CN202684652U - Ultrasonic machining device for diamond micropore wire drawing die - Google Patents

Abstract

The utility model discloses an ultrasonic machining device for a diamond micropore wire drawing die to solve the problem that a needle is broken frequently when the diamond micropore wire drawing die is machined in the prior art. The ultrasonic machining device mainly comprises a three-dimensional tool needle adjustment mechanism, a die centering mechanism and an observation/detection/correction system. The ultrasonic machining device can center a tool needle and a die by using the center of a rotation work table as the reference of centering work with the help of the observation/detection/correction system respectively. Moreover, under the action of a balanced elasticity and pressure adjustment mechanism, the ultrasonic machining device can provide the balanced machining pressure, so that the phenomenon that the needle is broken frequently in the machining process of the diamond micropore wire drawing die can be avoided; and the ultrasonic machining device is particularly suitable for machining the diamond micropore wire drawing die of which the pore diameter is less than or equal to 0.03mm, and the machining stability and reliability can be improved, so that the machining quality of the diamond micropore wire drawing die is guaranteed, and the machining efficiency is improved.

Description

A kind of ultrasonic machining device for diamond micropore wire drawing die

Technical field

The utility model relates to a kind of ultrasonic machining device, relates in particular to a kind of ultrasonic machining device that is suitable for processing diamond micropore wire drawing die, belongs to the special processing technology field.

Background technology

Wire drawing is that a kind of metal that makes under external force passes through mould by force, and metal cross section is compressed, and obtains the method for metal working of desired shape of cross section and size.Wire drawing die is the instrument that the metal cross section shape and size are changed.The hole shape of wire drawing die is comprised of the zone that entrance, lubricated, compression, sizing, back taper, outlet etc. have different angles and tapering, and is comparatively complicated.And the good and bad height that directly affects the wire product quality of the aperture of wire drawing die, hole shape precision and fineness.In order to obtain the qualified wire drawing die of hole shape, usually need to carry out to wire drawing die the processing such as shaping and polishing.

Diamond micropore wire drawing die is a kind of of wire drawing die, and its aperture is very little, and minimum aperture only has 0.005mm.Diamond micropore wire drawing die hole shape is complicated, and is also very high to the quality requirement of its precision and fineness.Because diamond micropore wire drawing die adds and need to finish with the end tool needle more very thin than the aperture man-hour, so in process, difficulty of processing is very large, and is careless slightly, will cause needle point to fracture.

In present wire drawing die manufacturing process, generally use the ultrasonic grinding polishing machine that wire drawing die is processed.Existing ultrasonic grinding polishing machine generally adopts the cooked mode of mould float centrih, realizes in the aligning of machining center and the polishing process adjustment to tonnage.The processing mode of mould float centrih refers to that mold bottom to be processed is affixed on work top, but unfixing, finds machining center accurately by tool needle, and utilizes the effect of homopolar-repulsion between spring-compressed or two magnetites, provides tonnage as pressure source.Pressure source is positioned at rotary table, vertically moves by adjusting ultrasonic transducer carrying implement pin, withstands wire drawing die and makes rotary table generation length travel, and distance shortens between the compacted or magnetite of the spring in the rotary table, thereby produces tonnage.The size of pressure can change by the position that the change tool needle vertically moves, and the position is lower, and the power that spring or magnet produce is also larger.In this process, rotary table has the integrated motion of rotation, swing and length travel, and the concrete structure of rotary table can be referring to the workbench of disclosed ultrasonic grinding polishing machine among the Chinese utility model patent ZL 201120141677.9.This workbench comprises base, lower magnet, upper magnet, work important actor and workbench, be provided with a groove at the center of base, lower magnet is located in this groove, and upper magnet is located at the bottom of work important actor, lower magnet is identical with the opposite side polarity of upper magnet, and workbench is located at the top of work important actor.In this ultrasonic grinding polishing machine, realize the automatic adjustment of height of table position by being located at respectively base with identical lower magnet and the upper magnet of opposite side polarity on the work important actor.

In the prior art, as described below corresponding to the processing method of mould float centrih processing mode: as before processing, by range estimation the tool needle needle point roughly to be transferred to the workbench center; Withstand the mould endoporus with the tool needle needle point and press down, produce tonnage; Behind worktable rotary, finely tune again, reduce the degree that tool needle or mould are drawn a circle at rotary table as far as possible.For the larger mould in aperture, such method of adjustment, operating process is fairly simple, on not impact of process.And for the less mould in aperture, because the tool needle size is less, the difficulty during the relative rotary table with mould to be processed of tool needle is transferred is larger, in dynamic adjustment process, the situation of bent needle occurs easily.

So; the processing mode of mould float centrih; can also use reluctantly for the wire drawing die of aperture about 0.05mm; and for the diamond micropore wire drawing die of aperture≤0.03mm; because the tool needle needle point is too thin; the center find accurately with pressure controlled process in, easily the problem of bent needle just becomes unavoidable obstacle.In operating process, frequent bent needle can make process normally carry out.And in the prior art, other better solutions are arranged not yet.

Summary of the invention

The utility model aims to provide a kind of ultrasonic machining device that can be used for processing diamond micropore wire drawing die.

For realizing above-mentioned purpose, the utility model adopts following technical scheme:

A kind of ultrasonic machining device comprises device pedestal, is individually fixed in device column, electric rotating machine and the rotary table of device pedestal, and wherein, described electric rotating machine is used for driving described rotary table rotation, it is characterized in that:

Described ultrasonic machining device also comprises: ultrasonic transducer and tool needle, and described tool needle is installed on the lower end of described ultrasonic transducer; Be used for regulating the three-dimensional tool needle governor motion of described tool needle position, described three-dimensional tool needle governor motion is fixed in the upper end of described device column, and described tool needle is fixed on the described three-dimensional tool needle governor motion by described ultrasonic transducer;

Be used for regulating the mould adjusting mechanism of diamond micropore wire drawing die position, described mould adjusting mechanism is positioned at the top of described rotary table, and is connected in the center of described rotary table;

And, in accent, carrying out visual observation of calibrating/detection/correction system in the process, described observation/detection/correction system is connected with described rotary table optics, is used for taking machining area.

More preferably, described observation/detection/correction system is comprised of monitor, camera and optics guiding link;

Described optics guiding link connects described camera and described machining area, and the output of described camera is connected with the input of described monitor;

Be provided with crosshair at described monitor, described crosshair is used as the benchmark in the accent in the process in accent.

More preferably, described three-dimensional tool needle governor motion comprises three cocainine thick stick and guide rails, and above described leading screw and guide rail hard-wired tool needle firm banking, three cocainine thick sticks and guide rail are separately positioned on orthogonal X-direction, Y-direction and the Z-direction, end at each leading screw is provided with position control lever, and described position control lever is used for regulating described leading screw and rotates; Wherein, the Z-direction position control lever is used for regulating the length feed of described tool needle and applying tonnage, X-direction position control lever and Y-direction position control lever be used for planar adjust the position of described tool needle.

More preferably, described mould adjusting mechanism comprises adjustable jig seat, and is uniformly distributed in knob and driven elasticity jackscrew in two accent on the described adjustable jig seat excircle.

More preferably, described ultrasonic machining device also comprises the equilibrium elasticity pressure regulating mechanism, and described equilibrium elasticity pressure regulating mechanism is connected with the end face of described three-dimensional tool needle governor motion.

Described equilibrium elasticity pressure regulating mechanism comprises that three equal power extension springs, one all defeat spring, and secondary by deciding the guide rail ball that guide rail and moving guide rail form;

Described moving guide rail links to each other with described ultrasonic transducer, describedly decides the upper end that guide rail is fixed in described three-dimensional tool needle governor motion, and described moving guide rail is decided guide rail and slided up and down along described;

The lower end of three described equal power extension springs evenly is connected in the outer ring, top of described ultrasonic transducer, the upper end is fixed on for the fixing described installed part of deciding guide rail, the described center, top that peaks at described ultrasonic transducer under the spring of all defeating, on peak at for the fixing described installed part of deciding guide rail.

More preferably, described equilibrium elasticity pressure regulating mechanism also comprises one group of pressure scale scale and pressure pointer, and described pressure scale scale and described pressure pointer are installed on respectively described moving guide rail and described the same side of deciding guide rail.

More preferably, described ultrasonic machining device also comprises the lighting mechanism that is installed on described ultrasonic transducer outside, and described lighting mechanism has the different illuminator of two covers, can focus on respectively described tool needle and described machining area.

More preferably, described lighting mechanism comprises two circle LED illuminating lamps; Wherein, inner ring LED illuminating lamp is concentrated on described tool needle, and outer ring LED illuminating lamp is concentrated on described machining area when described tool needle lifts.

The utility model provides a kind of ultrasonic machining device for diamond micropore wire drawing die for the problem of easy bent needle during the mould float centrih in the prior art.This ultrasonic machining device is by lighting mechanism and observation/detection/correction system, provides a kind of pivot take rotary table as benchmark, and the machining center during diamond micropore wire drawing die endoporus center and tool needle needle point are transferred is respectively found mode accurately.This ultrasonic machining device can utilize three-dimensional tool needle governor motion and mould adjusting mechanism, auxiliary lower in lighting mechanism and observation/detection/correction system, accurately, easily tool needle needle point and mould endoporus center are adjusted to respectively the position that overlaps with the pivot of rotary table.

More preferably, this device is carrying out having realized the quantitative adjusting of tonnage in the process of grinding and polishing to diamond micropore wire drawing die simultaneously in conjunction with the equilibrium elasticity pressure regulating mechanism.Wherein, the equilibrium elasticity pressure regulating mechanism can provide balanced, soft tonnage, and passes through the use of pressure scale scale and pressure pointer, makes the adjustment process of tonnage easier and accurate.

This ultrasonic machining device, owing in use can make the pivot of tool needle needle point, mould endoporus center and rotary table adjust respectively centering, thereby so that finding accurately of machining center is guaranteed, in conjunction with balanced, soft, the accurately adjusting of tonnage, can avoid the unfavorable phenomenon of frequent bent needle, crudy and working (machining) efficiency are significantly improved, are particularly useful for the grinding and polishing of the diamond micropore wire drawing die of aperture≤0.03mm.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and the specific embodiments.

Fig. 1 is the overall structure schematic diagram of ultrasonic machining device described in the utility model;

Fig. 2 is in the ultrasonic machining device described in the utility model, the schematic diagram of mould adjusting mechanism;

Fig. 3 is in the ultrasonic machining device described in the utility model, the schematic diagram of three-dimensional tool needle governor motion;

Fig. 4 is in the ultrasonic machining device described in the utility model, the schematic diagram of equilibrium elasticity pressure regulating mechanism;

Fig. 5 is in the ultrasonic machining device described in the utility model, the schematic diagram of lighting mechanism.

The specific embodiment

In order effectively to solve in the prior art, when processing diamond micropore wire drawing die, particularly when the diamond micropore wire drawing die of processing aperture≤0.03mm, the problem of frequent bent needle.It is a kind of to diamond micropore wire drawing die grinding and polishing the time that the utility model provides, the ultrasonic machining device of the machining center of machining area being found accurately by observation/detection/correction system.

Ultrasonic machining device as shown in Figure 1 comprises device pedestal 1, hard-wired electric rotating machine 2, rotary table 3 and device column 4 above device pedestal 1.Electric rotating machine 2 and rotary table 3 are connected in modes such as belt or chains, and electric rotating machine 2 is used for driving rotary table 3 and rotates.Rotary table 3 is used for fixing diamond micropore wire drawing die (hereinafter to be referred as mould) to be processed, and the driven mold rotation.Mould adjusting mechanism 5 is installed above rotary table 3, is used for the accent of mould.On the device column 4 three-dimensional tool needle governor motion 8 is installed, is used for adjusting the position of tool needle 6, so that the needle point of tool needle 6 overlaps with the pivot of rotary table 3.Tool needle 6 is fixed on the three-dimensional tool needle governor motion 8 by ultrasonic transducer 7.In addition, this device also includes observation/detection/correction system, is presented on the monitor 14 after the machining area at tool needle 6 and diamond micropore wire drawing die center can being amplified, and is used for carrying out visual calibration in the process in tool needle 6 accent and mould accent.

As shown in Figure 2, in mould adjusting mechanism 5, comprise adjustable jig seat 27, first transfer in knob 28, second transfer in knob 29 and driven elasticity jackscrew 30.Adjustable jig seat 27 is connected with the center of rotary table 3, and its center is a through hole, and the camera 11 that is used for observation/detection/correction system is taken the machining area (seeing below) of mould by optics guiding link 12.Knob 29 and driven elasticity jackscrew 30 were evenly distributed on the excircle of adjustable jig seat 27 during knob 28, second was transferred in the first accent.By regulate first transfer in knob 28 and second transfer in knob 29, in conjunction with the acting in conjunction of driven elasticity jackscrew 30, the endoporus center of mould to be processed is overlapped with the pivot of rotary table 3.Mould adjusting mechanism 5 rotates along with the rotation of rotary table 3.More preferably, rotary table 3 and mould adjusting mechanism 5 in this process, all do not vertically move and swing.

As shown in Figure 3, three-dimensional tool needle governor motion 8, mainly by three cocainine thick stick and guide rails, and hard-wired tool needle firm banking forms above leading screw and guide rail.Wherein, tool needle 6 is fixed on the tool needle firm banking by ultrasonic transducer 7.Three cocainine thick sticks and guide rail are separately positioned on (X-direction, Y-direction and Z-direction) on three orthogonal directions.End at each leading screw is provided with a position control lever that is used for the adjusting screw rotation, comprises Z-direction position control lever 24, X-direction position control lever 25, Y-direction position control lever 26.By rotating the position control lever on X, Y, three directions of Z, the leading screw on three directions rotates, thereby it is mobile in three directions along guide rail to drive the tool needle firm banking.Z-direction position control lever 24 is used for the length feed of adjustment means pin 6 and applies tonnage; X-direction position control lever 25 and Y-direction position control lever 26 are used for adjusting the position of tool needle 6 in horizontal plane, and its pivot with rotary table 3 is overlapped.

More preferably, above three-dimensional tool needle governor motion 8, be fixed with equilibrium elasticity pressure regulating mechanism 10.Equilibrium elasticity pressure regulating mechanism 10, be used for balanced, mildly regulate tonnage and in the size of tonnage adjustment process quantitatively calibrating tonnage.Wherein, the bottom surface of three-dimensional tool needle governor motion 8 is connected with device column 4, and end face is connected with equilibrium elasticity pressure regulating mechanism 10 by installed part.Specifically, the end face of three-dimensional tool needle governor motion 8 sees below with the guide rail 17(that decides in the equilibrium elasticity pressure regulating mechanism 10) be connected.

In conjunction with Fig. 3 and Fig. 4 as can be known, equilibrium elasticity pressure regulating mechanism 10 comprises equal power extension spring 18, all defeats spring 19, and secondary by deciding the guide rail ball that guide rail 17 and moving guide rail 20 form.Wherein, ultrasonic transducer 7 is fixed together by installed part and moving guide rail 20, forms integral body, and tool needle 6, ultrasonic transducer 7 and moving guide rail 20 can move together.Decide guide rail 17 and be fixed on the top of three-dimensional tool needle governor motion 8, moving guide rail 20 can slide up and down along deciding guide rail 17.Three equal power extension springs 18 be distributed in ultrasonic transducer 7 tops around, and hang on for the installed part of deciding guide rail 17.All defeat spring and peak at the top center of ultrasonic transducer 7 for 19 times, on peak at for the installed part of deciding guide rail 17.All defeat spring 19 and form one group of dynamic elastic force force equalization mechanism with equal power extension spring 18.Along with the rotation of Z-direction position control lever 24, length feeds occur in tool needle 6, and simultaneously all power extension springs 18 and all defeat spring 19 and reach the elastic force equilibrium state can provide equilibrium, soft tonnage thus.In order quantitatively to regulate the size of tonnage, deciding the same side difference setting pressure graduated scale 15 and the pressure pointer 16 of guide rail 17 and moving guide rail 20.As shown in Figure 4, the moving guide rail 20 in the left side is equipped with pressure scale scale 15, and the guide rail 17 of deciding in the left side is equipped with pressure pointer 16.Wherein, pressure pointer 16 points to the correspondence position of pressure scale scale 15, i.e. the tonnage value that expression was used at that time.Scale on the pressure scale scale 15 and the relation between the force value can pre-determine out by the mode of weighing, in order to use in process.

In addition, in ultrasonic transducer 7 peripheries lighting mechanism 9 is installed, more preferably, lighting mechanism 9 has the different illuminator of two covers, can focus on respectively the machining area of tool needle 6 and mould endoporus to be processed.In the present embodiment, as shown in Figure 5, lighting mechanism 9 comprises the lamp socket 21 that is installed on ultrasonic transducer 7 outsides, with be installed on two on the lamp socket 21 circle LED illuminating lamp 22 and 23, wherein, inner ring LED illuminating lamp 23 is concentrated on tool needle 6, and outer ring LED illuminating lamp 22 is concentrated on the machining area of mould endoporus to be processed when tool needle 6 lifts, be beneficial in tool needle is transferred or the process of mould in transferring in, the situation of the position of viewing tool pin 6 and diamond micropore wire drawing die endoporus more clearly.More preferably, by observation/detection/correction system, be presented on the monitor 14 after the image process amplification with tool needle 6 and mould endoporus center.

Observation/detection/correction system comprises camera 11, optics guiding link 12 and monitor 14.Wherein, optics guiding link 12 connects the machining area of cameras 11 and mould, can be with the image optical delivery in Mould Machining zone to camera 11, thus so that the installation site of camera 11 has flexibility, make things convenient for the install and adjust of camera 11.Camera 11 just is being photographed the processed position of mould endoporus by optics guiding link 12, can take the position of machining area and the tool needle 6 of mould.The output of camera 11 is connected with the input of monitor 14, and the Image Real-time Transmission that is used for camera 11 is taken is to monitor 14.Receive at monitor 14 behind the image of camera 11 transmission and can amplify 100 times to image by software and do not wait to 1000 times, then show at monitor 14.Can certainly in optics leads link 12, dispose the object lens and the eyepiece that amplify certain multiple, directly obtain image after the amplification by camera 11.Be provided with crosshair 13 at the center of monitor 14, the position of crosshair 13 on monitor 14 can be moved.Crosshair 13 is transferred to the position that overlaps with the pivot of rotary table 3 and fixing by system at monitor 14, with this as the benchmark of working in transferring.

In order to be illustrated more clearly in the use principle of this ultrasonic machining device,, in conjunction with this ultrasonic machining device the process of diamond micropore wire drawing die is described in detail at this.Utilize ultrasonic machining device shown in Figure 1 that diamond micropore wire drawing die is polished, mainly comprise the mould installation and mould is polished two processes.Wherein, in the process of installation mold, mainly be operating as finding accurately of machining center, be divided in tool needle 6 accent and two processes in the mould accent.To being described as follows of the method:

Step S10 is with the benchmark of working in the definite accent of the pivot of rotary table 3.With the work Picture switch of the observation/detection/correction system work picture to rotary table 3; By adjusting the position of crosshair 13 on monitor 14, make it to overlap with the pivot of rotary table 3; The position of fixed cross cross hair 13, and with this as the benchmark of working in transferring.

Step S20, the position of adjustment means pin 6 makes the needle point of tool needle 6 overlap with the pivot of rotary table 3.Tool needle 6 is loaded on the ultrasonic transducer 7; Open the inner ring LED illuminating lamp 23 of lighting mechanism 9, with three-dimensional tool needle governor motion 8 needle point of tool needle 6 is vertically moved to the processing district; Utilize the image that shows on the monitor 14 to continue to adjust, make the needle point of tool needle 6 and the center superposition of crosshair 13; The ultrasonic transducer 7 that moves up finishes in the accent of tool needle 6.

Wherein, the diameter of tool needle 6 is less, is the tool needle 6 of 0.5mm such as diameter.Before tool needle 6 is packed ultrasonic transducer 7 into, need its front end is processed, obtain the required angle of grinding and polishing.

When utilizing the position of three-dimensional tool needle governor motion 8 adjustment means pins 6, may further comprise the steps again: by the Z-direction position control lever 24 in the three-dimensional tool needle position adjusting mechanism 8, tool needle 6 needle points are vertically moved to mould position to be processed; Monitor 14 in described observation/detection/correction system shows image, regulates X-direction position control lever 25 and Y-direction position control lever 26, makes needle point in the image and the center superposition of crosshair 13; Regulating Z-direction position control lever 24 withdraws from tool needle 6.

Step S30, the position of adjusting diamond micropore wire drawing die makes the endoporus center of mould overlap with the pivot of rotary table 3.Diamond micropore wire drawing die to be processed is clamped on the adjustable jig seat 27 of mould adjusting mechanism 5; Open the outer ring LED illuminating lamp 22 of lighting mechanism 9, show the image of diamond micropore wire drawing die machining area with monitor 14; Adjust respectively knob 28 and 29 in two accent on the adjustable jig seat 27, make the center superposition of mould endoporus center and crosshair 13, thereby finish in the mould accent.

Step S40 to correct position, adjusts tonnage by downward adjustment means pin 6.Rotate the Z-direction position control lever 24 in the three-dimensional tool needle governor motion 8, vertically move tool needle 6 downwards, make needle point head into the mould endoporus; Continue to regulate Z-direction position control lever 24, observe the relative position of pressure pointer 16 and pressure scale scale 15, when making pressure scale scale 15 move down the appropriate location according to the processing actual conditions, stop tool needle 6 and move down.In the time of for example can making the two relative displacement 3～5 lattice, stop tool needle 6 and move down.

Step S50 starts electric rotating machine 2 and ultrasonic transducer 7, the beginning polishing process.Add abrasive material at the mould endoporus, start electric rotating machine 2 rotary table 3 is rotated, open ultrasonic transducer 7 and carry out polishing.

More preferably, in the position fixing process of the described benchmark of finding the center accurately of step S10, transfer in the process of the described mould of neutralization procedure S30 in transferring at the described tool needle 6 of step S20, the image that shows on the monitor 14 is the enlarged image of same multiple, can do post-processed to image by software and obtain, also can directly amplify and obtain by lead optics in the link 12 of optics.

In process, mould is tested after 5 to 10 minutes according to machining status, finish processing if reach quality requirement, continue processing otherwise need to repeat said procedure, until reach quality requirement.

In sum, the utility model provides a kind of and by observation/detection/correction system machining area has been carried out the ultrasonic machining device that find accurately at the center.Utilize this ultrasonic machining device, can be before diamond micropore wire drawing die be carried out grinding and polishing, by the amplification of observation/detection/correction system to tool needle and mold center zone, realize finding accurately machining center, and the reasonable adjusting by tonnage, further avoid the appearance of frequent bent needle in the diamond micropore wire drawing die process, be particularly useful for the processing to the diamond micropore wire drawing die of aperture≤0.03mm.

It more than is the detailed description to the ultrasonic machining device for diamond micropore wire drawing die provided by the utility model.To those skilled in the art, any apparent change of under the prerequisite that does not deviate from the utility model connotation it being done all will consist of the utility model infringement of patent right, will bear corresponding legal liabilities.

Claims (9)

1. ultrasonic machining device comprises device pedestal, is individually fixed in device column, electric rotating machine and the rotary table of device pedestal, and wherein, described electric rotating machine is used for driving described rotary table rotation, it is characterized in that:

Described ultrasonic machining device also comprises: ultrasonic transducer and tool needle, and described tool needle is installed on the lower end of described ultrasonic transducer; Be used for regulating the three-dimensional tool needle governor motion of described tool needle position, described three-dimensional tool needle governor motion is fixed in the upper end of described device column, and described tool needle is fixed on the described three-dimensional tool needle governor motion by described ultrasonic transducer;

Be used for regulating the mould adjusting mechanism of diamond micropore wire drawing die position, described mould adjusting mechanism is positioned at the top of described rotary table, and is connected in the center of described rotary table;

And, in accent, carrying out visual observation of calibrating/detection/correction system in the process, described observation/detection/correction system is connected with described rotary table optics, is used for taking machining area.

2. ultrasonic machining device as claimed in claim 1 is characterized in that:

Described observation/detection/correction system is comprised of monitor, camera and optics guiding link;

Described optics guiding link connects described camera and described machining area, and the output of described camera is connected with the input of described monitor;

Be provided with crosshair at described monitor, described crosshair is used as the benchmark in the accent in the process in accent.

3. ultrasonic machining device as claimed in claim 1 is characterized in that:

Described three-dimensional tool needle governor motion comprises three cocainine thick stick and guide rails, and above described leading screw and guide rail hard-wired tool needle firm banking, three cocainine thick sticks and guide rail are separately positioned on orthogonal X-direction, Y-direction and the Z-direction, end at each leading screw is provided with position control lever, and described position control lever is used for regulating described leading screw and rotates; Wherein, the Z-direction position control lever is used for regulating the length feed of described tool needle and applying tonnage, X-direction position control lever and Y-direction position control lever be used for planar adjust the position of described tool needle.

4. ultrasonic machining device as claimed in claim 1 is characterized in that:

Described mould adjusting mechanism comprises adjustable jig seat, and is uniformly distributed in knob and driven elasticity jackscrew in two accent on the described adjustable jig seat excircle.

5. ultrasonic machining device as claimed in claim 1 is characterized in that:

Described ultrasonic machining device also comprises the equilibrium elasticity pressure regulating mechanism, and described equilibrium elasticity pressure regulating mechanism is connected with the end face of described three-dimensional tool needle governor motion.

6. ultrasonic machining device as claimed in claim 5 is characterized in that:

Described equilibrium elasticity pressure regulating mechanism comprises that three equal power extension springs, one all defeat spring, and secondary by deciding the guide rail ball that guide rail and moving guide rail form;

Described moving guide rail links to each other with described ultrasonic transducer, describedly decides the upper end that guide rail is fixed in described three-dimensional tool needle governor motion, and described moving guide rail is decided guide rail and slided up and down along described;

The lower end of three described equal power extension springs evenly is connected in the outer ring, top of described ultrasonic transducer, the upper end is fixed on for the fixing described installed part of deciding guide rail, the described center, top that peaks at described ultrasonic transducer under the spring of all defeating, on peak at for the fixing described installed part of deciding guide rail.

7. ultrasonic machining device as claimed in claim 6 is characterized in that:

Described equilibrium elasticity pressure regulating mechanism also comprises one group of pressure scale scale and pressure pointer, and described pressure scale scale and described pressure pointer are installed on respectively described moving guide rail and described the same side of deciding guide rail.

8. ultrasonic machining device as claimed in claim 1 is characterized in that:

Described ultrasonic machining device also comprises the lighting mechanism that is installed on described ultrasonic transducer outside, and described lighting mechanism has the different illuminator of two covers, can focus on respectively described machining area.

9. ultrasonic machining device as claimed in claim 8 is characterized in that:

Described lighting mechanism comprises two circle LED illuminating lamps; Wherein, inner ring LED illuminating lamp is concentrated on described tool needle, and outer ring LED illuminating lamp is concentrated on described machining area when described tool needle lifts.

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