer wall of the rotating sleeve is a wheel disc 491, and the outer wall of the wheel disc is 491 is processed on the outer wall of the wheel disc 491, and the wheel disc is disposed on the outer wall of the wheel disc is 491 and is processed on the outer wall of the wheel disc surface of the wheel disc 491.

When the aluminum plate on the processing table 1 is cut, the driving motor 494 drives the transmission gear 495 to rotate, the transmission gear 495 drives the driving gear 46 to rotate, when the driving gear 46 rotates, two groups of connecting rods 47 arranged on the driving gear 46 drive the rotating sleeve 49 to move in a rotating mode, at the moment, the cutting surface 492 of the edge of the processing wheel disk 491 on the rotating sleeve 49 cuts the aluminum plate placed on the processing table 1, the electric sliding table 41 drives the sliding plate 42 to move, and the sliding plate 42 drives the moving frame 44 connected with the bottom to move transversely, so that the cutting operation of the aluminum plate is realized.

In this embodiment, as shown in fig. 1, 3, 4 and 5, an adjusting disc 5 is further hinged on the inner wall of the moving frame 44, a connecting spring 51 is provided between the adjusting disc 5 and the inner wall of the moving frame 44, a column 52 is fixedly provided on one side of the rotating sleeve 49 facing the adjusting disc 5, a ball 53 which is elastically provided is provided in the column 52, the ball 53 contacts with the adjusting disc 5, a ring groove 54 which is oppositely provided is further provided on the outer side of the rotating sleeve 49, two groups of cleaning frames 55 which are relatively slidably provided are provided on the moving frame 44, a ball 56 which contacts with the ring groove 54 is provided at the end of the cleaning frame 55, and a material collecting groove 57 is further provided on the processing table 1 below the cutting device 2;

when the movable frame 44 is reset, the rotary sleeve 49 on the movable frame 44 rotates to reciprocate, the ring groove 54 arranged on the rotary sleeve 49 contacts with the ball 56 arranged on the cleaning frame 55, and then the ball 56 is driven to reciprocate the cleaning frame 55 on the movable frame 44, so that when the rotary sleeve 49 is reset, the cleaning frame 55 can scrape the scraps on the processing table 1 into the material collecting groove 57 to finish the operation.

In this embodiment, as shown in fig. 1, 3, 4, 5, 6 and 7, a sliding frame 6 is further slidably disposed on the bearing frame 4, an abutting spring 61 is disposed between the sliding frame 6 and the bearing frame 4, an elastic wedge 62 is disposed on a side of the sliding frame 6 facing the rotating sleeve 49, a clamping block 63 abutting against the elastic wedge 62 is disposed on the moving frame 44, an abutting rod 64 is further disposed on the sliding frame 6, the abutting rod 64 contacts with an outer wall of the adjusting disc 5, a reset stop 65 contacting with the elastic wedge 62 is disposed on the other end, far away from the sliding frame 6, of the bearing frame 4, an inclined wedge 66 is disposed on an outer wall of the sliding frame 6, and a wedge groove 67 contacting with the inclined wedge 66 is disposed on a side wall of the moving frame 44;

when the cutting surface 492 on the rotary sleeve 49 cuts the aluminum plate under the drive of the moving frame 44, the moving frame 44 moves to the position of the carriage 6 on the bearing frame 4, at this time, the clamping block 63 on the moving frame 44 contacts with the elastic wedge 62 on the carriage 6, so that the clamping block 63 contacts with the cross section of the elastic wedge 62, at this time, the abutting rod 64 on the carriage 6 contacts with the adjusting disk 5 hinged on the moving frame 44, so that the adjusting disk 5 deflects on the moving frame 44, and when the electric sliding table 41 drives the moving frame 44 to reset, at this time, the adjusting disk 5 contacts with the ball 53 in the cylinder 52 on the rotary sleeve 49 due to the deflection of the adjusting disk 5, the cylinder 52 moves around the circumference of the rotary sleeve 49, so that the rotary sleeve 49 reciprocates on the positioning rod 48 in the rotating process when the moving frame 44 resets, at this time, when the rotating sleeve 49 reciprocates, the cut aluminum plate sidewall contacts with the outer wall of the processing wheel 491, the cut portion of the aluminum plate is pushed outwards by the pushing of the outer wall of the processing wheel 491, the cut aluminum plate is separated from the plate body, when the moving frame 44 contacts and is clamped with the sliding frame 6, the inclined wedge-shaped frame 66 contacts with the wedge-shaped groove 67 on the moving frame 44, the moving frame 44 moves downwards on the clamping rod 43 on the sliding plate 42, at this time, the moving frame 44 moves downwards to drive the processing wheel 491 to move downwards, the polishing surface 493 on the processing wheel 491 moves downwards to contact with the surface of the aluminum plate at the cutting portion, the polishing surfaces 493 on two sides of the processing wheel 491 can contact with the sidewall of the aluminum plate at the cutting portion while the rotating sleeve 49 reciprocates on the positioning rod 48, further, the movable frame 44 can polish the aluminum plate at the cutting position through the processing wheel disc 491 while resetting, so that the processing efficiency of the aluminum plate is improved, and the cutting and polishing operation of the processing wheel disc 491 cannot be influenced by the position of the receiving groove 57 arranged on the processing table 1 at the cutting position of the aluminum plate.

In this embodiment, as shown in fig. 1, 3, 4, 5, 6 and 7, a moving rack 68 is further fixedly disposed at the other end of the sliding rack 6, a large gear 69 is rotatably disposed on the outer wall of the bearing rack 4, a driving rack 691 opposite to the moving rack 68 is further disposed on the bearing rack 4, the moving rack 68 and the driving rack 691 are engaged with the large gear 69, and L-shaped elastic fixing frames 692 are fixedly disposed on the moving rack 68 and the driving rack 691;

When the clamping block 63 on the movable frame 44 is contacted and clamped with the elastic wedge-shaped block 62, the movable frame 44 is moved and reset to drive the movable frame 6 to move, the movable frame 6 drives the movable rack 68 to rotate the large gear 69, the large gear 69 drives the other group of transmission racks 691 to move, at this time, the movable rack 68 and the transmission racks 691 drive the L-shaped elastic fixing frame 692 to clamp the side wall of the cut aluminum plate, so that the processing effect of the cut aluminum plate is prevented from being influenced by position offset when the cut aluminum plate is polished, and then after the movable frame 44 is reset to an initial position, the elastic wedge-shaped block 62 on the movable frame 44 is contacted with the reset stop block 65 to further contact the connection between the movable frame 6 and the movable frame 44, and further the polishing operation after the cut aluminum plate can be reciprocated when the next group of cut aluminum plate is performed.

The application method and the advantages of the invention are as follows: the application method of the automatic cutting machine for the building aluminum plate comprises the following working processes:

as shown in fig. 1,2, 3, 4, 5, 6 and 7:

S1: when the aluminum plate is processed, the aluminum plate is placed at the top of the processing table 1, one side of the outer wall of the aluminum plate is contacted with the baffle plate 28 on the pushing frame 26, the pushing frame 22 is driven to move at equal intervals through the arranged travel electric cylinder 21, when the pushing frame 22 moves, the pushing frame 22 drives the pushing frame 26 which is hinged to deflect by taking the threaded rod 25 on the adjusting frame 24 as a fulcrum, at the moment, the baffle plate 28 arranged at the bottom of the pushing frame 26 pushes the aluminum plate on the processing table 1 forwards, and when the distance between the threaded rod 25 on the adjusting frame 24 and the positioning groove 27 on the pushing frame 26 is adjusted, the distance of each forward pushing of the aluminum plate can be adjusted, so that the equal distance cutting effect in the aluminum plate cutting process is realized, and the working efficiency of the aluminum plate processing is improved;

S2: when the pushing frame 22 moves, the wavy bulge 23 on the pushing frame 22 is contacted with the contact wheel 31, the contact wheel 31 drives the lifting rod 3 to enable the lifting frame 33 to move, the driving frame 35 is driven to deflect the rotating gear 34 when the lifting frame 33 moves, the rotating gear 34 deflects to drive the rotating gear 37 to rotate, the rotating gear 37 rotates to drive the bearing frame 4 to rotate, when the aluminum plate is pushed forwards, the bearing frame 4 is separated from the aluminum plate, when the aluminum plate is positioned at a cutting part of the aluminum plate, the bearing frame 4 is pressed down to drive the L-shaped elastic fixing frame 692 to press the aluminum plate, and the aluminum plate is limited and fixed;

S3: when the aluminum plate on the processing table 1 is cut, the driving motor 494 drives the transmission gear 495 to rotate, the transmission gear 495 drives the driving gear 46 to rotate, when the driving gear 46 rotates, two groups of connecting rods 47 arranged on the driving gear 46 drive the rotating sleeve 49 to move in a rotating way, at the moment, a cutting surface 492 at the edge of a processing wheel disc 491 on the rotating sleeve 49 cuts the aluminum plate placed on the processing table 1, the electric sliding table 41 drives the sliding plate 42 to move, so that the sliding plate 42 drives the moving frame 44 connected with the bottom to move transversely, and the cutting operation of the aluminum plate is realized;

S4: when the cutting surface 492 on the rotary sleeve 49 cuts the aluminum plate under the drive of the moving frame 44, the moving frame 44 moves to the position of the carriage 6 on the bearing frame 4, at this time, the clamping block 63 on the moving frame 44 contacts with the elastic wedge 62 on the carriage 6, so that the clamping block 63 contacts with the cross section of the elastic wedge 62, at this time, the abutting rod 64 on the carriage 6 contacts with the adjusting disk 5 hinged on the moving frame 44, so that the adjusting disk 5 deflects on the moving frame 44, and when the electric sliding table 41 drives the moving frame 44 to reset, at this time, the adjusting disk 5 contacts with the ball 53 in the cylinder 52 on the rotary sleeve 49 due to the deflection of the adjusting disk 5, the cylinder 52 moves around the circumference of the rotary sleeve 49, so that the rotary sleeve 49 reciprocates on the positioning rod 48 in the rotating process when the moving frame 44 resets, at this time, when the rotating sleeve 49 reciprocates, the cut aluminum plate sidewall contacts with the outer wall of the processing wheel 491, the cut portion of the aluminum plate is pushed outwards by the pushing of the outer wall of the processing wheel 491, the cut aluminum plate is separated from the plate body, when the moving frame 44 contacts and is clamped with the sliding frame 6, the inclined wedge-shaped frame 66 contacts with the wedge-shaped groove 67 on the moving frame 44, the moving frame 44 moves downwards on the clamping rod 43 on the sliding plate 42, at this time, the moving frame 44 moves downwards to drive the processing wheel 491 to move downwards, the polishing surface 493 on the processing wheel 491 moves downwards to contact with the surface of the aluminum plate at the cutting portion, the polishing surfaces 493 on two sides of the processing wheel 491 can contact with the sidewall of the aluminum plate at the cutting portion while the rotating sleeve 49 reciprocates on the positioning rod 48, the movable frame 44 is reset, and the aluminum plate at the cutting part can be polished through the processing wheel disc 491, so that the processing efficiency of the aluminum plate is improved, and the cutting and polishing operation of the processing wheel disc 491 cannot be influenced when the receiving groove 57 arranged on the processing table 1 is positioned at the cutting part of the aluminum plate;

S5: when the clamping block 63 on the movable frame 44 is contacted and clamped with the elastic wedge-shaped block 62, the movable frame 44 is moved and reset to drive the movable frame 6 to move, the movable frame 6 drives the movable rack 68 to rotate the large gear 69, the large gear 69 drives the other group of transmission racks 691 to move, at this time, the movable rack 68 and the transmission racks 691 drive the L-shaped elastic fixing frame 692 to clamp the side wall of the cut aluminum plate, so that the processing effect of the cut aluminum plate is prevented from being influenced by position offset when the cut aluminum plate is polished, and then after the movable frame 44 is reset to an initial position, the elastic wedge-shaped block 62 on the movable frame 44 is contacted with the reset stop block 65 to further contact the connection between the movable frame 6 and the movable frame 44, and further the polishing operation after the cut aluminum plate can be reciprocated when the next group of cut aluminum plate is performed.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An automatic guillootine of building aluminum plate, its characterized in that: the aluminum plate cutting device comprises a processing table (1) which is horizontally arranged, wherein an aluminum plate is placed at the top of the processing table (1), a limiting frame (11) is arranged at the position, provided with the aluminum plate, of the top of the processing table (1), a supporting seat (12) is fixedly arranged at the top of the processing table (1), and cutting equipment (2) for processing the aluminum plate is arranged on the supporting seat (12);

The cutting equipment (2) comprises a travel electric cylinder (21) fixedly arranged on a supporting seat (12), a pushing frame (22) is arranged at the telescopic end of the travel electric cylinder (21), a wavy bulge (23) is arranged at the top of the pushing frame (22), an adjusting frame (24) is arranged at the top of the processing table (1) in a sliding mode, a threaded rod (25) is arranged on the adjusting frame (24), a pushing frame (26) is hinged to the bottom of the pushing frame (22), a positioning groove (27) is formed in the outer wall of the pushing frame (26), a plurality of groups of threaded holes are formed in the positioning groove (27), the threaded rod (25) on the adjusting frame (24) is in threaded fit with the positioning groove (27) on the pushing frame (26) and can move in the positioning groove (27), a baffle (28) which is hinged to be arranged is further arranged on the pushing frame (26), and the baffle (28) can deflect towards one side only;

The lifting device is characterized in that a lifting rod (3) is further arranged on the supporting seat (12) in a sliding mode, a supporting contact wheel (31) is arranged at the top of the lifting rod (3), the supporting contact wheel (31) is in contact with a wavy bulge (23) on the pushing frame (22), a pressure spring (32) is arranged between the lifting rod (3) and the supporting seat (12), a lifting frame (33) is arranged on the side wall of the lifting rod (3) in a sliding mode, the lifting rod (3) is connected with the side wall of the lifting frame (33), a rotary gear (34) is arranged on the supporting seat (12) in a rotating mode, a transmission frame (35) is hinged between the lifting frame (33) and the rotary gear (34), a rotating rod (36) is further arranged on the supporting seat (12), a rotating gear (37) meshed with the rotary gear (34) is arranged on the rotating rod (36), and a bearing frame (4) is fixedly arranged on the rotating rod (36);

The bearing frame (4) is provided with an electric sliding table (41), the electric sliding table (41) is provided with a sliding plate (42) in a sliding manner, two sides of the sliding plate (42) are provided with clamping rods (43) which are arranged in a sliding manner, the bottoms of the clamping rods (43) are fixedly provided with moving frames (44), each group of clamping rods (43) is sleeved with a tension spring (45), two ends of each tension spring (45) are respectively connected with the moving frames (44) and the sliding plate (42), the moving frames (44) are fixedly provided with driving motors (494), the main shafts of the driving motors (494) are in transmission connection with transmission gears (495), the inner wall of the movable frame (44) is rotatably provided with a driving gear (46), a transmission gear (495) is meshed with the driving gear (46), two groups of connecting rods (47) which are oppositely arranged are arranged on the end face of the driving gear (46), a positioning rod (48) is arranged on the inner wall of the other side of the movable frame (44), a rotary sleeve (49) is sleeved on the positioning rod (48), the rotary sleeve (49) is in sliding fit with the positioning rod (48), the two groups of connecting rods (47) which are arranged on the end face of the driving gear (46) extend into the rotary sleeve (49), a processing wheel disc (491) is fixedly arranged on the outer wall of the rotary sleeve (49), the edge of the processing wheel disc (491) is a cutting surface (492), and the outer walls of the two sides of the processing wheel disc (491) are polishing surfaces (493);

The automatic cutting device is characterized in that an adjusting disc (5) is further hinged to the inner wall of the moving frame (44), a connecting spring (51) is arranged between the adjusting disc (5) and the inner wall of the moving frame (44), a column body (52) is fixedly arranged on one side, facing the adjusting disc (5), of the rotating sleeve (49), a ball (53) which is elastically arranged is arranged in the column body (52), the ball (53) is contacted with the adjusting disc (5), annular grooves (54) which are oppositely arranged are further formed in the outer side of the rotating sleeve (49), two groups of cleaning frames (55) which are oppositely arranged in a sliding mode are arranged on the moving frame (44), balls (56) which are contacted with the annular grooves (54) are arranged at the end portions of the cleaning frames (55), and a receiving groove (57) is further arranged below the cutting device (2) on the processing table (1).

The bearing frame (4) is further provided with a sliding frame (6) in a sliding manner, an abutting spring (61) is arranged between the sliding frame (6) and the bearing frame (4), an elastic wedge-shaped block (62) is arranged on one side, facing the rotating sleeve (49), of the sliding frame (6), a clamping block (63) abutted to the elastic wedge-shaped block (62) is arranged on the moving frame (44), an abutting rod (64) is further arranged on the sliding frame (6), the abutting rod (64) is in contact with the outer wall of the adjusting disc (5), a reset stop block (65) in contact with the elastic wedge-shaped block (62) is arranged on the other end, far away from the sliding frame (6), of the bearing frame (4), an inclined wedge-shaped frame (66) is further arranged on the outer wall of the sliding frame (6), and an inclined wedge-shaped groove (67) in contact with the inclined wedge-shaped frame (66) is arranged on the side wall of the moving frame (44);

The other end of the sliding frame (6) is also fixedly provided with a movable rack (68), the outer wall of the bearing frame (4) is rotationally provided with a large gear (69), the bearing frame (4) is also provided with a transmission rack (691) which is reversely and oppositely arranged with the movable rack (68), the movable rack (68) and the transmission rack (691) are both meshed with the large gear (69), and the movable rack (68) and the transmission rack (691) are both fixedly provided with L-shaped elastic fixing frames (692).

2. The method for using the automatic cutting machine for building aluminum plates according to claim 1, comprising the following steps:

s1: when the aluminum plate is processed, the aluminum plate is placed at the top of the processing table (1), one side of the outer wall of the aluminum plate is contacted with a baffle plate (28) on a pushing frame (26), a pushing frame (22) is driven to move equidistantly through a stroke electric cylinder (21) arranged, when the pushing frame (22) moves, the pushing frame (22) drives the pushing frame (26) hinged to the pushing frame to deflect by taking a threaded rod (25) on an adjusting frame (24) as a fulcrum, at the moment, the baffle plate (28) arranged at the bottom of the pushing frame (26) pushes the aluminum plate on the processing table (1) forwards, and when the distance between the threaded rod (25) on the adjusting frame (24) and a positioning groove (27) on the pushing frame (26) is adjusted, the distance between the aluminum plate and each forward pushing can be adjusted, so that the equal distance cutting effect of the aluminum plate in the cutting process is realized, and the working efficiency of the aluminum plate processing is improved;

S2: when the pushing frame (22) moves, the wavy bulge (23) on the pushing frame (22) is contacted with the abutting wheel (31), the abutting wheel (31) drives the jacking rod (3) to enable the jacking frame (33) to move, the transmission frame (35) is driven to deflect the rotary gear (34) when the jacking frame (33) moves, the rotary gear (34) deflects to drive the rotary gear (37) to rotate, the rotary gear (37) rotates to drive the bearing frame (4) to rotate, when the aluminum plate is pushed forwards, the bearing frame (4) is separated from the aluminum plate, when the aluminum plate is positioned at a cutting part of the bearing frame, the L-shaped elastic fixing frame (692) is driven to press the aluminum plate, and the aluminum plate is limited and fixed;

s3: when the aluminum plate on the processing table (1) is cut, the driving motor (494) drives the transmission gear (495) to rotate, the transmission gear (495) drives the driving gear (46) to rotate, when the driving gear (46) rotates, two groups of connecting rods (47) arranged on the driving gear (46) drive the rotating sleeve (49) to move in a rotating mode, at the moment, a cutting surface (492) at the edge of a processing wheel disc (491) on the rotating sleeve (49) cuts the aluminum plate placed on the processing table (1), the electric sliding table (41) drives the sliding plate (42) to move, and the sliding plate (42) drives the moving frame (44) connected with the bottom to move transversely so as to realize the cutting operation of the aluminum plate;

S4: after the aluminum plate is cut by the cutting surface (492) on the rotary sleeve (49) under the drive of the moving frame (44), the moving frame (44) moves to the position of the bearing frame (4) on the sliding frame (6), at the moment, the clamping block (63) on the moving frame (44) contacts with the elastic wedge-shaped block (62) on the sliding frame (6), the clamping block (63) is abutted with the cross section of the elastic wedge-shaped block (62), at the moment, the abutting rod (64) on the sliding frame (6) contacts with the adjusting disc (5) hinged on the moving frame (44), the adjusting disc (5) is further deflected on the moving frame (44), the electric sliding table (41) drives the moving frame (44) to reset, at the moment, the adjusting disc (5) contacts with the round ball (53) in the cylinder (52) on the rotary sleeve (49), the cylinder (52) moves around the circumference of the rotary sleeve (49), at the moment, the rotary sleeve (49) is reset, the rotary sleeve (44) is pushed against the rotating disc (48) at the moment, the reciprocating disc (48) is pushed against the outer wall of the cutting disc (48), and the reciprocating disc is pushed to the outer wall of the cutting disc (48) is machined, at the moment, the reciprocating disc is pushed to the outer wall of the disc (48) is moved, and the reciprocating disc is moved outwards, when the movable frame (44) is in contact and clamping connection with the sliding frame (6), the inclined wedge-shaped frame (66) is contacted with the wedge-shaped groove (67) on the movable frame (44), so that the movable frame (44) moves downwards on the clamping rod (43) on the sliding plate (42), at the moment, the movable frame (44) moves downwards to drive the processing wheel disc (491) to move downwards, the polishing surface (493) on the processing wheel disc (491) moves downwards to be contacted with the surface of the aluminum plate at the cutting position, the polishing surfaces (493) on two sides of the processing wheel disc (491) can be contacted with the side wall of the aluminum plate at the cutting position while the rotary sleeve (49) moves back and forth on the positioning rod (48), the movable frame (44) can polish the aluminum plate at the cutting position through the processing wheel disc (491), and the processing efficiency of the aluminum plate is improved, and the processing operation of the cutting wheel disc (491) is not affected by the position of the receiving groove (57) arranged on the processing table (1);

S5: when the clamping blocks (63) on the movable frame (44) are in contact and clamping connection with the elastic wedge-shaped blocks (62), the movable frame (44) is driven to move when being moved and reset, the movable frame (6) can drive the movable rack (68) to enable the large gear (69) to rotate, the large gear (69) can drive the other group of transmission racks (691) to move, at the moment, the movable rack (68) and the transmission racks (691) can drive the L-shaped elastic fixing frames (692) to clamp the side wall of the cut aluminum plate, the machining effect of the cut aluminum plate is prevented from being influenced by position deviation when the cut aluminum plate is polished, then after the movable frame (44) is reset to the initial position, the elastic wedge-shaped blocks (62) on the movable frame (44) can be contacted with the reset stop blocks (65), and then the movable frame (6) are connected with the movable frame (44), and further polishing operation after the cut aluminum plate can be performed in a reciprocating mode when the next group of cut aluminum plate is polished.