CN1344333A - Power supply for discharge surface treatment and discharge surface treatment method - Google Patents

Abstract

a first pulse width T1 and a first peak value lp1 are determined so that the current density between an electrode and a work is in such a predetermined range that the release of an electrode material is controlled. During the first pulse width T1, after the diameter of the discharge arc column reaches a sufficient value, the discharge current is increased to a second peak value lp2 so that predetermined amount of hard coating material is supplied by the release of the electrode material according to predetermined processing conditions during a second pulse width T2. then a discharge is caused between the electrodes to efficiently form a hard coating on the work. Thus the surface treatment cost is lowered and a dense hard coating is formed on a work.

Description

Discharging surface is handled with supply unit and discharge surface treating method

Technical field

The present invention relates to improve the discharging surface that is used for the discharging surface processing handles with supply unit and discharge surface treating method; be to make the interpolar of electric discharge surface treating electrode and work piece produce discharge; and utilize this energy, on the work piece surface, form the hard coating that hard coating that is made of electrode materials or the material that utilizes discharge energy to react by electrode materials constitute.

Background technology

In the past, as forming hard coating on work piece surface and making its technology with erosion resistance, wear resistance, the discharge surface treating method that has Japanese kokai publication hei 5-148615 communique for example to be disclosed.This technology is used the powder pressed electrode as electric discharge surface treating electrode with WC (wolfram varbide) powder and Co (cobalt) powder mixing compressed moulding, carry out time processing (piling up processing), then change the less electrode of consumption of electrode such as copper electrode into and remake secondary processing (melt-processed again), this two procedures constitutes metallic substance discharge surface treating method.This method can form the hard coating with good bond power to steel, but for the such agglomerated material of Wimet, is difficult to form the hard coating with good bond power.

But; according to we research as can be known; if the material that will form Ti hard carbides such as (titaniums) is as electric discharge surface treating electrode; and the metallic substance of work piece between produce discharge, then can on the metallic surface of work piece, form firm hard coating and do not melt again or the process of melting.This is because the composition C (carbon) of used up electrode materials of discharge and working fluid reacts, and generates the reason of TiC (titanium carbide).In addition we know, if utilize by TiH ₂The powder pressed electrode that metal hydrides such as (titanium hydrides) constitutes as electric discharge surface treating electrode, and the metallic substance of work piece between produce discharge, then can more promptly form finer and close hard coating than the situation of using materials such as Ti.Know in addition, if utilize TiH ₂Mix the powder pressed electrode that the back forms with other metal or pottery etc. in hydride as electric discharge surface treating electrode; and the metallic substance of work piece between produce discharge, then can form as quick as thought have hardness, the hard coating of various character such as wear resistance.

About this method, for example in Japanese kokai publication hei 9-192937 communique, disclose, Fig. 4 is illustrated in the formation picture of device that uses in this discharging surface processing for example.Among the figure, 1 is with TiH ₂The powder pressed electrode that the powders compression moulding forms as electric discharge surface treating electrode; 2 is work piece; 3 is working groove; 4 is working fluid; 5 for carrying out the switching element of switch to powder pressed electrode 1 and 2 making alives of work piece and electric current, 6 is the control device of trip switch element switch, and 7 is power supply; 8 is resistor, and 9 is formed hard coating.According to such formation, between powder pressed electrode 1 and work piece 2, produce discharge, utilize this discharge energy, on the surface of the work piece 2 of formations such as iron and steel, Wimet, form hard coating.Switching element 5, pilot circuit 6, power supply 7 and resistor 8 are equivalent to discharging surface processing supply unit, the discharge current pulse waveform in its decision discharging surface treating processes etc.

This discharging surface is in the past handled and is used square wave basically with the supply unit discharge current pulse, as shown in Figure 5, by changing the peak I p and the pulsewidth T of discharging current, adjusts the thickness of the hard coating that forms on the work piece etc.

Fig. 6 illustrates the adhesion condition of electrode materials to work piece.Fig. 7 represents from the discharge beginning along with the current density of time variation and the variation diagram of electrical discharge arc column diameter.In Fig. 6, the 1st, electric discharge surface treating electrode, the 2nd, work piece, the 10th, the electrical discharge arc post, the 11st, heating and gasifying breaks out the electrode composition that discharges rapidly, and the 12nd, attached to the electrode composition on the work piece 2.As Fig. 6 (a) with shown in 7, after discharge just took place, the diameter of electrical discharge arc post 10 was little, and current density is high.In addition, electric discharge surface treating electrode is different with electrode with the electrodischarge machining(E.D.M.) that processing is cut in common grinding, and in order to improve the productivity of surface treatment operation, deliberately reduces thermal conduction and physical strength.Therefore, shown in Fig. 6 (a), handle at discharging surface under the high state of current density and to heat rapidly with near the part the electrical discharge arc post 10 of electrode 1, utilizing gasifies break out a part that makes electric discharge surface treating electrode 1 be splashed to around (in the working fluid).Here, utilize the working fluid quick cooling electrode composition 11 of heating and gasifying outburst release rapidly, can not form the hard coating of work piece 2.On the other hand, shown in Fig. 6 (b), under the suitable state of current density,,, the amount attached to the electrode composition on the work piece 2 12 is increased so can heat electric discharge surface treating electrode 1 on a large scale because the diameter of electrical discharge arc post 10 becomes big.

Like this, handle the discharge current pulse waveform (for example Fig. 5) of the square wave that produces with supply unit for discharging surface in the past, even in order to improve surface-treated productivity, and the peak I p of raising discharge current pulse, after discharge just, electrode materials is along with still very little in the ratio of work piece side especially.Therefore the problem that exists is, electrode materials along with the ratio in the work piece side be by weight about 10% to 50% because the waste of electrode materials is big, so the rising of surface treatment cost.

Discharge surface treating method is the heat release electrode materials that utilizes discharge, makes its part become hard coating and dissolves attached to the lip-deep treatment process of work piece.Therefore, for discharge energy two portions effect is arranged, a part is the so-called effect that discharges electrode materials, and another part is to make the material of release and the effect that work piece dissolves.

Fig. 8 represents to utilize 1 discharge current pulse the steel of work piece to be carried out the photo on the work piece surface of discharging surface when handling.Fig. 8 (a) is depicted as the too much situation of burst size of electrode materials, and Fig. 8 (b) is depicted as the very few situation of burst size of electrode materials.Under the too much situation of the burst size of electrode materials (Fig. 8 (a)), the electrode materials that utilizes discharge energy to discharge dissolves deficiency, can not form the hard coating of densification on work piece.Under the very few situation of the burst size of electrode materials (Fig. 8 (b)), work piece dissolves excessively, also work piece has been carried out grinding except that hard coating adheres to and has cut processing.Discharge current pulse waveform (for example Fig. 5) existence of the square wave that produces with supply unit of problem handle to(for) discharging surface in the past is; in discharge once because utilize the discharge current pulse of 1 square wave to carry out the release of electrode materials and dissolving of electrode materials and work piece simultaneously; so be difficult to guarantee the suitable feed rate of electrode materials; because the undersupply of electrode materials can produce grinding of work piece cut processing, and because the glut of electrode materials can produce the deficiency that dissolves of hard coating.

Summary of the invention

The present invention is for solving described problem, and the technical problem that solve provides can reduce the surface treatment cost, can form fine and close hard coating simultaneously on work piece discharging surface is handled with supply unit and discharge surface treating method.

Discharging surface of the present invention is handled and is used supply unit; being used for discharging surface handles; described discharging surface is handled the interpolar that makes electric discharge surface treating electrode and work piece and is produced discharge; and utilize its energy to form hard coating on the work piece surface; in handling with supply unit, this discharging surface comprises control device, this control device

With discharge current pulse be divided into the 1st pulsewidth T1 (the 1st peak I p1), the second pulsewidth T2 (the 2nd peak I p2) ... the interval of n pulsewidth Tn (n peak I pn) (n is the integer more than 2),

Set the 1st pulsewidth T1 and the 1st peak I p1; suppress the interior described electrode current density of specialized range that electrode materials discharges so that reach; set k pulsewidth Tk and k peak I pk (2≤k≤n, k are integer), so that reach according to the predefined value that discharges the described hard coating material feed rate that produces by described electrode materials of the processing conditions of expection.

Discharge surface treating method of the present invention; be used for discharging surface and handle, described discharging surface is handled the interpolar that makes discharging surface handle electrode and work piece and is produced discharge, and utilizes its energy to form hard coating on described work piece surface; in this treatment process

With discharge current pulse be divided into the 1st pulsewidth T1 (the 1st peak I p1), the second pulsewidth T2 (the 2nd peak I p2) ... the interval of n pulsewidth Tn (n peak I pn) (n is the integer more than 2),

Set the 1st pulsewidth T1 and the 1st peak I p1; suppress the interior described electrode current density of specialized range that electrode materials discharges so that reach; set k pulsewidth Tk and k peak I pk (2≤k≤n, k are integer); so that reach according to the processing conditions of expection is predefined and discharge the value of the described hard coating material feed rate that produces, on described work piece surface, form hard coating by described electrode materials.

The present invention is because of aforesaid formation, so have following effect.

Discharging surface of the present invention is handled with supply unit and discharge surface treating method, because of can be effectively with electrode materials attached on the work piece surface, so can reduce the surface treatment cost.

In addition, because can guarantee the suitable feed rate of electrode materials, so can on work piece, form fine and close hard coating.

Brief Description Of Drawings

Fig. 1 represents discharging surface the processing formation of supply unit and the oscillogram of voltage across poles and discharging current relevant with example of the present invention.

Fig. 2 represents to use the discharging surface relevant with example of the present invention to handle with supply unit to carry out that discharging surface is handled and the explanatory view that forms the hard coating situation on work piece.

Fig. 3 represents to handle with supply unit with in the past discharging surface and carries out occasion that discharging surface handles and the comparison diagram of handling the consumption of electrode length when carrying out the discharging surface processing with supply unit with discharging surface of the present invention.

Fig. 4 lifts tabulation and is shown in the formation picture of device that uses in the discharging surface processing.

Fig. 5 represents that discharging surface in the past handles with voltage across poles and discharge current pulse figure in the supply unit.

Fig. 6 represents the explanatory view of electrode materials attached to work piece.

Fig. 7 represents from the discharge beginning along with the current density of time variation and the variation diagram of electrical discharge arc column diameter.

The photo on the work piece surface when Fig. 8 represents to utilize 1 discharge current pulse that steel are carried out the discharging surface processing.

The optimal morphology that carries out an invention

Fig. 1 represents the apparatus for discharge surface treatment supply unit with the invention process morphologic correlation, and Fig. 1 (a) is that pie graph, Fig. 1 (b) are voltage across poles and discharge current waveform figure, the discharge current waveform figure of the another example of Fig. 1 (c) expression.In Fig. 1,1 is electric discharge surface treating electrode, and 2 is work piece, 3 is working groove, and 4 is working fluid, and 13 is group of switching elements, 14 is the control device of trip switch element group 13 open and close, 15 is power supply, and 16 is the resistor group, and T1 is the 1st pulsewidth, T2 is the 2nd pulsewidth, Tr is a stand-by time, and Ip1 is the 1st peak value, and Ip2 is the 2nd peak value.Group of switching elements 13, control device 14, power supply 15 and resistor group 16 are equivalent to discharging surface to be handled and use supply unit, determines in the discharging surface treating processes discharge current pulse waveform etc.

Below, action is described.Electric discharge surface treating electrode 1 is opposite in the working fluid 4 mutually with work piece 2, utilizes not shown drive unit to keep predetermined gap.The peak value of discharging current is the function of the resistance value that is connected in series with the switching element of group of switching elements 13 conductings in the voltage of supply of power supply 15 and resistor group 16.Utilize control device make with resistor group 16 in the switching element conducting of the group of switching elements 13 that is connected in series of the big resistance of resistance value, by between electric discharge surface treating electrode 1 and work piece 2, applying voltage like this, through behind the specific time, produce discharge (the 1st peak I p1).Detect produce discharge and through the 1st pulsewidth T1 after, utilize control device 14 that the switching element of aforementioned conducting is disconnected, and make with resistor group 16 in the switching element conducting of the group of switching elements 13 that is connected in series of the little resistance of resistance value, by making discharging current increase (the 2nd peak I p2) like this.Then, behind the 2nd pulsewidth T2, utilize control device 14 that the switching element of group of switching elements 13 is all disconnected.After passing through stand-by time Tr again, utilize control device 14 to make the switching element conducting of group of switching elements 13 selectively once more.By carrying out above action repeatedly, carry out discharging surface and handle.Like this, can utilize control device 14 to make the switching element conducting and the disconnection of group of switching elements 13 selectively, carry out the peak value control of discharging current.

Discharge current pulse can be such stepped of Fig. 1 (b), also can be as the ramped shaped Fig. 1 (c).Increase the ramped shaped of discharge current pulse, can realize by the inductance series connection is inserted in the power source circuit of discharging surface processing with supply unit.

Fig. 2 represents to use the discharging surface relevant with example of the present invention to handle with supply unit to carry out that discharging surface is handled and the explanatory view that forms the hard coating situation on work piece; in Fig. 2; 1 is electrode; 2 is work piece; 10 is the electrical discharge arc post, and 17 is the hard coating that utilizes method related to the present invention to form on work piece 2.Fig. 2 (a) is equivalent to the part that the 1st pulsewidth T1 of Fig. 1 (b) or Fig. 1 (c) begins, and Fig. 2 (b) is equivalent to the part that the 1st pulsewidth T1 of Fig. 1 (b) or Fig. 1 (c) finishes, and Fig. 2 (c) is equivalent to the part of the 2nd pulsewidth T2 of Fig. 1 (b) or Fig. 1 (c).

In Fig. 1 (b) or Fig. 1 (c); set the 1st pulsewidth T1 and the 1st peak I p1; reach and suppress the interior current density (Fig. 2 (a)) of specialized range that electrode materials discharges; in the interval of the 1st pulsewidth T1; the diameter of electrical discharge arc post (10) is fully increased (Fig. 2 (b)); then; under the state that the diameter of this electrical discharge arc post (10) amplifies; in the 2nd pulsewidth T2; utilize control device 14 trip switch element groups 13 etc.; make discharging current increase to the 2nd peak I p2; so that reach according to the processing conditions of expection is predefined and discharge the value of the described hard coating material feed rate that produces, by like this work piece (2) being formed hard coating (17) (Fig. 2 (c)) effectively by described electrode materials.

For reaching the 1st pulsewidth T1 and the 1st peak I p1 that suppresses the current density in the specialized range that electrode materials discharges and making the feed rate to the hard coating material of work piece reach the 2nd pulsewidth T2 of desired amount and the set(ting)value of the 2nd peak I p2; can obtain by experiment in advance, and can set corresponding to the processing conditions of the performance shape of desired process velocity, hard coating face and consumption of electrode etc.For example; as long as collect material and the electrode parameters such as constituent and hardness thereof that make electric discharge surface treating electrode by experiment in advance; parameters such as the material of work piece; the 1st pulsewidth T1; the 2nd pulsewidth T2; the consumption of the electric discharge surface treating electrode the when pulsewidth of the discharging current of the 1st peak I p1 and the 2nd peak I p2 and the parameter of peak value change; the performance shape of the hard coating face that on work piece, forms and the data such as productivity of surface treatment operation; and use these data corresponding to desired process velocity; processing conditionss such as the performance shape of hard coating face and consumption of electrode, the 2nd pulsewidth T2 and the 2nd peak I p2 that set the 1st pulsewidth T1 and the 1st peak I p1 of the current density in the specialized range reach the release that suppresses electrode materials and make feed rate to the hard coating material of work piece reach desired amount get final product.

Fig. 3 is illustrated under the identical condition of the thickness of the hard coating that forms on the work piece, uses in the past discharging surface to handle the comparison diagram that carries out discharging surface consumption of electrode length when using discharging surface related to the present invention to handle to handle with the discharging surface of supply unit when handling with supply unit.In this case, it is that peak I p is that 8A, pulsewidth T are the square wave of 8 μ s that discharging surface is in the past handled the discharge current pulse that produces with supply unit, and it is that the 1st pulsewidth T1 is that 8 μ s, the 1st peak I p1 are that 2A, the 2nd pulsewidth T2 are that 8 μ s, the 2nd peak I p2 are 8A that discharging surface related to the present invention is handled the discharge current pulse that produces with supply unit.In Fig. 3, utilize discharge current pulse in the past, consumption of electrode length is about 500 μ m, utilizes discharge current pulse related to the present invention, consumption of electrode length is about 200 μ m, and visible discharging surface related to the present invention is handled and can be reduced consumption of electrode significantly with supply unit

As previously mentioned, carry out the discharging surface processing if adopt discharging surface related to the present invention to handle, because can be with electrode materials effectively attached on the work piece surface, so can reduce the surface treatment cost with supply unit.In addition, because can guarantee the suitable feed rate of electrode materials, so can on work piece, form fine and close hard coating.

In aforesaid explanation, the peak value of discharging current is 2 grades a stairstepping, but also can be the shape more than 3 grades.In addition, in each interval of pulsewidth, the current value of discharge current pulse also can not be fixed value or ramped shaped, but the specific time function.

Industrial practicality

As mentioned above, discharging surface related to the present invention is processed with supply unit and discharging surface processing side Method is applicable to the surface treatment related industry that forms hard coating on the work piece surface.

Claims (2)

1. a discharging surface is handled and is used supply unit; being used for discharging surface handles; described discharging surface is handled the interpolar that makes electric discharge surface treating electrode and work piece and is produced discharge; and utilize its energy to form hard coating on the work piece surface; it is characterized in that; comprise control device, described control device

With discharge current pulse be divided into the 1st pulsewidth T1 (the 1st peak I p1), the second pulsewidth T2 (the 2nd peak I p2) ... the interval of n pulsewidth Tn (n peak I pn) (n is the integer more than 2),

Set the 1st pulsewidth T1 and the 1st peak I p1; suppress the interior described electrode current density of specialized range that electrode materials discharges so that reach; set k pulsewidth Tk and k peak I pk (2≤k≤n, k are integer), so that reach according to the predefined value that discharges the feed rate of the described hard coating material that produces by described electrode materials of the processing conditions of expection.

2. discharge surface treating method; be used for discharging surface and handle, described discharging surface is handled the interpolar that makes discharging surface handle electrode and work piece and is produced discharge, and utilizes its energy to form hard coating on described work piece surface; it is characterized in that, the treating method comprises

With discharge current pulse be divided into the 1st pulsewidth T1 (the 1st peak I p1), the second pulsewidth T2 (the 2nd peak I p2) ... the interval of n pulsewidth Tn (n peak I pn) (n is the integer more than 2),

Set the 1st pulsewidth T1 and the 1st peak I p1; suppress the interior described electrode current density of specialized range that electrode materials discharges so that reach; set k pulsewidth Tk and k peak I pk (2≤k≤n, k are integer); so that reach according to the processing conditions of expection is predefined and discharge the value of the described hard coating material feed rate that produces, on described work piece surface, form hard coating by described electrode materials.

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