CN114160848A - Milling integrated device - Google Patents

Abstract

The invention relates to a milling and cutting integrated device, which comprises: the bracket mechanism is arranged on a horizontal plane and comprises a first bracket, a caster, a plane plate, a second bracket and an upper shielding plate; the fixing mechanism is arranged on the bracket mechanism and comprises a first slide rail structure, a fixing jig, a first sensor and a first motor; the moving mechanism is arranged on the second support and comprises an X-axis structure and a Y-axis structure; the cutter mechanism is arranged on the Y-axis structure and is provided with a cutter, a connecting shaft, a third motor, a cylinder, a fixed seat and a third sensor; the milling cutter mechanism is arranged on one side of the cutter mechanism and is provided with a milling cutter, a high-speed air-cooled main shaft and a connecting seat; the milling integrated device solves the problems of time and labor waste, high labor cost and product appearance quality reduction, has the characteristics of high milling precision and suitability for different products, and improves the yield and the production efficiency of the products.

Description

Milling integrated device

[ technical field ] A method for producing a semiconductor device

The invention relates to a milling device, in particular to a milling integrated device.

[ background of the invention ]

The safety grating is also called as a safety light curtain (also called as a photoelectric safety protection device, a safety protector, a punch protector, an infrared safety protection device and the like), a protective grating is formed through a group of infrared beams, when the grating is shielded, the photoelectric protection device sends a signal to control mechanical equipment with potential danger to stop working, so that the possibility that operating personnel are injured in a working environment is reduced, and the personal safety of the operating personnel is effectively protected.

The injection molding mode of the product adopts a side feeding glue and direct glue feeding method for injection molding, after the injection molding of the product is finished, a stub bar on the product needs to be processed, and the stub bar needs to be subjected to punching and milling. The milling processing mode to the product stub bar in the present stage is to adopt traditional milling stock machine to mill the operation to the product stub bar, however, this processing mode is milling the processing procedure because the stability of frame itself is not enough, belt drive is unstable, the milling precision is low and used mills material motor model little, lead to the milling operation of product incomplete, when the stub bar mills incompletely, the staff need carry out secondary operation to it, consuming time and difficultly, the cost of labor is high, if improper operation, the outward appearance quality that damages product and product descends easily, and produce the yield of product and the problem that production efficiency reduces.

In view of the above, there is a need to provide a milling and cutting integrated device to solve the problems of time and labor consumption, high labor cost, reduced appearance quality of products, and reduced yield and production efficiency of products in the current processing method.

[ summary of the invention ]

The invention aims to provide a milling integrated device, which aims to solve the problems of time and labor consumption, high labor cost, reduced appearance quality of products, and reduced yield and production efficiency of products caused by the processing mode at the present stage, and comprises:

the support mechanism is arranged on a horizontal plane and comprises a first support, trundles, a plane plate, a second support and an upper shielding plate, wherein the first support is arranged on the horizontal plane, the trundles are arranged at four corners of the bottom end of the first support, the plane plate is arranged at the top end of the first support, the second support is arranged on the plane plate, and the upper shielding plate is arranged on the side surface of the second support;

the fixing mechanism is arranged on the support mechanism and comprises a first slide rail structure, a fixing jig, a first sensor and a first motor, the first slide rail structure is arranged on the plane board, the fixing jig and the first sensor are both arranged on the first slide rail structure, the first motor is arranged below the fixing jig, and the first motor drives the fixing jig to move along the first slide rail structure in the Z-axis direction;

the moving mechanism is arranged on the second support and comprises an X-axis structure and a Y-axis structure, the X-axis structure is arranged on the second support, the Y-axis structure is vertically arranged on the X-axis structure, a second sliding rail structure, a second motor and a second sensor are arranged on the X-axis structure and the Y-axis structure, the second motor on the X-axis structure drives the cutter and the milling cutter to move in the X-axis direction, and the second motor on the Y-axis structure drives the cutter and the milling cutter to move in the Y-axis direction;

the cutter mechanism is arranged on the Y-axis structure, a cutter, a connecting shaft, a third motor, a cylinder, a fixed seat and a third sensor are arranged on the cutter mechanism, the cutter is arranged on the connecting shaft, the connecting shaft is connected with the third motor, the third motor drives the milling cutter to rotate, the fixed seat fixes the third motor on the cylinder, the cylinder is arranged on the Y-axis structure and drives the cutter to move up and down in the Y-axis direction, and the third sensor is arranged on one side of the fixed seat;

the milling cutter mechanism is arranged on one side of the cutter mechanism and is positioned on the Y-axis structure, a milling cutter, a high-speed air-cooled main shaft and a connecting seat are arranged on the milling cutter mechanism, the milling cutter is arranged at the bottom end of the high-speed air-cooled main shaft, the high-speed air-cooled main shaft is fixed on the Y-axis structure by the connecting seat, the high-speed air-cooled main shaft is connected with a third motor of the cutter mechanism, and the milling cutter rotates in the high-speed air-cooled main shaft through the third motor;

the control unit, the first motor, the second motor, the third motor, the first sensor, the second sensor and the third sensor are electrically connected.

Optionally, the cutter mechanism and the milling cutter mechanism are connected with each other to integrate milling and cutting.

Optionally, the first sensor detects a moving distance of the product in the Z-axis direction, the second sensor detects moving distances of the cutter mechanism and the milling cutter mechanism in the X-axis direction and the Y-axis direction, respectively, and the third sensor detects a moving distance of the cutter mechanism in the Y-axis direction.

Optionally, the support mechanism further comprises a three-hole button switch and two safety gratings, the three-hole button switch is arranged on the plane plate, the safety gratings are arranged on the second support, and the three-hole button switch has the functions of starting, suspending and stopping the operation of the device.

Optionally, an LED lamp is disposed on the back of the upper shielding plate.

Optionally, the moving mechanism is fixed to the second bracket through the supporting block.

Optionally, the fixing mechanism and the moving mechanism are respectively provided with a screw rod inside, the screw rods are respectively connected with the first motor, the second motor and the third motor, and the milling and cutting integrated device uses the connection of the motors and the screw rods as a driving mode.

Optionally, the first slide rail structure and the second slide rail structure are respectively provided with a cushion pad, and the cushion pad is made of a soft rubber material.

Optionally, a speed reducer is arranged on the cutter mechanism, the speed reducer is connected with the third motor, and the milling cutter mechanism adjusts the rotation speed of the milling cutter through the electric connection between the third motor and the speed reducer.

Optionally, the milling integrated device is suitable for milling operations of different products by adjusting the moving distances in the directions of the X axis, the Y axis and the Z axis, and then the height of the cutter is adjusted by the air cylinder, and the accurate milling of the stub bar on the product is realized by the electrical connection of the speed reducer and the third motor.

Compared with the prior art, the milling integrated device of the invention firstly starts the device, places the product on the fixed jig, the control unit controls the first motor to drive the product to move for a certain distance in the Z-axis direction, secondly, when the first sensor detects that the product moves for a certain distance in the Z-axis direction, a signal is sent to the control unit, the control unit controls the second motor to drive the milling cutter mechanism and the cutter mechanism to move for a certain distance in the X-axis direction and the Y-axis direction respectively, then, when the second sensor detects that the milling cutter mechanism and the cutter mechanism move for a certain distance in the X-axis direction and the Y-axis direction respectively, a signal is sent to the control unit, the control unit controls the third motor to drive the milling cutter mechanism to perform milling operation on the first stub bar, wherein the speed reducer and the third motor control the rotation speed of the milling cutter, then, after a certain time, the milling operation of the first stub bar is completed, the control unit controls the air cylinder to adjust the vertical height of the cutter mechanism, the cutter is aligned to a second stub bar on a product, when the third sensor detects that the cutter descends to a certain height, the air cylinder is used for driving the cutter to downwards punch the second stub bar, and finally, the whole product is milled and taken out.

[ description of the drawings ]

Fig. 1 is a schematic structural view of the milling and cutting integrated device of the present invention.

Fig. 2 is a schematic structural view of another angle of the milling and cutting integrated device of the invention.

Fig. 3 is a schematic structural diagram of a cutter mechanism and a milling cutter mechanism of the milling integrated device.

Fig. 4 is a schematic view of another angle structure of the cutter mechanism and the milling cutter mechanism of the milling integrated device of the invention.

Figure 5 is a schematic representation of a product of the invention.

Fig. 6 is a schematic structural diagram of a milling and cutting integrated device in a first working state in a preferred embodiment of the invention.

Fig. 7 is a schematic structural view of the milling integrated device in a second working state in a preferred embodiment of the invention.

Fig. 8 is a front view of a milling integration apparatus of the present invention in a third operating state in a preferred embodiment.

Fig. 9 is a schematic structural diagram of a milling and cutting integrated device in a fourth working state in a preferred embodiment of the invention.

[ detailed description ] embodiments

To further illustrate the technical means and effects of the present invention, the following detailed description is given with reference to a preferred embodiment of the present invention and the accompanying drawings.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, fig. 1 is a schematic structural diagram of a milling and cutting integrated device of the present invention, fig. 2 is a schematic structural diagram of another angle of the milling and cutting integrated device of the present invention, fig. 3 is a schematic structural diagram of a cutter mechanism and a milling cutter mechanism of the milling and cutting integrated device of the present invention, fig. 4 is a schematic structural diagram of another angle of the cutter mechanism and the milling cutter mechanism of the milling and cutting integrated device of the present invention, and the milling and cutting integrated device 100 includes:

the support mechanism 110 is arranged on a horizontal plane, the support mechanism 110 includes a first support 111, casters 112, a plane plate 113, a second support 114 and an upper shield 115, the first support 111 is arranged on the horizontal plane, the casters 112 are arranged at four corners of the bottom end of the first support 111, the plane plate 113 is arranged at the top end of the first support 111, the second support 114 is arranged on the plane plate 113, the upper shield 115 is arranged on a side surface of the second support 114, the first support 111 is used for fixing the casters 112, the casters 112 are used for moving the milling and cutting integrated device 100, the second support 114 is used for fixing the fixing mechanism 120 and the moving mechanism 130, and the upper shield 115 is used for fixing the LED lamp 118;

the fixing mechanism 120 is disposed on the bracket mechanism 110, the fixing mechanism 120 includes a first slide rail structure 121, a fixing jig 122, a first sensor (not shown) and a first motor (not shown), the first slide rail structure 121 is disposed on the planar plate 113, the fixing jig 122 and the first sensor (not shown) are both disposed on the first slide rail structure 121, the first motor (not shown) is disposed below the fixing jig 122, the first slide rail structure 121 and the first motor (not shown) are configured to drive the fixing jig 122 to move in the Z-axis direction, the fixing jig 122 is configured to fix a product, and the first sensor (not shown) is configured to detect a moving distance of the product in the Z-axis direction;

a moving mechanism 130, wherein the moving mechanism 130 is disposed on the second support 114, the moving mechanism 130 includes an X-axis structure 131 and a Y-axis structure 132, the X-axis structure 131 is disposed on the second support 114, the Y-axis structure 132 is vertically disposed on the X-axis structure 131, a second sliding rail structure (not shown), a second motor 133 and a second sensor (not shown) are respectively disposed on the X-axis structure 131 and the Y-axis structure 132, the second motor 133 on the X-axis structure 131 drives the cutter 141 and the milling cutter 151 to move in the X-axis direction, the second motor 133 on the Y-axis structure 132 drives the cutter 141 and the milling cutter 151 to move in the Y-axis direction, the second sliding rail structure (not shown) and the second motor 133 are configured to drive the cutter mechanism 140 and the milling cutter mechanism 150 to move in the X-axis direction and the Y-axis direction, and the second sensor (not shown) is configured to detect the movement of the cutter mechanism 140 and the milling cutter mechanism 150 in the X-axis direction and the Y-axis direction Moving distance;

the cutter mechanism 140, the cutter mechanism 140 is disposed on the Y-axis structure 132, the cutter mechanism 140 is provided with a cutter 141, a connecting shaft 142, a third motor 143, an air cylinder 144, a fixing seat 145 and a third sensor 146, the cutter 141 is disposed on the connecting shaft 142, the connecting shaft 142 is connected to the third motor 143, the third motor 143 drives a milling cutter 151 to rotate, the fixing seat 145 fixes the third motor 143 on the air cylinder 144, the air cylinder 144 is disposed on the Y-axis structure 132, the air cylinder 144 drives the cutter 141 to move up and down in the Y-axis direction, the third sensor 146 is disposed on one side of the fixing seat 145, the cutter 141 is used for punching a second stub bar on a product, the connecting shaft 142 is used for fixing the cutter 141, the third motor 143 is used for driving the milling cutter mechanism 150 to operate, and the air cylinder 144 is used for driving the cutter mechanism 140 to move up and down, the fixing seat 145 is configured to fix the third motor 143, the third sensor 146 is configured to detect a moving distance of the cutter mechanism 140 up and down in the Y-axis direction, when the third sensor 146 detects that the cutter 141 descends by a certain height, and the cutter 141 is precisely aligned with a second stub bar on a product, a signal is sent to a control unit (not shown in the figure), the control unit (not shown in the figure) controls the air cylinder 144 to drive the cutter 141 to die the second stub bar downward, and the milling and cutting integrated device 100 utilizes the air cylinder 144 to adjust the height of the cutter 141, so as to precisely die the second stub bar on the product;

the milling cutter mechanism 150 is arranged on one side of the cutter mechanism 140 and located on the Y-axis structure 132, the milling cutter mechanism 150 is provided with a milling cutter 151, a high-speed air-cooled spindle 152 and a connecting seat 153, the milling cutter 151 is arranged at the bottom end of the high-speed air-cooled spindle 152, the high-speed air-cooled spindle 152 is fixed on the Y-axis structure 132 by the connecting seat 153, the high-speed air-cooled spindle 152 is connected with a third motor 143 of the cutter mechanism 140, the milling cutter 151 rotates in the high-speed air-cooled spindle 152 through the third motor 143, the milling cutter 151 is used for punching and milling a first stub bar on a product, the high-speed air-cooled spindle 152 is used for fixing the milling cutter 151, and the connecting seat 153 is used for fixing the high-speed air-cooled spindle 152;

a control unit (not shown), wherein the control unit (not shown), the first motor (not shown), the second motor 133, the third motor 143, the first sensor (not shown), the second sensor (not shown), and the third sensor 146 are electrically connected, the control unit (not shown) controls the first motor (not shown) to drive the product to move in the Z-axis direction, the control unit (not shown) controls the second motor 133 to drive the cutter mechanism 140 and the milling cutter mechanism 150 to move in the X-axis direction and the Y-axis direction, and the control unit (not shown) controls the third motor 143 to drive the milling cutter 151 to rotate.

Wherein, the cutter mechanism 140 and the milling cutter mechanism 150 are connected to each other to integrate milling.

The first sensor (not shown) detects the moving distance of the product in the Z-axis direction, the second sensor (not shown) detects the moving distances of the cutter mechanism 140 and the milling cutter mechanism 150 in the X-axis direction and the Y-axis direction, respectively, and the third sensor 146 detects the moving distance of the cutter mechanism 140 in the Y-axis direction.

The support mechanism 110 further comprises a three-hole button switch 116 and two safety gratings 117, the three-hole button switch 116 is arranged on the plane plate 113, the safety gratings 117 are arranged on the second support 114, the three-hole button switch 116 has functions of starting, suspending and stopping device operation, the three-hole button switch 116 is used for opening or closing the device, and the safety gratings 117 are used for preventing staff from excessively approaching the device, so that production safety accidents are avoided, and potential safety hazards in production are eliminated.

An LED lamp 118 is disposed on the back of the upper cover 115, and the LED lamp 118 is used to illuminate the device, so that the staff can observe the operation condition of the device with eyes.

The moving mechanism 130 is fixed on the second bracket 114 through the supporting block 135, and the supporting block 135 is used for fixing the moving mechanism 130.

The fixing mechanism 120 and the moving mechanism 130 are respectively provided with a screw rod therein, the screw rods are respectively connected to the first motor (not shown), the second motor 133 and the third motor 143, and the milling and cutting integrated device 100 uses the connection of the motors and the screw rods as a driving method.

A buffer pad is respectively arranged on the first slide rail structure 121 and the second slide rail structure (not shown), the buffer pad is made of a soft rubber material, and the buffer pad is used for protecting equipment and preventing components in the moving mechanism 130 from being damaged.

The cutter mechanism 140 is provided with a speed reducer, the speed reducer is connected to the third motor 143, and the milling cutter mechanism 150 adjusts the rotation speed of the milling cutter 151 by electrically connecting the third motor 143 and the speed reducer.

The milling and cutting integrated device 100 is suitable for milling and cutting of different products by adjusting the moving distances in the directions of the X axis, the Y axis and the Z axis, the height of the cutter 141 is adjusted by the air cylinder 144, and the first stub bar and the second stub bar on the products are accurately milled and cut by the electrical connection of the speed reducer and the third motor 143, and the milling and cutting integrated device 100 has the advantages of being high in precision and high in applicability.

Referring to fig. 5, fig. 5 is a schematic view of a product according to the present invention, wherein a plurality of first stubs and a plurality of 11 and second stubs 12 are disposed on the product 10, the first stubs 11 require a milling cutter 151 to perform a punching operation, and the second stubs require a cutter 141 to perform a punching operation.

Referring to fig. 6 and 7, fig. 6 is a schematic structural diagram of a milling and cutting integrated device in a first working state in a preferred embodiment of the present invention, and fig. 7 is a schematic structural diagram of a milling and cutting integrated device in a second working state in a preferred embodiment of the present invention, in this embodiment, first, the three-hole button switch 116 is pressed to start the milling and cutting integrated device 100, and the product 10 is placed on the fixing jig 122, and then, the control unit (not shown) controls the first motor (not shown) to drive the product 10 to move a certain distance in the Z-axis direction, at this time, the first sensor (not shown) does not detect a certain distance in which the product 10 moves in the Z-axis direction, and the control unit (not shown) also does not control the second motor 133 to drive the cutter mechanism 140 and the milling cutter mechanism 150 to move in the X-axis and the Y-axis, respectively.

Referring to fig. 8 and 9, fig. 8 is a front view of a third working state of the milling integration apparatus of the present invention in a preferred embodiment, fig. 9 is a schematic structural diagram of a fourth working state of the milling integration apparatus of the present invention in a preferred embodiment, in this embodiment, when a first sensor (not shown) detects that a product 10 moves a certain distance in a Z-axis direction, a signal is sent to a control unit (not shown), the control unit (not shown) controls a second motor 133 to drive a cutter mechanism 140 and a milling cutter mechanism 150 to move a certain distance in an X-axis direction and a Y-axis direction, respectively, and then, when a second sensor (not shown) detects that the cutter mechanism 140 and the milling cutter mechanism 150 move a certain distance in the X-axis direction and the Y-axis direction, a signal is sent to the control unit (not shown), the control unit (not shown) controls a third motor 143 to drive the milling cutter mechanism 150 to perform a milling operation on a first stub bar 11 on the product 10, then, after a certain time, after the punching and milling operation of the first stub bar 11 is completed, the control unit (not shown) controls the air cylinder 144 to adjust the vertical height of the cutter mechanism 140, so that the cutter 141 is aligned with the second stub bar 12 on the product 10, when the third sensor 146 detects that the cutter 141 descends to a certain height, the control unit (not shown) controls the air cylinder 144 to drive the cutter 141 to punch the second stub bar 12 downwards, and finally, the punching operation of the whole product 10 is completed, and the product 10 is taken out.

Compared with the prior art, the milling integrated device 100 of the present invention first starts the device, places the product 10 on the fixed fixture 122, the first motor (not shown) drives the product 10 to move a certain distance in the Z-axis direction, then, when the first sensor (not shown) detects that the product 10 moves a certain distance in the Z-axis direction, the second motor 133 drives the cutter mechanism 140 and the milling cutter mechanism 150 to move a certain distance in the X-axis direction and the Y-axis direction, respectively, then, when the second sensor (not shown) detects that the cutter mechanism 140 and the milling cutter mechanism 150 move a certain distance in the X-axis direction and the Y-axis direction, respectively, the third motor 143 drives the milling cutter mechanism 150 to perform the milling operation on the first stub bar 11, then, after a certain period of time, after the milling operation of the first stub bar 11, the cylinder 144 adjusts the vertical height of the cutter mechanism 140, the cutter 141 aligns with the second stub bar 12 on the product 10, when the third sensor 146 detects that the cutter 141 descends by a certain height, the air cylinder 144 drives the cutter 141 to punch the second stub bar 12 downwards, and finally, the milling operation of the whole product 10 is completed, and the product 10 is taken out.

It should be noted that the present invention is not limited to the above embodiments, and any simple modification, equivalent change and modification made to the above embodiments by those skilled in the art based on the technical solution of the present invention fall within the protection scope of the present invention.

Claims (10)

1. A milling integrated device, comprising:

the support mechanism is arranged on a horizontal plane and comprises a first support, trundles, a plane plate, a second support and an upper shielding plate, wherein the first support is arranged on the horizontal plane, the trundles are arranged at four corners of the bottom end of the first support, the plane plate is arranged at the top end of the first support, the second support is arranged on the plane plate, and the upper shielding plate is arranged on the side surface of the second support;

the fixing mechanism is arranged on the support mechanism and comprises a first slide rail structure, a fixing jig, a first sensor and a first motor, the first slide rail structure is arranged on the plane board, the fixing jig and the first sensor are both arranged on the first slide rail structure, the first motor is arranged below the fixing jig, and the first motor drives the fixing jig to move along the first slide rail structure in the Z-axis direction;

the moving mechanism is arranged on the second support and comprises an X-axis structure and a Y-axis structure, the X-axis structure is arranged on the second support, the Y-axis structure is vertically arranged on the X-axis structure, a second sliding rail structure, a second motor and a second sensor are arranged on the X-axis structure and the Y-axis structure, the second motor on the X-axis structure drives the cutter and the milling cutter to move in the X-axis direction, and the second motor on the Y-axis structure drives the cutter and the milling cutter to move in the Y-axis direction;

the cutter mechanism is arranged on the Y-axis structure, a cutter, a connecting shaft, a third motor, a cylinder, a fixed seat and a third sensor are arranged on the cutter mechanism, the cutter is arranged on the connecting shaft, the connecting shaft is connected with the third motor, the third motor drives the milling cutter to rotate, the fixed seat fixes the third motor on the cylinder, the cylinder is arranged on the Y-axis structure and drives the cutter to move up and down in the Y-axis direction, and the third sensor is arranged on one side of the fixed seat;

the milling cutter mechanism is arranged on one side of the cutter mechanism and is positioned on the Y-axis structure, a milling cutter, a high-speed air-cooled main shaft and a connecting seat are arranged on the milling cutter mechanism, the milling cutter is arranged at the bottom end of the high-speed air-cooled main shaft, the high-speed air-cooled main shaft is fixed on the Y-axis structure by the connecting seat, the high-speed air-cooled main shaft is connected with a third motor of the cutter mechanism, and the milling cutter rotates in the high-speed air-cooled main shaft through the third motor;

the control unit, the first motor, the second motor, the third motor, the first sensor, the second sensor and the third sensor are electrically connected.

2. A milling-cutting integrated device as claimed in claim 1, wherein the cutter mechanism and the milling cutter mechanism are interconnected to integrate milling.

3. A milling integrated apparatus as claimed in claim 1, wherein the first sensor detects a moving distance of the product in a Z-axis direction, the second sensor detects moving distances of the cutter mechanism and the milling cutter mechanism in X-axis and Y-axis directions, respectively, and the third sensor detects a moving distance of the cutter mechanism up and down in a Y-axis direction.

4. A milling and cutting integrated device as claimed in claim 1, wherein the support mechanism further comprises a three-hole push-button switch and two safety rasters, the three-hole push-button switch is disposed on the flat plate, the safety rasters are disposed on the second support, and the three-hole push-button switch has functions of starting, pausing and stopping operations of the device.

5. The milling integration device as claimed in claim 1, wherein the back of the upper shield is provided with an LED light.

6. A milling integration device as claimed in claim 1, wherein the moving mechanism is secured to the second support via the support block.

7. A milling and cutting integrated device as claimed in claim 1, wherein a screw rod is respectively arranged inside the fixing mechanism and the moving mechanism, the screw rods are respectively connected with the first motor, the second motor and the third motor, and the milling and cutting integrated device adopts the connection of the motor and the screw rod as a driving mode.

8. The milling and cutting integrated device as claimed in claim 1, wherein the first and second slide rail structures are respectively provided with a cushion pad, and the cushion pad is made of soft rubber.

9. A milling integrated apparatus as claimed in claim 1, wherein the cutter mechanism is provided with a speed reducer, the speed reducer is connected to the third motor, and the milling cutter mechanism adjusts the rotation speed of the milling cutter through the electrical connection between the third motor and the speed reducer.

10. The integrated milling and cutting device as claimed in claim 1, wherein the integrated milling and cutting device is adapted to milling and cutting of different products by adjusting the moving distance in the directions of the X-axis, the Y-axis and the Z-axis, adjusting the height of the cutter by the cylinder, and precisely milling the stub bar on the product by the electrical connection of the reducer and the third motor.

Images