CN102046318A

CN102046318A - Electric discharge machining apparatus and electric discharge machining method

Info

Publication number: CN102046318A
Application number: CN200980119002XA
Authority: CN
Inventors: 高桥康德; 金子雄二; 原田武则; 土肥祐三; 和贺井彰
Original assignee: Sodick Co Ltd
Current assignee: Sodick Co Ltd
Priority date: 2008-06-03
Filing date: 2009-06-03
Publication date: 2011-05-04
Anticipated expiration: 2029-06-03
Also published as: CN102046318B; JP4623756B2; WO2009147856A1; JP2010012592A

Abstract

Disclosed is an electric discharge machining apparatus that supplies an aqueous machining fluid to a machining gap (9) formed between a workpiece (W) constituted of a WC-Co super-hard alloy or steel and a tool electrode (E) while performing electric discharge machining on the workpiece. The electric discharge machining apparatus includes a power supply device (20) for applying an AC voltage pulse to the machining gap, an average gap voltage setting device (50) for setting the machining gap average voltage (Vmean) to the optimum value for preventing corrosion of the workpiece, and an adenine-adding device (70) for adding adenine to the machining fluid in order to adsorb corrosive metal ions.

Description

Electric discharge device and discharge-treating method

Technical field

The present invention relates to a kind of electric discharge device, it is by supplying with irritability liquid and machining gap is applied potential pulse and processing work the machining gap that is formed between tool-electrode and the electric conductivity workpiece.Especially, the electric discharge device that relates to the electrical erosion of the workpiece in the irritability liquid (being designated hereinafter simply as " working fluid ") that prevents to be immersed in based on water.

Background technology

Electric discharge device is used to make the metal pattern that is made of hard material as a rule.Such metal pattern is made of the alloy (hereinafter referred to as " iron and steel ") or the superhard alloy that with iron are principal component.Superhard alloy is that the powder to the metal carbide carries out roasting and the alloy that obtains.Well-known is carried out roasting and the superhard alloy that obtains to tungsten carbide tool (WC) with as the cobalt (Co) of bond.

Be known in the discharge processing, in the workpiece that constitutes by iron and steel or superhard alloy, produce electrical erosion.The reason of electrical erosion is considered to be in as the tool-electrode of negative pole and as flowing through corrosion current and workpiece material generation segregation because of potential difference between the workpiece of positive pole.In addition, also be that corrosion metals ion in the working fluid makes workpiece produce corrosion sometimes.

Proposed to prevent the discharging processing machine of such electrical erosion.Patent documentation 1 discloses that workpiece is connected with the cathode side of external power source and to the external power source method of Workpiece supply corrosion protection electric current.Patent documentation 2 discloses the technology that working fluid is circulated in the anion exchange resin tower, wherein the anion exchange resin tower has been fixed the nitrite ion that is adsorbed on the corrosive ion.In order to keep the high resistivity of working fluid, the ion more than a kind in charcoal acid ion, charcoal acid hydrogen ion and the hydroxide ion is fixed in the anion exchange resin tower with nitrite ion.

Patent documentation 1: Japanese kokai publication sho 58-137524 communique

Patent documentation 2: TOHKEMY 2002-301624 communique

Summary of the invention

In the anti-corrosion method of patent documentation 1, metal ion in working fluid from the anode segregation and be attached on the surface of the work.Its result, it is painted to produce undesirable burn into sometimes on workpiece.The anti-corrosion method of patent documentation 2 is effective in the corrosion of the such passive metal of iron and steel prevents.But nitrite ion promotes the corrosion of superhard alloy sometimes.

The objective of the invention is to, prevent the segregation of workpiece material, and the inhibition metal ion is attached to surface of the work.Another object of the present invention is to provide a kind of electric discharge device and discharge-treating method that can prevent the corrosion of iron and steel parts and superhard alloy workpiece.

According to a side of the present invention, a kind of electric discharge device is provided, to the gap (9) that be formed at workpiece (W) and tool-electrode (E) between supply with working fluid on one side, carrying out the discharge processing of workpiece on one side, this electric discharge device comprises:

Supply unit (20), apply alternating voltage pulses to gap (9), described alternating voltage pulses is by being that positive potential and tool-electrode are that negative potential is the positive polarity voltage pulse that applies of positive polarity and is that negative potential and tool-electrode are that positive potential is that the reverse voltage pulse that antipolarity applies constitutes with the workpiece with the workpiece;

The gap voltage setting device, the average voltage (Vmean) in setting gap; And

Adenine adding set (70) adds adenine in working fluid.

The gap voltage setting device is preferably set gap voltage (Vmean) to a side of antipolarity.Like this, prevent the segregation of workpiece material.

Gap voltage setting device (50) also can be set the width of positive polarity voltage pulse or the width of reverse voltage pulse.Perhaps, gap voltage setting device (60) also can be set the width of positive polarity voltage pulse or the width of reverse voltage pulse.Like this, gap voltage (Vmean) correctly is set at optimum value.

Gap voltage setting device (60) also can comprise the 1st shunt that is connected to supply unit (20) with gap (9) in parallel.The 1st comprises along separate routes: only make electric current pass through the 1st diode (64) of the 1st shunt when the gap having been applied the positive polarity voltage pulse; And the 1st switch (63) that is connected in series with the 1st diode.

Gap voltage setting device (60) also can comprise the 2nd shunt that is connected to supply unit (20) with gap (9) in parallel.The 2nd comprises along separate routes: only make electric current pass through the 2nd diode (66) of the 2nd shunt when the gap having been applied the reverse voltage pulse; And the 2nd switch (65) that is connected in series with the 2nd diode.

The gap voltage setting device is preferably set gap voltage (Vmean) according to WC-Co superhard alloy, the such workpiece material of iron and steel.

According to another side of the present invention, a kind of discharge-treating method is provided, on one side working fluid is supplied with in the gap (9) that is formed between workpiece (W) and the tool-electrode (E), carry out the discharge processing of workpiece on one side, comprise

Is that negative potential and tool-electrode are the step that a side of the antipolarity of positive potential is set with the average voltage (Vmean) in gap to workpiece; And

In working fluid, add the step of adenine.

According to the present invention, prevent to result from the corrosion of the segregation of workpiece material.Suppress metal ion and be attached to surface of the work, prevent the corrosion of workpiece and painted.Iron and steel parts and this two side's of superhard alloy workpiece corrosion can both prevent.

Description of drawings

Fig. 1 is the block diagram that the 1st embodiment of electric discharge device of the present invention is shown.

Fig. 2 is the circuit diagram that the electric discharge device of Fig. 1 is shown.

Fig. 3 is the sequential chart of action that the NC device of Fig. 1 is shown.

Fig. 4 is the block diagram that the working fluid circulatory system of Fig. 1 is shown.

Fig. 5 is the figure that the corrosion inhibitor adding set of Fig. 4 is shown.

Fig. 6 is the figure of the corrosion protection mechanism of explanation adenine.

Fig. 7 is the block diagram that the NC device of Fig. 1 is shown.

Fig. 8 is the flow chart that discharge-treating method of the present invention is shown.

Fig. 9 is the circuit diagram that the 2nd embodiment of electric discharge device of the present invention is shown.

(symbol description)

E: line electrode; W: workpiece; 1: wire electric discharge machine; 2: matrix; 3: cylinder; 4: processing head; 5: working groove; 6: work piece platform; 7: go up the pilot set body; 8: following pilot set body; 9: the gap; 10: the 1 supply units; 11: dc source; 12: switching transistor; 20: the 2 supply units; 21: dc source; 22: bridge circuit; 23: resistor; 24: diode; 25: switch; 26: dc source; 27: resistor; 28: diode; 29: switch; 34,35: cable; 40: the working fluid feed system; 42: ion exchange resin; 43: the working fluid temperature setting device; 47: the soiling solution groove; 48: filter; 49: Rinsing Area; The 50:NC device; 51: input unit; 52: save set; 53: treating apparatus; 54: the adenine control module; 55: the processing conditions setting module; 56: pulse control module; 57: the discharge examination module; 60: zero load voltage setting circuit; 61,63,65: switch; 64,66: diode; 67,68: resistor; 70: the corrosion inhibitor adding set; 71: pump; 72: dissolving tank; 73: distance piece; 76: packaging material; 77: corrosion inhibitor; 78: the protection coating film; 82,83,84,85: switching transistor.

The specific embodiment

Below, the 1st embodiment to discharging processing machine of the present invention describes with reference to accompanying drawing.Wire electric discharge machine 1 of the present invention as shown in Figure 1.Establish from the rear portion of matrix 2 and to be provided with cylinder 3.Processing head 4 is installed in the front of cylinder 3.Working groove 5 mountings are in the front portion of matrix 2.Keep the work piece platform 6 of workpiece W to be housed in the working groove 5.Last pilot set body 7 is installed on the processing head 4, and following pilot set body 8 is installed in the front of cylinder 3.Work in-process, vertically mobile between a pair of pilot set

body

7 and 8 as the line electrode E of tool-electrode, between portable cord electrode E and workpiece W, be formed with small gap 9.Wire electric discharge machine 1 possesses the working fluid circulatory system 40 from working fluid to gap 9 that supply with.

Wire electric discharge machine 1 possesses the 1st and the

2nd supply unit

10 and 20 to gap 9 supply capability pulses.As shown in Figure 2, the 1st supply unit 10 has dc source 11 and switching transistor 12.The cathode terminal of dc source 11 is connected to line electrode E by the suitable contact shoe in the pilot set

body

7,8 about being housed in.The anode terminal of dc source 11 is connected to workpiece W via switching transistor 12.Wire electric discharge machine 1 possesses the NC device 50 that the working fluid circulatory system 40 and the 1st and the

2nd supply unit

10 and 20 are controlled.The action of switching transistor 12 is by 50 controls of NC device.

The 2nd supply unit 20 has the dc source 21 of 80V and the bridge circuit 22 that is made of 4 switching transistors 81,82,83 and 84.Switching transistor 81,82,83 and 84 forms 4 tie point A, B, C, D and is connected in series between adjacent transistors.Switching transistor 81 and 82 tie point A are connected to the cathode terminal of dc source 21.Switching transistor 82 and 83 tie point B are connected to workpiece W via cable 35.Switching transistor 83 and 84 tie point C are connected to the anode terminal of dc source 21 via resistor 23, diode 24 and switch 25.Switching transistor 84 and 81 tie point D are connected to line electrode E via cable 34.The action of switch 25 and switching transistor 81,82,83 and 84 is by 50 controls of NC device.

Workpiece W is that positive potential and line electrode E are that the polarity of negative potential is called as positive polarity.Workpiece W is that negative potential and line electrode E are that the polarity of positive potential is called as antipolarity.

With reference to Fig. 3, the action of NC device 50 is described.Fig. 3 illustrates voltage (hereinafter referred to as " the gap voltage ") Vgap between workpiece W and the line electrode E.

At moment t1, NC device 50 cut-off switch 25, make switching transistor 81 and 83 conductings, switching transistor 82 and 84 is ended.Its result, the potential pulse of dc source 21 is applied to gap 9 with positive polarity.At the moment t2 from moment t1 elapsed time ND, NC device 50 makes switching transistor 82 and 84 conductings, switching transistor 81 and 83 is ended.Like this, the potential pulse of dc source 21 is applied to gap 9 with antipolarity.

At the moment t3 from moment t2 elapsed time RD, NC device 50 makes switching transistor 81 and 83 conductings once more, switching transistor 82 and 84 is ended.Like this, by the conduction and cut-off switch motion of switching transistor 81,82,83 and 84, the 2nd supply unit 20 can repeat the potential pulse (hereinafter referred to as " alternating voltage pulses ") that changes at each pulse polarity and be applied to gap 9.

Produce the moment t4 of discharge in gap 9, NC device 50 makes switch 25 and switching transistor 81,82,83 and 84 end, make switching transistor 12 conductings.Like this, the 1st supply unit 10 end voltage apply, the beginning of the 2nd supply unit 20 supplies with electric currents to gap 9.At the moment t5 from moment t4 process ON time ON, NC device 50 ends switching transistor 12, and the 2nd supply unit 20 finishes electric current supplies.

At the moment t6 from moment t5 process OFF deadline, the 1st supply unit 10 begins potential pulse is applied to gap 9 once more.The aggregate-value of the potential pulse of NC device 50 by making among Fig. 3 the band oblique line is consistent with servo reference voltage SV and the size in gap 9 is maintained certain value.

In NC device 50, set width ND, width RD, ON time ON, OFF time and the servo reference voltage SV of reverse voltage pulse of positive polarity voltage pulse.Pulse width ND among Fig. 3 and RD are set at equal, and the average Vmean of gap voltage Vgap roughly is 0V.Reference symbol NV among Fig. 3 represents the zero load voltage of positive polarity voltage pulse.Reference symbol RV represents the zero load voltage of reverse voltage pulse.Though zero load voltage is that gap 9 is applied with voltage but voltage when producing discharge.

If gap voltage Vmean moves to a side of antipolarity (among Fig. 3-side), then become the tendency that the metal ion that adheres to workpiece W increases, on the other hand, become the tendency that the segregation of workpiece material is lowered.If gap voltage Vmean moves to a side of positive polarity (among Fig. 3+side), then become the tendency that the metal ion that adheres to workpiece W reduces, on the other hand, become the tendency that the segregation of workpiece material increases.

By at least one side among pulse width ND, the RD is changed, can make the mean variation of gap voltage Vgap.For example, by making pulse width ND, can make the mean value deflection positive polarity side of gap voltage Vgap greater than pulse width RD.By making pulse width RD, can make the mean value deflection antipolarity side of gap voltage Vgap greater than pulse width ND.

The 2nd supply unit 20 also possesses the dc source 26 of gap 9 being supplied with the 15V of a series of alternating voltage pulses in non-processing.Dc source 26 is connected to gap 9 concurrently with dc source 21.The cathode terminal of dc source 26 is connected to the tie point A in the bridge circuit 22, and the anode terminal of dc source 26 is connected to tie point C in the bridge circuit 22 via switch 29, diode 28 and resistor 27.The output voltage of dc source 26 is set to and does not produce the such value of discharge in non-processing in gap 9, is set at the absolute value less than the output voltage of dc source 21.

As shown in Figure 4, working fluid feed system 40 will be stored into the soiling solution groove 47 from the working fluid that working groove 5 is discharged.Processing in the soiling solution groove 47 is stored in the Rinsing Area 49 by filter 48 limpidization.Working fluid feed system 40 is by ion exchange resin 42, working fluid temperature setting device 43, and pH, temperature and the resistivity of working fluid is maintained setting value.And then working fluid feed system 40 is supplied with the working fluid of the corrosion inhibitor that has added ormal weight by corrosion inhibitor adding set 70 to working groove 5.

As shown in Figure 5, corrosion inhibitor adding set 70 possesses pump 71 and dissolving tank 72.In dissolving tank 72, corrosion inhibitor 77 is dissolved in the working fluid.Netted distance piece 73 is divided into the upper and lower with dissolving tank 72.Working fluid in the Rinsing Area 49 supplies to the bottom of dissolving tank 72 by pump 71.

On the top of dissolving tank 72, contain pulverous corrosion inhibitor 77 by packaging material 76 packings.Packaging material 76 are the nonwoven that for example have water flowing.The concentration of the corrosion inhibitor in the working fluid can be controlled by the discharge-amount of regulating pump 71.Corrosion inhibitor adding set 70 adds the pulverous adenine (adenine) shown in the Chemical formula 1 (CAS accession designation number 73-24-5) in the working fluid to as corrosion inhibitor.

[Chemical formula 1]

As shown in Figure 6, in working groove 5, in working fluid, produce metal ions such as copper ion from processing bits, line electrode E.Adenine and metal ion reaction, and form such metal fluor-complex shown in the Chemical formula 2.Its result, the lip-deep metal ion that is attached to workpiece W reduces.In addition, adenine forms protection epithelium 78 and oxidation, the segregation that reduces workpiece W is also had certain effect on the surface of workpiece W.Like this, no matter how the material of workpiece W can both suppress adhering to of metal ion.Effect at the adenine of workpiece W also plays a role to machine, for example working fluid feed system 40 and the working groove 5 that impregnated in the working fluid.

[Chemical formula 2]

In the present invention, reduce the segregation of workpiece W reliably by setting gap voltage Vmean, reduce reliably metal ion adhering to workpiece W by in working fluid, adding adenine according to the workpiece material.

For example, well-known, be under the situation of WC-Co superhard alloy at workpiece W, be easy to the segregation of Ionized cobalt (Co) work in-process.By making gap voltage Vmean deflection antipolarity side, can significantly reduce the segregation of cobalt.

Even at workpiece W is under the situation of iron and steel,, also can significantly reduce the segregation of workpiece material by making gap voltage Vmean deflection antipolarity side.Even the present inventor finds that the gap voltage Vmean of iron and steel parts W is roughly 0V or a little near the positive polarity side, the segregation of material also is in the permissible range.In addition, the present inventor also finds significantly to reduce in gap voltage Vmean work in-process and the non-processing of segregation of iron and steel parts W different.

NC device 50 be set at as gap voltage Vmean workpiece W expectation value the gap voltage setting device and bring into play function.NC device 50 is made of input unit 51, save set 52 and treating apparatus 53 as shown in Figure 7.Input unit 51 for example is made of keyboard, mouse etc., and the operator carries out the input of information by input unit 51.

Save set 52 is made of hard disk, CD-ROM etc., preserves the NC program of carrying out discharge processing.Workpiece material, ON time ON, deadline, processing conditions such as OFF and servo reference voltage SV was recorded and narrated in the NC program.

Save set 52 is preserved the tables of data of the combination of the parameter that comprises a plurality of decision gap voltage Vmean.Tables of data comprises the width ND of positive polarity voltage pulse and the width RD of reverse voltage pulse at least.Tables of data also comprises output voltage, ON time ON, the deadline OFF and processing conditions such as servo reference voltage SV of workpiece material, power supply.The gap voltage Vmean of segregation that prevents workpiece W is according to the material of workpiece W and difference, according to cooked mode/non-cooked mode and difference.Cooked mode represent workpiece W be in the processing during, non-cooked mode represent workpiece W process finishing but not processing in during.

Treating apparatus 53 is made of CPU and memory, controls the discharge processing of workpiece W according to NC program, tables of data.Treating apparatus 53 comprises adenine control module 54, processing conditions setting module 55, pulse control module 56 and discharge examination module 57.

Adenine control module 54 produces the control signal of the discharge-amount of setting pump 71 in order to control the adenine concentration in the working fluid.Processing conditions setting module 55 is understood the NC program and is extracted the processing conditions of recording and narrating in the NC program.In addition, processing conditions setting module 55 is set the width ND of positive polarity voltage pulse and the width RD of reverse voltage pulse according to processing conditions that is extracted and tables of data.

Pulse control module 57 is controlled the power pulse that supplies to gap 9 according to processing conditions.Work in-process, the control signal of pulse control module 57 are fed into switching transistor 12, switch 25, switching transistor 81,82,83 and 84.In non-processing, the control signal of pulse control module 57 is fed into switch 29.57 couples of gap voltage Vgap of gap voltage detection module detect, and gap voltage Vgap and suitable threshold compared and detect the generation of discharge.

With reference to Fig. 8, the technology of discharge-treating method of the present invention is described.In step S10, the operator is fixed to workpiece W on the work piece platform 6, makes working groove 5 be full of working fluid.The operator imports best adenine concentration in NC device 50 for the corrosion that prevents workpiece W.Adenine control module 54 is according to the discharge-amount of operator's input setting pump 71, and corrosion inhibitor adding set 70 adds adenine in working fluid.

At step S20, in NC device 50, set cooked mode.In step S21, processing conditions setting module 55 is read the NC program and is set processing conditions.And then processing conditions setting module 55 is set best gap voltage Vmean according to processing conditions that is extracted and tables of data.Particularly, Zui Jia gap voltage Vmean decides by the width ND of setting positive polarity voltage pulse and the width RD of reverse voltage pulse.In the workpiece material is under the situation of WC-Co superhard alloy or iron and steel, and gap voltage Vmean is set to a side of antipolarity (among Fig. 3-side).

In step S22, pulse control module 57 cut-off switch 25 are controlled the conduction and cut-off switch motion of switching transistor 81,82,83 and 84.Like this, alternating voltage pulses is applied to gap 9 from dc source 21.Gap voltage detection module 57 compares gap voltage Vgap and suitable threshold for the generation that detects discharge.

If detect the generation of discharge in step S23, then technology enters into step S24 and begins ON time.Pulse control module 57 Closing Switch 25 in step S24 make switching transistor 81,82,83 and 84 end, make switching transistor 12 conductings.Like this, alternating voltage pulses apply end, DC pulse supplies to gap 9 from dc source 11.

In step S25, if ON time ON reaches setting value, then technology enters into step S26 and begin deadline.Pulse control module 57 ends switching transistor 12 in step S26, and the supply of DC pulse finishes.

In step S27, if deadline, OFF reached setting value, then technology enters into step S28.If processing does not finish in step S28, then technology turns back to step S22.Like this, by supplying with the material that DC pulse has been removed workpiece W from dc source 11.

If process finishing in step S28 is then set non-cooked mode in NC device 50 in step S30.In step S31, processing conditions setting module 55 is set the width ND of positive polarity voltage pulse and the width RD of reverse voltage pulse so that gap voltage Vmean becomes the mode of the optimum value of the segregation that prevents workpiece W.In step S32, pulse control module 57 cut-off switch 29 are controlled the conduction and cut-off switch motion of switching transistor 81,82,83 and 84.Like this, alternating voltage pulses is applied to gap 9 from dc source 26, so even in the unmanned running of discharging processing machine, also can prevent the segregation of workpiece W.

If the operator finishes applying of alternating voltage pulses and workpiece W is unloaded then discharge process end from work piece platform 6 in step S33.In step S21 and S31, also can decide gap voltage Vmean by replacing pulse width ND and RD to set zero load voltage NV, RV.Being preferably, is under the situation of WC-Co superhard alloy in the material of workpiece W, gap voltage Vmean is set at the value of antipolarity side.

With reference to Fig. 9, the 2nd embodiment of discharging processing machine of the present invention is described.Additional same to the key element identical with reference to numbering with the discharging processing machine of Fig. 2, omit their explanations.In wire electric discharge machine, appended the zero load voltage setting circuit 60 of bringing into play function as the gap voltage setting device.Zero load voltage setting circuit 60 is configured between bridge circuit 22 and the gap 9, is connected to supply unit 20 in parallel with gap 9.Zero load voltage setting circuit 60 is shunt (shunt) that the electric current from supply unit 20 is passed through.Zero load voltage setting circuit 60 can individually be set the zero load voltage of positive polarity voltage pulse and the zero load voltage of reverse voltage pulse.

Zero load voltage setting circuit 60 comprises: be connected in series the 1st shunt of switch 63, variable resistance 67 and diode 64; Be connected in series the 2nd shunt of switch 65, variable resistance 68 and diode 66; And switch 61.The the 1st and the 2nd is connected to supply unit 20 along separate routes mutually concurrently.Diode 64 only makes electric current flow through the 1st along separate routes when gap 9 has been applied the positive polarity voltage pulse.Diode 66 only makes electric current flow through the 2nd along separate routes when gap 9 has been applied the reverse voltage pulse.If switch 61 and 63 disconnects, then zero load voltage NV reduces according to the resistance of variable resistance 67.If switch 61 and 65 disconnects, then zero load voltage RV reduces according to the resistance of variable resistance 68.Switch 61,63 and 65 is by 50 controls of NC device.

The inventor tests wire electric discharge machine of the present invention.The adenine that uses in the experiment is Kohjin Co., Ltd.'s (KOHJIN Co., Ltd.) system.Working fluid maintains that ph is 6.5～7.5, temperature is about 25 ℃, resistivity 5 * 10 ⁴Ω cm～1 * 10 ⁵Ω cm.The concentration of adenine maintains 10mg/L～1000mg/L.Used brazen line electrode.The absolute value of servo reference voltage SV is 10V～50V.

[processing of WC-Co superhard alloy workpiece]

WC-Co superhard alloy workpiece is processed.The cycle of alternating voltage pulses be 20 μ s, ON time ON be 0.25 μ s～0.5 μ s, deadline OFF be 7.5 μ s～8.0 μ s.Being set at 10 μ s and the width ND of positive polarity voltage pulse is reduced to less than 10 μ s by width RD the reverse voltage pulse, gap voltage Vmean is set to-2.5V～-3.5V.Its result, adhering to all of the segregation of workpiece material and metal ion almost disappears.

By the reduction that replaces pulse width ND the zero load voltage NV of positive polarity voltage pulse is reduced to less than+80V, gap voltage Vmean is set to-below the 2.0V.Its result, being segregated in the permissible range of workpiece material, adhering to almost of metal ion disappears.

[processing of iron and steel parts]

Iron and steel parts is processed.The cycle of alternating voltage pulses be 20 μ s, ON time ON be 0.4 μ s～0.5 μ s, deadline OFF be 7.5 μ s～8.0 μ s.Being set at 10 μ s and the width ND of positive polarity voltage pulse is reduced to less than 10 μ s by width RD the reverse voltage pulse, gap voltage Vmean is set to-1.5V～-2.5V.Its result, adhering to all of the segregation of workpiece material and metal ion almost disappears.

All be set at 10 μ s by width ND and RD with potential pulse, gap voltage Vmean is set to 0V.Its result, being segregated in the permissible range of workpiece material, adhering to almost of metal ion disappears.

By zero load voltage RV is changed, gap voltage Vmean is set to greater than 0V smaller or equal to+2.0V.Its result, being segregated in the permissible range of workpiece material, adhering to almost of metal ion disappears.

[in the non-processing]

WC-Co superhard alloy workpiece is placed in the working fluid, applies alternating voltage pulses from 26 pairs of gaps 9 of dc source of 15V.Being set at 32 μ s and the width ND of positive polarity voltage pulse is reduced to less than 32 μ s by width RD the reverse voltage pulse, gap voltage Vmean is set to-2.5V～-3.5V.Its result, adhering to all of the segregation of workpiece material and metal ion almost disappears.

Iron and steel parts is placed in the working fluid, applies alternating voltage pulses from 26 pairs of gaps 9 of dc source of 15V.Being set at 32 μ s and the width ND of positive polarity voltage pulse is reduced to less than 32 μ s by width RD the reverse voltage pulse, gap voltage Vmean is set to-3.5V～-4.5V.Its result, adhering to all of the segregation of workpiece material and metal ion almost disappears.

All be set at 32 μ s by width ND and RD with potential pulse, gap voltage Vmean is set to 0V.Its result, being segregated in the permissible range of workpiece material, adhering to almost of metal ion disappears.

Being set at 32 μ s and the width ND of reverse voltage pulse is reduced to less than 32 μ s by width RD the positive polarity voltage pulse, gap voltage Vmean is set to+2.5V～+ 3.5V.Its result, being segregated in the permissible range of workpiece material, adhering to almost of metal ion disappears.

Claims

1. an electric discharge device on one side to being formed at the gap supply working fluid between workpiece and the tool-electrode, carries out the discharge processing of described workpiece on one side, it is characterized in that, comprising:

Supply unit, apply alternating voltage pulses to described gap, described alternating voltage pulses is by being that positive potential and described tool-electrode are that negative potential is the positive polarity voltage pulse that applies of positive polarity and is that negative potential and described tool-electrode are that positive potential is that the reverse voltage pulse that antipolarity applies constitutes with described workpiece with described workpiece;

The gap voltage setting device, the average voltage in setting gap; And

The adenine adding set adds adenine in described working fluid.

2. electric discharge device according to claim 1 is characterized in that,

Described gap voltage setting device is set the average voltage in described gap to a side of described antipolarity.

3. electric discharge device according to claim 1 is characterized in that,

Described gap voltage setting device is set the width of described positive polarity voltage pulse.

4. electric discharge device according to claim 1 is characterized in that,

Described gap voltage setting device is set the width of described reverse voltage pulse.

5. electric discharge device according to claim 1 is characterized in that,

Described gap voltage setting device is set the zero load voltage of described positive polarity voltage pulse.

6. electric discharge device according to claim 5 is characterized in that,

Described gap voltage setting device comprise with described gap be connected in parallel described supply unit the 1st along separate routes, the described the 1st comprises along separate routes: only when described gap having been applied described positive polarity voltage pulse, make electric current by the described the 1st along separate routes the 1st diode and the 1st switch that is connected in series with described the 1st diode.

7. electric discharge device according to claim 6 is characterized in that,

The described the 1st comprises the 1st variable resistance that is connected in series with described the 1st diode along separate routes.

8. electric discharge device according to claim 1 is characterized in that,

Described gap voltage setting device is set the zero load voltage of described reverse voltage pulse.

9. electric discharge device according to claim 8 is characterized in that,

Described gap voltage setting device comprise with described gap be connected in parallel described supply unit the 2nd along separate routes, the described the 2nd comprises along separate routes: only when described gap having been applied described reverse voltage pulse, make electric current by the described the 2nd along separate routes the 2nd diode and the 2nd switch that is connected in series with described the 2nd diode.

10. electric discharge device according to claim 9 is characterized in that,

The described the 2nd comprises the 2nd variable resistance that is connected in series with described the 2nd diode along separate routes.

11. electric discharge device according to claim 1 is characterized in that,

Described gap voltage setting device is set the average voltage in described gap according to the material of described workpiece.

12. a discharge-treating method, on one side working fluid is supplied with in the gap that is formed between workpiece and the tool-electrode, carry out the discharge processing of described workpiece on one side, it is characterized in that, comprising:

Is that negative potential and described tool-electrode are the step that a side of the antipolarity of positive potential is set with the average voltage in described gap to described workpiece; And

In described working fluid, add the step of adenine.

13. discharge-treating method according to claim 12 is characterized in that,

The average voltage in described gap is to set according to the material of described workpiece.