CN208613756U - Servo turret numerically controlled lathe - Google Patents
Servo turret numerically controlled lathe Download PDFInfo
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- CN208613756U CN208613756U CN201821252850.0U CN201821252850U CN208613756U CN 208613756 U CN208613756 U CN 208613756U CN 201821252850 U CN201821252850 U CN 201821252850U CN 208613756 U CN208613756 U CN 208613756U
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- tailstock
- rack
- numerically controlled
- main shaft
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Abstract
The utility model discloses a kind of servo turret numerically controlled lathes, including rack, main shaft device, tail stock device and cutter arrangement, main shaft device, tail stock device and cutter arrangement are set in rack, main shaft device includes chuck, tail stock device and cutter arrangement are corresponding with chuck, and tail stock device includes tailstock and ball linear guide, and tailstock is set in ball linear guide, ball linear guide is fixed on the rack, and tailstock is corresponding with chuck.The collective effect that the servo turret numerically controlled lathe passes through main shaft device, tail stock device and cutter arrangement, enable workpiece to obtain rapid processing, manpower is greatly saved, reduces production cost, the noise generated when reducing work pieces process simultaneously, improves processing efficiency.
Description
Technical field
The utility model belongs to a kind of master tools of industry, more particularly, to a kind of servo turret numerically controlled lathe.
Background technique
When processing the workpiece, tailstock needs to move back and forth lathe, facilitates being fixedly clamped for workpieces processing.Existing lathe tail
Seat pushes tailstock mobile when moving, using hydraulic system, is pushed using hydraulic system, the mobile essence of bad control tailstock
Degree, and the noise generated when work is larger, integrated hydraulic system structure is complicated, and it is larger that installation occupies volume.Meanwhile it existing watching
Knife tower numerically controlled lathe is taken when processing to workpiece, needs to manually adjust the position of process tool, it has not been convenient to be operated, processing effect
Rate is lower, and need to expend higher cost of labor.
Utility model content
The purpose of this utility model is to provide a kind of servo turret numbers for being able to solve at least one of above problem
Control lathe.
One aspect according to the present utility model provides a kind of servo turret numerically controlled lathe, including rack, main shaft dress
Set, tail stock device and cutter arrangement, main shaft device, tail stock device and cutter arrangement are set in rack, main shaft device include card
Disk, tail stock device and cutter arrangement are corresponding with chuck, and tail stock device includes tailstock and ball linear guide, and tailstock is set to rolling
In pearl linear guide, ball linear guide is fixed on the rack, and tailstock is corresponding with chuck.
The beneficial effects of the utility model are: being equipped with ball linear guide, tailstock is set in ball linear guide, therefore,
It can make tailstock that can move when moving along ball linear guide, greatly reduce the noise generated when tailstock movement,
Smoothness when tailstock movement is improved, facilitates chuck and tailstock collective effect that workpiece to be processed is fixed, facilitates operation.
In some embodiments, main shaft device further includes main shaft and spindle box, and spindle box is fixed on the rack, and main shaft is set
In on spindle box, chuck is fixed on one end of main shaft.It is equipped with main shaft as a result, can be convenient the fixation of chuck, and facilitate main shaft
Drive chuck quick rotation.
In some embodiments, tail stock device further includes ball screw and tailstock servo motor, and tailstock servo motor is set
In in rack, tailstock is set on ball screw, and one end of ball screw is fixedly connected with the output shaft of tailstock servo motor.By
This drives ball screw rotation by tailstock servo motor, and ball screw drives tailstock to move along ball screw again, and passes through
Ball linear guide can control the moving direction of tailstock, so that the movement of tailstock is precisely controlled.The servo turret as a result,
Numerically controlled lathe is controlled without hydraulic, so that tailstock may be implemented precisely to move forward and backward, improves the processing of product
Quality, and overall structure is simple, greatly reduces the noise generated when tailstock movement.
In some embodiments, the front end of tailstock is equipped with tail top positioning sleeve, and the front end face of tail top positioning sleeve exceeds tailstock
Front end face.It is equipped with tail top positioning sleeve as a result, tailstock can be effectively prevented and collide when moving with other component, guarantees
The service life of tailstock.
In some embodiments, cutter arrangement includes knife tower and knife tower servo motor, and knife tower is set in rack, and knife tower is watched
The output shaft for taking motor is connect with knife tower, is able to drive the rotation of knife tower.It is equipped with knife tower as a result, can be convenient the peace of a variety of cutters
Dress;Meanwhile it being equipped with knife tower servo motor, it can be convenient the switching of different tool sharpenings position on knife tower, without manually grasping
Make, improves work efficiency.
In some embodiments, cutter arrangement further includes X-axis slide plate, X-axis guide rail and X-axis servo motor, and X-axis slide plate is set
In in rack, X-axis guide rail is set on X-axis slide plate, and X-axis guide rail and ball linear guide are perpendicular, the output shaft of X-axis servo motor
It is connected with knife tower, knife tower is set in rack by X-axis slide plate.Thus, it is possible to knife tower is facilitated to move along X-axis guide rail direction,
Consequently facilitating the movement of knife tower, so that knife tower is moved to workpiece position.
In some embodiments, cutter arrangement further includes Z axis guide rail and Z axis servo motor, and Z axis guide rail is fixed on rack
On, X-axis slide plate is located in Z axis guide rail, and the output shaft of Z axis servo motor is connect with X-axis slide plate, and X-axis slide plate can be pushed along Z
Axis rail is mobile, and Z axis guide rail is vertically arranged with X-axis guide rail.Thus, it is possible to which Z axis servo motor is facilitated to push knife tower mobile, it is convenient for
Walking when knife tower is processed improves processing efficiency without manual operation.
In some embodiments, rack is an integral molding structure.Thus, it is possible to facilitate the processing of rack, rack is reduced
Assembling procedure, and improve the integral strength of rack.
Detailed description of the invention
Fig. 1 is the structural schematic diagram at one of visual angle of the servo turret numerically controlled lathe of the utility model.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawing.
Referring to Fig.1.Servo turret numerically controlled lathe, including rack 1, main shaft device 2, tail stock device 3 and cutter arrangement 4, it is main
Shaft device 2, tail stock device 3 and cutter arrangement 4 are set in rack 1, and main shaft device 2 includes chuck 21, tail stock device 3 and cutter
Device 4 is corresponding with chuck 21, i.e., tail stock device 3 can clamp workpieces processing with 21 collective effect of chuck, cutter arrangement 4
Workpiece fixed on chuck 21 can be processed.Tail stock device 3 includes tailstock 31 and ball linear guide 32, and tailstock 31 is set
In in ball linear guide 32, ball linear guide 32 is fixed in rack 1, and tailstock 31 is corresponding with chuck 21.
Wherein, rack 1 is integrated casting and forming structure, improves the globality of entire servo turret numerically controlled lathe, and
The integral strength of rack 1 is improved, rack each section is assembled without labor intensive, reduces cost of labor.
Main shaft device 2 further includes main shaft 22 and spindle box 23, and spindle box 23 is fixed in rack 1, and main shaft 22 is set to main shaft
On case 23, chuck 21 is fixed on one end of main shaft 22.Spindle box 23 is bolted in rack 1, and main shaft 22 is at work
Quick rotation, and chuck 21 is driven to rotate, so that the rotation of clamping workpiece on chuck 21 is realized, convenient for the processing of workpiece.
Tail stock device 3 further includes ball screw and tailstock servo motor 33, and tailstock servo motor 33 is set in rack 1, tail
Seat 31 is set on ball screw, and one end of ball screw is fixedly connected with the output shaft of tailstock servo motor 33.Workpiece needs to press from both sides
When tight, start tailstock servo motor 33, the output shaft rotation of tailstock servo motor 33, so that ball screw is driven to rotate, so that
Tailstock 31 moves on ball screw, to realize that tailstock 31 can be with top tight workpiece.
The front end of tailstock 31 is equipped with tail top positioning sleeve 34, and the front end face of tail top positioning sleeve 34 exceeds the front end face of tailstock 31.
Wherein, tail top positioning sleeve 34 can pass through tail top positioning sleeve 34 and its with rubber part, when so that tailstock 31 being moved to front end
He carries out contact buffering by component, it is therefore prevented that and the hardness of tailstock 31 and other component is impacted, and ensure that the service life of tailstock 31, and
Reduce the noise when movement of tailstock 31.
Cutter arrangement 4 includes knife tower 41 and knife tower servo motor 42, and knife tower 41 is set in rack 1, knife tower servo motor 42
Output shaft connect with knife tower 41, be able to drive knife tower 41 rotation.Wherein, knife tower 41 is equipped with circular mounting disk, in mounting disc
It is fixed with lathe tool or drill or other processing knives;When carrying out different process processing to workpiece, start knife tower servo motor 42,
So that knife tower servo point solution 42 drives mounting disc rotation, so that corresponding cutter is corresponding with the workpiece that chuck 21 clamps, it is real
Now to the corresponding processing of workpiece.Being equipped with knife tower servo motor 42 as a result, can be convenient the position switching that knife tower 41 is fixed a cutting tool, and be not necessarily to
Manually tool changing, the production efficiency greatly improved.
Cutter arrangement 4 further includes X-axis slide plate 43, X-axis guide rail 44 and X-axis servo motor 45, and X-axis slide plate 43 is set to rack 1
On, X-axis guide rail 44 be set to X-axis slide plate 43 on, X-axis guide rail 44 and ball linear guide 32 are perpendicular, X-axis servo motor 45 it is defeated
Shaft is connected with knife tower 41, and knife tower 41 is set in rack 1 by X-axis slide plate 43.
Cutter arrangement 4 further includes Z axis guide rail 46 and Z axis servo motor 47, and Z axis guide rail 46 is fixed in rack 1, and X-axis is sliding
Plate 43 is located in Z axis guide rail 46, and the output shaft of Z axis servo motor 47 is connect with X-axis slide plate 43, can push 43 edge of X-axis slide plate
Z axis guide rail 46 it is mobile, Z axis guide rail 46 is vertically arranged with X-axis guide rail 44, i.e., Z axis guide rail 46 is parallel with ball linear guide 32
Setting.
When knife tower 41, which needs to be moved to workpiece position, to be processed, it can star X-axis servo motor 45 and Z axis watched
Take motor 47.X-axis servo motor 45 drives knife tower 41 to move along X-axis guide rail 44, so that knife tower 41 is gradually close to be added
Being precisely controlled for 41 shift position of knife tower may be implemented by the control of X-axis servo motor 45 in work workpiece, improves adding for workpiece
Working medium amount.Z axis servo motor 47 can drive X-axis slide plate to move along Z axis guide rail 46, fix a cutting tool convenient for knife tower 41 in processing
Walk.
The servo turret numerically controlled lathe of the utility model is common by main shaft device 2, tail stock device 3 and cutter arrangement 4
Effect, enables workpiece to obtain rapid processing, manpower is greatly saved, reduce production cost, while reducing workpiece and adding
The noise that working hour generates, improves processing efficiency.
Above-described is only preferred embodiments of the present invention, it is noted that for the ordinary skill of this field
For personnel, without departing from the concept of the present invention, various modifications and improvements can be made, these all belong to
In the protection scope of the utility model.
Claims (8)
1. servo turret numerically controlled lathe, which is characterized in that filled including rack (1), main shaft device (2), tail stock device (3) and cutter
It sets (4), the main shaft device (2), tail stock device (3) and cutter arrangement (4) are set on rack (1), the main shaft device (2)
Including chuck (21), the tail stock device (3) and cutter arrangement (4) are corresponding with chuck (21), tail stock device (3) packet
Tailstock (31) and ball linear guide (32) are included, the tailstock (31) is set on ball linear guide (32), the ball straight line
Guide rail (32) is fixed on rack (1), and the tailstock (31) is corresponding with chuck (21).
2. servo turret numerically controlled lathe according to claim 1, which is characterized in that the main shaft device (2) further includes master
Axis (22) and spindle box (23), the spindle box (23) are fixed on rack (1), and the main shaft (22) is set to spindle box (23)
On, the chuck (21) is fixed on one end of main shaft (22).
3. servo turret numerically controlled lathe according to claim 2, which is characterized in that the tail stock device (3) further includes rolling
Ballscrew and tailstock servo motor (33), the tailstock servo motor (33) are set on rack (1), and the tailstock (31) is set in
On ball screw, one end of the ball screw () is fixedly connected with the output shaft of tailstock servo motor (33).
4. described in any item servo turret numerically controlled lathes according to claim 1~3, which is characterized in that the tailstock (31)
Front end is equipped with tail top positioning sleeve (34), and the front end face of tail top positioning sleeve (34) exceeds the front end face of tailstock (31).
5. servo turret numerically controlled lathe according to claim 4, which is characterized in that the cutter arrangement (4) includes knife tower
(41) He Daota servo motor (42), the knife tower (41) are set on rack (1), the output shaft of the knife tower servo motor (42)
It is connect with knife tower (41), is able to drive knife tower (41) rotation.
6. servo turret numerically controlled lathe according to claim 5, which is characterized in that the cutter arrangement (4) further includes X-axis
Slide plate (43), X-axis guide rail (44) and X-axis servo motor (45), the X-axis slide plate (43) are set on rack (1), and the X-axis is led
Rail (44) is set on X-axis slide plate (43), and the X-axis guide rail (44) and ball linear guide (32) are perpendicular, the X-axis servo electricity
The output shaft of machine (45) is connected with knife tower (41), and the knife tower (41) is set on rack (1) by X-axis slide plate (43).
7. servo turret numerically controlled lathe according to claim 6, which is characterized in that the cutter arrangement (4) further includes Z axis
Guide rail (46) and Z axis servo motor (47), the Z axis guide rail (46) are fixed on rack (1), and the X-axis slide plate (43) is located at Z
On axis rail (46), the output shaft of the Z axis servo motor (47) is connect with X-axis slide plate (43), can push X-axis slide plate (43)
Mobile along Z axis guide rail (46), the Z axis guide rail (46) is vertically arranged with X-axis guide rail (44).
8. servo turret numerically controlled lathe according to claim 1, which is characterized in that the rack (1) is integrally formed knot
Structure.
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CN201821252850.0U CN208613756U (en) | 2018-08-03 | 2018-08-03 | Servo turret numerically controlled lathe |
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CN201821252850.0U CN208613756U (en) | 2018-08-03 | 2018-08-03 | Servo turret numerically controlled lathe |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110303172A (en) * | 2019-05-31 | 2019-10-08 | 江苏博尚工业装备有限公司 | A kind of oblique lathe bed digital control lathe and its application method with intelligent control tailstock |
CN110449903A (en) * | 2019-09-11 | 2019-11-15 | 广东汉明石阁机床有限公司 | Complex milling machine tool |
CN111515413A (en) * | 2020-05-06 | 2020-08-11 | 辽宁兆金重型装备制造有限公司 | High-precision numerical control lathe for machining roller |
CN112404475A (en) * | 2020-11-24 | 2021-02-26 | 西安航空职业技术学院 | High-speed feeding and discharging tool turret |
CN115351603A (en) * | 2022-09-26 | 2022-11-18 | 浙江震江科技有限公司 | Turning and milling combined machine tool |
-
2018
- 2018-08-03 CN CN201821252850.0U patent/CN208613756U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110303172A (en) * | 2019-05-31 | 2019-10-08 | 江苏博尚工业装备有限公司 | A kind of oblique lathe bed digital control lathe and its application method with intelligent control tailstock |
CN110449903A (en) * | 2019-09-11 | 2019-11-15 | 广东汉明石阁机床有限公司 | Complex milling machine tool |
CN111515413A (en) * | 2020-05-06 | 2020-08-11 | 辽宁兆金重型装备制造有限公司 | High-precision numerical control lathe for machining roller |
CN112404475A (en) * | 2020-11-24 | 2021-02-26 | 西安航空职业技术学院 | High-speed feeding and discharging tool turret |
CN115351603A (en) * | 2022-09-26 | 2022-11-18 | 浙江震江科技有限公司 | Turning and milling combined machine tool |
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