奥地利专利AT511551A1 DEVICE AND METHOD FOR MECHANICAL MACHINING OF A WORKPIECE

专利PDF首页>>奥地利专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
Device (1) and method having a workpiece holder (2) for receiving a workpiece (28) to be machined, wherein at least one oscillating device (9) is connected to the workpiece holder (2) and the oscillating device (9) is the workpiece holder (2) vibrated, wherein the vibration of the workpiece holder (2) has a frequency which is lower than the frequency of ultrasound.
公开号:AT511551A1
申请号:T706/2011
申请日:2011-05-18
公开日:2012-12-15
发明作者:Friedrich Dipl Ing Dr Bleicher；Johannes Dipl Ing Bernreiter
申请人:Univ Wien Tech；
IPC主号:

专利说明:

1
The invention relates to a device with a workpiece holder for receiving a workpiece to be machined, wherein at least one oscillating device is connected to the workpiece holder, and a method for the mechanical machining of a workpiece.
Various devices and methods for so-called hybrid processing or ultrasound-assisted processing are known in the prior art. Here, usually a tool is vibrated in the ultrasonic range, wherein as the oscillation frequency, preferably the natural frequency of the tool is selected so that deliberately resonant vibrations occur, which in particular during the machining of a workpiece, a supporting effect is achieved.
A tool excited in the ultrasonic range is known for example from the publication "Modeling of material reraoval rate in rotary ultrasonic machining: designed experiments". by P. Hu, J.M. Zhang, Z.J. Pei, and Clyde Treadwell, published in the Journal of Materials Processing Technology 129, 2002, 339-344. Furthermore, from the publication "Development of a novel ultrasound system for the realization of flexible ultrasound-assisted cutting". by T. Tavakoli, B. Azar-houshang, N. Jandaghi, published in the journal Science & Research " 2010, 28-33, various variants for vibration excitation on the workpiece side known, which excite workpieces on resonators in the ultrasonic range.
Furthermore, the prior art, e.g. from US 7,802,355 B2, already different types of vibrating tables for distributing asphalt and the like. Known.
The object of the present invention, however, is to provide a method and a device for the mechanical processing of workpieces, with which or which various mechanical machining operations can be performed on a workpiece by means of or with the aid of a swinging motion of the workpiece itself.
According to the invention, this is achieved in the device of the type mentioned at the outset in that the oscillating device vibrates the workpiece holder, wherein the oscillation of the workpiece holder has a frequency that is significantly lower than the frequency of ultrasound. A device according to the invention, in which the factory recording is vibrated by means of a vibrating device which has a lower frequency than the frequency of ultrasound, can be used for a variety of purposes.
On the one hand, a workpiece received in the workpiece holder can be subjected to a helical or a rhochoide machining by a corresponding control of the oscillating device.
Furthermore, the device can also be used for hybrid processing, i. the vibration-assisted mechanical machining of workpieces mounted in the workpiece holder, are used. Mechanical operations in connection with the present invention are to be understood as meaning, in particular, any machining with geometrically defined or geometrically indefinite cutting edges; This includes in particular turning, drilling, milling, reaming and grinding, honing, lapping and polishing.
If the frequency is selected to be correspondingly low, the device can of course also be used for positioning the workpiece arranged in the workpiece holder with the aid of the oscillating device.
In particular, the device may be similar to known devices in which, however, the tool is excited in the ultrasonic range to assist in the machining of difficult-to-machine materials, i. especially hard and / or brittle materials, e.g. Ceramics, glass, various silicon materials such as silicon nitride or silicon oxide, but also hardened steel or the like. Be used. For a variety of applications, it has proved to be advantageous if the frequency of the vibration of the workpiece holder is less than 10 kHz, preferably less than 5 kHz, in particular less than 1 kHz, more preferably between 500 Hz and 50 Hz. • • • • • • • ♦ ♦ «•« • »« · 3
In contrast to known ultrasonic vibration devices, in which the achievement of a resonant vibration is desired, a resonance oscillation should be avoided in the device according to the invention, since this could lead to the damage of the device. In order to freely select the frequency without risk of damage, it is advantageous if the oscillating device has a vibrating body, which is assigned a vibrating in the opposite direction balancing mass. With the help of the oscillating body of the oscillating device gegengleich oscillating balancing mass thus a pulse decoupling can be achieved, so that regardless of the natural frequency of the workpiece holder or the entire device any frequency for machining the workpiece can be adjusted. To compensate for the inertial forces of the vibrating body, the balancing mass may have an identical to the vibrating body mass; In this case, the balancing maser is set in vibration at the same frequency and acceleration as the vibrating body, but in the opposite direction of movement. If the vibrating body and balancing mass do not have the same mass, a compensating inertia effect can be achieved by adjusting the acceleration. If the balancing mass has a lower mass than the oscillating body, it is therefore advantageous for pulse compensation if the compensating mass oscillates at the same frequency as and a larger amplitude than the vibrating body. Consequently, the balancing mass oscillates at the same frequency as the oscillating body, but has a higher acceleration and thus lays a larger path at the same frequency.
Due to the structural conditions, it has proven particularly advantageous if the ratio of the amplitudes of the oscillations of the balancing mass and the vibrating body between [1]: [5] and [5]; [1], essentially [1]: [1] is.
In order to achieve vibrations of the workpiece holder in the desired frequency range in a simple and reliable manner, it is advantageous if the oscillating device has at least one piezoelectric element. ·····································································································. 4
In order to be able to achieve in a simple manner any type of vibration of the vibrating body in one plane, i. e.g. a circular, diagonal, etc. shape of the oscillating movement, it is advantageous if at least two, preferably arranged perpendicular to each other movement directions, piezoelectric elements are provided for displacement of the oscillating body in a plane. With regard to a structurally simple embodiment of the device in which the desired amplitudes can be achieved by means of the piezoelectric elements, it is favorable if, for the displacement of the oscillating body in one direction, at least two piezoelements are assigned to the oscillating body. In this case, the piezoelectric elements can each be supported in a simple manner on the one hand on the outside on a housing surrounding the oscillating device and on the other hand on a preferably substantially centrally arranged abutment projection on the oscillating body.
In order to achieve the desired inertial pulse decoupling, it is advantageous in terms of simple control if substantially the same type and number of piezo elements act on the balancing mass as on the vibrating body.
In order to achieve the desired momentum decoupling of the oscillating device, it is advantageous if a control or regulating device is provided, with which opposite movements of the piezo elements, which are associated with the oscillating body, and those piezo elements, which are associated with the balancing mass, controlled or be managed. In this case, it is advantageous if the oscillating body and the compensating mass are assigned path and / or acceleration sensors whose measured values are supplied as actual variables to the control or regulating device.
In order to minimize friction losses in the vibration movements of the vibrating body and the balancing mass, it is advantageous if the vibrating body and / or the balancing mass are mounted on at least one air bearing.
In order to be able to absorb torques introduced on the workpiece or the workpiece holder, it is expedient if a plate-shaped workpiece holder is provided, which is provided on a cover plate of a basic body, preferably by means of a fifth
Air bearing, is stored. Thus, the plate-shaped workpiece holder, also called machine table, mounted directly on an adjacent cover plate, so any tilting forces acting on the workpiece holder, no leverage is offered.
In order to further reduce the moments resulting from the Rewegungskräften, it is advantageous if the plate-shaped workpiece holder is firmly connected to a counter-plate, wherein between the plate-shaped workpiece holder and the counter plate, the balance mass is arranged.
With regard to the use in the machining of workpieces, it is advantageous for aligning the workpiece holder in various orientations when the device is arranged on a positioning device. It is particularly advantageous if up to five axes of the positioning device can be adjusted, as this arbitrary alignment of the workpiece holder in all imaginable directions is possible.
If at least one direction of oscillation of the oscillating device deviates from a direction of movement of a cutting tool, preferably a milling tool, the device can, for example, only be moved in one plane, but at the same time a spatial change relative to the tool is achieved due to the deviating oscillation direction relative to the movement of the tool.
Tests have shown that it is particularly advantageous if a tool, preferably a milling tool, provided for machining, cooled by means of a coolant, is provided. It has been found that due to the vibrations of the workpiece received in or on the workpiece holder, a significantly improved flushing behavior of the chips mixed with chips is achieved, resulting in a significantly improved removal of the material already removed from the workpiece. Tests were in this case carried out in particular in connection with plate-shaped, ceramic materials. 6
The method of the initially mentioned type is characterized in that the workpiece is vibrated, wherein the frequency of the vibration of the workpiece is lower than the frequency of ultrasound, preferably the frequency of the vibration of the workpiece below 10 kHz, preferably below 5 kHz, in particular below 1 kHz, more preferably between 500 Hz and 50 Hz. The advantageous effects achieved in connection with the method according to the invention are already explained in connection with the corresponding device, so that reference is made to avoid repetition. Of course, it is also advantageous in the method according to the invention, when in particular to avoid resonance vibrations of the workpiece and the machine tool, the pulse introduced for generating the vibration is actively decoupled.
If the balancing mass has a lower mass than the vibrating body, the balancing mass for impulse decoupling advantageously oscillates at the same frequency and a greater amplitude than the vibrating body. The impulse decoupling here is advantageously actively regulated, as already described in connection with the device according to the invention.
The invention will be explained in more detail below with reference to preferred embodiments illustrated in the drawings, to which, however, it should not be restricted. In detail, in the drawings:
Fig. 1 is a perspective view of the device with a workpiece holder;
FIG. 2 shows a perspective view of the device according to FIG. 1 with the workpiece holder removed and a cover plate removed; FIG.
Fig. 3 is a perspective view of Figure 2 with a partially broken side wall of a housing.
4 shows a perspective sectional view of the device according to FIGS. 1 to 3; • · | t ·· * · ·! «Μ * * * · * * * I * t * * * *··· * * * * * * * * * * * * * * * * * * * · 7
5 is a schematic view of a control circuit for controlling a pulse decoupling;
6 shows a schematic view of a positioning device on which a device according to the invention is arranged;
Fig. 7 is a sectional view of an alternative construction of the device according to the invention;
8a to 8d are schematic side views of a workpiece received on the device, which is machined by a milling device; and
9 is a schematic detail view according to detail VIII in Fig. 8a.
In Fig. 1, a device 1 with a workpiece holder 2 is shown schematically, wherein it can be seen that the device 1 has an upper cover plate 3 and a lower cover plate 4, between which a circumferential housing b is added.
Between the upper and lower cover plate 3, 4 and within the housing 5, as shown in Fig. 2, a balance mass 7 is added. The balancing mass 7 is intended to actively decouple inertial pulses introduced by a vibrating body 8 (see FIG. 4), so that in particular resonance oscillations in a machine tool (cf., milling cutter 27 in FIGS. 8a to 8d), a tool 27 'for machining of a workpiece 28 (see Fig. 8a to 8d) mounted on the device 1 can be avoided.
The oscillating body 8 as well as the leveling compound 7 are part of a vibration device 9 accommodated in the housing 5, which is intended to cause the workpiece holder 2 to vibrate. For this purpose, the workpiece holder 2 shown in Fig. 1 via a in Fig. 4 apparent, vorzusgweise cylindrical connecting element 2 'with the oscillating body 8 is firmly connected. 8th
The oscillating device 9 has as actuators rod-shaped piezo-elements 10, 10 ', which can be seen in particular in FIG. 3. In this case, two rod-shaped piezocells IG, 10 'are provided on each side of the preferably substantially square-shaped housing 5.
The Piezoe1emente 10 put this the oscillating body 8 (including the workpiece holder 2} in the desired oscillation, the piezoelectric element 10 arranged above 'however the Ausgleichsrrsasse 7. The Piezoeiemente 10, 10' depending Weil supported on the one hand on the housing 5, which therefor in the corner regions have a recess 5 ', and on the other hand at substantially mirtig arranged contact projections 8' and 7 'of the oscillating body 8 and the balancing mass 7th
The two piezoelectric elements 10 and 10 'arranged on one longitudinal side are connected together in such a way that they are actuated in the opposite direction by a control device or regulating device 11 (see FIG. Here are in each bar form.! piezoelectric element 10, 10 ', which is in each case arranged between the housing 5 and the abutment projection 7' or 8 ', in each case two so-called piezo stacks combined in a rod-shaped piezo element 10, 10'; Such piezostacks are commercially available and are known e.g. used to control injection nozzles in the automotive industry. By means of such Piezoeiemente 10, 10 ', which are composed of two piezo stacks, vibrations whose amplitude is up to +/- 60 pm, preferably +/- 20 pm, can be achieved. On the opposite side, two Piezoeiemente 10, 10 'are also provided, which are driven the same, as arranged on the opposite side of the oscillating body 8 and the balancing mass 7 Piezoeiemente 10, 10'. The piezoe elements 10, 10 'arranged substantially at a right angle thereto, on the other hand, are actuated independently, so that the oscillating body 8 or the compensating mass 7 is capable of any movement, e.g. a diagonal, or a circular motion, can perform.
For the formation of air bearings 12, a recess 11 'is provided in a support plate 11 of the oscillating body 8, in which a planar sliding bearing element 12', preferably made of a Kar 9 bon material, is added. The balancing mass 7 is formed in cross-section substantially I-shaped, so in the area between the two transverse legs, above and below a connecting leg 13 each have a receiving chamber 14. Ider. is in which also each planar slide bearing elements 12 'are added to form an air bearing 12. In the receiving chambers 11 'and 14' compressed air at a pressure of about 2 to 6 bar is introduced via a not shown in detail air supply line, so that the oscillating body 8 and the balancing mass 7 can swing substantially frictionless.
In one of the connecting element 2 'defined central recess can supply and discharge of compressed air into or out of the recesses 11', 14 'of the air bearing 12. In addition, another actuator could also be provided in this recess for the purpose of exciting vibrations in a vertical z-direction, so that not only the piezoe elements 10, 10 ', which are arranged substantially parallel to the cover plates 3, 4, in the x-direction with the aid of the device. and y direction any vibration, xB a diagonal, a circular, sinusoidal vibration or the like. Can be performed, but also in the normal direction to this level, an additional vibration of the workpiece holder 2 in the z-direction can be achieved. The oscillating device 9 thus has four degrees of freedom - taking into account the rotation about the z-direction.
As the sectional view in Fig. 4 further shows, the lower cover plate 4, the base plate 11, the housing 5 and the upper cover plate 3 are connected to each other via screws, not shown, which are screwed into the openings 16 provided for this purpose. In addition, the Werkstückaufnahmeunter-tei.l 2 'with the oscillating body 8 and the workpiece holder 2 Uber (not shown) screws which are screwed into the receiving openings 17, connected to each other.
In Fig. 5, in particular, a device 1 associated control or regulating device 15 is shown, via which a generator 15 'is driven, which supplies the piezoelectric elements 10, 10' with the corresponding electrical pulses, so that the oscillating device 9 with the desired frequency and the desired amplitude is vibrated. Here are of the total of 16 piezo elements, which are composed of a total of 32 piezo stacks, eight piezo stacks are driven the same (four in each direction), namely those eight piezo stacks, in the two provided on one longitudinal side piezo elements 10, 10 'and in the on the opposite side arranged piezo elements 10, 10 'are accommodated.
The path traveled by the balancing mass 7 and the oscillating body 8 and their acceleration is then transmitted via sensors, i.a. via a position sensor 15 "(see FIG. 4), wherein the measured path or the measured acceleration is transmitted to the controller 15 via lines 151", so that a control loop is closed and thus an actively controlled pulse coupling is achieved is, over which reliably desired resonance vibrations can be avoided. The control or regulating unit 15 is a control unit 18 is switched on Vielhe the operator can enter the desired frequency, amplitude, direction of vibration, etc.; Similarly, the control unit 15 is connected to a numerical control 19 (NC unit) of a machine tool 27.
In Fig. 6, a five-axis positioning device 20 is shown schematically, on which the device 1 is positioned with the workpiece holder 2. Due to the five axes 21, over which the position device can be adjusted, a mechanical processing of complex 3D contours of the recorded on the workpiece holder 2 workpiece can be done.
In Fig. 7 an alternative embodiment of the device 1 is shown. Here, a base body 22 is provided, which preferably has a housing 23 with a bottom surface 23 ', on which a cover plate 24 can be fastened. On the cover plate 24, the plate-shaped workpiece holder 2, also called machine table, mounted by means of an air bearing 12; For this purpose, air bearing elements 12 'between the cover plate 24 and the workpiece holder 2 are arranged. In addition, a sealing element 25 between the workpiece holder 2 and the cover plate 24 is arranged to protect the air bearing 12 from the ingress of cooling lubricants and chips. 11
In the main body 23, the balance mass 7 is added, which oscillates to Impulsentkoppe.l ung in the opposite direction to the swinging body 8; the vibrating body 8 in this case has a base plate 26 which is connected via a preferably cylindrical connecting element 2 'with the plate-shaped workpiece holder, which is thus also part of the oscillating body 8. The oscillating body 8 and the compensating mass 7 are - as already described in detail in connection with the Ausführungsbespiel according to Figures 1 to 5 - connected to the oscillating device 9; i.e. on the oscillating body 8 and on the balancing mass 7 engage in the opposite direction vibrating Piezoelemen te 10, 10 '.
Various uses of the device 1 are shown in FIGS. 8a to 8d, wherein the device is in each case introduced into a basic coordinate system (x, y, z). The oscillating device 9 itself has a relative coordinate system (x ', y', z ') in which the actuators oscillate, The device 1 can thus be tilted relative to the base coordinate system as shown in FIGS. 8a to 8d The oscillation movement then takes place in the direction of the relative coordinate system, whereas the tool 27 'of the machine tool 27 can be moved in any direction 29 in the base coordinate system, preferably along one of the coordinate principal axes As can be seen in Fig. 8b, a workpiece 28 mounted on the workpiece holder 2 can be made by angular devices 30 again along the orientation from the base coordinate system.
In particular, it has proved to be advantageous that a cooling liquid 31 (cf., Fig. 9) used to cool the tool 27 'of a machine tool, e.g. a milling cutter 27, is supplied to the area to be machined, in the machining of hard plates 28, for example made of hardened steel, ceramic materials or the like. Is vibrated. As a result, chips removed via the tool 27 'are significantly better due to the vibrations of the cooling liquid 31
For example, by means of the thus-to-be-processed βU t'CJ1 uπci of the vcrbsSS6r 16D, the cutting parameters, machining time and thus a production cost are increased.
The cooling liquid in the tool 27 region 31 is in this case the usual-trained cooling channel 32 in fed. This results in Spulver hold Mogliohk eiten ^ thus a significantly shortened substantial reduction of ur

权利要求:
Claims (19)
[1]
1. A device (1) with a workpiece holder (2) for receiving a machined workpiece (28), wooei mi de] Werkstückaufnähme (2) at least one oscillating device (9) is in communication, characterized in that the oscillating device (9) vibrates the workpiece holder (2), wherein the vibration of the workpiece holder (2) has a frequency lower than the frequency of ultrasound.
[2]
2. Apparatus according to claim 1, characterized in that the frequency of the oscillation of the workpiece holder (2) is below 10 kHz, preferably below 5 kHz, in particular below 1 kHz, more preferably between 500 Hz and 50 Hz.
[3]
3. Device according to claim 1 or 2, characterized in that the oscillating device (9) has a vibrating body (8), which is associated with a vibrating in the opposite direction balancing mass (7).
[4]
4. Apparatus according to claim 3, characterized in that the balancing mass (7) with the same frequency as and a larger amplitude than the vibrating body (8) oscillates.
[5]
5. Device according to one of claims 1 to 4, characterized in that the oscillating device (9) has at least one Piezoe element (10, 10 ').
[6]
6. Apparatus according to claim 5, characterized in that for the displacement of the oscillating body (8) in a plane at least two, preferably arranged perpendicular to each other having directions of movement, piezoelectric elements (10) are provided.
[7]
7. Device according to one of claim 5 or 6, characterized in that on the balancing mass (7) substantially the same type and number of piezoelectric elements (10 ') acts as on the oscillating body (8).
[8]
8. Device according to one of claims 5 to 7, characterized in that a control or regulating device (11) is provided hen 14, with soft opposite movements of the piezoelectric elements (10) which are associated with the oscillating body (8), and those piezo elements (10 ') associated with the balancing mass (7) are controlled or regulated.
[9]
9. The device according to claim 8, characterized in that the oscillating body (8) and the compensating mass (7) Weg- and / or acceleration sensors are assigned, the measured values are fed as actual variables of the control or regulating device (1,1) ,
[10]
10. Device according to one of claims 3 to 9, characterized in that the Schwingkorper (8) and / or the balancing mass (7) are mounted on at least one air bearing (12).
[11]
11. Device according to one of claims 3 to 10, characterized in that a plate-shaped workpiece holder (2) is provided which is mounted on a cover plate (24) of a base body, preferably by means of an air bearing (12).
[12]
12. The device according to claim 11, characterized in that the plate-shaped workpiece holder (2) with a Gegenpl.atte (26) is fixedly connected, wherein between the plate-shaped workpiece holder (2) and the counter-plate, the compensating mass (7) is arranged.
[13]
13. Device according to one of claims 1 to 12, characterized in that the device (1) is arranged on a positioning device (20).
[14]
14. The apparatus according to claim 13, characterized in that up to five axes of the positioning device (20) are adjustable.
[15]
15. Device (1) according to one of claims 1 to 14, characterized in that at least one oscillation direction (x1, y ', z') of the oscillating device (9) deviating from a direction of movement (29) of a cutting tool (27 '), preferably milling tool is. 15
[16]
16. Device (1) according to one of claims 1 to 15, characterized in that by means of a cooling liquid (31) cooled for cutting machining provided tool (27 '), preferably milling tool, is provided.
[17]
17. A method for machining a workpiece (28), characterized in that the workpiece (28) is vibrated, wherein the frequency of the vibration of the 'workpiece (28) is lower than the frequency of ultrasound.
[18]
18. The method according to claim 17, characterized in that the frequency of the oscillation of the workpiece (28) is less than 10 kHz, preferably less than 5 kHz, in particular less than 1 kHz, more preferably between 500 Hz and 50 Hz.
[19]
19. The method according to claim 17 or 18, characterized in that the vibration introduced by the vibration on the workpiece (28) is actively decoupled. / RB

类似技术:

公开号 | 公开日 | 专利标题

AT511551B1|2013-10-15|DEVICE AND METHOD FOR MECHANICAL MACHINING OF A WORKPIECE

EP2655006B1|2015-01-07|System and method having two oscillation components for machining a workpiece and method therefor

DE602004006807T2|2008-02-07|processing machine

DE102010048636B4|2017-11-16|Machine tool and method for machining a workpiece with a tool

WO1999048191A1|1999-09-23|Impulse-decoupled direct drive mechanism

DE102010048638B4|2017-10-05|Machine tool, workpiece machining process

US20110065066A1|2011-03-17|Grinding apparatus and grinding method

DE3337846A1|1984-04-19|METHOD AND DEVICE FOR MACHINE VIBRATION GRINDING OF A PROFILED WORKPIECE SURFACE

EP1644159B1|2006-11-22|Tool head comprising piezoelectric actuators

DE102004059554A1|2005-08-11|Assembly to compress loose semi-liquid concrete particles into a brick mold is coupled to twin-mass oscillation unit

EP3250340A1|2017-12-06|Spindle arrangement

AT513094B1|2015-01-15|Device, in particular chip tool

DE102005038108A1|2007-02-15|Surface polishing assembly for e.g. glass, metal, paint, previous stones has two oscillating frames operating in a predefined phase sequence

DE102014119141A1|2016-06-23|Oscillating drivable machine tool

DE19945584A1|2001-03-29|Multi-dimensional drive for work machines

DE10161243B4|2008-07-10|Microstructuring with ultrasound-assisted grinding

Modica et al.2015|Micro-EDM studies of the fabrication of customized internal fixation devices for orthopedic surgery

DE102013021880A1|2015-06-25|Device for producing an oscillating axial movement of the working plane of a tool

US5773781A|1998-06-30|Profiling electrical discharge machining apparatus

DE102005027727B4|2009-04-02|Drive device for finish machining

DE102011004114A1|2012-06-14|Base plate for a hand tool

DE102012105948A1|2014-01-09|Oscillation platform for manufacturing system for machining or abrasive machining of workpiece, has tool arranged on swinging receiving plate that is arranged on support plate by resilient intermediate part

CH655883A5|1986-05-30|Method of producing tool electrodes for electrical discharge machining and apparatus for carrying it out

同族专利:

公开号 | 公开日

CN103547412B|2016-05-04|

EP2709796A1|2014-03-26|

CN103547412A|2014-01-29|

WO2012167288A1|2012-12-13|

EP2709796B1|2014-09-17|

AT511551B1|2013-10-15|

US20140093322A1|2014-04-03|

US9346139B2|2016-05-24|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

EP0323518A1|1987-06-24|1989-07-12|Research Development Corporation Of Japan|Device for vibrating work to be ground|

DE4113667A1|1991-04-26|1992-11-05|Fraunhofer Ges Forschung|Piezoelectric positioning drive for machine tools - uses copper@ heat sink and Peltier-effect modules to reduce operating temp.|

DE102005057175A1|2005-11-30|2007-05-31|Siemens Ag|Machine unit and/or work piece`s vibration e.g. chatter vibration, reducing method for e.g. machine tool, involves changing clamping force, which is used to retain work piece, during development of vibration in unit and/or work piece|

DE102006049867A1|2006-10-23|2008-04-24|Siemens Ag|Machine tool, has workpiece clamping device for clamping workpiece, where clamping device and workpiece are movable opposite to workpiece table by piezoactuators and speed of clamping device is determined by acceleration sensor|

US6241435B1|1998-03-25|2001-06-05|Vought Aircraft Industries, Inc.|Universal adaptive machining chatter control fixture|

DE10307308B4|2003-02-20|2006-11-30|Siemens Ag|Device for the linear method of a useful mass|

DK176725B1|2003-07-04|2009-05-04|Kvm Industrimaskiner As|Method for making a vibration table for concrete casting machines and a vibration loaf made according to the method|

JP4396518B2|2004-12-28|2010-01-13|トヨタ自動車株式会社|Attitude control device and precision processing device|

US7508116B2|2005-09-07|2009-03-24|Panasonic Corporation|Method and apparatus for vibration machining with two independent axes|

DE102005056603B4|2005-11-28|2019-02-21|Siemens Aktiengesellschaft|Method for reducing vibrations occurring during a machining process of a machine element and / or a workpiece|

CN101104244A|2006-07-10|2008-01-16|宁波工程学院|Ultrasonic magnetic-granular composite milling method and its device|

US7687975B2|2007-03-27|2010-03-30|Panasonic Corporation|Vibration assisted machining system with stacked actuators|

DE102010055288A1|2010-12-21|2012-06-21|Ev Group Gmbh|Device for machining a workpiece|US9290412B2|2012-08-31|2016-03-22|CERON Technologies Inc.|Method of processing tempered glass and device of processing tempered glass|

DE102013110728B4|2013-09-27|2021-08-19|Ev Group E. Thallner Gmbh|System and method for machining a workpiece|

US9517512B2|2014-09-26|2016-12-13|Chuan Liang Industrial Co., Ltd.|Ultrasonic positioning device for five-axis machine|

DE102015101167A1|2015-01-27|2016-07-28|Technische Universität Wien|spindle assembly|

EP3536451A1|2018-03-07|2019-09-11|Horst Knäbel|Method and apparatus for improving the concentricity and stress-tolerance of conical joint made up of an annularly closed container and a compressible and expandable sleeve|

DE102018127275B3|2018-10-31|2020-03-12|Asm Assembly Systems Gmbh & Co. Kg|Component feeder and method for providing isolated components by means of vibration, placement system|

CN111215644B|2020-02-17|2021-05-04|中国工程物理研究院机械制造工艺研究所|Ultrasonic vibration assisted cutting feedback signal detection and compensation device and method and application|

CN112405033A|2020-10-15|2021-02-26|渤海造船厂集团有限公司|Adjustable platform for machining gasket and method thereof|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA706/2011A|AT511551B1|2011-05-18|2011-05-18|DEVICE AND METHOD FOR MECHANICAL MACHINING OF A WORKPIECE|ATA706/2011A| AT511551B1|2011-05-18|2011-05-18|DEVICE AND METHOD FOR MECHANICAL MACHINING OF A WORKPIECE|

EP12762520.0A| EP2709796B1|2011-05-18|2012-05-18|Oscillating device with workpiece holder and compensating mass, and method|

PCT/AT2012/000137| WO2012167288A1|2011-05-18|2012-05-18|Vibrating device with workpiece receiving portion and compensating mass|

US14/118,440| US9346139B2|2011-05-18|2012-05-18|Vibrating device with workpiece receiving portion and compensating mass|

CN201280023898.3A| CN103547412B|2011-05-18|2012-05-18|There is the vibrating device of workpiece incorporating section and compensation quality|

[返回顶部]