CN105618824A - Numerical control boring and milling machine - Google Patents

Abstract

The invention discloses a numerical control boring and milling machine which comprises a base, a conveying belt assembly arranged above the base, supporting structures located above the base, clamping structures located above the conveying belt assembly and a milling structure located above the clamping structures. The conveying belt assembly comprises a conveying belt and fixing frames located on the two sides of the conveying belt. Each supporting structure comprises a supporting pillar, a first air cylinder located on the inner side of the supporting pillar, and a supporting rod connected with the first air cylinder. Each clamping structure comprises a second air cylinder, an abutting rod connected with the second air cylinder, and a fixing pillar located below the second air cylinder. The milling structure comprises a milling pillar, a milling head located below the milling pillar, third air cylinders located on the two sides of the milling pillar, supporting blocks located below the third air cylinders, and vertical rods located below the third air cylinders. The lower ends of the vertical rods are provided with first transverse rods and second transverse rods located below the first transverse rods.

Description

A kind of digital-control boring-milling machine

Technical field

The present invention relates to Digit Control Machine Tool field, particularly relate to a kind of digital-control boring-milling machine.

Background technology

Currently used digital-control boring-milling machine, milling head great majority on column can only longitudinal sliding motion, workpiece in the enterprising line slip of X-axis, can only be placed on workbench by workbench on lathe bed, if needing workpiece is carried out Y-axis when carrying out milling, operates cumbersome.

Therefore, it is necessary to provide a kind of new technical scheme to overcome drawbacks described above.

Summary of the invention

It is an object of the invention to provide a kind of digital-control boring-milling machine that can effectively solve above-mentioned technical problem.

For achieving the above object, the present invention adopts the following technical scheme that a kind of digital-control boring-milling machine, described digital-control boring-milling machine includes base, it is arranged at the transfer tape assemble above described base, it is positioned at the supporting construction above described base, it is positioned at described transmission and with the clamp structure above assembly and is positioned at the milling structure above described clamp structure, described transfer tape assemble includes the fixed mount being sent to and being positioned at described transmission with both sides, described supporting construction includes support column, it is positioned at the first cylinder inside described support column and the support bar being connected with described first cylinder, described clamp structure includes the second cylinder, what be connected with described second cylinder leans bar and is positioned at the fixing post below described second cylinder, described milling structure includes milling post, it is positioned at the milling head below described milling post, it is positioned at the 3rd cylinder of described milling post both sides, it is positioned at the bracer below described 3rd cylinder and is positioned at the vertical bar below described 3rd cylinder, the lower end of described vertical bar is provided with the first cross bar and is positioned at the second cross bar below described first cross bar.

Described fixed mount is L-shaped, and the lower surface of described fixed mount is fixing with the upper surface of described base to be connected, and the other end of described fixed mount is fixing with the two ends of described conveyer belt to be connected.

Described support column is the cuboid of vertical shape, and the lower surface of described support column is fixing with the upper surface of described base to be connected.

Described first cylinder is fixing with described support column to be connected, and the upper surface of described first cylinder and the upper surface of described support column are in same plane.

Described clamp structure is provided with two, and is symmetrical set respectively.

Described fixing post is cuboid, and the lower surface of described fixing post is fixing with described base upper surface to be connected, and the upper surface of described fixing post is fixing with the lower surface of described second cylinder to be connected.

Described 3rd cylinder is provided with two, and lay respectively at the left and right sides of described milling post, described each 3rd cylinder be connected with two bracers, described bracer is cuboid, the upper surface of described bracer is fixing with the lower surface of described 3rd cylinder to be connected, and the lower surface of described bracer is fixing with the upper surface of described support bar to be connected.

Stating that one end of the first cross bar is fixing with described vertical bar to be connected, the other end of described first cross bar passes the outer surface of described milling post and extends to the inside of described milling post.

The lower end of one end of described second cross bar and described vertical bar is fixing to be connected, and the other end is positioned at the lower section of described milling post, and the lower surface of the upper surface of described second cross bar and described milling post is in close contact.

Compared with prior art, there is advantages that present configuration is simple, easy to use, each face of workpiece can be carried out milling, work efficiency is high, and production cost is low.

Accompanying drawing explanation

Fig. 1 is the structural representation of digital-control boring-milling machine of the present invention.

Detailed description of the invention

As it is shown in figure 1, digital-control boring-milling machine of the present invention includes base 1, is arranged at the transfer tape assemble 4 above described base 1, is positioned at the supporting construction 2 above described base 1, is positioned at described transmission with the clamp structure 3 above assembly 4 and is positioned at the milling structure 5 above described clamp structure 3.

As it is shown in figure 1, described base 1 is in cuboid. Described transfer tape assemble 4 includes being sent to 42 and being positioned at the described transmission fixed mount 41 with 42 both sides. Described fixed mount 41 is L-shaped, described fixed mount 41 is provided with two, and laying respectively at the left and right sides of described conveyer belt 42, the lower surface of described fixed mount 41 is fixing with the upper surface of described base 1 to be connected, and the other end of described fixed mount 41 is fixed with the two ends of described conveyer belt 42 and is connected. The support bar 23 that described supporting construction 2 includes support column 21, is positioned at the first cylinder 22 inside described support column 21 and is connected with described first cylinder 22. The described support column 21 cuboid in vertical shape, its lower surface is fixing with the upper surface of described base 1 to be connected, and described support column 21 is provided with two, and lays respectively at the two ends, left and right above described base 1. Described first cylinder 22 is fixing with described support column 21 to be connected, and the upper surface of described first cylinder 22 and the upper surface of described support column 21 are in same plane, and described first cylinder 22 is provided with two, and fixes with described left and right support column 21 respectively and be connected. The two ends, left and right of described support bar 23 are connected with the first cylinder 22 of the described left and right sides, and described support bar 23 is in cuboid. Described clamp structure 3 is provided with two, and is symmetrical set respectively. What described clamp structure 3 included that the second cylinder 31 is connected with described second cylinder 31 leans bar 32 and is positioned at the fixing post 33 below described second cylinder 31. The described second cylinder 31 described support column 21 of traverse, its one end is positioned at the outside of described support column 21, one end is between described support column 21, described fixing post 33 is in cuboid, its lower surface is fixing with described base 1 upper surface to be connected, and upper surface is fixing with the lower surface of described second cylinder 31 to be connected. Described one end leaning bar 32 is connected with described second cylinder 31 so that described in lean bar 32 and move left and right under the effect of described second cylinder 31, clamp described object thus convenient.

As it is shown in figure 1, described milling structure 5 includes milling post 51, is positioned at the milling head 52 below described milling post 51, is positioned at the 3rd cylinder 53 of described milling post 51 both sides, is positioned at the bracer 54 below described 3rd cylinder 53 and is positioned at the vertical bar 55 below described 3rd cylinder 53. Described milling post 51 is cylinder, the upper and lower surface of the described milling post 51 described support bar 23 of traverse. The upper surface of described milling head 52 is fixing with the lower surface of described milling post 51 to be connected. Described 3rd cylinder 53 is provided with two, and lays respectively at the left and right sides of described milling post 51. Described each 3rd cylinder 53 be connected with two bracers 54, described bracer 54 is in cuboid, its upper surface is fixing with the lower surface of described 3rd cylinder 53 to be connected, the lower surface of described bracer 54 is fixing with the upper surface of described support bar 23 to be connected, thus being fixed by described 3rd cylinder 53. Described vertical bar 55 is in cuboid, its upper end is connected with described 3rd cylinder 53, the upper and lower surface of the described support bar 23 of lower end traverse of described vertical bar 55 extends to the lower section of described support bar 23, and the lower end of described vertical bar 55 is provided with the first cross bar 551 and is positioned at the second cross bar 552 below described first cross bar 551. One end of described first cross bar 551 is fixing with described vertical bar 55 to be connected, and the outer surface of the other end described milling post 51 of traverse of described first cross bar 551 extends to the inside of described milling post 51, is fixed by described milling post 51 thus convenient. One end of described second cross bar 552 is fixing with the lower end of described vertical bar 55 to be connected, the other end is positioned at the lower section of described milling post 51, and the described upper surface of the second cross bar 552 is in close contact with the lower surface of described milling post 51, thus described milling post 51 is insisted with described second cross bar 552 by described first cross bar 551, thus convenient, described milling post 51 is moved up or moves down.

As shown in Figure 1, during the work of described digital-control boring-milling machine of the present invention, first material is placed on described conveyer belt 42, described conveyer belt 42 is by the lower section of described material transportation to milling head 52, now the second cylinder 31 in clamp structure 3 starts, bar 32 relative movement is leaned described in making, thus by material clamp column, now start the first cylinder 22, described support bar 23 is moved left and right, until described milling post 51 is moved to suitable position, then the 3rd cylinder 53 is started, described vertical bar 53 is moved up and down, thus driving described first cross bar 551 to move up and down with described second cross bar 552, and then drive described milling post 51 to move up and down, thus facilitating milling head 52 to carry out milling, after treating milling, lean bar 32 and be reversely located remotely from each other movement under the effect of the second cylinder 31, now material moves to the next position under the effect of described conveyer belt 42, so far digital-control boring-milling machine of the present invention work is complete.

Obviously, above-described embodiment is only used to clearly demonstrate example, and is not the restriction to embodiment. For those of ordinary skill in the field, other multi-form change or variations can also be made on the basis of the above description. Here without also cannot all embodiments be given exhaustive. And the apparent change thus amplified out or variation are still among the protection domain of the invention.

Claims (9)

1. a digital-control boring-milling machine, it is characterized in that: described digital-control boring-milling machine includes base, it is arranged at the transfer tape assemble above described base, it is positioned at the supporting construction above described base, it is positioned at described transmission and with the clamp structure above assembly and is positioned at the milling structure above described clamp structure, described transfer tape assemble includes the fixed mount being sent to and being positioned at described transmission with both sides, described supporting construction includes support column, it is positioned at the first cylinder inside described support column and the support bar being connected with described first cylinder, described clamp structure includes the second cylinder, what be connected with described second cylinder leans bar and is positioned at the fixing post below described second cylinder, described milling structure includes milling post, it is positioned at the milling head below described milling post, it is positioned at the 3rd cylinder of described milling post both sides, it is positioned at the bracer below described 3rd cylinder and is positioned at the vertical bar below described 3rd cylinder, the lower end of described vertical bar is provided with the first cross bar and is positioned at the second cross bar below described first cross bar.

2. digital-control boring-milling machine as claimed in claim 1, it is characterised in that: described fixed mount is L-shaped, and the lower surface of described fixed mount is fixing with the upper surface of described base to be connected, and the other end of described fixed mount is fixing with the two ends of described conveyer belt to be connected.

3. digital-control boring-milling machine as claimed in claim 2, it is characterised in that: described support column is the cuboid of vertical shape, and the lower surface of described support column is fixing with the upper surface of described base to be connected.

4. digital-control boring-milling machine as claimed in claim 3, it is characterised in that: described first cylinder is fixing with described support column to be connected, and the upper surface of described first cylinder and the upper surface of described support column are in same plane.

5. digital-control boring-milling machine as claimed in claim 4, it is characterised in that: described clamp structure is provided with two, and is symmetrical set respectively.

6. digital-control boring-milling machine as claimed in claim 5, it is characterised in that: described fixing post is cuboid, and the lower surface of described fixing post is fixing with described base upper surface to be connected, and the upper surface of described fixing post is fixing with the lower surface of described second cylinder to be connected.

7. digital-control boring-milling machine as claimed in claim 6, it is characterized in that: described 3rd cylinder is provided with two, and lay respectively at the left and right sides of described milling post, described each 3rd cylinder be connected with two bracers, described bracer is cuboid, the upper surface of described bracer is fixing with the lower surface of described 3rd cylinder to be connected, and the lower surface of described bracer is fixing with the upper surface of described support bar to be connected.

8. digital-control boring-milling machine as claimed in claim 7, it is characterised in that: stating that one end of the first cross bar is fixing with described vertical bar to be connected, the other end of described first cross bar passes the outer surface of described milling post and extends to the inside of described milling post.

9. digital-control boring-milling machine as claimed in claim 8, it is characterized in that: one end of described second cross bar is fixing with the lower end of described vertical bar to be connected, the other end is positioned at the lower section of described milling post, and the lower surface of the upper surface of described second cross bar and described milling post is in close contact.