CN208391483U - More moving-beam type numerical control lathes - Google Patents
More moving-beam type numerical control lathes Download PDFInfo
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- CN208391483U CN208391483U CN201820996875.5U CN201820996875U CN208391483U CN 208391483 U CN208391483 U CN 208391483U CN 201820996875 U CN201820996875 U CN 201820996875U CN 208391483 U CN208391483 U CN 208391483U
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- driving portion
- dynamic beam
- spindle box
- moving
- numerical control
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Abstract
The utility model provides a kind of more moving-beam type numerical control lathes, including pedestal, linear guide, the first dynamic beam, the second dynamic beam, the first spindle box, the second spindle box, the first driving portion and the second driving portion, first dynamic beam, the second dynamic beam are actively set in linear guide, first spindle box is mounted on the first dynamic beam, second spindle box is mounted on the second dynamic beam, first driving portion drives the first dynamic beam to move along linear guide, and the second driving portion drives the second dynamic beam to move along linear guide.The utility model uses more movable beam type structures, single part in workbench can simultaneously process part with more than two cutting tools, the time efficiency and the degree of automation of single lathe can be greatly improved, 2 times or more can be promoted than existing processing efficiency, it is fairly obvious that with cost advantage is compared from the time, to greatly improve enterprises production efficiency, enhance competitive advantage, creates more multiple enterprises and economic results in society.
Description
Technical field
The utility model relates to machine tool technology field, in particular to a kind of more moving-beam type numerical control lathes.
Background technique
In the especially large-scale single metal parts machining field of metal parts, due to large-scale single component working (finishing) area
It increases significantly, completion process time is caused accordingly to be significantly increased, at present for the traditional machine tool of heavy parts processing due to only adopting
With the limitation of single action girder construction feature, a machine tool can only carry out processing work with the cutting tool of a quantity, cannot
Largely effective raising time efficiency.
Utility model content
The utility model provides a kind of more moving-beam type numerical control lathes, to solve the above technical problems.
To solve the above problems, the one aspect as the utility model, provides a kind of more moving-beam type numerical control lathes, packet
Include pedestal, linear guide, the first dynamic beam, the second dynamic beam, the first spindle box, the second spindle box, the first driving portion and the second driving
Portion, the first dynamic beam, the second dynamic beam are actively set in the linear guide, and first spindle box is mounted on described
On first dynamic beam, second spindle box is mounted on the described second dynamic beam, and first driving portion drives the first dynamic beam
It is moved along the linear guide, second driving portion drives the second dynamic beam to move along the linear guide.
Preferably, first spindle box, be provided with cutter on the second spindle box.
Preferably, four identical linear guides have been set in parallel on the pedestal.
Preferably, the side of each linear guide is provided with first driving portion and one described second
Driving portion.
Preferably, first driving portion drives the first dynamic beam to lead along the straight line by the first bolt and nut mechanism
Rail movement, second driving portion drive the second dynamic beam to move along the linear guide by the second bolt and nut mechanism.
Preferably, first bolt and nut mechanism includes screw rod and nut, and first driving portion drives the screw rod
Rotation, the nut is connect with the screw flight, and the nut is fixedly connected with the described first dynamic beam, first screw rod
Nut body is identical as the second bolt and nut mechanism structure.
Preferably, the pedestal corresponding to two linear guides in left side and two linear guides on right side
Between region formed workpiece placement region.
Preferably, first spindle box is movably mounted on the described first dynamic beam by the first two-dimentional driving portion, institute
The second spindle box is stated to be movably mounted on the described second dynamic beam by the second two-dimentional driving portion.
Preferably, the described first two-dimentional driving portion includes vertical driving portion and horizontal drive portion, and first spindle box is logical
It crosses the vertical driving portion to be installed in the horizontal drive portion, the described first two-dimentional driving portion and the second two-dimentional driving portion
Structure it is identical.
Preferably, the section of the pedestal is in U-shape, and the workpiece placement region is located at the U-shaped and is formed by groove,
Workbench is provided in the workpiece placement region.
The utility model uses more movable beam type structures, can be simultaneously with more than two cuttings to the single part in workbench
Cutter processes part, the time efficiency and the degree of automation of single lathe can be greatly improved, than existing processing efficiency energy
2 times or more is promoted, it is fairly obvious that advantage compare with cost from the time, to greatly improve enterprises production efficiency, enhancing competes excellent
Gesture creates more multiple enterprises and economic results in society.
Detailed description of the invention
Fig. 1 schematically shows the structural schematic diagram of the utility model.
Appended drawing reference in figure: 1, pedestal;2, linear guide;3, the first dynamic beam;4, the second dynamic beam;5, the first spindle box;6,
Second spindle box;7, the first driving portion;8, the second driving portion;9, cutter;10, screw rod;11, nut;12, vertical driving portion;13,
Horizontal drive portion;14, workbench.
Specific embodiment
The embodiments of the present invention are described in detail below in conjunction with attached drawing, but the utility model can be by right
It is required that the multitude of different ways for limiting and covering is implemented.
The one aspect of the utility model, provides a kind of more moving-beam type numerical control lathes, including pedestal 1, linear guide 2,
First dynamic beam 3, the second dynamic beam 4, the first spindle box 5, the second spindle box 6, the first driving portion 7 and the second driving portion 8, described first
Dynamic beam 3, the second dynamic beam 4 are actively set in the linear guide 2, and it is dynamic that first spindle box 5 is mounted on described first
On beam 3, second spindle box 6 is mounted on the described second dynamic beam 4, and first driving portion 7 drives the described first dynamic 3 edge of beam
The linear guide 2 moves, and second driving portion 8 drives the described second dynamic beam 4 to move along the linear guide 2.Certainly, originally
More dynamic beams can also be arranged in utility model, to carry more cutters.Preferably, workbench 14 is installed on pedestal 1.It is excellent
Selection of land is provided with cutter 9 on first spindle box 5, the second spindle box 6, to provide multiple cutters that can be used simultaneously.
When the single or multiple parts on workbench 14 need quick machining to complete, the utility model can be simultaneously
The part on workbench is processed with cutting tools more than two quantity, or simultaneously to the different piece of Same Part
It is processed, has the function of the characteristics of simple structure, at low cost and multipurpose, solved in single numerically-controlled machine tool in the prior art
A technical issues of part is not processed simultaneously with cutting tools more than 2 quantity.
Preferably, four identical linear guides 2 have been set in parallel on the pedestal 1, wherein the left side and the right
Each two.Preferably, the linear guide 2 of two corresponding to left side of the pedestal 1 and two straight lines on right side are led
Region between rail 2 forms workpiece placement region.Preferably, workbench 14 is installed in groove.
Preferably, the side of each linear guide 2 is provided with first driving portion 7 and one described
Two driving portions 8.For example, the first driving portion 7 and second driving portion 8 can be motor etc..
Preferably, first driving portion 7 drives the first dynamic beam 3 along the straight line by the first bolt and nut mechanism
Guide rail 2 moves, and second driving portion 8 drives the second dynamic beam 4 along the linear guide 2 by the second bolt and nut mechanism
Movement.
Preferably, first bolt and nut mechanism includes screw rod 10 and nut 11, and first driving portion 7 drives described
Screw rod 10 rotates, and the nut 11 is threadedly coupled with the screw rod 10, and the nut 11 and the fixed company of the described first dynamic beam 3
It connects, first bolt and nut mechanism is identical as the second bolt and nut mechanism structure.
Preferably, first spindle box 5 is movably mounted on the described first dynamic beam 3 by the first two-dimentional driving portion,
Second spindle box 6 is movably mounted on the described second dynamic beam 4 by the second two-dimentional driving portion.
Preferably, the described first two-dimentional driving portion includes vertical driving portion 12 and horizontal drive portion 13, first main shaft
Case 5 is installed in the horizontal drive portion 13 by the vertical driving portion 12, the described first two-dimentional driving portion and described second
The structure of two-dimentional driving portion is identical.Motor-driven ball screw structure can be used in vertical driving portion 12 and horizontal drive portion 13
Deng.
Preferably, the section of the pedestal 1 is in U-shape, and the workpiece placement region is located at the U-shaped and is formed by groove
In, workbench 14 is provided in the workpiece placement region.
In the above-mentioned technical solutions, when the part on workbench needs while being added using the cutting tool of two quantity
In working hour, the first driving portion 7 drives the first dynamic beam 1 along 8 horizontal rectilinear motion of horizontal linear guide rail, by being arranged in the first dynamic beam 3
On the first spindle box 5 on cutting tool on workbench part carry out it is separately machined;Meanwhile second driving portion 8 drive
Second dynamic beam 4 passes through cutting on the second spindle box 6 for being arranged on the second dynamic beam 4 along horizontal linear guide rail horizontal rectilinear motion
Cutting knife tool carries out the part on workbench separately machined.Preferably, by using conventional tool in the prior art, to lathe
The conventional programming of software systems can avoid the movement interference between two dynamic beams.
It is described above to be only the preferred embodiment of the utility model, be not intended to limit the utility model, for this
For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model
Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.
Claims (10)
1. a kind of more moving-beam type numerical control lathes, which is characterized in that including pedestal (1), linear guide (2), the first dynamic beam (3),
Two dynamic beams (4), the first spindle box (5), the second spindle box (6), the first driving portion (7) and the second driving portion (8), described first is dynamic
Beam (3), the second dynamic beam (4) are actively set on the linear guide (2), and first spindle box (5) is mounted on described
On first dynamic beam (3), second spindle box (6) is mounted on the described second dynamic beam (4), the first driving portion (7) driving
The first dynamic beam (3) moves along the linear guide (2), and second driving portion (8) drives the second dynamic beam (4) along institute
State linear guide (2) movement.
2. more moving-beam type numerical control lathes according to claim 1, which is characterized in that first spindle box (5), the second master
Cutter (9) are provided on axle box (6).
3. more moving-beam type numerical control lathes according to claim 1, which is characterized in that be set in parallel on the pedestal (1)
There are four identical linear guides (2).
4. more moving-beam type numerical control lathes according to claim 3, which is characterized in that the one of each linear guide (2)
Side is provided with first driving portion (7) and second driving portion (8).
5. more moving-beam type numerical control lathes according to claim 4, which is characterized in that first driving portion (7) passes through the
One bolt and nut mechanism drives the first dynamic beam (3) to move along the linear guide (2), and second driving portion (8) passes through
Second bolt and nut mechanism drives the second dynamic beam (4) to move along the linear guide (2).
6. more moving-beam type numerical control lathes according to claim 5, which is characterized in that first bolt and nut mechanism includes
Screw rod (10) and nut (11), first driving portion (7) drive screw rod (10) rotation, the nut (11) and the spiral shell
Bar (10) is threadedly coupled, and the nut (11) is fixedly connected with the described first dynamic beam (3), first bolt and nut mechanism and
The second bolt and nut mechanism structure is identical.
7. more moving-beam type numerical control lathes according to claim 4, which is characterized in that the pedestal (1) corresponds to left side
Two linear guides (2) and right side two linear guides (2) between region formed workpiece placement region.
8. more moving-beam type numerical control lathes according to claim 1, which is characterized in that first spindle box (5) passes through the
One two-dimentional driving portion is movably mounted on the described first dynamic beam (3), and second spindle box (6) passes through the second two-dimentional driving portion
It is movably mounted on the described second dynamic beam (4).
9. more moving-beam type numerical control lathes according to claim 8, which is characterized in that the described first two-dimentional driving portion includes perpendicular
Straight driving portion (12) and horizontal drive portion (13), first spindle box (5) are installed to institute by the vertical driving portion (12)
It states on horizontal drive portion (13), the described first two-dimentional driving portion is identical as the described second two-dimentional structure of driving portion.
10. more moving-beam type numerical control lathes according to claim 7, which is characterized in that the section of the pedestal (1) is in U-shape,
The workpiece placement region is located at the U-shaped and is formed by groove, and workbench (14) are provided in the workpiece placement region.
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CN201820996875.5U CN208391483U (en) | 2018-06-26 | 2018-06-26 | More moving-beam type numerical control lathes |
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CN201820996875.5U CN208391483U (en) | 2018-06-26 | 2018-06-26 | More moving-beam type numerical control lathes |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108544245A (en) * | 2018-06-26 | 2018-09-18 | 深圳市联合数控科技有限公司 | More moving-beam type numerical control lathes |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108544245A (en) * | 2018-06-26 | 2018-09-18 | 深圳市联合数控科技有限公司 | More moving-beam type numerical control lathes |
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