CN201224011Y - Ultrasonic auxiliary electric spark deposition repair and ultrasonic polish integrated apparatus - Google Patents

Abstract

The utility model discloses an integrated ultrasound-assisted electrospark deposition repairing and ultrasonic polishing device, which comprises a gas supply device, a power source, a control box(34), a connection(35), an electrode device(37), a workpiece collet(39). The integrated ultrasound-assisted electrospark deposition repairing and ultrasonic polishing device makes use of the combination of electrospark deposition technique and ultrasonic mechanical friction to repair the defects at the surface of a mold and can mechanically polish the surface of the repaired mold through ultrasonic vibration energy after the repairing process is finished. Comprehensively making use of the advantages of electrospark deposition technique and ultrasonic polishing technique, the integrated ultrasound-assisted electrospark deposition repairing and ultrasonic polishing device is low in repairing cost and high in repairing precision. The integrated ultrasound-assisted electrospark deposition repairing and ultrasonic polishing device can not only effectively repair the defective surface of the mold through combined machining and is suitable for the occasions that are difficult to repair through large repairing equipment. The integrated ultrasound-assisted electrospark deposition repairing and ultrasonic polishing device is simple to operate and is convenient and practical.

Description

Ultrasound auxiliary electric spark deposition is repaired and the ultrasonic polishing integrated apparatus

Technical field:

The utility model is a kind of ultrasound auxiliary electric spark deposition reparation and ultrasonic polishing integrated apparatus, belongs to the renovation technique of ultrasound auxiliary electric spark deposition reparation and ultrasonic polishing integrated apparatus.

Background technology:

Being used for mould repair at present has following several with the polishing method for processing:

1, surface coating technique:

Coating technology can be divided into following 3 classes by the bonding mechanism of coating layer forming process and coating layer and matrix:

1) thermal spraying: thermal spraying is that dusty spray is heated to the state that can bond mutually, and is ejected into substrate surface with certain speed, forms a tectal class technology, as flame-spraying, plasma spraying, detonation gun spraying and supersonic spray coating etc.Wherein flame-spraying, plasma spray are coated in the mould repair the most frequently used.Between repair layer that thermal spraying forms and the base material is mechanical bond, so be used for die surface modification and shape reparation under the non-shock loading condition more.

2) surface cladding technology: the surface cladding technology is the novel surface modification technology, by adding cladding material at substrate surface, and utilizes the thermal source of high-energy-density, makes the thin layer consolidation with matrix surface, form with matrix be metallurgical binding add the material cladding layer.By the thermal source that adopts in the cladding process, can be divided into flame cladding, argon arc cladding, laser melting coating.Flame cladding, argon arc cladding are used for mould repair, and be simple to operate though equipment is cheap, because heating surface area is excessive, causes thermal deformation, so repairing quality is not very high.The source for cladding energy density of laser melting and coating technique is very high, and the cladding material range of choice is increased greatly, can obtain and the high-performance of matrix metallurgical binding, multiduty cladding layer.The deflection that causes in the cladding process is very little, cladding layer surface smoothness height, but apparatus expensive, unfavorable with on-the-spot quick reparation.

2, gas phase deposition technology: vapour deposition is by physical processes such as chemistry or thermal evaporations, makes deposition materials vaporization and forms the method for solid rete at matrix surface.Vapour deposition is rapid, the more rich a kind of surface coating technology of type of development in the sufacing, it can be at the die surface deposit multilayer film of various materials, but it is applied to that many shortcomings are also arranged in the mould repair, as, with matrix be the physical mechanical combination, bond strength is not high, equipment complexity, heaviness, be unfavorable for field repair, these all limit its application scenario to a great extent.

3, electroplate: plating is the electrodeposition process that obtains metal deposition layer by electrolytic method on the surface of solids.It can obtain multiple coating, by disposing different plating baths, use a set of equipment can plate multiple metal, the complexity but equipment is compared with the equipment of other processing technologys, and in the process of electroplating, produce with serious pollution electrolyte, environmental pollution is more serious, the quality of comparing coating with thermal spraying is so not outstanding, can produce pernicious gas, flue dust, harmful radiation light, do not form alloy with matrix surface, the accessory size that need repair is subjected to the restriction of electroplating bath, and some big parts can't be electroplated.

4, electric spark deposition reparation: electric spark deposition technology (electro sp40rk deposition) is to utilize short pulse duration, the high-frequency pulse power that electrode material (anode) is welded to a kind of pulsed arc microwelding technology on the metallic matrix.The major advantage of electric spark deposition technology (ESD) is electrode material to be combined enough low heat inputs with matrix alloyization.It has reduced the thermal deformation of matrix material tissue, thermal stress; Simultaneously because coating is a metallurgical binding with matrix, therefore carries out surface-treated workpiece and low-heat such as plasma spraying, electrochemistry plating and import coating process and compare its surface and have better mechanical performance through ESD.Compare with above other several renovation techniques, though electric spark deposition has above advantage, but it also has its bottleneck that can't break through all the time---be difficult to obtain to surpass the dense coating of 350 μ m thickness, this problem has limited electric spark deposition The Application of Technology occasion greatly.

5, ultrasonic polishing: ultrasonic polishing is that the ultrasonic vibrational energy that the ultrasonic vibration system with suitable power output produces is attached on the die surface that will repair, thereby make polishing tool and die surface carry out ultrasonic high-frequency mechanical vibration friction, be reached for the surface finishing processing method of mold polish with certain frequency and certain amplitude.This method has been widely used in the processing of die surface polishing, has not only saved the polishing time after the mould repair greatly, and has reduced the cost of mould repair to a great extent.

In the at present domestic and international mould repair industry, majority utilizes above-mentioned surface coating technique, gas phase deposition technology, plating, laser remolten technology that the mould that lost efficacy is repaired, and they more or less all have significant disadvantages.At present also favourablely be used for the reparation of mould with the electric spark deposition technology, but owing to being simple utilization to the electric spark deposition technology, but can not obtain to repair greatly the sedimentary deposit of thickness all the time, limited the popularization of this technology to a great extent.

The utility model content:

The purpose of this utility model is to consider the problems referred to above and provides a kind of rehabilitation cost low, repairs higher ultrasound auxiliary electric spark deposition reparation and the incorporate device of ultrasonic polishing of precision.

The technical solution of the utility model is: include gas supply device; power supply and control cabinet; wiring; electrode assembly; Workpiece clamping head; wherein gas supply device includes argon bottle; the pressure decompression table; steam hose; electrode assembly includes shell; electric machine main shaft; the first transducer junction pole; the second transducer junction pole; transducer; the electrode connection bar; protective gas is taken over; tool materials; the clamping head; conductive spacer; slide block; the insulating ceramics axle; the second transducer conductive spacer; the first transducer conductive spacer; insulation spacer; insulation spacer; first transducer connects the electrical rolling disk; second transducer connects the electrical rolling disk; wherein electric machine main shaft is connected with transducer by flange; the first transducer junction pole of transducer and the second transducer junction pole are connected with the first transducer conductive spacer and the second transducer conductive spacer respectively; the first transducer conductive spacer and the second transducer conductive spacer connect the electrical rolling disk with first transducer respectively; second transducer connects the electrical rolling disk and connects; the anode connection of electric spark deposition is connected with the electrode connection bar; the electrode connection bar is connected with slide block; slide block be connected with the clamping head by the insulating ceramics axle; tool materials are clamped on the clamping head; wiring includes the wiring of motor both positive and negative polarity; five root lines of anode connection that the positive and negative electrode wiring of transducer and electric spark deposition form sediment; buncher is connected with the wiring of motor both positive and negative polarity; the positive and negative wiring of transducer respectively with the first transducer junction pole; the second transducer junction pole connects; the steam hose that is connected with argon bottle by the pressure decompression table is connected with the end that the protective gas in the electrode assembly is taken over; the other end that protective gas is taken over communicates with the installation cavity at clamping head and tool materials place; power unit in power supply and the control cabinet comprises ultrasonic-frequency power supply and electric spark deposition power supply; ultrasonic-frequency power supply is connected with transducer; the anode of electric spark deposition power supply is connected with the electrode connection bar; the negative electrode of electric spark deposition power supply is connected with Workpiece clamping head, is repaired the mould clamping on Workpiece clamping head.

The anode connection of above-mentioned electric spark deposition is connected with the electrode connection bar by set electric wire, the protective gas through hole of shell.

The positive and negative wiring of above-mentioned transducer is connected with the first transducer junction pole, the second transducer junction pole respectively by set electric wire, the protective gas through hole of shell.

Be provided with insulation spacer between above-mentioned electrode connection bar and the shell.

Above-mentioned electric machine main shaft is connected with transducer by flange and bolt, spring.

Above-mentioned buncher is fixed on the shell by screw.

Above-mentioned tool materials are electrode material that uses when electric spark deposition is repaired or the polishing oilstone that uses when polishing.

Above-mentioned shell includes successively the outer end cap that connects, two sections shells, three sections shells, four sections shells, five sections shells, end caps.

The above-mentioned first transducer junction pole, the second transducer junction pole separate by first insulation spacer, are provided with second insulation spacer between the second transducer conductive spacer and the first transducer conductive spacer and the shell.

The utility model ultrasound auxiliary electric spark deposition is repaired with the incorporate device of ultrasonic polishing owing to adopt ultrasound auxiliary electric spark deposition and the compound structure of ultrasonic polishing, utilize electric spark deposition technology anode material to be coated with and be plated to the principle that negative electrode (die workpiece) gets on and the compound reparation that realizes the die surface defective of ultrasonic mechanical oscillation rubbing action, after reparation is finished, utilized the following process after the energy of ultrasonic vibration can be finished reparation simultaneously by electric energy---the die surface after repairing is carried out mechanical grinding.Since integrated use the advantage of electric spark deposition processing technology and ultrasonic polishing technology, it is low to have rehabilitation cost, repair the higher characteristics of precision, the mould repair that ultrasound auxiliary electric spark deposition and ultrasonic polishing are compound and the Compound Machining of polishing not only can be carried out high efficiency reparation to the mould surfacing that lost efficacy, be applicable to difficult occasion of repairing with large-scale prosthetic appliance, and the ingenious advantage separately of having utilized ultrasonic effect and electrode high-speed rotating machine grinding effect of its electrode assembly, widened the reparation field, improve the quality of deposition repair layer, and the rotation that can utilize ultrasonic vibration and electrode assembly end after the electric spark deposition reparation is used for the polishing of repair layer, the precision height of processing, surface quality is good.The incorporate device rehabilitation cost of ultrasound auxiliary electric spark deposition reparation of the present utility model and ultrasonic polishing is low, and the reparation precision is higher.

Description of drawings:

Fig. 1 is a schematic diagram of the present utility model;

Fig. 2 is the structural representation of the utility model electrode assembly;

Fig. 3 is the structural representation of Fig. 2 behind the transducer half-twist.

1 outer end cap; 2 bunchers; 3 two sections shells; 4 screws; 5 electric machine main shafts; 6 electric wires, protective gas through hole; 7 bolts; 8 springs; 9,10 transducer junction poles; 11 transducers; 12 electrode connection bars; 13 protective gas are taken over; 14 5 sections shells; 15 insulation spacers; 16 end caps; 17 tool materials (electrode material or polishing oilstone); 18 clamping heads; 19 conductive spacers; 20 slide blocks; 21 insulating ceramics axles; 22 4 sections shells; 23,25 transducer conductive spacers; 24 insulation spacers; 26 insulation spacers; 27 flanges; 28,29 transducers connect the electrical rolling disk; 30 3 sections shells; 31 argon bottles; 32 pressure decompression tables; 33 steam hoses; 34 power supplys and control cabinet; 35 wiring; The negative electrode of 36 electric spark deposition power supplys; 37 electrode assemblies; 38 are repaired mould; 39 Workpiece clamping heads; 40 shells.

The specific embodiment:

Embodiment:

Structural representation of the present utility model such as Fig. 1; 2; shown in 3; include gas supply device; power supply and control cabinet 34; wiring 35; electrode assembly 37; Workpiece clamping head 39; wherein gas supply device includes argon bottle 31; pressure decompression table 32; steam hose 33; electrode assembly 37 includes shell 40; electric machine main shaft 5; the first transducer junction pole 9; the second transducer junction pole 10; transducer 11; electrode connection bar 12; protective gas takes over 13; tool materials 17; clamping head 18; conductive spacer 19; slide block 20; insulating ceramics axle 21; the second transducer conductive spacer 23; the first transducer conductive spacer 25; insulation spacer 24; insulation spacer 26; first transducer connects electrical rolling disk 28; second transducer connects electrical rolling disk 29; wherein electric machine main shaft 5 is connected with transducer 11 by flange 27; the first transducer junction pole 9 of transducer 11 and the second transducer junction pole 10 are connected with the first transducer conductive spacer 25 and the second transducer conductive spacer 23 respectively; the first transducer conductive spacer 25 and the second transducer conductive spacer 23 connect electrical rolling disk 28 with first transducer respectively; second transducer connects electrical rolling disk 29 and connects; the anode connection of electric spark deposition is connected with electrode connection bar 12; electrode connection bar 12 is connected with slide block 20; slide block 20 be connected with clamping head 18 by insulating ceramics axle 21; tool materials 17 are clamped on the clamping head 18; wiring 35 includes the wiring of motor both positive and negative polarity; five root lines of anode connection that the positive and negative electrode wiring of transducer and electric spark deposition form sediment; buncher 2 is connected with the wiring of motor both positive and negative polarity; the positive and negative wiring of transducer respectively with the first transducer junction pole 9; the second transducer junction pole 10 connects; the steam hose 33 that is connected with argon bottle 31 by pressure decompression table 32 and the protective gas in the electrode assembly 37 are taken over an end of 13 and are connected; the other end of protective gas adapter 13 communicates with the installation cavity at clamping head 18 and tool materials 17 places; power unit in power supply and the control cabinet 34 comprises ultrasonic-frequency power supply and electric spark deposition power supply; ultrasonic-frequency power supply is connected with transducer 11; the anode of electric spark deposition power supply is connected with electrode connection bar 12; the negative electrode 36 of electric spark deposition power supply is connected with Workpiece clamping head 39, is repaired mould 38 clampings on Workpiece clamping head 39.Since repair with polishing process in suffered torsional forces very little, so dc speed-regulating motor 2 can be selected low-power machine.Transducer 11 is selected the sandwich ceramic transducer, the ultrasonic vibration power that the utility model needs is about 100W, supersonic frequency is about 20KZH, the sandwich ceramic transducer is tens kilo hertzs to tens kilo hertzs low frequency operate as normal, and the clamp mechanism of sandwich transducer has pretightning force, increased the mechanical strength of transducer.Produce the rotating speed of 0～2400r/min behind the buncher 2 connection direct currents, to produce dither longitudinally after transducer 11 is connected power supply simultaneously, after transducer 11 passed through flange 27 and electric machine main shaft 5 is connected, the following part of motor will obtain rotation at a high speed and axial dither compound motion.

In the present embodiment, the anode connection of above-mentioned electric spark deposition is connected with electrode connection bar 12 by shell 40 set electric wire, protective gas through holes 6.The positive and negative wiring of above-mentioned transducer is connected with the first transducer junction pole 9, the second transducer junction pole 10 respectively by shell 40 set electric wire, protective gas through holes 6.

Be provided with insulation spacer 15 between above-mentioned electrode connection bar 12 and the shell 40.

In the present embodiment, above-mentioned electric machine main shaft 5 is connected with transducer 11 by flange 27 and bolt 7, spring 8.The effect of spring 8 is buffer shock-absorbings, reduces the influence of the high frequency axial vibration of transducer 11 generations to electric machine main shaft 5.Above-mentioned buncher 2 is fixed on the shell 40 by screw 4.

Above-mentioned tool materials 17 are electrode material that uses when electric spark deposition is repaired or the polishing oilstone that uses when polishing, the electrode material that tool materials 17 use when electric spark deposition is repaired can be selected carbide alloy, mould steel etc., its shape is made cylindrical, with easy to setup.

The assembling of inner components for convenience, shell 40 is divided into 6 sections, include successively the outer end cap that connects 1, two sections shells 3, three sections shells 30, four sections shells 22, five sections shells 14, end caps 16, between every section by being threaded, it makes material is aluminium alloy, and all wants coating one deck insulating materials at the outer surface of shell, its objective is the raising security, prevent electric leakage, avoid injury operating personnel.

In the present embodiment, the above-mentioned first transducer junction pole 9, the second transducer junction pole 10 separate by first insulation spacer 24, be provided with second insulation spacer, 26, the first insulation spacers 24 and second insulation spacer 26 between the second transducer conductive spacer 23 and the first transducer conductive spacer 25 and the shell 40 and finish insulation work each several part.

The core of reparation of the utility model ultrasound auxiliary electric spark deposition and ultrasonic polishing integrated apparatus is an electrode assembly, it can allow electrode material realize rotating the compound motion that vibrates with axial high frequency ultrasound around the high speed of axle when repairing, reach can be to the mould of different shape big thickness, repair on the great surface quality surface.Control system in power supply and the control cabinet 34 comprises turn-key system, power control system, electrode governing system and protective gas control system etc.; this hierarchy of control can be by controlling and coordinate the flow velocity of electrical quantity, electrode rotary speed, protective gas in real time; reach and reasonably make up electric energy and mechanical energy in the process in real time, reach the purpose of the processing effect of optimum.This control system mainly comprises the control modules such as electric capacity, the voltage between the electric capacity two ends, deposit thickness monitoring device, process supervising device, motor driver and power supply of power supply.Power control system both can be repaired parameter to electric spark deposition and be regulated according to the needs of job requirement, also can ensure the function conversion between repairing and polishing.Processing power source in power supply and the control cabinet 34 is the integrated power supply of ultrasonic-frequency power supply and electric spark deposition power supply, its inside includes corresponding power control system, and be connected with general control system, control system can be adjusted parameters such as motor speed, discharge frequency, machining voltage according to the needs of repairing.Power supply can be taked various forms such as the dc source or the pulse power, and the transmission form and the energize of electric energy are controlled by corresponding power control system.The electrode material oxidation that takes place when the protective gas feed system can prevent to repair.

The utility model makes that electric energy and mechanical energy are efficient to be combined, pass through electrode assembly simultaneously, not only electric spark deposition is repaired this technology performance incisively and vividly, and by introducing the energy of ultrasonic vibration, make in the mould repair process reparation and polishing can be convenient on the equipment, on an equipment, carry out apace, can improve remediation efficiency greatly, save rehabilitation cost.Simultaneously, the utility model is when electric spark deposition is repaired, after incorporating ultrasonic vibration, grainiess that can refinement electric spark deposition repair layer, improve the bond strength of sedimentary deposit, and because in the process of deposition, electrode has the vibration and rotation compound motion at a high speed of high frequency, the introducing of compound motion is beneficial to electrode material and deposits to matrix material equably and get on, thereby helps the raising of deposit thickness.In addition, electrode assembly of the present utility model is by combining with the flexibility of motor by parallel operation, tail end can realize at a high speed rotation and the compound motion form of ultrasonic dither, the forms of motion that this is unique, not only can help ensureing the quality of deposition repair layer, can also prevent that electrode from contacting the short circuit that causes with being repaired mould length, avoided the short circuit on mould top layer to burn out.

The utility model ultrasound auxiliary electric spark deposition is repaired the processing technology with the ultrasonic polishing integrated apparatus, and it comprises the steps:

1) connects the electric spark deposition power supply, be about to electrode connection bar 12 and connect positive pole, be repaired mould 38 and connect negative pole, connect buncher 2 and transducer 11, open the protective gas switch of gas supply device, hand-held electrode assembly 37 laterally moves around being repaired mould 38 surfaces, till the size of repairing needs;

2), on the control panel of power supply and control cabinet 34, adjust each parameter, under optimal processing parameter so that reparation is carried out according to the material behavior that is repaired mould 38;

3) close electric spark deposition power supply and protective gas switch, the electrode material that tool materials 17 are used when electric spark deposition is repaired changes the polishing oilstone into, and polishing grinding is carried out on post-depositional surface, up to being worked into the surface accuracy that needs;

4) close all switches after finishing the work.

The electrode material of the pulse electric energy of the utility model high-energy-density by the electrode assembly end is to the processing of discharging of the mould of needs reparation, and the energy of ultrasonic vibration this moment is applied to the surface of repairing mould by the end (electrode material) of electrode assembly, the utility model method is by auxiliary ultrasonic vibration and high speed rotary motion with high frequency when deposition is repaired, can be applied to the mould interface to powerful ultrasonic wave, make mould skin-material physical effect kickback take place at this, and then the particle in the moment activator metal character, make the be harmonious molecule at place of sheet metal interpenetrate and help the combination of metal, can also make electrode material even, deposit on the mould densely, simultaneously coating can suddenly cold and hot, avoided accumulating the micro-crack that forms, helped thickening of coating by thermal stress.After the reparation step is finished, the utility model can also utilize the ultrasonic vibrational energy of high frequency and the high speed rotation of electrode to come the die surface after repairing is carried out the polishing sanding and polishing, thereby not only can obtain the deposition repair layer of big thickness, high fine and close, good surface quality, and greatly reduce reparation polishing cost, improved the efficient of repairing.

Claims (10)

1; a kind of ultrasound auxiliary electric spark deposition reparation and ultrasonic polishing integrated apparatus; it is characterized in that including gas supply device; power supply and control cabinet (34); wiring (35); electrode assembly (37); Workpiece clamping head (39); wherein gas supply device includes argon bottle (31); pressure decompression table (32); steam hose (33); electrode assembly (37) includes shell (A); electric machine main shaft (5); the first transducer junction pole (9); the second transducer junction pole (10); transducer (11); electrode connection bar (12); protective gas is taken over (13); tool materials (17); clamping head (18); conductive spacer (19); slide block (20); insulating ceramics axle (21); the second transducer conductive spacer (23); the first transducer conductive spacer (25); insulation spacer (24); insulation spacer (26); first transducer connects electrical rolling disk (28); second transducer connects electrical rolling disk (29); wherein electric machine main shaft (5) is connected with transducer (11) by flange (27); the first transducer junction pole (9) of transducer (11) and the second transducer junction pole (10) are connected with the first transducer conductive spacer (25) and the second transducer conductive spacer (23) respectively; the first transducer conductive spacer (25) and the second transducer conductive spacer (23) connect electrical rolling disk (28) with first transducer respectively; second transducer connects electrical rolling disk (29) and connects; the anode connection of electric spark deposition is connected with electrode connection bar (12); electrode connection bar (12) is connected with slide block (20); slide block (20) be connected with clamping head (18) by insulating ceramics axle (21); tool materials (17) are clamped on the clamping head (18); wiring (35) includes the wiring of motor both positive and negative polarity; five root lines of anode connection that the positive and negative electrode wiring of transducer and electric spark deposition form sediment; buncher (2) is connected with the wiring of motor both positive and negative polarity; the positive and negative wiring of transducer respectively with the first transducer junction pole (9); the second transducer junction pole (10) connects; the steam hose (33) that is connected with argon bottle (31) by pressure decompression table (32) is connected with the end that the protective gas in the electrode assembly (37) is taken over (13); the other end that protective gas is taken over (13) communicates with the installation cavity at clamping head (18) and tool materials (17) place; power unit in power supply and the control cabinet (34) comprises ultrasonic-frequency power supply and electric spark deposition power supply; ultrasonic-frequency power supply is connected with transducer (11); the anode of electric spark deposition power supply is connected with electrode connection bar (12); the negative electrode of electric spark deposition power supply (36) is connected with Workpiece clamping head (39), is repaired mould (38) clamping on Workpiece clamping head (39).

2, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that the anode connection of above-mentioned electric spark deposition is connected with electrode connection bar (12) by set electric wire, the protective gas through hole (6) of shell (A).

3, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that the positive and negative wiring of above-mentioned transducer is connected with the first transducer junction pole (9), the second transducer junction pole (10) respectively by set electric wire, the protective gas through hole (6) of shell (A).

4, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that being provided with insulation spacer (15) between above-mentioned electrode connection bar (12) and the shell (A).

5, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that above-mentioned electric machine main shaft (5) is connected with transducer (11) by flange (27) and bolt (7), spring (8).

6, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that above-mentioned buncher (2) is fixed on the shell (A) by screw (4).

7, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that above-mentioned tool materials (17) are electrode material that uses or the polishing oilstone that uses when electric spark deposition is repaired when polishing.

8, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that above-mentioned shell (A) includes outer end cap (1), two sections shells (3), three sections shells (30), four sections shells (22), five sections shells (14), the end caps (16) that connects successively.

9, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that the above-mentioned first transducer junction pole (9), the second transducer junction pole (10) separate by first insulation spacer (24).

10, ultrasound auxiliary electric spark deposition reparation according to claim 1 and ultrasonic polishing integrated apparatus is characterized in that being provided with second insulation spacer (26) between the above-mentioned second transducer conductive spacer (23) and the first transducer conductive spacer (25) and the shell (A).

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