CN106141807A - Control device in conjunction with numerical control machining tool Yu ultrasonic knife handle - Google Patents
Control device in conjunction with numerical control machining tool Yu ultrasonic knife handle Download PDFInfo
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- CN106141807A CN106141807A CN201510162934.XA CN201510162934A CN106141807A CN 106141807 A CN106141807 A CN 106141807A CN 201510162934 A CN201510162934 A CN 201510162934A CN 106141807 A CN106141807 A CN 106141807A
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- ultrasonic
- controller
- ultrasonic wave
- numerical
- ultrasonic knife
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q15/00—Automatic control or regulation of feed movement, cutting velocity or position of tool or work
- B23Q15/007—Automatic control or regulation of feed movement, cutting velocity or position of tool or work while the tool acts upon the workpiece
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Numerical Control (AREA)
Abstract
nullThe invention discloses the control device of a kind of combination numerical control machining tool and ultrasonic knife handle,This numerical control machining bed connects a numerical controller,To control the main shaft work in machining tool,This ultrasonic knife is being mounted on this main shaft,And connect a ultrasonic wave controller,This ultrasonic wave controller includes a processing unit、One signal code source、One detecting unit and an output unit,With to ultrasonic knife output band frequency and the current source of amplitude signal,Make this ultrasonic knife workpiece performs ultrasound wave processing operation,Wherein,Numerical controller in this numerical control machining bed is connected to ultrasonic wave controller with set of number input contact and one group of simulation input contact,Thus via this numeral input contact, ultrasonic wave controller can be carried out the order of ON-OFF,And via this simulation input contact, ultrasonic wave controller is carried out the simulation control of output power size,To regulate and control the ultrasonic wave controller output amplitude to ultrasonic knife handle.
Description
Technical field
The present invention relates to a kind of interconnection utilizing numerical controller and ultrasonic wave controller, reach to add
The combination numerical control machining tool of work industry optimal control and the control device of ultrasonic knife handle.
Background technology
As it is shown in figure 1, ultrasonic knife is mainly including hilt body 10, being locked in hilt originally
The expanding bar 11 of body 10 and be locked in the process tool 12 of expanding bar 11 end, it utilizes
Ultrasonic wave controller 20 exports the current source of band frequency and amplitude signal to expanding bar 11, makes expansion
Piezoelectric on tension rod 11 produces the vibration of high frequency, and then makes the processing of expanding bar 11 end
Cutter 12 makees to surmount the dither cutting operation of frequency of sound wave.Processing due to dither
The continuous high frequency ground, cutting face of cutter 12 separates with chip, thus changes cutting of process tool 12
Bevel and the close contact state of chip, this can effectively reduce in tradition cutting way processes cutter
Coefficient of friction between tool and chip, thus it is obviously improved the cutting face of chip and process tool 12
Between the harmful effect that caused because of high temperature, high pressure, and then the stricture of vagina that is prevented from quivering, reduce cutting
Resistance, reduction processing strain, are effectively improved chip removal and are effectively improved finished surface etc..
The process tool 12 of this ultrasonic knife handle is when performing the processing operation of dither, frequently
Rate is important parameter with the size of amplitude, and the size of its medium frequency depends on expanding bar 11
Design, its reason is, the ultrasonic knife of dither is the waveform of its various frequency of vibration not
Merely have to make node location (amplitude is the position of zero) be positioned at hilt body 10 and expanding bar 11
Connection fixed position on, to avoid hilt body 10 by the dither shadow of expanding bar 11
Ring and produce and link the situation vibrated, and the maximum amplitude points position of various frequency of vibration must be made
It is positioned at the position of tool tip of process tool 12, the cutting benefit of maximum could be produced, therefore different
The ultrasonic knife of pattern is there being its respective frequencies being suitable in certain frequency range;As for amplitude
Size then depend on the processing conditions of workpiece, the material of such as workpiece or time course
Deng, should be selected such that with less amplitude when the material of workpiece is hard brittle material, to avoid shaking
The excessive situation causing workpiece to burst apart, or add in initial manufacture and latter end and should select man-hour
Select and use less amplitude, to avoid the excessive impact damage causing process tool of amplitude and processing
The situation of bursting apart of part, adds the amplitude that man-hour, then optional use was bigger, to increase processing in stage casing
Speed, therefore frequency and amplitude relation the crudy of ultrasound wave dither and add work efficiency
Rate.
As it is shown in figure 1, the size of the frequency of current existing ultrasonic knife handle and amplitude completely by
Ultrasonic wave controller 20 is independent controls output, and not with the numerical value control of numerical control machining bed
Device processed is connected with each other, that is when numerical control machining bed completes the tool changing operation of ultrasonic knife handle
After, the necessary pattern according to ultrasonic knife handle of machine operation person and the processing conditions of workpiece,
Adjust output frequency and the amplitude size of ultrasonic wave controller 20 in a manual fashion, so
Manual adjusting style, causes huge workload not only to machine operation person, and to adding working medium
For amount and working (machining) efficiency, will also result in following adverse effect:
1. ultrasonic knife is different from the locking strength of expanding bar 11 because of hilt body 10 meeting
And change and connect fixing position, process tool 12 as loss and change position of tool tip,
Therefore, after these factors change, this ultrasonic knife also can and then change applicable respective frequencies
Become, but machine operation person the trickle change of these factors cannot be observed, therefore can not
Ultrasonic wave controller 20 is made to export correct respective frequencies with manual adjusting style at any time, thus shadow
Ring the crudy of workpiece.
2. the processing conditions of workpiece has the change of many, for time course, lathe
Operator cannot adjust the output of ultrasonic wave controller 20 at all at any time and shake along with time course
Width, therefore all performs to process operation with single output amplitude in time course, such
Operator scheme is likely to result in the impact damage of process tool and bursting apart of workpiece, thus impact adds
The crudy of workpiece and working (machining) efficiency.
In view of this, inventor satisfies the research and development being engaged in relevant industries with it for many years and makes warp
Test, further investigate for current problem encountered, through long-term endeavour research with study,
Eventually grind and create a kind of numerical controller by numerical control machining bed and ultrasonic wave controller
Interconnection, and then utilize the powerful operational capability of numerical controller, make ultrasonic wave controller at any time with
The programme-control of numerical controller, the frequency of correct output correspondence and amplitude, reach to add work
The combination of industry optimal control controls device, and this is the design aim of the present invention.
Summary of the invention
An object of the present invention is to provide one to combine numerical control machining tool with ultrasonic
The control device of ripple hilt, this numerical control machining bed connects a numerical controller, to control
Main shaft work in machining tool, this ultrasonic knife is being mounted on this main shaft, and connects and one surpass
Sound wave controlled device, this ultrasonic wave controller includes a processing unit, a signal code source, one detects
Survey unit and an output unit, with to ultrasonic knife output band frequency and the electric current of amplitude signal
Source, makes this ultrasonic knife workpiece performs ultrasound wave processing operation, wherein, this numerical value control
Numerical controller in machining tool processed inputs contact (DI) with set of number and is connected to ultrasound wave
Controller, thus via this numeral input contact (DI), ultrasonic wave controller can be carried out
The order of ON-OFF, makes this ultrasonic wave controller restart and performs frequency sweep operation, and then
By the interconnection of numerical controller Yu ultrasonic wave controller, make ultrasonic wave controller at any time along with number
The programme-control of value controller, the frequency that correct output is corresponding, to promote crudy, reach
The benefit that processing optimization of job controls.
The two of the purpose of the present invention are to provide one to combine numerical control machining tool with ultrasonic
The control device of ripple hilt, this numerical control machining bed connects a numerical controller, to control
Main shaft work in machining tool, this ultrasonic knife is being mounted on this main shaft, and connects and one surpass
Sound wave controlled device, this ultrasonic wave controller includes a processing unit, a signal code source, one detects
Survey unit and an output unit, with to ultrasonic knife output band frequency and the electric current of amplitude signal
Source, makes this ultrasonic knife workpiece performs ultrasound wave processing operation, wherein, this numerical value control
Numerical controller in machining tool processed is connected to ultrasound wave with one group of simulation input contact (AI)
Controller, thus via this numeral input contact (DI), ultrasonic wave controller can be exported
The simulation of electric power size controls, and shakes the output of ultrasonic knife handle regulating and controlling ultrasonic wave controller
Width, and then by the interconnection of numerical controller and ultrasonic wave controller, make ultrasonic wave controller with
Time program control along with numerical controller, the amplitude that conversion output is corresponding, with promote crudy and
Working (machining) efficiency, reaches to process the benefit that optimization of job controls.
In order to achieve the above object, the combination numerical control machining tool that the present invention provides is with ultrasonic
The control device of ripple hilt includes:
Numerical control machining bed, it is provided with a main shaft;
Ultrasonic knife handle, it is mounted on this main shaft of this numerical control machining bed;
Ultrasonic wave controller, it connects this ultrasonic knife handle, and this ultrasonic wave controller includes at one
Reason unit, a signal code source, a detecting unit and an output unit, this signal code source is even
Being connected to this processing unit, and receive the command signal of this processing unit, this detecting unit is connected to
This signal code source, to perform frequency sweep operation, this output unit is connected to this signal code source,
To export the current source of band frequency and amplitude signal to this ultrasonic knife handle;
Numerical controller, it connects this numerical control machining bed, adds controlling this numerical control
Main shaft work in work lathe, this numerical controller is with set of number input contact and one group of simulation
Input contact is connected to this ultrasonic wave controller, makes this numerical controller and this ultrasonic wave controller
Interconnection, and via this numeral input contact, processing unit in this ultrasonic wave controller is sent startup
Order, makes the signal code source in this ultrasonic wave controller perform frequency sweep via this detecting unit and makees
Industry, and via this simulation input contact, this ultrasonic wave controller is carried out output power size
Simulation controls, to regulate and control the signal code source in this ultrasonic wave controller to this ultrasonic knife handle
Output amplitude.
In one embodiment of this invention, this numerical controller inputs contact to this via this numeral
When processing unit in ultrasonic wave controller sends startup order, the place in this ultrasonic wave controller
Reason this signal code source of cell command performs frequency sweep via this detecting unit to this ultrasonic knife handle
Operation.
In one embodiment of this invention, this signal code source is ultrasonic to this via this detecting unit
When ripple hilt performs frequency sweep operation, the principle that this processing unit utilizes circuit impedance to mate obtains super
The load end resistance value of sound wave hilt, union goes out with this ultrasonic knife the frequency mated, makes
This signal code source is via this output unit output band matching frequency and the current source of amplitude signal
To this ultrasonic knife handle.
In one embodiment of this invention, this numerical controller inputs contact to this via this simulation
When processing unit in ultrasonic wave controller sends output power signal, in this ultrasonic wave controller
The amplitude of this signal code source of processing unit order regulation and control output electric current so that this signal electricity
Stream source exports the current source of band frequency and amplitude signal to this ultrasonic knife via this output unit
?.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of existing ultrasonic knife handle;
Fig. 2 is the schematic diagram of body framework of the present invention;
Fig. 3 is the schematic diagram that the present invention controls framework;
Fig. 4 is the program step schematic diagram of numerical controller of the present invention.
Description of reference numerals: 10-hilt body;11-expanding bar;12-process tool;20-is ultrasonic
Wave controller;30-numerical controller;31-numeral input contact;32-simulation input contact;40-
Main shaft;50-ultrasonic knife handle;50`-ultrasonic knife handle;60-ultrasonic wave controller;61-process
Unit;62-signal code source;63-detecting unit;64-output unit.
Detailed description of the invention
Further understand for making your juror that the present invention to be had, hereby lift a preferred embodiment
And coordinate graphic, describe in detail as rear:
As in figure 2 it is shown, the numerical control machining bed in the present invention connects a numerical controller 30,
And the main shaft 40 controlled in this machining tool by this numerical controller 30 is worked, this ultrasound wave
Hilt 50 is mounted on this main shaft 40, thus is rotated by this main shaft 40 and carries out cutting and add
Work industry, this ultrasonic knife is also associated with a ultrasonic wave controller 60 50, thus by being somebody's turn to do
Ultrasonic wave controller 60 exports the current source of band frequency and amplitude signal to ultrasonic knife 50,
Make the dither machining operation that this ultrasonic knife makees to surmount frequency of sound wave 50.Due to
This ultrasonic knife has been prior art 50 structures own, and the non-emphasis for the present invention,
Therefore it will not go into details.
As it is shown on figure 3, the ultrasonic wave controller 60 in the present invention includes processing unit 61, letter
Number current source 62, detecting unit 63 and output unit 64, this processing unit 61 is in order to computing
And sending command signal, this signal code source 62 is then connected to this processing unit 61, and receives
The command signal of this processing unit 61, this detecting unit 63 is connected to this signal code source 62,
Make this signal code source 62 can detect, via this detecting unit 63, the load that ultrasonic knife is 50
Terminal impedance value, calculates, for this processing unit 61, the frequency mated 50 with this ultrasonic knife,
This output unit 64 is connected to this signal code source 62, makes this signal code source 62 can be via this
Output unit 64 exports the current source of band frequency and amplitude signal to ultrasonic knife 50;When this
When processing unit 61 in ultrasonic wave controller 60 receives startup order, can be to this signal electricity
Stream source 62 sends the command signal of frequency sweep, and this signal code source 62 is i.e. via this detecting unit 63
50, this ultrasonic knife is performed frequency sweep operation, and this processing unit 61 i.e. utilizes circuit impedance
The principle joined, thus obtain the load end resistance value that ultrasonic knife is 50, union goes out and is somebody's turn to do
Ultrasonic knife is the frequency of 50 couplings, and finally this processing unit 61 is again to signal code source 62
Send the frequency of coupling and the command signal of amplitude, make this signal code source 62 single by output
The current source of unit 64 output band matching frequency and amplitude signal 50, makes this surpass to ultrasonic knife
Sound wave hilt 50 makees to surmount the dither machining operation of frequency of sound wave.Additionally, such as the back of the body
Described in scape technology segment, the frequency of existing ultrasonic knife handle with the size of amplitude completely by ultrasonic
Wave controller independently control output, and not with the numerical controller phase in numerical control machining bed
Connecting, therefore ultrasonic wave controller does not simply fail at any time along with the loss of ultrasonic knife handle adjusts
Export correct respective frequencies, and in the control for amplitude size, existing ultrasound wave control
Device processed is the most only to perform to add with the output amplitude of single size in the time course of workpiece
Work industry, thus affect crudy and the working (machining) efficiency of workpiece.In order to improve these problems,
Numerical controller 30 in numerical control machining bed is connect by the present invention by set of number input
Point (DI) 31 and one group of simulation input contact (AI) 32 are connected to this ultrasonic wave controller 60,
This numerical controller 30 is made to interconnect with ultrasonic wave controller 60, this numerical controller 30
Via this numeral input contact (DI) 31, ultrasonic wave controller 60 is sent ON-OFF to open
Dynamic order, makes this ultrasonic wave controller 60 that 50, this ultrasonic knife is performed frequency sweep operation, and
Output power size is carried out via this simulation input contact (AI) 32 pairs of ultrasonic wave controllers 60
Simulation control, with regulate and control ultrasonic wave controller 60 to ultrasonic knife 50 output amplitude,
And then utilize the design of numerical controller 30 program and powerful operational capability, make ultrasound wave control
Device 60 processed program control along with numerical controller 30 at any time, frequency that correct output is corresponding and amplitude,
Reach to process the benefit that optimization of job controls.
As shown in Figure 3, Figure 4, in the present invention in the display screen of numerical control machining bed,
When the program step showing numerical controller 30 is M6T1, represents and be numbered as T1's
Ultrasonic knife 50 tool changing operation;Then, when program step is shown as M78, number is represented
Value controller 30 is sent by numeral input contact (DI) 31 pairs of ultrasonic wave controllers 60
The startup order of ON-OFF, even if also ultrasonic wave controller 60 is first closed and is restarted, when
Processing unit 61 in ultrasonic wave controller 60 receives and comes from opening of numerical controller 30
During dynamic order, this processing unit 61 can send the command signal of frequency sweep to this signal code source 62,
This signal code source 62 is i.e. via this detecting unit 63 ultrasonic knife handle to this numbered T1
50 perform frequency sweep operation, and the principle that this processing unit 61 i.e. utilizes circuit impedance to mate obtains to be compiled
Number be the ultrasonic knife of T1 the load end resistance value of 50, and make processing unit 61 calculate
The frequency mated 50 with the ultrasonic knife of this numbered T1;Then it is shown as when program step
During M125, represent that numerical controller 30 is by simulation input contact (AI) 32 pairs of ultrasound wave controls
Device 60 processed carries out the simulation of output power size and controls, and wherein " 5 " represent that output power is
The 50% of big output power, when the processing unit 61 in ultrasonic wave controller 60 receive from
After the output power signal of numerical controller 30, processing unit 61 can command signal current source
Amplitude is maximum output amplitude the 50% of 62 regulation and control output electric currents, so that signal code source
62 export the current source extremely numbered T1 of band matching frequency and amplitude signal via output unit 64
Ultrasonic knife 50;Then, when program step is shown as G4X5, numbered T1 is represented
Ultrasonic knife start to perform dither machining operation 50;When surpassing of numbered T1
After sound wave hilt 50 completes interim dither machining operation, program step is shown as
During G6T3, represent that the ultrasonic knife being numbered as T3 is the tool changing operation of 50`;Then when
When program step is shown as M78, numerical controller 30 is i.e. by numeral input contact (DI)
31 pairs of ultrasonic wave controllers 60 send the startup order of ON-OFF, when ultrasonic wave controller 60
In processing unit 61 when receiving the startup order coming from numerical controller 30, this process
Unit 61 can send the command signal of frequency sweep, this signal code source 62 to this signal code source 62
I.e. via this detecting unit 63, the ultrasonic knife of this numbered T3 is performed frequency sweep operation 50`,
This processing unit 61 can obtain the ultrasonic knife load end impedance 50` of this numbered T3
Value, union goes out the frequency that the ultrasonic knife with this numbered T3 mates 50`;Then journey is worked as
When sequence step is shown as M129, represent that numerical controller 30 is by simulation input contact (AI)
32 pairs of ultrasonic wave controllers 60 carry out the simulation control of output power size, and wherein " 9 " represent
Output power is the 90% of maximum output power, the processing unit in ultrasonic wave controller 60
After 61 receive the output power signal coming from numerical controller 30, processing unit 61 can be ordered
The amplitude making signal code source 62 regulation and control output electric current is maximum the 90% of the amplitude that exports, thus
Signal code source 62 is made to export the electric current of band matching frequency and amplitude signal via output unit 64
The ultrasonic knife of source extremely numbered T3 is 50`;Then, when program step is G4X5, represent
The ultrasonic knife of numbered T3 starts 50` to perform dither machining operation.
According to above-mentioned explanation, the present invention is by the numerical controller 30 of numerical control machining bed
It is connected to set of number input contact (DI) 31 and one group of simulation input contact (AI) 32
This ultrasonic wave controller 60, after this numerical controller 30 interconnects with ultrasonic wave controller 60,
This numerical controller 30 not only can control via 31 pairs of ultrasound wave of this numeral input contact (DI)
Device 60 sends the startup order of ON-OFF, makes the signal code source of this ultrasonic wave controller 60
The ultrasonic knife of 62 couples of numbered T1 is defeated for 50 (or the ultrasonic knife of numbered T3 is 50`)
Go out the frequency of coupling, and can be at any time via the programming of numerical controller 30, by this simulation
Signal code source 62 in input contact (AI) 32 pairs of ultrasonic wave controllers 60 carries out output electricity
The simulation of power size controls, to regulate and control the signal code source 62 of ultrasonic wave controller 60 to numbering
For the ultrasonic knife of T1 the output amplitude of 50 (or the ultrasonic knife of numbered T3 is 50`),
Make in the time course of workpiece, can be according to the demand (material such as workpiece of processing conditions
Matter or the time course of different phase), by the programming of numerical controller 30,
Unlike material or different phase be able to different size of output amplitude perform process operation, enter
And utilize the design of numerical controller 30 program and powerful operational capability, processing is substantially improved
Quality and working (machining) efficiency, reach to process the benefit that optimization of job controls.Additionally, work as ultrasonic knife
After machining a period of time, correspondence can be caused because of the factor such as thermal deformation or cutter loss
The change of matching frequency, the most also can be performed by the programming of numerical controller 30 in good time
The program step of M78, makes numerical controller 30 that ultrasonic wave controller 60 is sent ON-OFF
Startup order so that the processing unit 61 in ultrasonic wave controller 60 is to this signal code
Source 62 sends the command signal of frequency sweep again, and then processing unit 61 can order this signal code
Ultrasonic knife the frequency of output matching again, is reached to process what optimization of job controlled by source 62
Benefit.
Accordingly, the present invention actually tool practicality and a design for progressive deeply, so there are no identical
Product and publication open, thus permit symbol application for a patent for invention important document, file an application in whence in accordance with the law.
Claims (4)
1. combining a control device for numerical control machining tool and ultrasonic knife handle, it is special
Levy and be, comprising:
Numerical control machining bed, it is provided with a main shaft;
Ultrasonic knife handle, it is mounted on this main shaft of this numerical control machining bed;
Ultrasonic wave controller, it connects this ultrasonic knife handle, and this ultrasonic wave controller includes at one
Reason unit, a signal code source, a detecting unit and an output unit, this signal code source is even
Being connected to this processing unit, and receive the command signal of this processing unit, this detecting unit is connected to
This signal code source, to perform frequency sweep operation, this output unit is connected to this signal code source,
To export the current source of band frequency and amplitude signal to this ultrasonic knife handle;
Numerical controller, it connects this numerical control machining bed, adds controlling this numerical control
Main shaft work in work lathe, this numerical controller is with set of number input contact and one group of simulation
Input contact is connected to this ultrasonic wave controller, makes this numerical controller and this ultrasonic wave controller
Interconnection, and input contact via this numeral and the processing unit in this ultrasonic wave controller sent open
Dynamic order, makes the signal code source in this ultrasonic wave controller perform frequency sweep via this detecting unit
Operation, and via this simulation input contact, this ultrasonic wave controller is carried out output power size
Simulation control, to regulate and control the signal code source in this ultrasonic wave controller to this ultrasonic knife handle
Output amplitude.
Combination numerical control machining tool the most according to claim 1 and ultrasonic knife handle
Control device, it is characterised in that this numerical controller via this numeral input contact to this surpass
When processing unit in sound wave controlled device sends startup order, the process in this ultrasonic wave controller
This ultrasonic knife is made performing frequency sweep by this signal code source of cell command via this detecting unit
Industry.
Combination numerical control machining tool the most according to claim 2 and ultrasonic knife handle
Control device, it is characterised in that this signal code source via this detecting unit to this ultrasound wave
When hilt performs frequency sweep operation, the principle that this processing unit utilizes circuit impedance to mate obtains ultrasonic
The load end resistance value of ripple hilt, union goes out with this ultrasonic knife the frequency mated, makes this
Signal code source exports the current source of band matching frequency and amplitude signal extremely via this output unit
This ultrasonic knife handle.
Combination numerical control machining tool the most according to claim 1 and ultrasonic knife handle
Control device, it is characterised in that this numerical controller via this simulation input contact to this surpass
When processing unit in sound wave controlled device sends output power signal, in this ultrasonic wave controller
The amplitude of this signal code source of processing unit order regulation and control output electric current, so that this signal code
Source exports the current source of band frequency and amplitude signal to this ultrasonic knife handle via this output unit.
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CN201510162934.XA CN106141807B (en) | 2015-04-08 | 2015-04-08 | With reference to Numerical Control machining tool and the control device of ultrasonic knife handle |
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CN201510162934.XA CN106141807B (en) | 2015-04-08 | 2015-04-08 | With reference to Numerical Control machining tool and the control device of ultrasonic knife handle |
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CN106141807B CN106141807B (en) | 2018-01-30 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI728411B (en) * | 2019-07-24 | 2021-05-21 | 財團法人工業技術研究院 | Detection device for spindle of machine tool and detection method for spindle of machine tool |
CN113820997A (en) * | 2021-09-14 | 2021-12-21 | 深圳市青鼎装备有限公司 | Method for mutual communication between ultrasonic controller and machine tool numerical control system |
CN114850903A (en) * | 2022-05-18 | 2022-08-05 | 深圳市特力威科技有限公司 | Ultrasonic knife handle structure of machine tool |
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CN201105389Y (en) * | 2007-10-18 | 2008-08-27 | 北京迪蒙特佳工模具技术有限公司 | Digital type wire-drawing die ultrasonic dressing polisher |
CN203076181U (en) * | 2013-01-21 | 2013-07-24 | 丸荣机械股份有限公司 | Ultrasonic cut-off tool holder for central processor |
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JPH11197896A (en) * | 1998-01-16 | 1999-07-27 | Amada Eng Center Co Ltd | Sheeting method by punch press and ram oscillation device for punch press |
CN101020244A (en) * | 2007-03-15 | 2007-08-22 | 杭州电子科技大学 | Ultrasonic torsional vibration turning-milling system and method with oppositely fed double cutter |
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TWI728411B (en) * | 2019-07-24 | 2021-05-21 | 財團法人工業技術研究院 | Detection device for spindle of machine tool and detection method for spindle of machine tool |
CN113820997A (en) * | 2021-09-14 | 2021-12-21 | 深圳市青鼎装备有限公司 | Method for mutual communication between ultrasonic controller and machine tool numerical control system |
CN114850903A (en) * | 2022-05-18 | 2022-08-05 | 深圳市特力威科技有限公司 | Ultrasonic knife handle structure of machine tool |
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