CN205465184U - Turning and milling composite machine tool - Google Patents
Turning and milling composite machine tool Download PDFInfo
- Publication number
- CN205465184U CN205465184U CN201620319563.1U CN201620319563U CN205465184U CN 205465184 U CN205465184 U CN 205465184U CN 201620319563 U CN201620319563 U CN 201620319563U CN 205465184 U CN205465184 U CN 205465184U
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Abstract
The utility model discloses a turning and milling composite machine tool, including two -sided whole lathe bed, spindle processing device, vice spindle processing device, X axle sliding rail structure, Y axle sliding rail structure, Z axle sliding rail structure and the dynamic knife tower device of setting on the lathe bed, two main shaft settings, make main shaft and vice main shaft dock the work piece completely, need not to take off and just can process, make the improvement of work piece precision to practice thrift the cost of labor, contained angle between the preceding and horizontal plane of two -sided whole lathe bed be 60, its at the back and the contained angle between the horizontal plane be 30, dynamic knife tower device the gravity distribution in X, Y axle orientation, bear jointly by it to the focus keeps unchangeable in the central bearing capacity position of lathe forever, can reduce the weight of dynamic knife tower device own and to the wearing and tearing of X, Y through -drive lead screw and guide rail, make its motion even. Gravity direct action in the axial of X through -drive lead screw of dynamic knife tower device, the reverse gap when making its transmission is almost accurate for zero, positioning accuracy.
Description
Technical field
This utility model relates to machine tool field, particularly to a kind of complex milling machine tool.
Background technology
In traditional production technology, same parts are bored, milling, attack processing need at multiple stage machine
Processing on bed, need multiple clamping, machining accuracy is the highest, and efficiency is relatively low.And the transmission on lathe
Although the drive gap between screw mandrel and nut is the least, but as long as there being gap, when drive lead screw is towards one
After the motion of direction, then during reverse drive, backlass can be produced unavoidably, have backlass will affect machine
The repetitive positioning accuracy of bed, thus affect machining accuracy.
Utility model content
Main purpose of the present utility model is to provide a kind of complex milling machine tool, it is intended to improve machining accuracy and
Work efficiency, saves cost of labor.
For solving the problems referred to above, this utility model be the technical scheme is that
A kind of complex milling machine tool, the spindle processing device including two-sided integral lathe bed, being arranged on lathe bed,
Secondary spindle processing device, X-axis rail structure, Y-axis rail structure, triangular support plate, Z axis slide rail knot
Structure and the power cutter tower device being arranged on described Y-axis rail structure, described spindle processing device and described
Secondary spindle processing device is arranged on the two ends of Z-direction, described spindle processing device include main shaft geared head,
It is arranged on the high-accuracy main shaft on described main shaft geared head, for driving the first servo electricity of high-accuracy main shaft
Machine and the spindle drive belt being arranged on described first servomotor and described high-accuracy main shaft;Described pair
Spindle processing device include secondary main shaft planker, the secondary main shaft geared head being arranged on described secondary main shaft planker,
It is arranged on the high-accuracy secondary main shaft on described secondary main shaft geared head, for driving the second of high-accuracy secondary main shaft
Servomotor and the secondary spindle drive skin being arranged on described second servomotor and described high-accuracy secondary main shaft
Band;Described X-axis rail structure includes X-axis planker, the X-axis guide rail being arranged on described X-axis planker and X
Through-drive screw mandrel, the X-axis guide rail slide block being arranged on described X-axis guide rail and be arranged on described X-axis pass
The X-axis servomotor for driving of movable wire boom end;
Described triangular support plate is right angled triangle gripper shoe, a L-square of described triangular support plate
Being arranged on described X-axis guide rail slide block, described Y-axis rail structure is arranged on described triangular support plate
On another L-square;Described X-axis drive lead screw acts on described triangular support plate, promotes described three
Dihedral gripper shoe is at described X-axis slide on rails;
Described Y-axis rail structure includes the Y-axis guide rail being arranged on the L-square of described triangular support plate
The Y-axis guide rail slide block that with Y-axis drive lead screw, is arranged on described Y-axis guide rail and be arranged on described Y
The Y-axis servomotor for driving of through-drive screw mandrel end, described power cutter tower device is connected to described
On Y-axis guide rail slide block;Described Y-axis drive lead screw acts on described power cutter tower device, promotes described dynamic
Power cutter tower apparatus is at described Y-axis slide on rails;
Described Z axis rail structure includes horizontal Z axis the first guide rail before described two-sided integral lathe bed
With Z axis the first drive lead screw, horizontal Z axis the second guide rail after described two-sided integral lathe bed and Z
Axle the second drive lead screw, Z axis the first guide rail slide block being arranged on described Z axis the first guide rail, it is arranged on
Z axis the second guide rail slide block on described Z axis the second guide rail, it is arranged on described Z axis the first driving wire rod end
Portion for drive Z axis the first servomotor and be arranged on described Z axis the second drive lead screw end
For Z axis the second servomotor driven;It is sliding that described secondary main shaft planker is connected to described Z axis the first guide rail
On block, described Z axis the first drive lead screw acts on described secondary main shaft planker, promotes described secondary main shaft to add
Frock is put at described Z axis the first slide on rails;Described X-axis planker is connected to described Z axis the second guide rail
On slide block, described Z axis the second drive lead screw acts on described X-axis planker, promotes described X-axis slide rail
Structure and described Y-axis rail structure thereon and described power cutter tower device entirety are led at described Z axis second
Slide on rail;
Arrange in 90 ° of angles between two sides before and after described two-sided integral lathe bed, before it with horizontal plane it
Between angle be 60 °, the angle behind and between horizontal plane is 30 °, described X-axis rail structure with
Angle between horizontal plane is 60 °, and the angle between described Y-axis rail structure and horizontal plane is 30 °.
Preferably, described power cutter tower device includes cutter tower planker and be arranged on described cutter tower planker 12
Station cutter tower, described cutter tower planker is connected on described Y-axis guide rail slide block.
Preferably, described X-axis drive lead screw, Y-axis drive lead screw, Z axis the first drive lead screw and Z axis
Two drive lead screws are high-precision ball screw, including screw rod and nut, described X-axis drive lead screw
Nut is connected with described triangular support plate, promotes described triangular support plate sliding on described X-axis guide rail
Dynamic;The nut of described Y-axis drive lead screw is connected with described power cutter tower device, promotes described power cutter tower
Device is at described Y-axis slide on rails;The nut of described Z axis the first drive lead screw is connected to described secondary main
On axis carriage, promote described secondary spindle processing device at described Z axis the first slide on rails;Described Z axis
The nut of the second drive lead screw is connected on described X-axis planker, promote described X-axis rail structure and on
Described Y-axis rail structure and described power cutter tower device overall at described Z axis the second slide on rails.
Preferably, described X-axis guide rail is provided with two, be arranged in parallel, and described X-axis drive lead screw is parallel to be set
Put described in two between X-axis guide rail;Described Y-axis guide rail is provided with two, be arranged in parallel, and described Y-axis passes
Movable wire bar is set in parallel in described in two between Y-axis guide rail;Described Z axis the first guide rail is provided with two, parallel
Arranging, described Z axis the first drive lead screw is set in parallel in described in two between Z axis the first guide rail;Described Z
Axle the second guide rail is provided with two, be arranged in parallel, and described Z axis the second drive lead screw is set in parallel in Z described in two
Between axle the second guide rail.
Having the beneficial effect that of complex milling machine tool of the present utility model
1, being provided with spindle processing device and secondary spindle processing device, double main shafts are arranged, and make main shaft and secondary master
Axle docks workpiece completely, it is not necessary to takes off and just can process, and makes workpiece accuracy improve, and saves artificial one-tenth
This.
2, Y-axis drive cutter tower apparatus: be provided with power cutter tower device, power cutter on Y-axis rail structure
Tower apparatus can pass through the upper and lower slip on Y-axis guide rail of Y-axis rail structure, can pass through X-axis rail structure
Forward and backward slip on X-axis guide rail, moreover it is possible to by Z axis rail structure on Z axis the second guide rail left and right
Slide, to adjust Working position, make the brill milling of process side surface parts the function such as to attack and substantially increase processing
Precision and efficiency.
3, arrange in 90 ° of angles between two sides before and after two-sided integral lathe bed, before it and between horizontal plane
Angle be 60 °, the angle behind and between horizontal plane is 30 °, X-axis rail structure and horizontal plane
Between angle be 60 °, the angle between Y-axis rail structure and horizontal plane is 30 °, power cutter tower fill
The weight distribution put is in X, Y direction, and by its shared, and center of gravity is permanently retained in lathe
Center bearing capacity invariant position, can reduce the weight of power cutter tower device own and to X, Y-axis drive lead screw and lead
The abrasion of rail so that it is motion homogeneous.
4, the drive lead screw of lathe is high-precision ball screw, and simultaneously 60 ° of layouts tilting lathe bed are direct
Can affect the gap of X-direction ball screw, the gravity of power cutter tower device directly acts on X-axis transmission
Screw mandrel axial so that it is backlass during transmission is almost nil, and positioning precision is accurate.60 ° of oblique lathe beds
Design has congenital accuracy benefits.
Accompanying drawing explanation
Fig. 1 is structural representation Fig. 1 of this utility model complex milling machine tool;
Fig. 2 is structural representation Fig. 2 of this utility model complex milling machine tool;
Fig. 3 is the right view of this utility model complex milling machine tool.
The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, do referring to the drawings into
One step explanation.
Detailed description of the invention
Should be appreciated that specific embodiment described herein, and need not only in order to explain this utility model
In limiting this utility model.
Referring to figs. 1 through Fig. 3, an embodiment of complex milling machine tool of the present utility model proposed:
A kind of complex milling machine tool, including two-sided integral lathe bed 1, the spindle processing dress that is arranged on lathe bed 1
Put, secondary spindle processing device, X-axis rail structure, Y-axis rail structure, triangular support plate 22, Z axis
Rail structure and the power cutter tower device being arranged on Y-axis rail structure.Before and after two-sided integral lathe bed 1
Arranging in 90 ° of angles between two sides, the angle before it and between horizontal plane is 60 °, behind with water
Angle between plane is 30 °.Spindle processing device and secondary spindle processing device are arranged on two-sided integral bed
Two ends, left and right before body 1.
Spindle processing device include main shaft geared head 2, the high-accuracy main shaft 3 being arranged on main shaft geared head 2,
For driving the first servomotor 4 of high-accuracy main shaft 3 and being arranged on the first servomotor 4 and high-accuracy
Spindle drive belt on main shaft 3.Secondary spindle processing device includes secondary main shaft planker 10, is arranged on secondary master
Secondary main shaft geared head 5 on axis carriage 10, the high-accuracy secondary main shaft 6 being arranged on secondary main shaft geared head 5,
For driving the second servomotor 7 of high-accuracy secondary main shaft 6 and being arranged on the second servomotor 7 and high-precision
Secondary spindle drive belt on close secondary main shaft 6.Double main shafts are arranged, and make main shaft 3 the most right with secondary main shaft 6
Connect workpiece, it is not necessary to take off and just can process, make workpiece accuracy improve, and save cost of labor.
Z axis rail structure includes horizontal Z axis the first guide rail 11 and Z before two-sided integral lathe bed 1
Axle the first drive lead screw 9, horizontal Z axis the second guide rail 15 after two-sided integral lathe bed 1 and Z axis
Second drive lead screw 14, Z axis the first guide rail slide block 12 being arranged on Z axis the first guide rail 11, installation
Z axis the second guide rail slide block 16 on Z axis the second guide rail 15, it is arranged on Z axis the first drive lead screw 9 end
Portion for drive Z axis the first servomotor 8 and be arranged on Z axis the second drive lead screw 14 end
For Z axis the second servomotor 13 driven.Secondary main shaft planker 10 is connected to Z axis the first guide rail slide block
On 12, Z axis the first drive lead screw 9 acts on secondary main shaft planker 10, promotes secondary spindle processing device to exist
Slide on Z axis the first guide rail 11.
The X-axis guide rail 20 and X that X-axis rail structure includes X-axis planker 17, is arranged on X-axis planker 17
Through-drive screw mandrel 19, the X-axis guide rail slide block 21 being arranged on X-axis guide rail 20 and be arranged on X-axis pass
The X-axis servomotor 18 for driving of movable wire bar 19 end.X-axis planker 17 is connected to Z axis second
On guide rail slide block 16, Z axis the second drive lead screw 14 acts on X-axis planker 17, promotes X-axis slide rail
Structure is slided on Z axis the second guide rail 15.
Triangular support plate 22 is right angled triangle gripper shoe 22, a L-square of triangular support plate 22
Being arranged on X-axis guide rail slide block 21, Y-axis rail structure is arranged on another right angle of triangular support plate 22
On plate.X-axis drive lead screw 19 acts on triangular support plate 22, promotes triangular support plate 22 to exist
Slide on X-axis guide rail 20.
Y-axis rail structure includes the Y-axis guide rail 24 and Y being arranged on the L-square of triangular support plate 22
Through-drive screw mandrel, the Y-axis guide rail slide block 25 being arranged on Y-axis guide rail 24 and be arranged on Y-axis transmission
The Y-axis servomotor 23 for driving of screw mandrel end.Power cutter tower device includes cutter tower planker 26 and peace
The 12 station cutter towers 27 being contained on cutter tower planker 26, cutter tower planker 26 is connected to Y-axis guide rail slide block 25
On.Y-axis drive lead screw acts on power cutter tower device, and propulsion power cutter tower apparatus is at Y-axis guide rail 24
Upper slip.
X-axis guide rail 20 is provided with two, be arranged in parallel, and X-axis drive lead screw 19 is set in parallel in two X-axis and leads
Between rail 20.Y-axis guide rail 24 is provided with two, be arranged in parallel, and Y-axis drive lead screw is set in parallel in two Y
Between axis rail 24.Z axis the first guide rail 11 is provided with two, be arranged in parallel, Z axis the first drive lead screw 9
It is set in parallel between two Z axis the first guide rails 11.Z axis the second guide rail 15 is provided with two, be arranged in parallel,
Z axis the second drive lead screw 14 is set in parallel between two Z axis the second guide rails 15.
X-axis drive lead screw 19, Y-axis drive lead screw, Z axis the first drive lead screw 9 and Z axis the second driving wire
Bar 14 is high-precision ball screw, including screw rod and nut.The nut of X-axis drive lead screw 19 and three
Dihedral gripper shoe 22 connects, and promotes triangular support plate 22 to slide on X-axis guide rail 20.Y-axis transmission
The nut of screw mandrel is connected with power cutter tower device, and propulsion power cutter tower apparatus slides on Y-axis guide rail 24.
The nut of Z axis the first drive lead screw 9 is connected on secondary main shaft planker 10, promotes secondary main shaft 6 processing unit (plant)
Z axis the first guide rail 11 slides.The nut of Z axis the second drive lead screw 14 is connected to X-axis planker 17
On, promote X-axis rail structure and Y-axis rail structure thereon and power cutter tower device overall at Z axis the
Slide on two guide rails 15.
Power cutter tower device can pass through the upper and lower slip on Y-axis guide rail 24 of Y-axis rail structure, can pass through
X-axis rail structure is forward and backward slip on X-axis guide rail 20, moreover it is possible to by Z axis rail structure at Z axis
Left and right slip on two guide rails 15, to adjust Working position, makes the brill milling of process side surface parts the merit such as to attack
Machining accuracy and efficiency can be substantially increased.
Arrange in 90 ° of angles between two sides before and after two-sided integral lathe bed 1, before it and between horizontal plane
Angle be 60 °, the angle behind and between horizontal plane is 30 °, X-axis rail structure and horizontal plane
Between angle be 60 °, the angle between Y-axis rail structure and horizontal plane is 30 °, power cutter tower fill
The weight distribution put is in X, Y direction, and by its shared, and center of gravity is permanently retained in lathe
Center bearing capacity invariant position, can reduce the weight of power cutter tower device own and to X, Y-axis drive lead screw and lead
The abrasion of rail so that it is motion homogeneous.
The drive lead screw of lathe is high-precision ball screw, and simultaneously 60 ° of layouts tilting lathe bed 1 are direct
Can affect the gap of X-direction ball screw, the gravity of power cutter tower device directly acts on X-axis transmission
Screw mandrel 19 axial so that it is backlass during transmission is almost nil, and positioning precision is accurate.60 ° of oblique beds
Body 1 design has congenital accuracy benefits.
This product can configure automatic chip removal, beneficially chip removal.The drive lead screw put in simultaneously coordinating and guide rail
Protective metal plate, can avoid chip to pile up on drive lead screw and guide rail, and configure automatic chip removal,
Can automatically remove chip, increase the effective time of workman.
The increase of machine tool figure place, the configuration of automatic chip removal, it is essentially all as automated production basic,
One people multiple stage on duty lathe, the always direction of Machine Tool Development, Y-axis drive cutter tower set up by oblique lathe bed 1
Device, autoloader, double main shaft add mechanical hand automatic loading/unloading, and clamped one time completes all of chip
Operation, automatic chip-removal, it is achieved the advanced Digit Control Machine Tool that work efficiency is high.
The foregoing is only preferred embodiment of the present utility model, not thereby limit of the present utility model specially
Profit scope, every equivalent structure transformation utilizing this utility model description and accompanying drawing content to be made, or directly
Connect or be indirectly used in other relevant technical fields, be the most in like manner included in patent protection of the present utility model
In the range of.
Claims (4)
1. a complex milling machine tool, it is characterised in that include two-sided integral lathe bed, be arranged on lathe bed
Spindle processing device, secondary spindle processing device, X-axis rail structure, Y-axis rail structure, triangle prop up
Fagging, Z axis rail structure and the power cutter tower device being arranged on described Y-axis rail structure, described master
Axis machining apparatus and described secondary spindle processing device are arranged on the two ends of Z-direction, and described spindle processing fills
Put and include main shaft geared head, the high-accuracy main shaft being arranged on described main shaft geared head, high-precision for driving
First servomotor of close main shaft and the master being arranged on described first servomotor and described high-accuracy main shaft
Shaft transmission belt;Described secondary spindle processing device includes secondary main shaft planker, is arranged on described secondary main shaft planker
On secondary main shaft geared head, the high-accuracy secondary main shaft being arranged on described secondary main shaft geared head, for driving
Second servomotor of high-accuracy secondary main shaft and be arranged on described second servomotor and described high-accuracy secondary main
Secondary spindle drive belt on axle;Described X-axis rail structure includes X-axis planker, is arranged on described X-axis
X-axis guide rail on planker and X-axis drive lead screw, the X-axis guide rail slide block being arranged on described X-axis guide rail
And it is arranged on the X-axis servomotor for driving of described X-axis drive lead screw end;
Described triangular support plate is right angled triangle gripper shoe, a L-square of described triangular support plate
Being arranged on described X-axis guide rail slide block, described Y-axis rail structure is arranged on described triangular support plate
On another L-square;Described X-axis drive lead screw acts on described triangular support plate, promotes described three
Dihedral gripper shoe is at described X-axis slide on rails;
Described Y-axis rail structure includes the Y-axis guide rail being arranged on the L-square of described triangular support plate
The Y-axis guide rail slide block that with Y-axis drive lead screw, is arranged on described Y-axis guide rail and be arranged on described Y
The Y-axis servomotor for driving of through-drive screw mandrel end, described power cutter tower device is connected to described
On Y-axis guide rail slide block;Described Y-axis drive lead screw acts on described power cutter tower device, promotes described dynamic
Power cutter tower apparatus is at described Y-axis slide on rails;
Described Z axis rail structure includes horizontal Z axis the first guide rail before described two-sided integral lathe bed
With Z axis the first drive lead screw, horizontal Z axis the second guide rail after described two-sided integral lathe bed and Z
Axle the second drive lead screw, Z axis the first guide rail slide block being arranged on described Z axis the first guide rail, it is arranged on
Z axis the second guide rail slide block on described Z axis the second guide rail, it is arranged on described Z axis the first driving wire rod end
Portion for drive Z axis the first servomotor and be arranged on described Z axis the second drive lead screw end
For Z axis the second servomotor driven;It is sliding that described secondary main shaft planker is connected to described Z axis the first guide rail
On block, described Z axis the first drive lead screw acts on described secondary main shaft planker, promotes described secondary main shaft to add
Frock is put at described Z axis the first slide on rails;Described X-axis planker is connected to described Z axis the second guide rail
On slide block, described Z axis the second drive lead screw acts on described X-axis planker, promotes described X-axis slide rail
Structure and described Y-axis rail structure thereon and described power cutter tower device entirety are led at described Z axis second
Slide on rail;
Arrange in 90 ° of angles between two sides before and after described two-sided integral lathe bed, before it with horizontal plane it
Between angle be 60 °, the angle behind and between horizontal plane is 30 °, described X-axis rail structure with
Angle between horizontal plane is 60 °, and the angle between described Y-axis rail structure and horizontal plane is 30 °.
Complex milling machine tool the most according to claim 1, it is characterised in that described power cutter tower fills
Putting the 12 station cutter towers including cutter tower planker He being arranged on described cutter tower planker, described cutter tower planker connects
On described Y-axis guide rail slide block.
Complex milling machine tool the most according to claim 1 and 2, it is characterised in that described X-axis passes
Movable wire bar, Y-axis drive lead screw, Z axis the first drive lead screw and Z axis the second drive lead screw are high-precision
Ball screw, including screw rod and nut, the nut of described X-axis drive lead screw and described triangular support plate
Connect, promote described triangular support plate at described X-axis slide on rails;Described Y-axis drive lead screw
Nut is connected with described power cutter tower device, promotes described power cutter tower device sliding on described Y-axis guide rail
Dynamic;The nut of described Z axis the first drive lead screw is connected on described secondary main shaft planker, promotes described secondary main
Axis machining apparatus is at described Z axis the first slide on rails;The nut of described Z axis the second drive lead screw connects
On described X-axis planker, promote described X-axis rail structure and described Y-axis rail structure thereon and institute
State power cutter tower device overall at described Z axis the second slide on rails.
Complex milling machine tool the most according to claim 3, it is characterised in that described X-axis guide rail sets
Having two, be arranged in parallel, described X-axis drive lead screw is set in parallel in described in two between X-axis guide rail;Institute
Stating Y-axis guide rail and be provided with two, be arranged in parallel, described Y-axis drive lead screw is set in parallel in Y-axis described in two
Between guide rail;Described Z axis the first guide rail is provided with two, be arranged in parallel, described Z axis the first drive lead screw
It is set in parallel in described in two between Z axis the first guide rail;Described Z axis the second guide rail is provided with two, parallel sets
Putting, described Z axis the second drive lead screw is set in parallel in described in two between Z axis the second guide rail.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620319563.1U CN205465184U (en) | 2016-04-17 | 2016-04-17 | Turning and milling composite machine tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620319563.1U CN205465184U (en) | 2016-04-17 | 2016-04-17 | Turning and milling composite machine tool |
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CN205465184U true CN205465184U (en) | 2016-08-17 |
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CN201620319563.1U Expired - Fee Related CN205465184U (en) | 2016-04-17 | 2016-04-17 | Turning and milling composite machine tool |
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Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106239174A (en) * | 2016-08-29 | 2016-12-21 | 浙江恒大数控机床制造有限公司 | A kind of oblique bed structure of lathe |
CN107457568A (en) * | 2017-09-20 | 2017-12-12 | 深圳市玮之度科技发展有限公司 | A kind of complex milling machine tool |
CN108393705A (en) * | 2018-04-18 | 2018-08-14 | 环球工业机械(东莞)有限公司 | Movable beam type Longmen machine tool |
CN109079155A (en) * | 2018-09-21 | 2018-12-25 | 浙江双鸟数码机床有限公司 | Double main shaft wheel hub special horizontal numerically controlled lathes |
CN109513957A (en) * | 2018-12-14 | 2019-03-26 | 东莞市崧钰智能科技有限公司 | A kind of integral type servo power turret device |
CN109514264A (en) * | 2018-12-14 | 2019-03-26 | 东莞市崧钰智能科技有限公司 | A kind of automated processing machine tool with material moving machine tool hand |
CN109648099A (en) * | 2017-10-12 | 2019-04-19 | 温岭市台昇机床有限公司 | A kind of ramp double end turning lathe |
CN109955098A (en) * | 2017-12-22 | 2019-07-02 | 百正创新科技股份有限公司 | The metalworking machine of the double processing efficiency of the double main shafts of CNC hilted broadsword tower |
CN110449903A (en) * | 2019-09-11 | 2019-11-15 | 广东汉明石阁机床有限公司 | Complex milling machine tool |
CN111168086A (en) * | 2020-01-09 | 2020-05-19 | 佛山市金劳达自动化设备有限公司 | Double-servo turret numerical control lathe |
TWI726709B (en) * | 2020-04-30 | 2021-05-01 | 鎧越科技股份有限公司 | Belt driven power turret |
CN115338640A (en) * | 2022-09-16 | 2022-11-15 | 浙江磐龙机床有限公司 | Numerical control turning and milling composite all-in-one machine |
-
2016
- 2016-04-17 CN CN201620319563.1U patent/CN205465184U/en not_active Expired - Fee Related
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106239174A (en) * | 2016-08-29 | 2016-12-21 | 浙江恒大数控机床制造有限公司 | A kind of oblique bed structure of lathe |
CN107457568A (en) * | 2017-09-20 | 2017-12-12 | 深圳市玮之度科技发展有限公司 | A kind of complex milling machine tool |
CN109648099A (en) * | 2017-10-12 | 2019-04-19 | 温岭市台昇机床有限公司 | A kind of ramp double end turning lathe |
CN109955098A (en) * | 2017-12-22 | 2019-07-02 | 百正创新科技股份有限公司 | The metalworking machine of the double processing efficiency of the double main shafts of CNC hilted broadsword tower |
CN108393705A (en) * | 2018-04-18 | 2018-08-14 | 环球工业机械(东莞)有限公司 | Movable beam type Longmen machine tool |
CN109079155A (en) * | 2018-09-21 | 2018-12-25 | 浙江双鸟数码机床有限公司 | Double main shaft wheel hub special horizontal numerically controlled lathes |
CN109513957A (en) * | 2018-12-14 | 2019-03-26 | 东莞市崧钰智能科技有限公司 | A kind of integral type servo power turret device |
CN109514264A (en) * | 2018-12-14 | 2019-03-26 | 东莞市崧钰智能科技有限公司 | A kind of automated processing machine tool with material moving machine tool hand |
CN110449903A (en) * | 2019-09-11 | 2019-11-15 | 广东汉明石阁机床有限公司 | Complex milling machine tool |
CN111168086A (en) * | 2020-01-09 | 2020-05-19 | 佛山市金劳达自动化设备有限公司 | Double-servo turret numerical control lathe |
TWI726709B (en) * | 2020-04-30 | 2021-05-01 | 鎧越科技股份有限公司 | Belt driven power turret |
CN115338640A (en) * | 2022-09-16 | 2022-11-15 | 浙江磐龙机床有限公司 | Numerical control turning and milling composite all-in-one machine |
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