CN114406697A - Coffee machine tray inner hole machining device and machining process - Google Patents

Abstract

The application relates to the field of machining of coffee machine accessories, in particular to a machining device and a machining process for an inner hole of a tray of a coffee machine, and the machining device comprises a base, wherein a drilling mechanism is slidably arranged on the base and comprises a sliding box, a driving part, an execution part I and an execution part II, the execution part I and the execution part II are rotatably arranged at the upper end of the sliding box, the driving part is arranged in the sliding box, and the first execution part and the second execution part are driven to change the working state, the drilling mechanism further comprises a control assembly, the control assembly comprises a first control plate and a second control plate, one end of the first control plate is in sliding connection with the first execution part, one end of the second control plate is in sliding connection with the second execution part, the drilling mechanism further comprises a limiting assembly, and the limiting assembly limits the distance moved by the sliding box.

Description

Coffee machine tray inner hole machining device and machining process

Technical Field

The application relates to the field of machining of coffee machine accessories, in particular to a machining device and a machining process for an inner hole of a tray of a coffee machine.

Background

The coffee machine is a machine which can realize the automatic control of the whole coffee brewing process of grinding, pressing, filling, brewing, removing residues and the like. The coffee machine comprises a tray, a water tank, a steam pipe, a handle and the like, wherein the tray is designed into different shapes according to the appearance of the coffee machine, (refer to fig. 1) generally has an arc shape, both ends of the arc shape are provided with buckles 11, and a round hole 12 passing through a chamfer angle is usually formed in the inner side wall of each buckle, so that the tray 1 is convenient to install in the coffee machine. Simultaneously, the tray still needs to be electroplated usually after the machine-shaping, and round hole 12 on the buckle 11 also conveniently hangs tray 1 to carry out electroplating treatment.

At present, traditional mode of punching is that the inside wall of the buckle of tray both sides is carried out the grooving through CNC lathe and is handled, finally forms the square groove, but this processing mode is efficiency generally lower to the processing cost that leads to the tray is higher.

Disclosure of Invention

In order to improve the processing efficiency of the tray, the application provides a coffee machine tray inner hole processing device and a processing technology.

In a first aspect, the application provides a coffee machine tray inner hole processing device, which adopts the following technical scheme:

the utility model provides a coffee machine tray hole processingequipment, includes the base, detachably is equipped with the mould on the base, slidable mounting has drilling mechanism on the base, drilling mechanism includes smooth case, driver part, executive component one and executive component two, executive component one includes drilling subassembly one, chamfer subassembly one and plectane one, drilling subassembly one and chamfer subassembly one are all installed on plectane one, the executive component two includes drilling subassembly two, chamfer subassembly two and plectane two, drilling subassembly two and chamfer subassembly two are all installed on plectane two, executive component one and executive component two rotate through plectane one and plectane two respectively and install the both sides in smooth case upper end, driver part installs in smooth case, drilling mechanism still includes control assembly, control assembly includes control panel one and control panel two, the one end of control panel one links to each other with executive component one, the drilling mechanism comprises a base, a driving part, an execution part I, a control board II, a limiting assembly and a sliding box, wherein the driving part drives the execution part I to rotate through the control board, one end of the control board II is connected with the execution part II, the driving part drives the execution part II to rotate through the control board II, the drilling mechanism further comprises the limiting assembly, the limiting assembly is installed on the base, and the limiting assembly limits the moving distance of the sliding box.

By adopting the technical scheme, the drilling mechanism is arranged, automatic drilling of the buckle of the tray is conveniently realized through the drilling mechanism, the processing efficiency of the tray is improved, the slide box is arranged, the components in the drilling mechanism are convenient to install, the driving component is arranged, the switching of the working states of drilling and chamfering is conveniently realized by controlling the components in the drilling mechanism through the driving component, the first execution component is arranged, the drilling and chamfering of one side of the tray is conveniently realized through the first execution component, the second execution component is arranged, the drilling and chamfering of the other side of the tray are conveniently realized through the second execution component, the first drilling component and the first chamfering component are connected through the first circular plate, the first circular plate is conveniently driven to rotate, the switching of the working states of drilling and chamfering of the first execution component is realized, the second drilling component and the second chamfering component are connected through the second circular plate, and the second circular plate is conveniently driven to rotate, thereby realize the drilling of executive component two and the switching of chamfer operating condition, set up control assembly, conveniently switch the operating condition of drilling and chamfer through control assembly, set up control panel one, conveniently control the switching of the operating condition of executive component through control panel one, set up control panel two, conveniently control the switching of the operating condition of executive component two through control panel two, set up spacing subassembly, conveniently control the distance that executive component one and executive component two fed through spacing subassembly.

In a specific possible embodiment, the driving component comprises a driving motor, a first bevel gear, a driving gear, a second bevel gear and a control gear, the driving motor is fixedly installed in the sliding box, the first bevel gear is fixedly connected with a driving shaft of the driving motor, the driving gear and the second bevel gear are coaxially and rotatably installed in the sliding box, the first bevel gear is meshed with the second bevel gear, the control gear is rotatably installed in the sliding box and located above the driving gear, the driving gear is meshed with the control gear, and the control gear drives the first actuating component and the second actuating component to rotate.

Through adopting the above-mentioned technical scheme, set up driving motor, it rotates with executive component two to conveniently drive executive component one through driving motor, thereby realize operating condition's switching, set up bevel gear one, it rotates with executive component two to conveniently drive executive component one through bevel gear one, set up drive gear, make things convenient for driving motor to drive executive component one and executive component two through bevel gear rotates, set up drive gear, the rotation of convenient transmission driving motor through drive gear, thereby drive executive component one and executive component two and rotate, set up bevel gear two, make things convenient for driving motor to drive gear through bevel gear two and rotate, set up control gear, make things convenient for drive gear to drive control gear to rotate, thereby drive executive component one and executive component two and rotate.

In a specific implementation mode, the first execution part further comprises a first rotating shaft, the first rotating shaft is rotatably installed on the sliding box, one end of the first rotating shaft is fixedly connected with the first circular plate, a first transmission gear is slidably installed on the first rotating shaft, the first transmission gear and the first rotating shaft rotate coaxially, and the control gear is meshed with the first transmission gear; the second executing component further comprises a second rotating shaft, the second rotating shaft is rotatably installed on the sliding box, one end of the second rotating shaft is fixedly connected with the second circular plate, a second transmission gear is slidably installed on the second rotating shaft, the second transmission gear coaxially rotates with the second rotating shaft, and the control gear is meshed with the second transmission gear.

By adopting the technical scheme, set up axis of rotation one, conveniently realize the rotation of executive component one through axis of rotation one, set up drive gear one, conveniently drive axis of rotation one through drive gear and rotate, with drive gear one slidable mounting on axis of rotation one, make things convenient for drive gear one to slide in axis of rotation one, make drive gear one and control gear meshing, thereby make things convenient for control gear to drive gear one and rotate, set up axis of rotation two, conveniently realize the rotation of executive component two through axis of rotation two, set up drive gear two, conveniently drive axis of rotation two through drive gear two and rotate, with drive gear two slidable mounting on axis of rotation two, make things convenient for drive gear two to slide in axis of rotation two, make drive gear two and control gear meshing, thereby make things convenient for control gear to drive gear two and rotate.

In a specific implementation mode, the control assembly further comprises a first control rod and a second control rod, the first control rod is slidably mounted on the side wall of the sliding box, one end of the first control rod, which is located in the sliding box, is rotatably connected with one end of the control plate, one end of the first control plate, which is far away from the first control rod, is slidably mounted on the first rotating shaft, and the side wall of the first control plate, which is located at the first rotating shaft, is abutted against the side wall of the first transmission gear; two slidable mounting of control lever are at the opposite side of the lateral wall of smooth case, and the one end that is located smooth incasement rotates with two control panels to be connected, two one end slidable mounting that keep away from two control lever of control panel are on two axes of rotation, the control panel is two and is contradicted with the lateral wall of drive gear two in the lateral wall of two departments of axis of rotation.

Through adopting above-mentioned technical scheme, set up control lever one, conveniently drive control panel one through the control lever and rotate to realize the control that a pair of executive component one operating condition of control panel switches, set up control lever two, conveniently drive control panel two through control lever two and rotate, thereby realize the control that two executive component two operating condition of control panel switch.

In a specific implementation scheme, a first baffle is fixedly installed at one end, away from a first circular plate, of a first rotating shaft, a first spring is sleeved on the first rotating shaft, one end of the first spring abuts against the end face of the first baffle, and the other end of the first spring abuts against the side wall of the first transmission gear; and a second baffle is fixedly arranged at one end of the second rotating shaft, which is far away from the second circular plate, a second spring is sleeved on the second rotating shaft, one end of the second spring is abutted against the end face of the second baffle, and the other end of the second spring is abutted against the side wall of the second transmission gear.

By adopting the technical scheme, the first baffle is arranged, the sliding distance of the first transmission gear through the first baffle is conveniently limited, the first spring is arranged, the first transmission gear is conveniently driven to slide through the first spring, so that the first transmission gear and the control gear are disengaged from each other, the second baffle is arranged, the sliding distance of the second transmission gear through the two pairs of baffles is conveniently limited, the second spring is arranged, the second transmission gear is conveniently driven to slide through the second spring, and therefore the second transmission gear and the control gear are disengaged from each other.

In a specific implementation scheme, the limiting component comprises a first limiting rod, a second limiting rod, a first limiting plate and a second limiting plate, the first limiting plate is slidably mounted on one side of the base, which is close to the first control rod, the end part of the first control rod is abutted against the end surface of the first limiting plate, the second limiting plate is slidably mounted on one side of the base, which is close to the second control rod, the end part of the second control rod is abutted against the end surface of the second limiting plate, the first limiting rod is fixedly mounted on the side wall, which is positioned on one side of the first control rod, on the sliding box, the length of the first limiting rod is smaller than that of the first control rod, which is positioned outside the sliding box, the second limiting rod is fixedly mounted on the side wall, which is positioned on one side of the second control rod, on the sliding box, the length of the second limiting rod is smaller than that of the second control rod, sensors are arranged on the surfaces, facing the sliding box, of the first limiting plate and the second limiting plate, the first limiting rod is abutted with a sensor on the first limiting plate, the second limiting rod is abutted with a sensor on the second limiting plate, the limiting assembly further comprises a first limiting bolt and a second limiting bolt, the first limiting bolt is in threaded fit with the side wall of the base, one end of the first limiting bolt is rotatably connected with the first limiting plate, the second limiting bolt is in threaded fit with the side wall of the base, and one end of the second limiting bolt is rotatably connected with the second limiting plate.

By adopting the technical scheme, a first limiting plate and a second limiting plate are arranged, the moving distance of the sliding box is conveniently limited through the first limiting plate and the second limiting plate, the control on the drilling depth of the first executing part and the second executing part is realized, a first limiting rod and a second limiting rod are arranged, the sliding box is convenient to confirm the moving distance of the sliding box through the first limiting rod and the second limiting rod, the sliding distance of the sliding box in different directions is controlled, the length of the first limiting rod is set to be smaller than that of the first limiting rod which is positioned outside the sliding box, the sliding of the sliding box is convenient to pass, the first limiting plate drives the first limiting rod to slide before the first limiting rod abuts against the first limiting plate, so that the first circular plate rotates, the length of the second limiting rod is set to be smaller than that of the second limiting rod which is positioned outside the sliding box, the sliding of the sliding box is convenient to pass, and the second limiting plate drives the second limiting rod to slide before the second limiting rod abuts against the second limiting plate, thereby make the plectane two realize rotating, set up the sensor, conveniently detect the displacement of smooth case through the sensor to send signal among the control system, thereby make each parts work in the control system control drilling mechanism, realize the function of automatic drilling and chamfer, set up spacing bolt one and spacing bolt two, conveniently adjust the position of limiting plate one and limiting plate two on the base respectively through spacing bolt one and spacing bolt two.

In a specific implementation scheme, the first drilling assembly comprises a first drilling motor and a first drill bit, the first drilling motor is fixedly installed on the first circular plate, the first drill bit is coaxially connected with a driving shaft of the first drilling motor, the first chamfering assembly comprises a first chamfering motor and a first chamfering head, the first chamfering motor is fixedly installed on the first circular plate and is positioned below the first drilling motor, and the first chamfering head is coaxially connected with the driving shaft of the first chamfering motor; the second drilling assembly comprises a second drilling motor and a second drill bit, the second drilling motor is fixedly installed on the second circular plate, the second drill bit is coaxially connected with a driving shaft of the second drilling motor, the second chamfering assembly comprises a second chamfering motor and a second chamfering head, the second chamfering motor is fixedly installed below the second drilling motor on the second circular plate, and the second chamfering head is coaxially connected with the driving shaft of the second chamfering motor.

By adopting the technical scheme, the first drilling motor is arranged, so that the first drilling head can be conveniently driven to rotate by the first drilling motor, thereby realizing the drilling work, the first drill bit is arranged to facilitate the drilling through the buckles of the pair of trays of the first drill bit, the first chamfering motor is arranged to facilitate the driving of the first chamfering head to rotate through the first chamfering motor, thereby realizing chamfering work, arranging the chamfering head I to facilitate chamfering the edge of the drilled hole through the chamfering head I, arranging the drilling motor II to facilitate driving the drilling bit II to rotate through the drilling motor II, thereby realizing the drilling work of the other side of the tray, arranging a second drill bit to facilitate the drilling through the buckles of the two drill bits on the other side of the tray, arranging a second chamfering motor to facilitate the driving of the second chamfering head to rotate through the second chamfering motor, thereby realize chamfering work, set up chamfer head two, conveniently carry out the chamfer through chamfer head two with the edge to the hole of driling.

In a specific possible implementation scheme, a sliding groove is formed in the base, the sliding box is slidably mounted in the sliding groove, a screw rod is rotatably mounted in the sliding groove, the sliding box is in threaded fit with the screw rod, a moving motor is fixedly mounted on one side of the base, and a driving shaft of the moving motor is coaxially connected with the screw rod.

Through adopting above-mentioned technical scheme, set up the spout, make things convenient for the sliding box to slide along the spout, confirm the gliding track of sliding box, set up the lead screw, conveniently through the slip of lead screw drive sliding box, set up the moving motor, conveniently rotate through moving motor drive lead screw to realize that the automatic control sliding box slides.

In a specific can implement embodiment, a plurality of constant head tanks have all been seted up near plectane one and plectane two places on the lateral wall of slide box, slidable mounting has the reference column in the constant head tank, still install spring three in the constant head tank, the one end of spring three is contradicted with the diapire of reference column, and the other end is contradicted with the diapire of constant head tank, all set up the locating hole with the reference column joint on plectane one and the plectane two.

Through adopting above-mentioned technical scheme, set up the constant head tank, the reference column of easy to assemble sets up the reference column, conveniently fixes a position plectane one and plectane two through the reference column, thereby improve the stability of executive component one and the work of executive component two, set up spring three, conveniently realize through spring three that the reference column slides and the function that resets in the constant head tank, realize the function of reference column to plectane one and plectane two location better, set up the locating hole, make things convenient for reference column and locating hole joint, thereby improve the stability of reference column location.

In a second aspect, the application further provides a machining process for an inner hole of the tray of the coffee machine, and the following technical scheme is adopted:

adjusting the positions of the first limiting plate and the second limiting plate;

starting a moving motor to drive the sliding box to slide;

starting a first drilling motor to drive a first drill bit to rotate;

when the control rod II abuts against the limiting plate II, the drill bit is used for drilling holes through the pair of buckles, meanwhile, the control rod II drives the transmission gear II to slide to be meshed with the control gear, the driving motor is started, the control gear is driven to rotate, the circular plate II is driven to rotate, and the drill bit is aligned to the buckles;

the second limiting rod abuts against a sensor on the second limiting plate, the sensor sends a signal to a control system, and the control system controls the moving motor to change the rotating direction and drives the sliding box to slide towards the first limiting plate;

when the first control rod abuts against the limiting plate, the drill bit drills the two pairs of buckles, meanwhile, the control rod drives the first transmission gear to slide to be meshed with the control gear, the driving motor is started, the control gear is driven to rotate, the first circular plate is driven to rotate, and the first chamfering head is aligned with a circular hole drilled by the first drill bit;

the first limiting rod abuts against the sensor on the first limiting plate, the sensor sends a signal to the control system, and the control system controls the moving motor to change the rotating direction and drives the sliding box to slide towards the second limiting plate;

when the control rod II abuts against the limiting plate II, the chamfering head I performs chamfering on the round hole, meanwhile, the control rod II drives the transmission gear II to slide to be meshed with the control gear, the driving motor is started, the control gear is driven to rotate, the circular plate II is driven to rotate, and the chamfering head II is aligned to the round hole drilled by the drill bit II;

the second limiting rod abuts against a sensor on the second limiting plate, the sensor sends a signal to a control system, and the control system controls the moving motor to change the rotating direction and drives the sliding box to slide towards the first limiting plate;

when the first control rod abuts against the limiting plate, the chamfering head performs chamfering on two pairs of round holes, meanwhile, the control rod drives the first transmission gear to slide to be meshed with the control gear, the driving motor is started, the control gear is driven to rotate, the first circular plate is driven to rotate, and the drill bit is aligned to the buckle;

the first limiting rod abuts against the sensor on the first limiting plate, the sensor sends a signal to the control system, the control system controls the moving motor to change the rotating direction, the sliding box is driven to return to the initial position, and drilling and chamfering of the buckle are completed.

In summary, the present application includes at least one of the following benefits:

1. this application is through setting up drilling mechanism, conveniently realizes carrying out the function of automatic drilling and chamfer through drilling mechanism to the buckle on the tray.

2. This application is through setting up control assembly, conveniently controls the drilling of executive component one and executive component two and the switching of chamfer operating condition through control assembly.

3. This application is through setting up spacing subassembly, conveniently through spacing subassembly control executive component one and executive component two's feed volume to improve drilling mechanism's work precision.

4. This application is through setting up the sensor, conveniently detects the operating condition of spacing subassembly through the sensor to send signal to control system, make each part work in the control system control drilling mechanism, thereby realize automatic drilling and chamfer.

Drawings

Fig. 1 is a schematic structural diagram of a product in the embodiment of the present application.

Fig. 2 is a schematic structural diagram of an embodiment of the present application.

Fig. 3 is a schematic view of the installation of the product in the embodiment of the present application.

Fig. 4 is a back sectional view of the drilling mechanism in the embodiment of the present application.

Fig. 5 is an exploded view of a drilling mechanism in an embodiment of the present application.

Fig. 6 is an enlarged view at a in fig. 5.

Description of reference numerals:

1. a tray; 11. buckling; 12. a circular hole; 2. a mold; 3. a base; 31. a chute; 4. a drilling mechanism; 41. a slide box; 411. positioning a groove; 42. an execution component II; 421. a second chamfer head; 422. a second drill bit; 423. chamfering a motor II; 424. a drilling motor II; 425. a second circular plate; 426. a second rotating shaft; 4261. a second rotating shaft groove; 427. a second transmission gear; 4271. a second sliding block; 428. a second spring; 429. a second baffle plate; 43. a first execution component; 431. a first drill bit; 432. a first chamfering head; 433. a drilling motor I; 434. chamfering the motor I; 435. a circular plate I; 436. rotating a first shaft; 4361. a first rotating shaft groove; 437. a first transmission gear; 4371. a first sliding block; 438. a first spring; 439. a first baffle plate; 44. a control component; 441. a first control panel; 442. a first control rod; 443. a fourth spring; 444. a first baffle ring; 445. a second control panel; 446. a second control rod; 447. a second baffle ring; 448. a fifth spring; 45. a drive member; 451. a drive motor; 452. a first bevel gear; 453. a second bevel gear; 454. a drive gear; 455. a control gear; 46. a positioning column; 47. a third spring; 5. a moving motor; 51. a screw rod; 6. a limiting component; 61. a first limiting plate; 62. a second limiting plate; 63. a second limiting bolt; 64. a sensor; 65. a first limiting rod; 66. a second limiting rod; 67. and a first limiting bolt.

Detailed Description

The present application is described in further detail below with reference to figures 2-6.

The embodiment of the application discloses coffee machine tray hole processingequipment, refer to fig. 2 and fig. 3, including base 3, detachably installs mould 2 on the base 3, and 1 back-off of tray is on mould 2, and the buckle 11 of 1 both sides of tray stretches out mould 2 outward. A drilling mechanism 4 is slidably mounted on the base 3 close to the buckle 11 of the tray 1, and the buckle 11 of the tray 1 is drilled and chamfered through the drilling mechanism 4.

Referring to fig. 3, a sliding groove 31 is formed in the base 3 near the mold 2, a screw rod 51 is rotatably mounted in the sliding groove 31, a moving motor 5 is fixedly mounted on one side of the base 3, and a driving shaft of the moving motor 5 is fixedly connected with the screw rod 51.

Referring to fig. 2 and 4, the drilling mechanism 4 includes a slide case 41 and a driving part 45, the slide case 41 is slidably mounted on the base 3, and the bottom thereof is screw-engaged with the screw 51. Referring to fig. 4, the driving part 45 includes a driving motor 451, a first bevel gear 452, a second bevel gear 453, a driving gear 454 and a control gear 455, the driving motor 451 is fixedly installed on the bottom wall of the sliding box 41, the first bevel gear 452 is fixedly installed on the driving shaft of the driving motor 451, the second bevel gear 453 and the driving gear 454 are coaxially installed in the sliding box 41, the first bevel gear 452 is meshed with the second bevel gear 453, the control gear 455 is rotatably installed in the sliding box 41 above the driving gear 454, and the control gear 455 is meshed with the driving gear 454, the driving motor 451 drives the first bevel gear 452 to rotate, the first bevel gear 452 drives the second bevel gear 453 to rotate, the second bevel gear 453 drives the driving gear 454 to rotate, and the driving gear 454 drives the control gear 455 to rotate.

Referring to fig. 4, the drilling mechanism 4 further includes an actuating member one 43, the actuating member one 43 includes a drilling assembly one, a chamfering assembly one, a circular plate one 435 and a rotating shaft one 436, the drilling assembly one includes a drilling motor one 433 and a drill bit one 431, the drilling motor one 433 is fixedly installed on the circular plate one 435, the drill bit one 431 is coaxially connected with a driving shaft of the drilling motor one 433, and referring to fig. 2, the drill bit one 431 faces the buckle 11 on one side of the tray 1. Referring to fig. 4, the chamfering assembly includes a chamfering motor one 434 and a chamfering head one 432, the chamfering motor one 434 is fixedly installed on the circular plate one 435 below the drilling motor one 433, and the chamfering head one 432 is coaxially connected with a driving shaft of the chamfering motor one 434. The first rotating shaft 436 is fixedly arranged at the center of the end face of the first circular plate 435 away from the first drilling motor 433, and the first rotating shaft 436 penetrates through the side wall of the sliding box 41 and is rotatably arranged at the upper end of the sliding box 41.

Referring to fig. 4, a first baffle 439 is fixedly mounted at one end of the first rotating shaft 436, which is far away from the first circular plate 435, a first transmission gear 437 is slidably mounted on the first rotating shaft, which is close to the first baffle 439, and a first driving gear 454 is positioned above the control gear 455, referring to fig. 5, a first rotating shaft groove 4361 is formed in the first rotating shaft 436, which is close to the baffle and along the axial direction, and referring to fig. 6, a first sliding block 4371 is fixedly mounted on the side wall of the inner ring of the first transmission gear 437, and the first sliding block 4371 slides in the first rotating shaft groove 4361. Referring to fig. 4, a first spring 438 is sleeved on the first rotating shaft 436 between the first baffle 439 and the first transmission gear 437, one end of the first spring 438 abuts against the end surface of the first transmission gear 437, and the other end abuts against the end surface of the first baffle 439. The first transmission gear 437 slides along the first rotating shaft 436, so that the first transmission gear 437 is meshed with the control gear 455, the first transmission gear 437 drives the first transmission gear 437 to rotate, the first transmission gear 437 drives the first rotating shaft 436 to rotate, the first circular plate 435 is driven to rotate, the relative positions of the first drill bit 431 and the first chamfering head 432 are exchanged, and after the positions of the first drill bit 431 and the first chamfering head 432 are exchanged, the first transmission gear 437 slides to be separated from the control gear 455 under the driving of the first spring 438.

Referring to fig. 4, the drilling mechanism 4 further includes a second actuator 42, the second actuator 42 includes a second drilling assembly, a second chamfering assembly, a second circular plate 425 and a second rotating shaft 426, the second drilling assembly includes a second drilling motor 424 and a second drilling head 422, the second drilling motor 424 is fixedly mounted on the second circular plate 425, the second drilling head 422 is coaxially connected with a driving shaft of the second drilling motor 424, and referring to fig. 2, the second drilling head 422 faces the buckle 11 on the other side of the tray 1. Referring to fig. 4, the chamfering assembly includes a second chamfering motor 423 and a second chamfering head 421, the second chamfering motor 423 is fixedly mounted on the second circular plate 425 and located above the second drilling motor 424, and the second chamfering head 421 is coaxially connected with a driving shaft of the second chamfering motor 423. The second rotating shaft 426 is fixedly installed at the center of the end face, away from the second drilling motor 424, of the second circular plate 425, the second rotating shaft 426 penetrates through the side wall of the sliding box 41 and is rotatably installed at the upper end of the sliding box 41, and the axis of the first rotating shaft 436 is collinear with the axis of the second rotating shaft 426.

Referring to fig. 4, a second baffle 429 is fixedly installed at the two ends of the second rotating shaft 426, which are far away from the second circular plate 425, a second transmission gear 427 is installed on the second rotating shaft in a sliding manner, which is close to the second baffle 429, and the second driving gear 454 is located above the control gear 455, referring to fig. 5, a second rotating shaft groove 4261 is formed in the second rotating shaft 426, which is close to the baffle and extends along the axial direction, and referring to fig. 6, a second sliding block 4271 is fixedly installed on the side wall of the inner ring of the second transmission gear 427, and the second sliding block 4271 slides in the second rotating shaft groove 4261. Referring to fig. 4, a second spring 428 is sleeved on the second rotating shaft 426 and located between the second baffle 429 and the second transmission gear 427, and two ends of the second spring 428 abut against the end face of the second transmission gear 427 and the other two ends abut against the end face of the second baffle 429. The second transmission gear 427 slides along the second rotating shaft 426, so that the second transmission gear 427 is meshed with the control gear 455, the second transmission gear 455 drives the second transmission gear 427 to rotate, the second transmission gear 427 drives the second rotating shaft 426 to rotate, so as to drive the second circular plate 425 to rotate, so that the relative positions of the second drill bit 422 and the second chamfering head 421 are exchanged, and after the positions of the second drill bit 422 and the second chamfering head 421 are exchanged, the second transmission gear 427 slides to be separated from the control gear 455 under the driving of the second spring 428.

Referring to fig. 4, the drilling mechanism 4 further includes a control assembly 44, the control assembly 44 includes a control plate one 441 and a control rod one 442, the control plate one 441 is rotatably installed at one side of the sliding box 41 near the transmission gear one 437, one end of the control plate one 441 is slidably connected with the rotation shaft one 436 and is abutted against an end surface of the transmission gear one 437, the control rod one 442 penetrates through a side wall of the sliding box 41 at one side of the circular plate one 435, and one end of the control rod one 441 is rotatably connected with one end of the control plate one 436 away from the rotation shaft one 436, referring to fig. 5, a kidney-shaped hole one is formed at a connection position of the control plate one 441 and the rotation shaft one 436, a kidney-shaped hole two is formed at a connection position of the control plate one 441 and the control rod one 442, two circular rings one are fixedly installed at an end portion of the control rod one 442 near the control plate one 441, the control plate one 441 is located between the two circular rings one, a stop ring one 444 is fixedly installed at a position of the control rod one 442 near an inner wall of the sliding box 41, a spring four 443 is sleeved on the control rod one 442 and is sleeved between the stop ring 444 and an inner wall of the sliding box 41, one end of the spring 443 abuts against the end surface of the first retaining ring 444, and the other end abuts against the inner wall of the slide case 41. Referring to fig. 4, by pushing the first control rod 442 toward the sliding box 41, the first control rod 442 drives the first control plate 441 to rotate, the first control plate 441 drives the first transmission gear 437 to slide, so that the first transmission gear 437 engages with the control gear 455, thereby enabling the control gear 455 to drive the first circular plate 435 to rotate, changing the relative positions of the first drill 431 and the first chamfering head 432, and after the relative positions of the first drill 431 and the first chamfering head 432 are exchanged, the first control rod 442 slides in a direction away from the first control plate 441 under the driving of the fourth spring 443.

Referring to fig. 4, the control assembly 44 further includes a second control plate 445 and a second control rod 446, the second control plate 445 is rotatably installed at one side of the sliding box 41 close to the second transmission gear 427, one end of the second control plate 445 is slidably connected with the second rotation shaft 426 and abuts against an end face of the second transmission gear 427, the second control rod 446 passes through a side wall of the sliding box 41 at one side of the second circular plate 425, and one end of the second control plate 445 is rotatably connected with one end of the second control plate 445 away from the second rotation shaft 426, referring to fig. 5, a third kidney-shaped hole is formed at a connection position of the second control plate 445 and the second rotation shaft 426, a fourth kidney-shaped hole is formed at a connection position of the second control plate 445 and the second control rod 446, two second circular rings are fixedly installed on the second control rod 446 close to the second control plate 445, the second control plate 445 is located between the two circular rings, a second stop ring 447 is fixedly installed on the second control rod 446 close to an inner wall of the sliding box 41, and a fifth spring 448 is sleeved on the second control rod 446 between the second stop ring 447 and the inner wall of the sliding box 41, one end of the spring five 448 is abutted against the end surface of the second stop ring 447, and the other end is abutted against the inner wall of the slide case 41. Referring to fig. 4, by pushing the second control rod 446 in the direction of the sliding box 41, the second control rod 446 drives the second control plate 445 to rotate, the second control plate 445 drives the second transmission gear 427 to slide, so that the second transmission gear 427 is engaged with the control gear 455, so that the second circular plate 425 is driven by the control gear 455 to rotate, the relative positions of the second drill bit 422 and the second chamfer head 421 are changed, and after the relative positions of the first drill bit 431 and the first chamfer head 432 are exchanged, the first control rod 442 is driven by the fourth spring 443 to slide in the direction away from the first control plate 441.

Referring to fig. 5, a plurality of positioning grooves 411 are formed in the side walls of the sliding box 41 close to the first circular plate 435 and the second circular plate 425, positioning columns 46 are slidably mounted in the positioning grooves 411, a third spring 47 is further mounted in the positioning grooves 411, one end of the third spring 47 abuts against the bottom wall of the positioning columns 46, the other end of the third spring 47 abuts against the bottom wall of the positioning grooves 411, a plurality of positioning holes are formed in the end surfaces, facing the positioning columns 46, of the first circular plate 435 and the second circular plate 425, and the positioning columns 46 are clamped with the positioning holes.

Referring to fig. 2, the drilling mechanism 4 further includes a limiting assembly 6, the limiting assembly 6 includes a first limiting plate 61, a second limiting plate 62, a first limiting bolt 67 and a second limiting bolt 63, the first limiting plate 61 is slidably mounted on the base 3 at one side of the first control rod 442, the second limiting plate 62 is slidably mounted on the base 3 at one side of the second control rod 446, the first limiting plate 61 and the second limiting plate 62 are both embedded with a sensor 64 on end surfaces facing the sliding box 41, a horizontal plane where the sensor 64 is located below a horizontal plane where axes of the first control rod 442 and the second control rod 446 are located, the first limiting bolt 67 is in threaded fit with a side wall of the base 3, one end of the first limiting plate 61 is rotatably connected with an end surface far away from the sensor 64, the second limiting bolt 63 is in threaded fit with a side wall of the base 3, one end of the second limiting plate 62 is rotatably connected with an end surface far away from the sensor 64, slide bars are both slidably mounted on side walls at both sides of the base 3, one ends of the two sliding rods are fixedly connected with the end faces, far away from the sensor 64, of the first limiting plate 61 and the second limiting plate 62 respectively, and the first limiting plate 61 and the second limiting plate 62 slide relative to the base 3 by rotating the first limiting bolt 67 and the second limiting bolt 63, so that the sliding distance of the sliding box 41 is limited.

Referring to fig. 4, the limiting assembly 6 further includes a first limiting rod 65 and a second limiting rod 66, the first limiting rod 65 is fixedly installed on the side wall of the sliding box 41 on the same side as the first control rod 442, and the length of the first limiting rod 65 is smaller than the length of the first control rod 442 located outside the sliding box 41, in the sliding process of the sliding box 41, the first limiting rod 65 can abut against the sensor 64 on the first limiting plate 61, the second limiting rod 66 is fixedly installed on the side wall of the sliding box 41 on the same side as the second control rod 446, and the length of the second limiting rod 66 is smaller than the length of the second control rod 446 located outside the sliding box 41, and in the sliding process of the sliding box 41, the second limiting rod 66 can abut against the sensor 64 on the second limiting plate 62.

The working principle of the embodiment of the application is as follows: when the drilling mechanism 4 works, the first limiting bolt 67 and the second limiting bolt 63 are rotated, the positions of the first limiting plate 61 and the second limiting plate 62 are adjusted, and the feeding depth of the first drill 431 and the second drill 422 is determined. The moving motor 5 is started to drive the screw rod 51 to rotate in the forward direction, meanwhile, the drilling motor one 433 is started to drive the drill bit one 431 to rotate, the screw rod 51 drives the slide box 41 to move towards the buckle 11 on one side of the second limit plate 62, the drill bit one 431 drills the buckle 11, when the second limit rod 66 abuts against the sensor 64 on the second limit plate 62, the drilling of the buckle 11 is completed, in the process that the second limit rod 66 moves to abut against the sensor 64 on the second limit plate 62, the second control rod 446 keeps abutting against the second limit plate 62, in the moving process of the slide box 41, the second control rod 446 slides towards the inside of the slide box 41 through the second limit plate 62 to drive the second control plate 445 to rotate, the second control plate 445 drives the second transmission gear 427 to slide to be meshed with the control gear 455, at the moment, the driving motor 451 is started, the second rotating shaft 426 is driven to rotate through the control gear 455 to drive the second circular plate 425 to rotate for one circle, the second drill 422 is aligned with the fastener 11 on the side of the tray 1 close to the first limiting plate 61, and the positioning post 46 is fastened to the positioning hole of the second circular plate 425 again.

When the second limiting rod 66 abuts against the sensor 64 on the second limiting plate 62, the sensor 64 sends a signal to the control system, the control system controls the moving motor 5 to change the rotating direction, drives the sliding box 41 to move towards the first limiting plate 61, meanwhile, the second drilling motor 424 works to drive the second drill bit 422 to rotate and drill the buckle 11 close to the first limiting plate 61, when the first control rod 442 abuts against the first limiting plate 61, the sliding box 41 continues to move, so that the first control rod 442 slides into the sliding box 41 to drive the first control plate 441 to rotate, the first transmission gear 437 slides to be meshed with the control gear 455, at this time, the driving motor 451 drives the control gear 455 to rotate, the control gear 455 drives the first rotating shaft 436 to rotate, the first circular plate 435 is driven to rotate for one circle, the first chamfering head 432 is aligned with the circular hole 12 drilled by the first drilling head 431, and meanwhile, the positioning column 46 is clamped with the positioning hole formed in the first circular plate 435 again.

When the first limit rod 65 abuts against the sensor 64 on the first limit plate 61, the sensor 64 sends a signal to the control system, the control system controls the moving motor 5 to change the rotating direction, so as to drive the sliding box 41 to slide towards the second limit plate 62, so that the first chamfering head 432 performs chamfering on the circular hole 12 drilled by the first drill 431 on the buckle 11, when the second control rod 446 abuts against the second limit plate 62, the sliding box 41 continues to move, the second control rod 446 slides towards the sliding box 41, the second control plate 445 is driven to rotate, the second transmission gear 427 is driven to slide to be meshed with the control gear 455, at this time, the driving motor 451 drives the control gear 455 to rotate, the second control gear 455 drives the second rotating shaft 426 to rotate, the second circular plate 425 is driven to rotate for one circle, the second chamfering head 421 is aligned to the circular hole 12 drilled by the second drill 422, and meanwhile, the positioning column 46 is clamped with the positioning hole on the second circular plate 425 again.

When the second limiting rod 66 collides with the sensor 64 on the second limiting plate 62, the sensor 64 sends a signal to the control system, the control system controls the moving motor 5 to change the rotating direction and drive the screw rod 51 to rotate reversely, so as to drive the sliding box 41 to slide towards the first limiting plate 61, so that the second chamfering head 421 chamfers the round hole 12 drilled by the second drill bit 422 on the buckle 11, when the first limiting rod 65 collides with the sensor 64 on the first limiting plate 61, the sensor 64 sends a signal to the control system, the control system controls the moving motor 5 to change the rotating direction and drives the sliding box 41 to move to the initial position, and the drilling and chamfering work is completed.

The embodiment of the application also discloses a processing technology of the inner hole of the tray of the coffee machine:

adjusting the positions of the first limit plate 61 and the second limit plate 62, so as to determine the maximum sliding range of the sliding box 41;

starting the moving motor 5, driving the sliding box 41 to slide, and enabling the sliding box 41 to slide towards the second limiting plate 62;

starting a first drilling motor 433 to drive a first drill bit 431 to rotate;

when the second control rod 446 abuts against the second limiting plate 62, the first drill 431 drills the buckle 11 on one side of the second limiting plate 62, meanwhile, the second control rod 446 drives the second transmission gear 427 to slide to be meshed with the control gear 455, the driving motor 451 is started, the control gear 455 is driven to rotate, the second circular plate 425 is driven to rotate, the second drill 422 is aligned with the buckle 11 on one side of the first limiting plate 61, and meanwhile, the positioning column 46 is clamped with the positioning hole in the second circular plate 425;

the second limiting rod 66 moves to abut against the sensor 64 on the second limiting plate 62, the sensor 64 sends a signal to the control system, the control system controls the moving motor 5 to change the rotating direction, the moving motor 5 drives the sliding box 41 to slide towards the first limiting plate 61 through the screw rod 51, after the second limiting rod 446 is separated from the second limiting plate 62, the second transmission gear 427 is separated from the control gear 455 under the action of the second spring 428, and drives the second control plate 445 to slide towards the direction far away from the control gear 455, and meanwhile, the second control rod 446 slides towards the second limiting plate 62 under the action of the fifth spring 448;

when the first control rod 442 moves to abut against the first limiting plate 61, the second drill bit 422 drills the buckle 11 located at the first limiting plate 61, meanwhile, the first control rod 442 continues to move and drives the first transmission gear 437 to slide to be meshed with the control gear 455, at the moment, the driving motor 451 is started, the driving motor 451 drives the control gear 455 to rotate and drives the first circular plate 435 to rotate, so that the first chamfering head 432 is aligned to the circular hole 12 drilled by the first drill bit 431 on the buckle 11 located at the second limiting plate 62, and meanwhile, the positioning column 46 is clamped with the positioning hole on the first circular plate 435;

when the first limiting rod 65 moves to abut against the sensor 64 on the first limiting plate 61, the sensor 64 sends a signal to the control system, and the control system controls the moving motor 5 to change the rotating direction and drives the sliding box 41 to slide towards the second limiting plate 62;

when the second control rod 446 moves to abut against the second limiting plate 62, the first chamfering head 432 chamfers the circular hole 12 in the buckle 11 at the second limiting plate 62, meanwhile, the second control rod 446 continues to move and drives the second transmission gear 427 to slide to be meshed with the control gear 455, at this time, the driving motor 451 is started, the driving motor 451 drives the control gear 455 to rotate and drives the second circular plate 425 to rotate, so that the second chamfering head 421 aligns with the circular hole 12 drilled by the second drill bit 422 in the buckle 11 at the first limiting plate 61, and meanwhile, the positioning column 46 is clamped with the positioning hole in the second circular plate 425;

when the second limiting rod 66 moves to abut against the sensor 64 on the second limiting plate 62, the sensor 64 sends a signal to the control system, and the control system controls the moving motor 5 to change the rotating direction and drives the sliding box 41 to slide towards the first limiting plate 61;

when the first control rod 442 moves to abut against the first limiting plate 61, the second chamfering head 421 performs chamfering on the circular hole 12, meanwhile, the first control rod 442 continues to move and drives the first transmission gear 437 to slide to be meshed with the control gear 455, at the moment, the driving motor 451 is started to drive the control gear 455 to rotate and drive the first circular plate 435 to rotate, so that the first drill bit 431 is aligned to the buckle 11 located at the second limiting plate 62, and meanwhile, the positioning column 46 is clamped with a positioning hole in the first circular plate 435;

when the first limiting rod 65 moves to abut against the sensor 64 on the first limiting plate 61, the sensor 64 sends a signal to the control system, the control system controls the moving motor 5 to change the rotating direction, the sliding box 41 is driven to return to the initial position, and drilling and chamfering of the buckle 11 are completed.

The above is a preferred embodiment of the present application, and the scope of protection of the present application is not limited by the above, so: all equivalent changes in the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a coffee machine tray hole processingequipment, includes base (3), detachably is equipped with mould (2) on base (3), its characterized in that: the drilling mechanism (4) is arranged on the base (3) in a sliding mode, the drilling mechanism (4) comprises a sliding box (41), a driving component (45), a first executing component (43) and a second executing component (42), the first executing component (43) comprises a first drilling assembly, a first chamfering assembly and a first circular plate (435), the first drilling assembly and the first chamfering assembly are installed on the first circular plate (435), the second executing component (42) comprises a second drilling assembly, a second chamfering assembly and a second circular plate (425), the second drilling assembly and the second chamfering assembly are installed on the second circular plate (425), the first executing component (43) and the second executing component (42) are installed on two sides of the upper end of the sliding box (41) in a rotating mode through the first circular plate (435) and the second circular plate (425) respectively, the driving component (45) is installed in the sliding box (41), and the drilling mechanism (4) further comprises a control assembly (44), the control assembly (44) comprises a first control plate (441) and a second control plate (445), one end of the first control plate (441) is connected with a first execution component (43), the first execution component (43) is driven to rotate by the first control plate (441) through the driving component (45), one end of the second control plate (445) is connected with a second execution component (42), the second execution component (42) is driven to rotate by the driving component (45) through the second control plate (445), the drilling mechanism (4) further comprises a limiting assembly (6), the limiting assembly (6) is installed on the base (3), and the limiting assembly (6) limits the moving distance of the sliding box (41).

2. The coffee machine tray inner hole processing device of claim 1, characterized in that: the driving component (45) comprises a driving motor (451), a first bevel gear (452), a driving gear (454), a second bevel gear (453) and a control gear (455), the driving motor (451) is fixedly installed in the sliding box (41), the first bevel gear (452) is fixedly connected with a driving shaft of the driving motor (451), the driving gear (454) and the second bevel gear (453) are coaxially and rotatably installed in the sliding box (41), the first bevel gear (452) is meshed with the second bevel gear (453), the control gear (455) is rotatably installed in the sliding box (41) and located above the driving gear (454), the driving gear (454) is meshed with the control gear (455), and the control gear (455) drives the first execution component (43) and the second execution component (42) to rotate.

3. The coffee machine tray inner hole processing device of claim 2, characterized in that: the first executing component (43) further comprises a first rotating shaft (436), the first rotating shaft (436) is rotatably installed on the sliding box (41) and one end of the first rotating shaft (436) is fixedly connected with the first circular plate (435), a first transmission gear (437) is slidably installed on the first rotating shaft (436), the first transmission gear (437) and the first rotating shaft (436) rotate coaxially, and the control gear (455) is meshed with the first transmission gear (437); the second executing component (42) further comprises a second rotating shaft (426), the second rotating shaft (426) is rotatably installed on the sliding box (41), one end of the second rotating shaft (426) is fixedly connected with a second circular plate (425), a second transmission gear (427) is slidably installed on the second rotating shaft (426), the second transmission gear (427) and the second rotating shaft (426) rotate coaxially, and the control gear (455) is meshed with the second transmission gear (427).

4. A coffee machine tray inner hole processing device according to claim 3, characterized in that: the control assembly (44) further comprises a first control rod (442) and a second control rod (446), the first control rod (442) is slidably mounted on the side wall of the sliding box (41), one end of the first control rod (441) located in the sliding box (41) is rotatably connected with the first control plate (441), one end, away from the first control rod (442), of the first control plate (441) is slidably mounted on the first rotating shaft (436), and the side wall, located at the first rotating shaft (436), of the first control plate (441) is abutted against the side wall of the first transmission gear (437); the second control rod (446) is slidably mounted on the other side of the side wall of the sliding box (41), one end, located in the sliding box (41), of the second control plate (445) is rotatably connected with the second control plate (445), one end, far away from the second control rod (446), of the second control plate (445) is slidably mounted on the second rotating shaft (426), and the side wall, located at the second rotating shaft (426), of the second control plate (445) is abutted to the side wall of the second transmission gear (427).

5. The coffee machine tray inner hole processing device of claim 4, characterized in that: a first baffle plate (439) is fixedly mounted at one end, far away from the first circular plate (435), of the first rotating shaft (436), a first spring (438) is sleeved on the first rotating shaft (436), one end of the first spring (438) abuts against the end face of the first baffle plate (439), and the other end of the first spring (438) abuts against the side wall of the first transmission gear (437); a second baffle (429) is fixedly installed at one end, far away from the second circular plate (425), of the second rotating shaft (426), a second spring (428) is sleeved on the second rotating shaft (426), one end of the second spring (428) abuts against the end face of the second baffle (429), and the other end of the second spring (428) abuts against the side wall of the second transmission gear (427).

6. The coffee machine tray inner hole processing device of claim 4, characterized in that: the limiting assembly (6) comprises a first limiting rod (65), a second limiting rod (66), a first limiting plate (61) and a second limiting plate (62), the first limiting plate (61) is slidably mounted on the base (3) and close to one side of the first control rod (442), the end part of the first control rod (442) is abutted to the end surface of the first limiting plate (61), the second limiting plate (62) is slidably mounted on the base (3) and close to one side of the second control rod (446), the end part of the second control rod (446) is abutted to the end surface of the second limiting plate (62), the first limiting rod (65) is fixedly mounted on the side wall of the first control rod (442) on the sliding box (41), the length of the first limiting rod (65) is smaller than that of the first control rod (442) outside the sliding box (41), the second limiting rod (66) is fixedly mounted on the side wall of the sliding box (41) and located on one side of the second control rod (446), the length of gag lever post two (66) is less than the outside length of control lever two (446) position in slip case (41), the surface of limiting plate one (61) and limiting plate two (62) towards slip case (41) all is equipped with sensor (64), sensor (64) conflict on gag lever post one (65) and the limiting plate one (61), sensor (64) conflict on gag lever post two (66) and the limiting plate two (62), spacing subassembly (6) still include spacing bolt one (67) and spacing bolt two (63), spacing bolt one (67) screw thread cooperation is in the lateral wall of base (3), and one end and limiting plate one (61) rotate to be connected, spacing bolt two (63) screw thread cooperation is in the lateral wall of base (3), and one end and two (62) rotation connection of limiting plate.

7. The coffee machine tray inner hole processing device of claim 1, characterized in that: the drilling assembly I comprises a drilling motor I (433) and a drill bit I (431), the drilling motor I (433) is fixedly installed on a circular plate I (435), the drill bit I (431) is coaxially connected with a driving shaft of the drilling motor I (433), the chamfering assembly I comprises a chamfering motor I (434) and a chamfering head I (432), the chamfering motor I (434) is fixedly installed on the circular plate I (435) and is located below the drilling motor I (433), and the chamfering head I (432) is coaxially connected with the driving shaft of the chamfering motor I (434); the second drilling assembly comprises a second drilling motor (424) and a second drill bit (422), the second drilling motor (424) is fixedly installed on a second circular plate (425), the second drill bit (422) is coaxially connected with a driving shaft of the second drilling motor (424), the second chamfering assembly comprises a second chamfering motor (423) and a second chamfering head (421), the second chamfering motor (423) is fixedly installed on the second circular plate (425) and located below the second drilling motor (424), and the second chamfering head (421) is coaxially connected with the driving shaft of the second chamfering motor (423).

8. The coffee machine tray inner hole processing device of claim 1, characterized in that: the improved structure of the motor is characterized in that a sliding groove (31) is formed in the base (3), the sliding box (41) is slidably mounted in the sliding groove (31), a screw rod (51) is mounted in the sliding groove (31) in a rotating mode, the sliding box (41) is in threaded fit with the screw rod (51), a moving motor (5) is fixedly mounted on one side of the base (3), and a driving shaft of the moving motor (5) is coaxially connected with the screw rod (51).

9. The coffee machine tray inner hole processing device of claim 1, characterized in that: a plurality of constant head tanks (411) have all been seted up near circular plate (435) and circular plate two (425) department on the lateral wall of smooth case (41), slidable mounting has reference column (46) in constant head tank (411), still install spring three (47) in constant head tank (411), the one end of spring three (47) is contradicted with the diapire of reference column (46), and the other end is contradicted with the diapire of constant head tank (411), all set up the locating hole with reference column (46) joint on circular plate (435) and circular plate two (425).

10. A process for machining inner holes of a coffee machine tray, which is characterized in that the device for machining the inner holes of the coffee machine tray (1) based on any one of claims 1 to 9 comprises the following steps:

adjusting the positions of the first limiting plate (61) and the second limiting plate (62);

starting the moving motor (5) to drive the sliding box (41) to slide;

starting a first drilling motor (433) to drive a first drill bit (431) to rotate;

when the second control rod (446) abuts against the second limiting plate (62), the first drill bit (431) drills the buckle (11), meanwhile, the second control rod (446) drives the second transmission gear (427) to slide to be meshed with the control gear (455), the driving motor (451) is started to drive the control gear (455) to rotate, the second circular plate (425) is driven to rotate, and the second drill bit (422) is aligned to the buckle (11);

the second limiting rod (66) abuts against a sensor (64) on the second limiting plate (62), the sensor (64) sends a signal to a control system, and the control system controls the moving motor (5) to change the rotating direction and drives the sliding box (41) to slide towards the first limiting plate (61);

when the first control rod (442) abuts against the first limiting plate (61), the second drill bit (422) drills the buckle (11), meanwhile, the first control rod (442) drives the first transmission gear (437) to slide to be meshed with the control gear (455), the driving motor (451) is started, the control gear (455) is driven to rotate, the first circular plate (435) is driven to rotate, and the first chamfering head (432) is aligned to a circular hole (12) drilled by the first drill bit (431) in the buckle (11);

the first limiting rod (65) abuts against a sensor (64) on the first limiting plate (61), the sensor (64) sends a signal to a control system, and the control system controls the moving motor (5) to change the rotating direction and drives the sliding box (41) to slide towards the second limiting plate (62);

when the second control rod (446) abuts against the second limiting plate (62), the first chamfering head (432) performs chamfering on the circular hole (12), meanwhile, the second control rod (446) drives the second transmission gear (427) to slide to be meshed with the control gear (455), the driving motor (451) is started, the control gear (455) is driven to rotate, the second circular plate (425) is driven to rotate, and the second chamfering head (421) is aligned to the circular hole (12) drilled by the second drill bit (422) on the buckle (11);

the second limiting rod (66) abuts against a sensor (64) on the second limiting plate (62), the sensor (64) sends a signal to a control system, and the control system controls the moving motor (5) to change the rotating direction and drives the sliding box (41) to slide towards the first limiting plate (61);

when the first control rod (442) abuts against the first limiting plate (61), the second chamfering head (421) performs chamfering on the round hole (12), meanwhile, the first control rod (442) drives the first transmission gear (437) to slide to be meshed with the control gear (455), the driving motor (451) is started, the control gear (455) is driven to rotate, the first circular plate (435) is driven to rotate, and the first drill (431) is aligned to the buckle (11);

the first limiting rod (65) abuts against the sensor (64) on the first limiting plate (61), the sensor (64) sends a signal to the control system, the control system controls the moving motor (5) to change the rotating direction, the sliding box (41) is driven to return to the initial position, and drilling and chamfering of the buckle (11) are completed.

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