CN206883280U - Abnormal curved surface high speed feed machining tool - Google Patents
Abnormal curved surface high speed feed machining tool Download PDFInfo
- Publication number
- CN206883280U CN206883280U CN201720644216.0U CN201720644216U CN206883280U CN 206883280 U CN206883280 U CN 206883280U CN 201720644216 U CN201720644216 U CN 201720644216U CN 206883280 U CN206883280 U CN 206883280U
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- electric motors
- linear electric
- main shaft
- rotary main
- feed mechanism
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Abstract
The utility model discloses a kind of abnormal curved surface high speed feed machining tool, including lathe bed, electric-control system, gas-liquid systemses and cooling device, lathe bed is provided with feed mechanism, frock clamp and the rotary main shaft part being connected with frock clamp, feed mechanism is provided with feeding linear electric motors module, and feeding linear electric motors module is provided with process tool.Feed mechanism is used to take feeding linear electric motors module to corresponding machining position, also process tool is taken to corresponding machining position, the direction of motion for feeding linear electric motors module is vertical with the axis direction of rotary main shaft part, feeding linear electric motors module drives process tool to carry out high-frequency micrometer feed in the direction vertical with axis of workpiece to meet the process requirements of workpiece surface diverse location, namely the surface profile of abnormal curved surface workpiece is processed;Rotary main shaft part is used to support and drive workpiece to rotate to realize and feed turnery processing of the linkage realization of linear electric motors module to abnormal curved surface workpiece.
Description
Technical field
It the utility model is related to machining equipment field, more particularly to a kind of abnormal curved surface high speed feed machining tool.
Background technology
Digit Control Machine Tool is the lathe for being equipped with Computerized digital control system, by nc program, input unit, numerical control system
System, servo-drive system, sub-controlling unit, detection feedback device and machine body etc. part form.Its processing characteristic is:1) it is automatic
Change degree is high, and labor intensity is low;2) machining accuracy is high, steady quality;3) to the adaptable of processing object;4) productivity ratio
It is high;5) good economic benefit;6) informationization of production management is advantageous to.Mechanical equivalent of light feature is:1) driving-chain is short, and feed mechanism is adopted
With servomotor or stepper motor;2) rigidity is high, is suitable for the processing of high-precision workpiece.
In the prior art, common processing mode is turning and Milling Process.In the turnery processing of routine, workpiece is solid
Rotated due to pressing certain speed on rotary main shaft center, cutter is with X to feed mechanism (perpendicular to rotary main shaft axis direction) and Z
Regular moving interpolation or linear motion, cutter and work are made in transmission to feed mechanism (parallel to rotary main shaft axis direction)
Part is linear contact lay, high in machining efficiency, and surface smoothness is good, but is based on above structure and processing technology, can only process cross section
For round regular part, the turnery processing of abnormal curved surface part can not be realized.Milling Process is three axles or multi-shaft interlocked, Ke Yishi
The processing of existing complex surface, but because cutter and workpiece surface contact to put, processing efficiency is low, surface smoothness highly dependent upon
The configuration of lathe, cost are very high.
Utility model content
The purpose of this utility model is to provide a kind of abnormal curved surface high speed feed machining tool, can realized to abnormal curved surface
High-speed and high-efficiency processing.
To use following technical scheme up to this purpose, the utility model:
A kind of abnormal curved surface high speed feed machining tool, including lathe bed, electric-control system, gas-liquid systemses and cooling device, institute
State lathe bed and be provided with feed mechanism, frock clamp and the rotary main shaft part being connected with the frock clamp, the feed mechanism
Feeding linear electric motors module is provided with, the feeding linear electric motors module is provided with process tool.
Specifically, the feed mechanism be used to feeding the X of linear electric motors module to Z-direction feed motion, straight line will be fed
Motor module takes corresponding machining position to, and the process tool that will be also arranged on feeding linear electric motors module takes corresponding add to
Station;Further, in order to meet the processing request of the workpiece of abnormal curved surface, feeding linear electric motors module can drive process tool
High-frequency micrometer feed is carried out in the direction vertical with axis of workpiece to meet the process requirements of workpiece surface diverse location,
The surface profile of abnormal curved surface workpiece is processed.Electric-control system is used for all kinds of electrical equipments for controlling lathe and related biography
Sensor;Rotary main shaft part is used to support and drive workpiece to rotate to realize and feed the linkage of linear electric motors module realization to different
The turnery processing of shape curve surface work pieces.
Preferably, the feeding linear electric motors module includes linear electric motors, slide plate and the rolling located at the slide plate both sides
Moving-wire rail, the rolling wire rail are symmetrical arranged on the slide plate, and the slide plate is connected with the mover of the linear electric motors, described
Slide plate is provided with tool rest, and the process tool is on the tool rest.
Specifically, feeding linear electric motors module can realize high-frequency feed motion, and feeding linear electric motors module internal is set
There is waterproof seal, waterproof seal has oil resistant, corrosion-resistant and resistance to elevated temperatures.Process tool detachably connects with tool rest
Connect, to realize that tool rest installs different process tools.Linear electric motors driving slide plate is moved along a straight line drives processing knife to realize
The micrometer feed motion of tool.Rolling wire rail ensures the easy motion of slide plate as the guide and limit part of skateboarding.Also may be selected
Voice coil motor replaces drive device of the linear electric motors as slide plate.
Preferably, the feeding linear electric motors module also include closed-loop optical position assemble, spacing testing agency and
Axial locking mechanism, the spacing testing agency are connected with the electric-control system signal, and the axial locking mechanism is positioned at described
The one end of slide plate away from the tool rest.
Specifically, closed-loop optical position assemble can accurately read the displacement data of slide plate namely process tool, by number
It is believed that number electric-control system is fed back to, so as to the motion of electric control system controls linear electric motors;Coordinated using high frequency linear motor fully closed
Ring optical position assemble control slide plate drive process tool have high acceleration, the response of linear electric motors it is fast, without backlass, fixed
Position is accurate and ensures the contour accuracy and uniformity of abnormal curved surface workpiece.Further, in order to prevent high-frequency linear electric motors
Mover tenesmus and car accident be provided for detection high-frequency linear electric motors mover position spacing detection machine
Structure, start axial locking mechanism when the mover of high-frequency linear electric motors moves to off-normal position by high-frequency linear electric motors
Mover locking it is spacing, or start axial locking mechanism slide plate is locked it is spacing.
Include preferably, the feed mechanism includes Z-direction feed mechanism and X to feed mechanism, the Z-direction feed mechanism
Z axis motor and the first guide rail, the X include X-axis motor and the second guide rail to feed mechanism, and the Z-direction feeds machine
Structure and the X are fixedly connected to the first supporting plate, the X is provided between feed mechanism to feed mechanism with first supporting plate, institute
State the first supporting plate to be slidably connected to the side of feed mechanism and first guide rail away from the X, the Z axis motor and institute
The drive connection of the first supporting plate is stated, axis and the diameter parallel that feeds linear electric motors module of the X to feed mechanism are described
X is provided with the second supporting plate between feed mechanism and the feeding linear electric motors module, it is described feed linear electric motors module with it is described
Second supporting plate is fixedly connected, and second supporting plate is slidably connected with second guide rail, the X-axis motor and described second
Supporting plate is connected.
Specifically, X-axis motor and Z axis motor are servomotor.X-axis motor passes through thread screw etc.
The kind of drive drives the second supporting plate to be moved along perpendicular to the direction in machine tool chief axis, and the feeding being fixedly connected with the second supporting plate is straight
Line motor module is synchronized with the movement with the second supporting plate, to realize the process requirements for the workpiece for meeting different-diameter size.Z axis drives
Motor drives the first supporting plate to be moved along the direction parallel to machine tool chief axis by kinds of drive such as thread screws, with the first supporting plate
The X being fixedly connected is synchronized with the movement to feed mechanism and the first supporting plate, to realize the initial bit for driving X to feed mechanism from processing
Move to the stop bits of processing.
Preferably, the lathe bed is incline structure, the material of the lathe bed is resin sand cast iron or marble.With disappearing
Except axial gap, processing is stable, is easy to arrange the advantages such as iron filings.
Preferably, the rotary main shaft part includes rotary main shaft and revolution driving motor, the rotary main shaft and institute
State and the first transmission belt is provided between revolution driving motor, the revolution driving motor is servomotor, the axle of the rotary main shaft
Line is vertical with the feeding linear electric motors module direction of motion.
Specifically, electric-control system by control revolution driving motor and then realize control rotary main shaft rotation angle,
Rotating speed, electric-control system Synchronization Control high frequency feed the amount of feeding and feed speed of linear electric motors, realized to abnormal curved surface workpiece
Turnery processing.
Preferably, being additionally provided with tailstock jacking mechanism on the lathe bed, the tailstock jacking mechanism is provided with telescopic
Sleeve, the axis of the tailstock jacking mechanism and the axis collinear of the rotary main shaft.Sleeve stretches to realize workpiece clamp
Hold and be fixed between rotary main shaft and tailstock jacking mechanism.
Preferably, also including rotary main shaft encoder, set between the rotary main shaft encoder and the rotary main shaft
There is the second transmission belt, the rotary main shaft encoder is connected with the electric-control system signal.
Further, rotary main shaft encoder is set, rotary main shaft is driven by the second transmission belt when rotary main shaft rotates
Decoders-Synchronous rotates (size of the rotating shaft on rotary main shaft encoder is identical with the size of the rotating shaft on rotary main shaft), revolution
The angle of the rotation of rotary main shaft and rate signal are conveyed to electric-control system by spindle encoder.
Preferably, the slide plate is aluminum alloy material, the rolling wire rail is roller line rail.Specifically, slide plate uses
High-strength aluminum alloy material is made, and rolling wire rail is using high accuracy again precompressed roller line rail.
Preferably, the peak acceleration of the linear electric motors is more than twice of acceleration of gravity.
The beneficial effects of the utility model:Feed mechanism be used to feeding the X of linear electric motors module to Z-direction feed motion,
Take feeding linear electric motors module to corresponding machining position, the process tool band that will be also arranged on feeding linear electric motors module
To corresponding machining position;Further, feeding linear electric motors module can drive process tool in the direction vertical with axis of workpiece
High-frequency micrometer feed is carried out to meet the process requirements of workpiece surface diverse location, rotary main shaft part is used to support and band
The turnery processing to abnormal curved surface workpiece is realized in the process tool linkage for starting building part rotation to realize and move.
Brief description of the drawings
Brief description introduction is made to the content expressed by each accompanying drawing of this specification and the mark in figure below.It should manage
Solution, the following drawings illustrate only some embodiments of the present utility model, therefore be not construed as the restriction to scope, for this
For the those of ordinary skill of field, on the premise of not paying creative work, other phases can also be obtained according to these accompanying drawings
The accompanying drawing of pass.
Fig. 1 is the overall structure diagram of the utility model lathe;
Fig. 2 is the internal structure schematic diagram for feeding linear electric motors module;
Fig. 3 is the sectional view for feeding linear electric motors module along long axis direction;
Fig. 4 is the sectional view for feeding linear electric motors module along short-axis direction;
Fig. 5 is the structural representation in the main view direction of the utility model lathe;
Fig. 6 is the structural representation of the side-looking direction of the utility model lathe;
In figure:
1st, lathe bed;2nd, workpiece;3rd, frock clamp;4th, rotary main shaft;5th, process tool;6th, linear electric motors module is fed;7、
Tailstock jacking mechanism;8th, Z-direction feed mechanism;9th, X is to feed mechanism;10th, Z axis motor;11st, X-axis motor;12nd, roll
Moving-wire rail;13rd, linear electric motors;14th, slide plate;15th, revolution driving motor;1501st, the first transmission belt;16th, axial locking mechanism;
17th, spacing testing agency;18th, closed-loop optical position assemble;19th, tool rest;20th, the first guide rail;21st, the second guide rail;22nd, first
Supporting plate;23rd, the second supporting plate;24th, rotary main shaft encoder;2401st, the second transmission belt.
Embodiment
Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.
As shown in figures 1 to 6, a kind of abnormal curved surface high speed feed machining tool, including lathe bed 1, electric-control system, gas-liquid systemses
And cooling device, lathe bed 1 are provided with feed mechanism, frock clamp 3 and the part of rotary main shaft 4 being connected with frock clamp 3, feeding
Mechanism is provided with feeding linear electric motors module 6, and feeding linear electric motors module 6 is provided with process tool 5.
Specifically, feed mechanism be used to driving the X of feeding linear electric motors module 6 to Z-direction feed motion, straight line will be fed
Motor module 6 takes corresponding machining position to, and the process tool 5 that will be also arranged on feeding linear electric motors module 6 takes to accordingly
Machining position;Further, in order to meet the processing request of the workpiece 2 of abnormal curved surface, feeding linear electric motors module 6, which can drive, to be added
Work cutter 5 carries out high-frequency micrometer feed to meet the surface diverse location of workpiece 2 in the direction vertical with the axis of workpiece 2
Process requirements, namely the surface profile of abnormal curved surface workpiece 2 is processed.Electric-control system is used to control all kinds of electric of lathe
Element and related sensor;The part of rotary main shaft 4 is used to support and drive workpiece 2 to rotate to realize and feed linear electric motors module
The turnery processing to abnormal curved surface workpiece 2 is realized in 6 linkage.
Reference picture 2-4, in the present embodiment, feeding linear electric motors module 6 includes linear electric motors 13, slide plate 14 and located at cunning
The rolling wire rail 12 of the both sides of plate 14, rolling wire rail 12 are symmetrical arranged on slide plate 14, the mover phase of slide plate 14 and linear electric motors 13
Even, slide plate 14 is provided with tool rest 19, and process tool 5 is on tool rest 19.
Specifically, high-frequency feed motion can be realized by feeding linear electric motors module 6, be fed inside linear electric motors module 6
Provided with waterproof seal, waterproof seal has oil resistant, corrosion-resistant and resistance to elevated temperatures.Process tool 5 can with tool rest 19
Dismantling connection, to realize that tool rest 19 installs the process tool 5 of different size.Linear electric motors 13 drive slide plate 14 to be moved along a straight line
To realize that the micrometer feed for driving process tool 5 moves.Rolling wire rail 12 ensures to slide as the guide and limit part that slide plate 14 moves
The easy motion of plate 14.In other embodiment, voice coil motor also may be selected and replace driving of the linear electric motors 13 as slide plate 14
Device.
In the present embodiment, feeding linear electric motors module 6 also includes closed-loop optical position assemble 18, spacing testing agency
17 and axial locking mechanism 16, spacing testing agency 17 be connected with electric-control system signal, axial locking mechanism 16 is located at slide plate 14
One end away from tool rest 19.
Specifically, closed-loop optical position assemble 18 can accurately read the displacement data of slide plate 14 namely process tool 5,
Data-signal is fed back into electric-control system, so as to the motion of electric control system controls linear electric motors 13;Utilize high frequency linear motor 13
The response for coordinating closed-loop optical position assemble 18 to control slide plate 14 to drive process tool 5 that there is high acceleration, linear electric motors 13
It hurry up, without backlass, registration and the contour accuracy and uniformity that ensure abnormal curved surface workpiece 2.Further, in order to prevent
The mover tenesmus and the generation of car accident of high-frequency linear electric motors 13, it is provided for detecting the dynamic of high-frequency linear electric motors 13
The spacing testing agency 17 of the position of son, starts axial lock when the mover of high-frequency linear electric motors 13 moves to off-normal position
Tight mechanism 16 is spacing by the mover locking of high-frequency linear electric motors 13, or starts axial locking mechanism 16 and slide plate 14 is locked into limit
Position.
In the present embodiment, reference picture 1 and Fig. 5-6, feed mechanism include Z-direction feed mechanism 8 and X to feed mechanism 9, Z
Include the guide rail 20 of Z axis motor 10 and first to feed mechanism 8, X includes X-axis motor 11 and second to feed mechanism 9
Guide rail 21, Z-direction feed mechanism 8 and X are to being provided with the first supporting plate 22 between feed mechanism 9, X is to the supporting plate 22 of feed mechanism 9 and first
Be fixedly connected, the first supporting plate 22 is slidably connected away from X to the side of feed mechanism 9 and the first guide rail 20, Z axis motor 10 with
First supporting plate 22 is connected, and X is to the diameter parallel of the axis and feeding linear electric motors module 6 of feed mechanism 9, and X is to feeding machine
The second supporting plate 23 is provided between structure 9 and feeding linear electric motors module 6, linear electric motors module 6 is fed and the second supporting plate 23 is fixed and connected
Connect, the second supporting plate 23 is slidably connected with the second guide rail 21, and X-axis motor 11 is connected with the second supporting plate 23.
Specifically, X-axis motor 11 and Z axis motor 10 are servomotor.X-axis motor 11 passes through screw thread
The kinds of drive such as screw rod drive the second supporting plate 23 to be moved along perpendicular to the direction in machine tool chief axis, fix and connect with the second supporting plate 23
The feeding linear electric motors module 6 connect is synchronized with the movement with the second supporting plate 23, with realize meet different-diameter size workpiece 2 plus
Work demand.Z axis motor 10 drives the first supporting plate 22 along parallel to machine tool chief axis by kinds of drive such as thread screws
Direction is moved, and is synchronized with the movement with the X that the first supporting plate 22 is fixedly connected to feed mechanism 9 and the first supporting plate 22, and X is driven to realize
The stop bits of processing is moved to feed mechanism 9 from the initial bit of processing.
In the present embodiment, lathe bed 1 is incline structure, and the material of lathe bed 1 is resin sand cast iron.In other embodiment,
Also the material of lathe bed 1 can be elected as marble.20 degree of -70 degree is elected at the angle of inclination of lathe bed 1 as, and lathe bed 1, which is obliquely installed to have, to disappear
Except axial gap, processing is stable, is easy to arrange the advantages such as iron filings.Certainly, also can be by the inclination angle of lathe bed 1 in other embodiment
Degree, which is elected as, is less than 20 degree more than 0 degree, or is less than 90 degree more than 70 degree.
In the present embodiment, the part of rotary main shaft 4 includes rotary main shaft 4 and revolution driving motor 15, and rotary main shaft 4 is with returning
Turn to be provided with the first transmission belt 1501 between motor 15, revolution driving motor 15 is servomotor, the axis of rotary main shaft 4 with
It is vertical to feed linear electric motors 6 directions of motion of module.
Specifically, electric-control system realizes the angle for the rotation for controlling rotary main shaft 4 by controlling revolution driving motor 15
Degree, rotating speed, electric-control system Synchronization Control high frequency feed the amount of feeding and feed speed of linear electric motors 13, realized to abnormal curved surface work
The turnery processing of part 2.
In the present embodiment, tailstock jacking mechanism 7 is additionally provided with lathe bed 1, tailstock jacking mechanism 7 is provided with telescopic set
Cylinder, the axis of tailstock jacking mechanism 7 and the axis collinear of rotary main shaft 4.Workpiece 2 is clamped to by the flexible of sleeve with realizing
Between rotary main shaft 4 and tailstock jacking mechanism 7.
In the present embodiment, in addition to rotary main shaft encoder 24, set between rotary main shaft encoder 24 and rotary main shaft 4
There is the second transmission belt 2401.
Further, rotary main shaft encoder 24 is set, and rotary main shaft 4 is driven back when rotating by the second transmission belt 2401
Turn the synchronous axial system of spindle encoder 24 (size of the rotating shaft on rotary main shaft encoder 24 and the chi of the rotating shaft on rotary main shaft 4
It is very little identical), the angle of the rotation of rotary main shaft 4 and rate signal are conveyed to electric-control system by rotary main shaft encoder 24.
In the present embodiment, slide plate 14 is aluminum alloy material, and rolling wire rail 12 is roller line rail.Specifically, slide plate 14 is adopted
It is made of high-strength aluminum alloy material, rolling wire rail 12 is using high accuracy again precompressed roller line rail.
In the present embodiment, the peak acceleration of linear electric motors 13 is more than twice of acceleration of gravity.
Abnormal curved surface high speed feed machining tool provided by the utility model, by setting feed mechanism, work on lathe bed 1
Clamps 3 and the part of rotary main shaft 4 being connected with frock clamp 3, feed mechanism are provided with feeding linear electric motors module 6, feeding
Linear electric motors module 6 is provided with process tool 5, with reference to the appearance profile of abnormal curved surface workpiece 2, breaches conventional turning process
Limitation, specific implementation step are as follows:
Workpiece 2 is fixed on frock clamp 3 first and connected together with rotary main shaft 4, the afterbody of workpiece 2 is held out against with tailstock
Sleeve in mechanism 7 is held out against, and allows workpiece 2 and the synchronous revolving of rotary main shaft 4, and the revolution of rotary main shaft 4 uses servomotor
Driving.
The stereogram of the workpiece 2 to be processed of abnormal curved surface is inputted in the master control system of lathe, according to the profile of workpiece 2
Contour curve establishes machining path or sampling site, establishes coordinate system.
Mobile process tool 5, by the calculating to abnormal curved surface contour line, rationally controls back to suitable processing point of penetration
Turn the amount of feeding and feed speed of the anglec of rotation of main shaft 4, rotating speed and linear electric motors 13, realize the turnery processing of abnormal curved surface.
" first " herein, " second " in description just for the sake of being distinguish between, not special implication.
Obviously, above-described embodiment of the present utility model is used for the purpose of clearly illustrating the utility model example, and
It is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, in described above
On the basis of can also make other changes in different forms.There is no need and unable to give all embodiments
It is exhaustive.All made within spirit of the present utility model and principle all any modification, equivalent and improvement etc., should be included in
Within the protection domain of the utility model claims.
Claims (10)
1. a kind of abnormal curved surface high speed feed machining tool, including lathe bed, electric-control system, gas-liquid systemses and cooling device, it is special
Sign is that the lathe bed is provided with feed mechanism, frock clamp and the rotary main shaft part being connected with the frock clamp, described
Feed mechanism is provided with feeding linear electric motors module, and the feeding linear electric motors module is provided with process tool.
2. machining tool according to claim 1, it is characterised in that the feeding linear electric motors module includes straight-line electric
Machine, slide plate and the rolling wire rail located at the slide plate both sides, the rolling wire rail are symmetrical arranged on the slide plate, the slide plate
It is connected with the mover of the linear electric motors, the slide plate is provided with tool rest, and the process tool is on the tool rest.
3. machining tool according to claim 2, it is characterised in that the feeding linear electric motors module also includes closed-loop
Optical position assemble, spacing testing agency and axial locking mechanism, the spacing testing agency connect with the electric-control system signal
Connect, the axial locking mechanism is located at the one end of the slide plate away from the tool rest.
4. according to the machining tool described in claim any one of 1-3, it is characterised in that the feed mechanism is fed including Z-direction
To feed mechanism, the Z-direction feed mechanism includes Z axis motor and the first guide rail by mechanism and X, and the X is to feed mechanism bag
Include X-axis motor and the second guide rail, the Z-direction feed mechanism and the X are described to being provided with the first supporting plate between feed mechanism
X is fixedly connected to feed mechanism with first supporting plate, and first supporting plate is slidably connected with first guide rail, the Z axis
Motor is connected with first supporting plate, and the X is provided between feed mechanism and the feeding linear electric motors module
Second supporting plate, the feeding linear electric motors module are fixedly connected with second supporting plate, and second supporting plate is led with described second
Rail is slidably connected, and the X-axis motor is connected with second supporting plate.
5. machining tool according to claim 1, it is characterised in that the lathe bed is incline structure, the material of the lathe bed
Matter is resin sand cast iron or marble.
6. machining tool according to claim 1, it is characterised in that the rotary main shaft part includes rotary main shaft and returned
Turn motor, the first transmission belt, the axle of the rotary main shaft are provided between the rotary main shaft and the revolution driving motor
Line is vertical with the direction of motion of the feeding linear electric motors module.
7. machining tool according to claim 6, it is characterised in that tailstock jacking mechanism, institute are additionally provided with the lathe bed
State tailstock jacking mechanism and be provided with telescopic sleeve, the axis of the axis and the rotary main shaft of the tailstock jacking mechanism is total to
Line.
8. machining tool according to claim 6, it is characterised in that also including rotary main shaft encoder, the revolution master
The second transmission belt, the rotary main shaft encoder and the electric-control system signal are provided between shaft encoder and the rotary main shaft
Connection.
9. machining tool according to claim 2, it is characterised in that the slide plate is aluminum alloy material, the rolling wire
Rail is roller line rail.
10. machining tool according to claim 2, it is characterised in that the peak acceleration of the linear electric motors is more than two
Times acceleration of gravity.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720644216.0U CN206883280U (en) | 2017-06-05 | 2017-06-05 | Abnormal curved surface high speed feed machining tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720644216.0U CN206883280U (en) | 2017-06-05 | 2017-06-05 | Abnormal curved surface high speed feed machining tool |
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CN206883280U true CN206883280U (en) | 2018-01-16 |
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ID=61317452
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CN201720644216.0U Expired - Fee Related CN206883280U (en) | 2017-06-05 | 2017-06-05 | Abnormal curved surface high speed feed machining tool |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106975962A (en) * | 2017-06-05 | 2017-07-25 | 东莞汉为智能技术有限公司 | Abnormal curved surface high speed feed machining tool |
CN114401808A (en) * | 2019-09-16 | 2022-04-26 | 雷肖尔股份公司 | Machine tool for machining a toothing, method for machining a tooth flank of a workpiece, and method for dressing a tool for machining a toothing by means of such a machine tool |
-
2017
- 2017-06-05 CN CN201720644216.0U patent/CN206883280U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106975962A (en) * | 2017-06-05 | 2017-07-25 | 东莞汉为智能技术有限公司 | Abnormal curved surface high speed feed machining tool |
CN114401808A (en) * | 2019-09-16 | 2022-04-26 | 雷肖尔股份公司 | Machine tool for machining a toothing, method for machining a tooth flank of a workpiece, and method for dressing a tool for machining a toothing by means of such a machine tool |
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