CN219901387U - Aluminum product bores mills equipment - Google Patents

Abstract

The utility model relates to the field of drilling and milling, in particular to aluminum product drilling and milling equipment, which comprises a frame, and a first drilling and milling device and a second drilling and milling device which are arranged on two opposite sides of the frame; the first drilling and milling device comprises a first front-back mechanism, a first upper-lower mechanism, a first left-right mechanism, a first drilling and milling mechanism and a second drilling and milling mechanism, so that synchronous drilling of different positions of the aluminum material is realized; the second drilling and milling device comprises a second front-rear mechanism, a second upper-lower mechanism, a second left-right mechanism, a drilling and milling rotating mechanism and a third drilling and milling mechanism, so that synchronous drilling of different positions of the aluminum material is realized; the drilling and milling rotating mechanism is connected with the third drilling and milling mechanism to drive the third drilling and milling mechanism to rotate. By adopting the utility model, the drilling and milling at multiple positions and multiple angles can be synchronously carried out, the production efficiency is improved, and the production cost is reduced.

Description

Aluminum product bores mills equipment

Technical Field

The utility model relates to the field of drilling and milling, in particular to aluminum product drilling and milling equipment.

Background

The prior aluminum product drilling and milling equipment only can drill one part of the aluminum product at each drilling and milling operation, and then the aluminum product is moved to drill the other part of the aluminum product. Some of the drilling and milling machines are arranged at different positions corresponding to the aluminum materials, and the machining is started simultaneously, so that the drilling and milling machines are required to be purchased, the machining cost is high, and the occupied area is large. Or drilling holes at different positions of the aluminum material by moving the drilling and milling machine. If the other side surface of the aluminum material is required to be drilled, the aluminum material is required to be overturned and then the drilling operation is required to be carried out. Therefore, the method has the advantages of multiple operation steps, high labor intensity of workers, multiple overturning and moving, easiness in influencing the machining precision and great reduction of the production efficiency.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the aluminum product drilling and milling equipment which can synchronously drill and mill at multiple positions and multiple angles, thereby improving the production efficiency and reducing the production cost.

In order to solve the technical problems, the utility model provides aluminum product drilling and milling equipment, which comprises a frame, and a first drilling and milling device and a second drilling and milling device which are arranged on two opposite sides of the frame;

the first drilling and milling device comprises a first front-back mechanism, a first upper-lower mechanism, a first left-right mechanism, a first drilling and milling mechanism and a second drilling and milling mechanism, wherein the first upper-lower mechanism is arranged on the first front-back mechanism so as to drive the first drilling and milling mechanism and the second drilling and milling mechanism to move back and forth; the first left-right mechanism is arranged on the first upper-lower mechanism so as to drive the first drilling and milling mechanism and the second drilling and milling mechanism to move up and down; the first drilling and milling mechanism and the second drilling and milling mechanism are arranged on the first left-right mechanism so as to drive the first drilling and milling mechanism and the second drilling and milling mechanism to move left and right, and synchronous drilling of different positions of the aluminum material is realized;

the second drilling and milling device comprises a second front-rear mechanism, a second upper-lower mechanism, a second left-right mechanism, a drilling and milling rotating mechanism and a third drilling and milling mechanism, wherein the second upper-lower mechanism is arranged on the second front-rear mechanism so as to drive the third drilling and milling mechanism to move forwards and backwards; the second left-right mechanism is arranged on the second upper-lower mechanism so as to drive the third drilling and milling mechanism to move up and down; the third drilling and milling mechanism is arranged on the second left-right mechanism so as to drive the third drilling and milling mechanism to move left and right; the drilling and milling rotating mechanism is connected with the third drilling and milling mechanism to drive the third drilling and milling mechanism to rotate.

As an improvement of the scheme, the first front-rear mechanism comprises a first precursor mechanism and a first front-rear seat connected with the first precursor mechanism, and the first upper-lower mechanism is arranged on the first front-rear seat; the first upper and lower mechanism comprises a first upper driving mechanism and a first upper and lower seat connected with the first upper driving mechanism, and the first left and right mechanism is arranged on the first upper and lower seat; the first left-right mechanism comprises a first left-driving mechanism and a first left-right seat connected with the first left-driving mechanism, and the first drilling and milling mechanism and the second drilling and milling mechanism are both arranged on the first left-right seat.

As an improvement of the above scheme, the first front-rear mechanism further comprises a first front-rear assembly, and the first front-rear mechanism is connected with the first front-rear seat through the first front-rear assembly; the first upper and lower mechanism further comprises a first upper and lower assembly, and the first upper driving mechanism is connected with the first upper and lower seat through the first upper and lower assembly; the first left-right mechanism further comprises a first left-right component, and the first left-right driving mechanism is connected with the first left-right seat through the first left-right component.

As an improvement of the scheme, the second front-rear mechanism comprises a second precursor mechanism and a second front-rear seat connected with the second precursor mechanism, and the second upper-lower mechanism is arranged on the second front-rear seat; the second upper and lower mechanism comprises a second upper driving mechanism and a second upper and lower seat connected with the second upper driving mechanism, and the second left and right mechanism is arranged on the second upper and lower seat; the second left-right mechanism comprises a second left-driving mechanism and a second left-right seat connected with the second left-driving mechanism, and the drilling and milling rotating mechanism and the third drilling and milling mechanism are both arranged on the second left-right seat.

As an improvement of the above scheme, the second front-rear mechanism further comprises a second front-rear assembly, and the second front-rear mechanism is connected with the second front-rear seat through the second front-rear assembly; the second upper and lower mechanism further comprises a second upper and lower assembly, and the second upper driving mechanism is connected with the second upper and lower seat through the second upper and lower assembly; the second left-right mechanism further comprises a second left-right component, and the second left-driving mechanism is connected with the second left-right seat through the second left-right component.

As an improvement of the scheme, the first drilling and milling device further comprises a drilling and milling moving mechanism arranged on the first left seat and the second seat, the drilling and milling moving mechanism comprises a drilling and milling driving mechanism and a drilling and milling seat, the second drilling and milling mechanism is arranged on the drilling and milling seat, and the drilling and milling driving mechanism is respectively connected with the first left seat and the right seat and the drilling and milling seat so as to drive the second drilling and milling mechanism to move to one side of the first left seat and one side of the second left seat.

As an improvement of the scheme, the drilling and milling driving mechanism is a cylinder.

As an improvement of the scheme, the drilling and milling rotary mechanism comprises a rotary driving mechanism and a rotary assembly, and the rotary driving mechanism is connected with the third drilling and milling mechanism through the rotary assembly.

As an improvement of the scheme, the rotary assembly comprises a first driving wheel connected with the rotary driving mechanism, a second driving wheel connected with the third drilling and milling mechanism and a driving belt sleeved outside the first driving wheel and the second driving wheel.

As an improvement of the scheme, the third drilling and milling mechanism is a double-headed motor.

The implementation of the utility model has the following beneficial effects:

the aluminum product drilling and milling equipment is provided with two drilling and milling devices which are respectively arranged at two sides of the aluminum product and work independently without interference. The first drilling and milling device can realize the front-back, left-right and up-down movement of the first drilling and milling mechanism and the second drilling and milling mechanism through the first front-back mechanism, the first up-down mechanism and the first left-right mechanism, and the positions of the first drilling and milling mechanism and the second drilling and milling mechanism can be adjusted according to the size of the aluminum material and the position to be drilled. In addition, the first drilling and milling mechanism can drill a side surface of the aluminum product, the second drilling and milling mechanism can drill a top surface of the aluminum product, the first drilling and milling mechanism and the second drilling and milling mechanism can drill the aluminum product at the same time, the two drilling and milling mechanisms are not influenced by each other, and production efficiency is improved. The second drilling and milling device can realize the front and back, left and right and up and down movement of the third drilling and milling mechanism through the second front and back mechanism, the second upper and lower mechanism and the second left and right mechanism, and the position of the third drilling and milling mechanism can be adjusted according to the size of the aluminum material and the position to be drilled. In addition, the third drilling and milling mechanism can drive through the drilling and milling rotating mechanism to rotate by 360 degrees, so that the top surface, the other side surface and the bottom surface of the aluminum product can be drilled, the machining of an inclined angle can be realized, the machining requirements of different hole patterns can be met, and the application range is wide. Therefore, the utility model can realize synchronous multi-position and multi-angle drilling and milling processing under the common cooperation of the first drilling and milling device and the second drilling and milling device, greatly improves the production efficiency, reduces the equipment setting, greatly reduces the production cost and simultaneously reduces the occupied area.

Drawings

FIG. 1 is a schematic view of an aluminum drilling and milling apparatus of the present utility model;

FIG. 2 is a schematic view of the first drilling and milling apparatus of FIG. 1;

FIG. 3 is a schematic view of the second drilling and milling apparatus of FIG. 1;

fig. 4 is a schematic diagram of the connection structure of the drilling and milling rotation mechanism and the third drilling and milling mechanism in fig. 1.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present utility model, are used only with reference to the drawings of the present utility model, and are not meant to be limiting in any way.

Referring to fig. 1-4, the utility model discloses an aluminum product drilling and milling device, which comprises a frame 1, and a first drilling and milling device and a second drilling and milling device which are arranged on two opposite sides of the frame 1.

The first drilling and milling device comprises a first front-back mechanism, a first upper-lower mechanism, a first left-right mechanism, a first drilling and milling mechanism 11 and a second drilling and milling mechanism 12, wherein the first upper-lower mechanism is arranged on the first front-back mechanism so as to drive the first drilling and milling mechanism 11 and the second drilling and milling mechanism 12 to move back and forth; the first left-right mechanism is arranged on the first up-down mechanism to drive the first drilling and milling mechanism 11 and the second drilling and milling mechanism 12 to move up and down; the first drilling and milling mechanism 11 and the second drilling and milling mechanism 12 are arranged on the first left-right mechanism so as to drive the first drilling and milling mechanism 11 and the second drilling and milling mechanism 12 to move left and right, and synchronous drilling of different positions of the aluminum material is realized.

The second drilling and milling device comprises a second front-rear mechanism, a second upper-lower mechanism, a second left-right mechanism, a drilling and milling rotating mechanism and a third drilling and milling mechanism 24, wherein the second upper-lower mechanism is arranged on the second front-rear mechanism so as to drive the third drilling and milling mechanism 24 to move forwards and backwards; the second left-right mechanism is arranged on the second up-down mechanism to drive the third drilling and milling mechanism 24 to move up and down; the third drilling and milling mechanism 24 is arranged on the second left-right mechanism so as to drive the third drilling and milling mechanism 24 to move left and right; the milling and drilling rotation mechanism is coupled to the third milling and drilling mechanism 24 to drive the third milling and drilling mechanism 24 in rotation.

The aluminum product drilling and milling equipment is provided with two drilling and milling devices which are respectively arranged at two sides of the aluminum product and work independently without interference. The first drilling and milling device can realize the front-back, left-right and up-down movement of the first drilling and milling mechanism and the second drilling and milling mechanism through the first front-back mechanism, the first up-down mechanism and the first left-right mechanism, and the positions of the first drilling and milling mechanism and the second drilling and milling mechanism can be adjusted according to the size of the aluminum material and the position to be drilled. In addition, the first drilling and milling mechanism can drill a side surface of the aluminum product, the second drilling and milling mechanism can drill a top surface of the aluminum product, the first drilling and milling mechanism and the second drilling and milling mechanism can drill the aluminum product at the same time, the two drilling and milling mechanisms are not influenced by each other, and production efficiency is improved. The second drilling and milling device can realize the front and back, left and right and up and down movement of the third drilling and milling mechanism through the second front and back mechanism, the second upper and lower mechanism and the second left and right mechanism, and the position of the third drilling and milling mechanism can be adjusted according to the size of the aluminum material and the position to be drilled. In addition, the third drilling and milling mechanism can drive through the drilling and milling rotating mechanism to rotate by 360 degrees, so that the top surface, the other side surface and the bottom surface of the aluminum product can be drilled, the machining of an inclined angle can be realized, the machining requirements of different hole patterns can be met, and the application range is wide. Therefore, the utility model can realize synchronous multi-position and multi-angle drilling and milling operation under the common cooperation of the first drilling and milling device and the second drilling and milling device, greatly improves the production efficiency, reduces the equipment setting, greatly reduces the production cost and simultaneously reduces the occupied area.

Specifically, as shown in fig. 1-2, the first front-rear mechanism includes a first precursor mechanism 2 and a first front-rear seat 4 connected with the first precursor mechanism 2, where the first upper-lower mechanism is disposed on the first front-rear seat 4; the first up-down mechanism comprises a first up-driving mechanism 5 and a first up-down seat 7 connected with the first up-driving mechanism 5, and the first left-right mechanism is arranged on the first up-down seat 7; the first left-right mechanism comprises a first left-driving mechanism 8 and a first left-right seat 10 connected with the first left-driving mechanism 8, and the first drilling and milling mechanism 11 and the second drilling and milling mechanism 12 are both arranged on the first left-right seat 10. Therefore, the first drilling and milling mechanism and the second drilling and milling mechanism are driven by the first front-back mechanism to move back and forth, so that the first drilling and milling mechanism and the second drilling and milling mechanism can move back and forth along the length direction of the aluminum material; the aluminum material can move back and forth in the thickness direction of the aluminum material by being driven by the first upper and lower mechanisms to lift; the first left-right mechanism drives the first left-right mechanism to move left and right, and the first left-right mechanism can move back and forth in the width direction of the aluminum material, so that the positions of the first drilling and milling mechanism and the second drilling and milling mechanism are flexibly adjusted.

Preferably, as shown in fig. 2, the first front-rear mechanism further includes a first front-rear assembly 3, and the first front-rear mechanism 2 is connected with the first front-rear seat 4 through the first front-rear assembly 3; the first upper and lower mechanism further comprises a first upper and lower assembly 6, and the first upper driving mechanism 5 is connected with a first upper and lower seat 7 through the first upper and lower assembly 6; the first left-right mechanism further comprises a first left-right assembly 9, and the first left-driving mechanism 8 is connected with a first left-right seat 10 through the first left-right assembly 9. The first front and rear components, the first upper and lower components and the first left and right components are arranged, so that the first drilling and milling mechanism and the second drilling and milling mechanism are ensured to move stably, accurately and reliably.

Specifically, as shown in fig. 1 and 3, the second front-rear mechanism includes a second precursor mechanism 15 and a second front-rear seat 17 connected to the second precursor mechanism 15, where the second upper-lower mechanism is disposed on the second front-rear seat 17; the second upper and lower mechanism comprises a second upper driving mechanism 18 and a second upper and lower seat 20 connected with the second upper driving mechanism 18, and the second left and right mechanism is arranged on the second upper and lower seat 20; the second left-right mechanism comprises a second left-driving mechanism 21 and a second left-right seat 23 connected with the second left-driving mechanism 21, and the drilling and milling rotating mechanism and the third drilling and milling mechanism 24 are both arranged on the second left-right seat 23. Therefore, the drilling and milling rotating mechanism and the third drilling and milling mechanism are driven by the second front-rear mechanism to move back and forth, so that the drilling and milling rotating mechanism and the third drilling and milling mechanism can move back and forth along the length direction of the aluminum material; the aluminum material can move back and forth in the thickness direction of the aluminum material by being driven by the second upper and lower mechanisms to lift; the second left-right mechanism drives the third drilling and milling mechanism to move left and right, and the third drilling and milling mechanism can move back and forth in the width direction of the aluminum material, so that the position of the third drilling and milling mechanism can be flexibly adjusted.

Preferably, as shown in fig. 3, the second front-rear mechanism further includes a second front-rear assembly 16, and the second front-rear mechanism 15 is connected to a second front-rear seat 17 through the second front-rear assembly 16; the second upper and lower mechanism further comprises a second upper and lower assembly 19, and the second upper driving mechanism 18 is connected with a second upper and lower seat 20 through the second upper and lower assembly 19; the second left-right mechanism further comprises a second left-right assembly 22, and the second left-driving mechanism 21 is connected with a second left-right seat 23 through the second left-right assembly 22. The third drilling and milling mechanism is stable, accurate and reliable in movement through the arrangement of the second front-rear assembly, the second upper-lower assembly and the second left-right assembly.

It should be noted that, the first precursor mechanism 2, the first upper driving mechanism 5, the first left driving mechanism 8, the second precursor mechanism 15, the second upper driving mechanism 18 and the second left driving mechanism 21 are all servo motors, so as to ensure the accurate movement of the first drilling and milling mechanism, the second drilling and milling mechanism and the third drilling and milling mechanism. The first front-rear assembly 3, the first upper-lower assembly 6, the first left-right assembly 9, the second front-rear assembly 16, the second upper-lower assembly 19 and the second left-right assembly 22 all comprise ball screws, screw nuts and guide rails. The servo motor is connected with the ball screw to drive the ball screw to rotate; the ball screw is in threaded connection with the screw nut, so that the screw nut moves back and forth along the ball screw; the guide rail plays a role in guiding the movement of the front seat, the rear seat, the upper seat, the lower seat and the left seat and the right seat, ensures the stability and the reliability of the movement of the front seat, the rear seat, the upper seat, the lower seat and the left seat, and does not deviate.

Further, as shown in fig. 1-2, the first drilling and milling device further includes a drilling and milling moving mechanism disposed on the first left and right seats 10, the drilling and milling moving mechanism includes a drilling and milling driving mechanism 13 and a drilling and milling seat 14, the second drilling and milling mechanism 12 is disposed on the drilling and milling seat 14, and the drilling and milling driving mechanism 13 is respectively connected with the first left and right seats 10 and the drilling and milling seat 14 to drive the second drilling and milling mechanism 12 to move to one side of the first left and right seats 10. Because the first drilling and milling mechanism is used for drilling the side face of the aluminum material, the second drilling and milling mechanism is used for drilling the top face of the aluminum material, and the first drilling and milling mechanism and the second drilling and milling mechanism are arranged on the first left seat and the first right seat, the second drilling and milling mechanism needs to move towards the inner sides of the first left seat and the first right seat relative to the first drilling and milling mechanism so as to meet the requirements of machining positions. Therefore, the second drilling and milling mechanism also needs to utilize a drilling and milling driving mechanism to adjust the machining position of the second drilling and milling mechanism on the top surface of the aluminum material.

Preferably, the drilling and milling driving mechanism 13 is a cylinder. The cylinder is a telescopic cylinder.

Still further, as shown in fig. 1, 3-4, the milling and drilling rotation mechanism includes a rotation drive mechanism 25 and a rotation assembly, the rotation drive mechanism 25 being connected to a third milling and drilling mechanism 24 by the rotation assembly. Because of the limitation of the space position, the rotary driving mechanism and the third drilling and milling mechanism are connected through a rotary assembly.

Specifically, the rotating assembly comprises a first driving wheel 26 connected with a rotary driving mechanism 25, a second driving wheel 28 connected with a third drilling and milling mechanism 24, and a driving belt 27 sleeved outside the first driving wheel 26 and the second driving wheel 28. Preferably, the rotary driving mechanism 25 is a servo motor. The rotary driving mechanism drives the first driving wheel to rotate to drive the driving belt, and the driving belt drives the second driving wheel to rotate, so that the third drilling and milling mechanism rotates. The rotary assembly is suitable for the space position requirement of the utility model, saves space, is reliable in connection and transmission, and effectively ensures the rotation control of the third drilling and milling mechanism, thereby realizing the multi-angle drilling and milling processing of the aluminum material by the third drilling and milling mechanism.

Preferably, the third drilling and milling mechanism 24 is a double-ended motor, and both ends of the rotating shaft are provided with drill bits, so that the third drilling and milling mechanism is provided with drill bits with different diameters. When the operation of switching big and small holes is performed, the drill bit does not need to be replaced, and the production efficiency can be further improved.

In summary, the utility model provides an aluminum drilling and milling device, which can synchronously drill and mill at multiple positions and multiple angles, improves the production efficiency and reduces the production cost.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the utility model, such changes and modifications are also intended to be within the scope of the utility model.

Claims (10)

1. The aluminum product drilling and milling equipment is characterized by comprising a frame, and a first drilling and milling device and a second drilling and milling device which are arranged on two opposite sides of the frame;

the first drilling and milling device comprises a first front-back mechanism, a first upper-lower mechanism, a first left-right mechanism, a first drilling and milling mechanism and a second drilling and milling mechanism, wherein the first upper-lower mechanism is arranged on the first front-back mechanism so as to drive the first drilling and milling mechanism and the second drilling and milling mechanism to move back and forth; the first left-right mechanism is arranged on the first upper-lower mechanism so as to drive the first drilling and milling mechanism and the second drilling and milling mechanism to move up and down; the first drilling and milling mechanism and the second drilling and milling mechanism are arranged on the first left-right mechanism so as to drive the first drilling and milling mechanism and the second drilling and milling mechanism to move left and right, and synchronous drilling of different positions of the aluminum material is realized;

the second drilling and milling device comprises a second front-rear mechanism, a second upper-lower mechanism, a second left-right mechanism, a drilling and milling rotating mechanism and a third drilling and milling mechanism, wherein the second upper-lower mechanism is arranged on the second front-rear mechanism so as to drive the third drilling and milling mechanism to move forwards and backwards; the second left-right mechanism is arranged on the second upper-lower mechanism so as to drive the third drilling and milling mechanism to move up and down; the third drilling and milling mechanism is arranged on the second left-right mechanism so as to drive the third drilling and milling mechanism to move left and right; the drilling and milling rotating mechanism is connected with the third drilling and milling mechanism to drive the third drilling and milling mechanism to rotate.

2. The aluminum product drilling and milling equipment according to claim 1, wherein the first front-rear mechanism comprises a first precursor mechanism and a first front-rear seat connected with the first precursor mechanism, and the first upper-lower mechanism is arranged on the first front-rear seat; the first upper and lower mechanism comprises a first upper driving mechanism and a first upper and lower seat connected with the first upper driving mechanism, and the first left and right mechanism is arranged on the first upper and lower seat; the first left-right mechanism comprises a first left-driving mechanism and a first left-right seat connected with the first left-driving mechanism, and the first drilling and milling mechanism and the second drilling and milling mechanism are both arranged on the first left-right seat.

3. The aluminum product milling apparatus of claim 2, wherein the first front-to-rear mechanism further comprises a first front-to-rear assembly, the first front-to-rear assembly being coupled to the first front-to-rear seat; the first upper and lower mechanism further comprises a first upper and lower assembly, and the first upper driving mechanism is connected with the first upper and lower seat through the first upper and lower assembly; the first left-right mechanism further comprises a first left-right component, and the first left-right driving mechanism is connected with the first left-right seat through the first left-right component.

4. The aluminum product drilling and milling equipment according to claim 1, wherein the second front-rear mechanism comprises a second precursor mechanism and a second front-rear seat connected with the second precursor mechanism, and the second upper-lower mechanism is arranged on the second front-rear seat; the second upper and lower mechanism comprises a second upper driving mechanism and a second upper and lower seat connected with the second upper driving mechanism, and the second left and right mechanism is arranged on the second upper and lower seat; the second left-right mechanism comprises a second left-driving mechanism and a second left-right seat connected with the second left-driving mechanism, and the drilling and milling rotating mechanism and the third drilling and milling mechanism are both arranged on the second left-right seat.

5. The aluminum product milling apparatus of claim 4, wherein the second front-rear mechanism further comprises a second front-rear assembly, the second front-rear assembly being connected to a second front-rear seat by the second front-rear assembly; the second upper and lower mechanism further comprises a second upper and lower assembly, and the second upper driving mechanism is connected with the second upper and lower seat through the second upper and lower assembly; the second left-right mechanism further comprises a second left-right component, and the second left-driving mechanism is connected with the second left-right seat through the second left-right component.

6. The aluminum product drilling and milling apparatus of claim 2, wherein the first drilling and milling device further comprises a drilling and milling moving mechanism arranged on the first left and right seats, the drilling and milling moving mechanism comprises a drilling and milling driving mechanism and a drilling and milling seat, the second drilling and milling mechanism is arranged on the drilling and milling seat, and the drilling and milling driving mechanism is respectively connected with the first left and right seats and the drilling and milling seat so as to drive the second drilling and milling mechanism to move to one side of the first left and right seats.

7. The aluminum product milling apparatus of claim 6 wherein the milling drive mechanism is a cylinder.

8. The aluminum product milling apparatus of claim 1 wherein the milling rotation mechanism comprises a rotation drive mechanism and a rotation assembly, the rotation drive mechanism being coupled to a third milling mechanism by the rotation assembly.

9. The aluminum product drilling and milling equipment according to claim 8, wherein the rotating assembly comprises a first driving wheel connected with the rotating driving mechanism, a second driving wheel connected with the third drilling and milling mechanism and a driving belt sleeved outside the first driving wheel and the second driving wheel.

10. An aluminium product milling apparatus according to any one of claims 1 to 9, wherein the third milling mechanism is a double ended motor.