CN221582233U - Automatic chamfering equipment for metal parts - Google Patents

Abstract

The utility model belongs to the technical field of chamfering equipment, and particularly relates to automatic chamfering equipment for metal pieces, which comprises a machining bottom plate, wherein a machining platform is fixedly arranged at the center of the top of the machining bottom plate, an electromagnet is arranged in the machining platform, cleaning mechanisms are arranged on the peripheral surface of the machining platform, and the cleaning mechanisms realize the action of automatic cleaning after the top chamfering of the machining platform is machined. This automatic chamfering equipment of metalwork sets up chamfer orbit running gear and chamfer mechanism in special-shaped sheet metal chamfer and can realize along the orbit automatic movement of predetermineeing, combines chamfer mechanism to carry out the chamfer operation. Thus, the automation of the whole chamfering process can be realized, the manual intervention is reduced, and the production efficiency and consistency are improved; and the chamfering machine can be flexibly adjusted according to the shapes and the sizes of different special-shaped metal plates, and meets the requirements of various complex chamfering processes.

Description

Automatic chamfering equipment for metal parts

Technical Field

The utility model relates to the technical field of chamfering equipment, in particular to automatic chamfering equipment for metal parts.

Background

The metal plate is one of the plates, the metal plate needs to be cut into a metal plate with a certain length when being processed, then the cut metal plate is taken out, and then corners of the metal plate need to be chamfered, so that the quality of the metal plate is improved, and chamfering equipment is needed.

However, the current chamfering equipment has some defects when in use: for example, when chamfering a metal plate, the metal plate needs to be manually controlled to move and chamfer because of the incapability of automatically chamfering the metal plate due to irregular shape of the metal plate, so that the dimension accuracy of chamfering is not high, the working efficiency is affected, and scraps generated during chamfering are easy to splash, so that the cleaning is difficult, and therefore, the automatic chamfering equipment for the metal piece is provided.

Disclosure of utility model

Based on the prior art, the utility model provides automatic chamfering equipment for metal parts.

The utility model provides automatic chamfering equipment for metal parts, which comprises a machining bottom plate, wherein a machining platform is fixedly arranged in the center of the top of the machining bottom plate, an electromagnet is arranged in the machining platform, a cleaning mechanism is arranged on the peripheral surface of the machining platform, and the cleaning mechanism realizes the action of automatic cleaning after the top chamfering of the machining platform is machined;

The top of the processing bottom plate is also respectively provided with a chamfering track travelling mechanism and a chamfering mechanism, and the chamfering track travelling mechanism can automatically track travelling along with the outline dimension of the special-shaped metal plate in chamfering of the special-shaped metal plate;

the chamfering mechanism realizes the action of automatic chamfering after the special-shaped metal plate is clamped.

Preferably, the cleaning mechanism comprises mounting seats, four mounting seats are respectively arranged at four corners of the processing platform, two of the mounting seats are respectively connected with a rotating shaft through bearings in a rotating mode, the other two of the mounting seats are respectively fixedly provided with a sliding rod on the opposite surfaces, the circular arc surfaces of the rotating shafts are in threaded connection with movable cleaning plates, one ends of the movable cleaning plates are in sliding connection with the circular arc surfaces of the sliding rods, cleaning brushes are fixedly arranged at the bottoms of the movable cleaning plates, one of the mounting seats is fixedly provided with a cleaning motor, and an output shaft of the cleaning motor is fixedly arranged at one end of the rotating shaft through a coupling.

Preferably, the chamfer track travelling mechanism comprises upright posts, the bottoms of the four upright posts are fixedly mounted with the top of the machining bottom plate respectively, the tops of the four upright posts are fixedly mounted with a transverse connecting rod and a longitudinal connecting rod respectively, the top of one longitudinal connecting rod is fixedly mounted with a sliding rail, the surface of the sliding rail is in sliding connection with a sliding block, and the top of the sliding block is fixedly mounted with a sliding mounting plate.

Preferably, the top both ends of another vertical connecting rod are all fixed mounting has the bearing frame, and two the opposite surface of bearing frame all rotates through the bearing and is connected with vertical drive shaft, the surface threaded connection of vertical drive shaft has the drive seat, one the bottom fixed mounting of horizontal connecting rod has horizontal driving motor, the output shaft of horizontal driving motor has the flywheel shaft through shaft coupling fixed mounting, the one end fixed mounting of flywheel shaft has big band pulley, the one end fixed mounting of vertical drive shaft has little band pulley, the surface of little band pulley with the surface of big band pulley is all transmitted and is connected with first transmission belt.

Preferably, the top both ends of sliding mounting panel are fixed mounting respectively has vertical driving motor and connecting seat, vertical driving motor's output shaft has the driving shaft through shaft coupling fixed mounting, the one end fixed mounting of driving shaft has the drive pulley, one side surface of connecting seat with the opposite surface of drive seat all is connected with horizontal drive shaft through the bearing rotation, the one end fixed mounting of horizontal drive shaft has driven pulleys, driven pulleys's surface with the equal transmission of the surface of drive pulleys is connected with the second transmission band.

Preferably, a limiting plate and a limiting sliding shaft are fixedly mounted on one side surface of the connecting seat and the opposite surface of the driving seat respectively, a transverse moving plate is connected with the arc surface of the transverse driving shaft in a threaded mode, one end top of the transverse moving plate is connected with the bottom of the limiting plate in a sliding insertion mode, and the other end surface of the transverse moving plate is connected with the arc surface of the limiting sliding shaft in a sliding insertion mode.

Preferably, the chamfering mechanism comprises a chamfering cutter, a vertical driving motor is fixedly arranged at the top of the transverse moving plate, a first bevel gear is fixedly arranged on an output shaft of the vertical driving motor through a coupler, a vertical rotating shaft is rotatably connected with the U-shaped inner top wall and the inner bottom wall of the transverse moving plate through bearings, a second bevel gear is fixedly arranged at the top end of the vertical rotating shaft, and gear teeth of the second bevel gear are meshed with the first bevel gear in size;

the circular arc surface threaded connection of perpendicular pivot has the regulating plate, one side surface of regulating plate with the U type inner wall slip grafting of lateral shifting board, the top fixed mounting of regulating plate has the chamfer motor, the output shaft of chamfer motor has the chamfer axle through shaft coupling fixed mounting, the bottom of chamfer axle with the top fixed mounting of chamfer sword.

The beneficial effects of the utility model are as follows:

The device sets up chamfer orbit running gear and chamfer mechanism in special-shaped sheet metal chamfer and can realize along the orbit automatic movement of predetermineeing, combines chamfer mechanism to carry out the chamfer operation. Thus, the automation of the whole chamfering process can be realized, the manual intervention is reduced, and the production efficiency and consistency are improved; and the chamfering machine can be flexibly adjusted according to the shapes and the sizes of different special-shaped metal plates, and meets the requirements of various complex chamfering processes. The chamfering track travelling mechanism can meet the requirements no matter in straight lines, curves or complex contours, and has stronger universality and adaptability; reduces human intervention and reduces the possibility of human error. Therefore, the processing stability and reliability can be improved, and poor chamfering or waste caused by artificial factors can be avoided.

Drawings

FIG. 1 is a schematic view of an automatic chamfering apparatus for metal pieces;

FIG. 2 is a perspective view of a chamfering track running mechanism of an automatic chamfering device for metal pieces;

Fig. 3 is a perspective view of a cleaning mechanism of an automatic chamfering apparatus for metal pieces.

In the figure: 1. processing a bottom plate; 2. a processing platform; 3. an electromagnet; 4. a cleaning mechanism; 41. a mounting base; 42. a rotating shaft; 43. a slide bar; 44. moving the cleaning plate; 45. cleaning a hairbrush; 46. a cleaning motor; 5. chamfering track travelling mechanism; 51. a column; 52. a transverse link; 53. a longitudinal link; 54. a slide rail; 55. a slide block; 56. a sliding mounting plate; 57. a bearing seat; 58. a longitudinal drive shaft; 59. a driving seat; 510. a transverse driving motor; 511. a pulley shaft; 512. a large belt wheel; 513. a small belt wheel; 514. a first conveyor belt; 515. a longitudinal driving motor; 516. a connecting seat; 517. a driving shaft; 518. a driving belt wheel; 519. a transverse drive shaft; 520. a driven pulley; 521. a second conveyor belt; 522. a limiting plate; 523. limiting the sliding shaft; 524. a lateral moving plate; 6. chamfering mechanism; 61. chamfering tool; 62. a vertical driving motor; 63. a first bevel gear; 64. a vertical rotating shaft; 65. a second bevel gear; 66. an adjusting plate; 67. chamfering motor; 68. and a chamfer shaft.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments.

Referring to fig. 1-3, an automatic chamfering device for metal pieces comprises a machining bottom plate 1, a machining platform 2 is fixedly arranged in the center of the top of the machining bottom plate 1, an electromagnet 3 is arranged in the machining platform 2, and cleaning mechanisms 4 are arranged on the peripheral surface of the machining platform 2.

In order to realize the action of automatic cleaning after the top chamfer of the processing platform 2 is processed; the cleaning mechanism 4 comprises mounting seats 41, four mounting seats 41 are respectively arranged at four corners of the processing platform 2, rotating shafts 42 are respectively connected to opposite surfaces of the two mounting seats 41 through bearings in a rotating mode, sliding rods 43 are respectively and fixedly arranged on opposite surfaces of the other two mounting seats 41, movable cleaning plates 44 are connected to arc surfaces of the rotating shafts 42 in a threaded mode, one ends of the movable cleaning plates 44 are slidably inserted into the arc surfaces of the sliding rods 43, cleaning brushes 45 are fixedly arranged at bottoms of the movable cleaning plates 44, cleaning motors 46 are fixedly arranged on surfaces of one mounting seat 41, and output shafts of the cleaning motors 46 are fixedly arranged at one ends of the rotating shafts 42 through couplings.

In particular, two of the mounting seats 41 are rotatably connected to a rotary shaft 42 through bearings, and the cleaning plate 44 is moved by screw connection, and the slide bars 43 are fixedly mounted on the opposite surfaces of the other two mounting seats 41. Through the cooperation of the rotating shaft 42 and the sliding rod 43, the movable cleaning plate 44 can automatically clean in the area of the top chamfer of the processing platform 2; the bottom of the movable cleaning plate 44 is fixedly provided with a cleaning brush 45, so that sundries such as cuttings and the like generated in the processing process can be effectively removed; when the cleaning machine is used, the cleaning motor 46 drives the rotating shaft 42 to rotate through the output shaft, and then drives the movable cleaning plate 44 to perform movable cleaning, so that sundries at the chamfer of the top of the processing platform 2 are cleaned. The use efficiency and the cleanliness of the processing platform 2 can be greatly improved, and the labor intensity of workers can be reduced.

The top of the processing bottom plate 1 is also respectively provided with a chamfering track traveling mechanism 5 and a chamfering mechanism 6.

In order to realize the action of automatically tracking and walking along the outline dimension of the special-shaped metal plate in the chamfering of the special-shaped metal plate; the chamfering track traveling mechanism 5 comprises upright posts 51, bottoms of the four upright posts 51 are fixedly mounted with the top of the machining bottom plate 1 respectively, transverse connecting rods 52 and longitudinal connecting rods 53 are fixedly mounted on the tops of the four upright posts 51 respectively, sliding rails 54 are fixedly mounted on the tops of one longitudinal connecting rod 53, sliding blocks 55 are inserted on the surfaces of the sliding rails 54 in a sliding manner, and sliding mounting plates 56 are fixedly mounted on the tops of the sliding blocks 55.

In particular, in the operation process, the special-shaped metal plate is placed on the processing bottom plate 1, and the chamfering track traveling mechanism 5 automatically adjusts and travels according to the outline dimension of the special-shaped metal plate; when the sliding block 55 moves along the sliding mounting plate 56 on the sliding rail 54, the sliding block 55 can be correspondingly adjusted according to the outline dimension of the special-shaped metal plate, and chamfering is performed. Through the design, the accuracy and consistency of chamfering processing can be ensured, and the processing efficiency and the product quality are improved; the chamfering processing can be carried out by adapting to special-shaped metal plates with different shapes and sizes; automatic operation can be realized, and manual intervention is reduced; the precision and efficiency of chamfering processing can be improved.

The bearing seats 57 are fixedly installed at the two ends of the top of the other longitudinal connecting rod 53, the opposite surfaces of the two bearing seats 57 are rotatably connected with the longitudinal driving shafts 58 through bearings, the surfaces of the longitudinal driving shafts 58 are in threaded connection with the driving seats 59, the bottom of one transverse connecting rod 52 is fixedly provided with the transverse driving motor 510, the output shaft of the transverse driving motor 510 is fixedly provided with the belt wheel shaft 511 through a coupler, one end of the belt wheel shaft 511 is fixedly provided with the large belt wheel 512, one end of the longitudinal driving shaft 58 is fixedly provided with the small belt wheel 513, and the surfaces of the small belt wheel 513 and the large belt wheel 512 are in transmission connection with the first transmission belt 514.

In particular, by adopting the design of the pulley shaft 511 and the transmission belt, the power generated by the transverse driving motor 510 can be effectively transmitted to the longitudinal driving shaft 58, meanwhile, the energy loss in the transmission process is reduced, and the power transmission efficiency is improved; by the connection of the bearing seat 57, the bearing and the driving shaft, and the arrangement of the transverse driving motor 510, the pulley shaft 511 and the driving belt, stable transmission connection in the longitudinal direction is realized, and stable and reliable movement of the chamfering track running mechanism 5 is ensured.

The top both ends of sliding mounting plate 56 are fixed mounting respectively and are had vertical driving motor 515 and connecting seat 516, and the output shaft of vertical driving motor 515 passes through shaft coupling fixed mounting and has driving shaft 517, and driving shaft 517's one end fixed mounting has driving pulley 518, and one side surface of connecting seat 516 and the opposite surface of driving seat 59 all are connected with horizontal drive shaft 519 through the bearing rotation, and one end fixed mounting of horizontal drive shaft 519 has driven pulley 520, and the surface of driven pulley 520 and the surface of driving pulley 518 all transmission is connected with the second conveyer belt 521.

In particular, by means of the drive connection of the coupling, the drive pulley 518 and the driven pulley 520, and the design of the transverse drive motor 510 and the transverse drive shaft 519, a smooth and reliable transverse movement of the chamfer track running gear 5 is ensured.

A limiting plate 522 and a limiting sliding shaft 523 are fixedly mounted on one side surface of the connecting seat 516 and the opposite surface of the driving seat 59 respectively, a transverse moving plate 524 is connected with the arc surface of the transverse driving shaft 519 in a threaded manner, one end top of the transverse moving plate 524 is in sliding connection with the bottom of the limiting plate 522, and the other end surface of the transverse moving plate 524 is in sliding connection with the arc surface of the limiting sliding shaft 523.

Specifically, by providing the limiting plate 522 and the limiting slide shaft 523, smooth and reliable lateral movement of the lateral movement plate 524 is achieved.

In order to realize the action of automatic chamfering after the special-shaped metal plate is clamped; the chamfering mechanism 6 comprises a chamfering cutter 61, a vertical driving motor 62 is fixedly arranged at the top of a transverse moving plate 524, first conical teeth 63 are fixedly arranged on an output shaft of the vertical driving motor 62 through a coupler, a vertical rotating shaft 64 is rotatably connected with the U-shaped inner top wall and the inner bottom wall of the transverse moving plate 524 through bearings, second conical teeth 65 are fixedly arranged at the top end of the vertical rotating shaft 64, and gear teeth of the second conical teeth 65 are meshed with the size of the first conical teeth 63.

Specifically, the rotation of the vertical drive motor 62 rotates the first bevel gear 63, and thus the second bevel gear 65 is engaged with the first bevel gear. The design can realize the action of automatic chamfering without manual operation. The chamfering tool 61 processes the edges of the metal plate to form chamfering, so that the attractiveness and the safety of the product are improved; by adjusting the rotational speed and the stop position of the vertical driving motor 62, the position and the angle of the chamfering blade 61 can be precisely controlled. Therefore, the customized chamfering processing can be carried out on the metal plates with different shapes and sizes according to the requirements, and various requirements are met.

The arc surface threaded connection of perpendicular pivot 64 has regulating plate 66, and one side surface of regulating plate 66 is pegged graft with the U type inner wall slip of lateral shifting board 524, and the top fixed mounting of regulating plate 66 has chamfer motor 67, and the output shaft of chamfer motor 67 passes through shaft coupling fixed mounting and has chamfer axle 68, the bottom of chamfer axle 68 and the top fixed mounting of chamfer sword 61.

Specifically, the chamfering motor 67 and the chamfering shaft 68 are engaged, so that the chamfering blade 61 can perform chamfering stably and uniformly. Therefore, the quality and consistency of chamfering can be ensured, irregular or asymmetric conditions are avoided, and the attractiveness and the service life of the product are improved.

The device sets up chamfer orbit running gear 5 and chamfer mechanism 6 in special-shaped sheet metal chamfer and can realize along predetermineeing the orbit automatic movement, combines chamfer mechanism 6 to carry out the chamfer operation. Thus, the automation of the whole chamfering process can be realized, the manual intervention is reduced, and the production efficiency and consistency are improved; and the chamfering machine can be flexibly adjusted according to the shapes and the sizes of different special-shaped metal plates, and meets the requirements of various complex chamfering processes. The chamfering track traveling mechanism 5 can meet the requirements no matter in straight lines, curves or complex contours, and has strong universality and adaptability; reduces human intervention and reduces the possibility of human error. Therefore, the processing stability and reliability can be improved, and poor chamfering or waste caused by artificial factors can be avoided.

Working principle: in chamfering, the special-shaped metal plate is taken to be placed at the top of the processing platform 2, the electromagnet 3 is used for controlling the special-shaped metal plate to conduct magnetic attraction clamping, then the transverse driving motor 510, the longitudinal driving motor 515, the vertical driving motor 62 and the chamfering motor 67 are controlled to work according to the track route of the plate, the transverse driving motor 510 is controlled to move in the longitudinal direction of the chamfering cutter 61, the longitudinal driving motor 515 is controlled to move in the transverse direction, therefore, track route walking is formed under the transverse and longitudinal matched movement, meanwhile, the vertical driving motor 62 is controlled to move downwards to be in contact with the surface of the special-shaped metal plate, and the chamfering operation is conducted on the special-shaped metal plate through the rotation of the chamfering motor 67 and the chamfering cutter 61.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (3)

1. Automatic chamfering equipment for metal pieces, comprising a processing bottom plate (1), and being characterized in that: the machining device is characterized in that a machining platform (2) is fixedly arranged in the center of the top of the machining bottom plate (1), an electromagnet (3) is arranged in the machining platform (2), a cleaning mechanism (4) is arranged on the peripheral surface of the machining platform (2), and the cleaning mechanism (4) realizes the action of automatic cleaning after the top chamfer of the machining platform (2) is machined;

The top of the machining bottom plate (1) is also respectively provided with a chamfering track travelling mechanism (5) and a chamfering mechanism (6), and the chamfering track travelling mechanism (5) can automatically track and travel along with the outline dimension of the special-shaped metal plate in chamfering;

The chamfering track traveling mechanism (5) comprises upright posts (51), the bottoms of the four upright posts (51) are fixedly arranged at the top of the machining bottom plate (1) respectively, a transverse connecting rod (52) and a longitudinal connecting rod (53) are fixedly arranged at the top of the four upright posts (51), a sliding rail (54) is fixedly arranged at the top of one longitudinal connecting rod (53), a sliding block (55) is slidably inserted on the surface of the sliding rail (54), and a sliding mounting plate (56) is fixedly arranged at the top of the sliding block (55);

Bearing seats (57) are fixedly arranged at two ends of the top of the other longitudinal connecting rod (53), longitudinal driving shafts (58) are rotatably connected to opposite surfaces of the two bearing seats (57) through bearings, driving seats (59) are connected to the surfaces of the longitudinal driving shafts (58) through threads, a transverse driving motor (510) is fixedly arranged at the bottom of one transverse connecting rod (52), a pulley shaft (511) is fixedly arranged on an output shaft of the transverse driving motor (510) through a coupler, a large pulley (512) is fixedly arranged at one end of the pulley shaft (511), a small pulley (513) is fixedly arranged at one end of the longitudinal driving shaft (58), and a first transmission belt (514) is in transmission connection with the surfaces of the small pulley (513) and the large pulley (512);

the two ends of the top of the sliding mounting plate (56) are respectively and fixedly provided with a longitudinal driving motor (515) and a connecting seat (516), an output shaft of the longitudinal driving motor (515) is fixedly provided with a driving shaft (517) through a coupler, one end of the driving shaft (517) is fixedly provided with a driving belt wheel (518), one side surface of the connecting seat (516) and the opposite surface of the driving seat (59) are respectively and rotatably connected with a transverse driving shaft (519) through bearings, one end of the transverse driving shaft (519) is fixedly provided with a driven belt wheel (520), and the surfaces of the driven belt wheel (520) and the driving belt wheel (518) are respectively and drivingly connected with a second transmission belt (521);

A limiting plate (522) and a limiting slide shaft (523) are fixedly arranged on one side surface of the connecting seat (516) and the opposite surface of the driving seat (59) respectively, a transverse moving plate (524) is connected with the arc surface of the transverse driving shaft (519) in a threaded manner, one end top of the transverse moving plate (524) is in sliding connection with the bottom of the limiting plate (522), and the other end surface of the transverse moving plate (524) is in sliding connection with the arc surface of the limiting slide shaft (523);

The chamfering mechanism (6) realizes the action of automatic chamfering after the special-shaped metal plate is clamped.

2. An automatic chamfering apparatus for metal pieces as defined in claim 1, wherein: the cleaning mechanism (4) comprises mounting seats (41), four mounting seats (41) are respectively arranged at four corners of the processing platform (2), two of the four corners are respectively connected with a rotating shaft (42) through bearing rotation on opposite surfaces of the mounting seats (41), sliding rods (43) are respectively fixedly arranged on opposite surfaces of the other two mounting seats (41), a movable cleaning plate (44) is connected with an arc surface of each rotating shaft (42) through threads, one end of each movable cleaning plate (44) is in sliding connection with an arc surface of each sliding rod (43), a cleaning hairbrush (45) is fixedly arranged at the bottom of each movable cleaning plate (44), a cleaning motor (46) is fixedly arranged on the surface of each mounting seat (41), and an output shaft of each cleaning motor (46) is fixedly arranged at one end of each rotating shaft (42) through a coupler.

3. An automatic chamfering apparatus for metal pieces as defined in claim 1, wherein: the chamfering mechanism (6) comprises a chamfering cutter (61), a vertical driving motor (62) is fixedly arranged at the top of the transverse moving plate (524), a first bevel gear (63) is fixedly arranged on an output shaft of the vertical driving motor (62) through a coupler, a vertical rotating shaft (64) is rotatably connected with the U-shaped inner top wall and the inner bottom wall of the transverse moving plate (524) through bearings, a second bevel gear (65) is fixedly arranged at the top end of the vertical rotating shaft (64), and gear teeth of the second bevel gear (65) are meshed with the first bevel gear (63) in size;

The utility model discloses a chamfering tool, including angle (61) and angle motor, including angle motor (67), arc surface threaded connection of perpendicular pivot (64) has regulating plate (66), one side surface of regulating plate (66) with the U type inner wall slip grafting of lateral shifting board (524), the top fixed mounting of regulating plate (66) has chamfer motor (67), the output shaft of chamfer motor (67) has chamfer axle (68) through shaft coupling fixed mounting, the bottom of chamfer axle (68) with the top fixed mounting of chamfer sword (61).