CN207824123U - A kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade - Google Patents

Abstract

The utility model discloses a kind of electrochemical grinding devices for processing the anti-clip slot of superthin diamond cutting blade, including piece-holder unit, electrolysis power, nozzle, electrolysis cycle filter element, electric conducting grinding head mobile guide unit, grinding rotary unit, fixed platform and grinding force loading unit；Workpiece connects the anode of electrolysis power, the cathode of two electric conducting grinding head connection electrolysis powers, and two electric conducting grinding heads are symmetrically installed in the both sides of workpiece, apply equal Compliant pressure power to two electric conducting grinding heads in left and right using the identical spring of four specifications；Two nozzles are installed respectively in the oblique upper of two electric conducting grinding heads and workpiece the tangent, by electrolyte circulating filtration unit circulating feeding liquid.The utility model realizes the processing of the anti-clip slot of Double-face ring using the processing method that workpiece and two electric conducting grinding heads rotate simultaneously, improves the machining accuracy and surface quality of anti-clip slot, while the symmetry of anti-clip slot is more preferable, the processing efficiency of workpiece also higher.

Description

A kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade

Technical field

The utility model is related to a kind of electrochemical grinding devices for processing the anti-clip slot of superthin diamond cutting blade, belong to electricity Solve grinding field.

Background technology

Since superthin diamond cutting blade has the advantages that grooving is narrow, fracture is smooth, cutting efficiency is high, rejection rate is low etc., It is widely used in the cutting of hard brittle material and other precious materials in the world.But superthin diamond cutting blade, one side itself Thickness is thin（It is usually no more than 1mm）, hold heat and load ability be weaker, non-deformability is limited；On the other hand, at work, Its joint-cutting is very narrow, and heat is not easy to spread, and product is not easy to exclude so that it in application process, will appear often thermal deformation, Phenomena such as pressing from both sides knife, burn, chipping, rupture.The study found that in superthin diamond cutting blade close to cutter head（Abrasive grain layer）The both sides at place Open the groove of one fixed width and depth（Anti- clip slot）, can effectively solve the above problems.

However, the processing of anti-clip slot is a difficult problems.This is because the matrix of superthin diamond cutting blade is special Thin, itself is easily deformable, and metal material such as high-carbon steel typically with high hardness etc., traditional machine cut, method for grinding Because the reasons such as active force is big, processing district temperature height are difficult to be suitble to the processing of anti-clip slot, and contactless special process method Such as laser processing, electrical discharge machining can not also use because processing temperature is high.Theoretically, contactless low temperature, small Processing of the processing method of active force particularly suitable for anti-clip slot.

For this purpose, proposing a kind of to process ultra-thin gold using jet stream electrolysis tech application No. is 201610832214.4 patent The device of the anti-clip slot of hard rock cutting sheet.A kind of novel cathode nozzle of the Patent design efficiently solves processing district electrolysis production The deposition attachment issue of object, but the forming accuracy of the anti-clip slot after processing and surface quality are poor.Electrochemical grinding is to utilize electricity Chemical action and mechanical grinding effect are combined to remove a kind of processing method of metal material, have high in machining efficiency, processing Precision with surface quality is good, not will produce grinding burr, crackle, burn the phenomenon that the features such as, be very suitable for Low rigidity thin-walled zero The processing of part.So electrochemical grinding processes the processing particularly suitable for anti-clip slot.But current existing electrochemical grinding device master To be suitable for the processing of thin-walled, single-piece single side, and be used for the two-sided of thin-wall circular sheet-like workpiece while opening the device of spill shallow slot also It has not been reported.For this purpose, the utility model develops a kind of new electrochemical grinding device, so as to can be the two of superthin diamond cutting blade Face processes the anti-clip slot of high-precision, great surface quality, high symmetry simultaneously.

Invention content

For the deficiency of the current processing anti-clip slot technology of superthin diamond cutting blade, the utility model proposes a kind of electrolytic mills Turning device, to can the two sides of superthin diamond cutting blade simultaneously process high-precision, great surface quality, high symmetry prevent Clip slot.

In order to achieve the above object, the technical solution adopted in the utility model is：One kind is cut for processing superthin diamond The electrochemical grinding device of the anti-clip slot of pitch cutting, including contain motor, shaft coupling, rotary shaft, bearing-bearing block assembly, bistrique collet With the grinding rotary unit of electric conducting grinding head, fixed platform, electrolysis power, nozzle and contain workpiece, live spindle, clamp body, lock The piece-holder unit of tight nut, it is characterized in that：It further includes connecting containing fromer rail, rear rail, front-slider, rear slider, sliding block The electric conducting grinding head mobile guide unit of fishplate bar contains two-way leading screw, leading screw fixed seat, handwheel, left-handed nut seat, right-handed nut The grinding force loading unit of seat, feed rod, feed rod fixation kit, guide rod, spring.

The fromer rail, rear rail in parallel to each other it is fixed on the stationary platform；The front-slider and rear slider point It is not installed on fromer rail and rear rail slideably；Fixation is installed in advancing slip respectively for the rear and front end of the slider connecting plate The trend of slider connecting plate on block and rear slider, and after fixing is vertical with the trend of fromer rail；The two-way leading screw passes through Leading screw fixed seat is fixedly mounted on the stationary platform；The handwheel couples with the right end of two-way leading screw；The two-way leading screw It is placed between fromer rail and rear rail, and the axis of two-way leading screw and fromer rail move towards parallel；The feed rod passes through left-handed Nut seat and right-handed nut's seat, and its both ends are fixedly connected with feed rod fixation kit；The axis of the feed rod and two-way silk The axis of thick stick is parallel；The trend of the fromer rail is parallel with the axis of live spindle；The axis of the electric conducting grinding head and rotation The axis for turning main shaft is vertical；The left-handed nut seat and right-handed nut's seat coordinate with the both ends of two-way leading screw for screw pair respectively Connection；2 guide rods are fixedly mounted on the left-handed nut seat and right-handed nut's seat；The spring coaxial line is socketed in On guide rod；The other end of the spring is pressed on the side wall of slider connecting plate；The feed rod fixation kit fixation is installed On the stationary platform；The electric conducting grinding head is two, is symmetrically installed in the both sides of workpiece, and the rotation direction phase of two electric conducting grinding heads Instead.

Sequence is same successively for the motor, shaft coupling, rotary shaft, bearing-bearing block assembly, bistrique collet, electric conducting grinding head Axis couples.

The grinding rotary unit is that two sets of left and right rotates independently of one another unit, and it includes motor, shaft coupling often to cover Device, rotary shaft, bearing-bearing block assembly, bistrique collet and electric conducting grinding head.

The grinding rotary unit is installed in slider connecting plate by internal bearing-bearing block assembly and motor fixation On.

The slider connecting plate is 2.

The front-slider and rear slider is 2, can be moved freely on fromer rail and rear rail respectively.

Grinding rotary unit, slider connecting plate, front-slider and the rear slider is fixedly connected as an entirety, and can be with It moves left and right on front and rear guide rails, this in the present apparatus is integrated with two sets of left and right, and independently of each other.

The left-handed nut seat and right-handed nut's seat limit rotation by two-way leading screw and feed rod, can only be along two-way silk Thick stick axis direction moves, and the two-way leading screw rotates a circle, and left-handed nut seat and right-handed nut's seat are on two-way leading screw The amount of feeding is equal, and direction of feed is opposite.

The left-handed nut seat and right-handed nut's seat are screwed in from the left end and right end of two-way leading screw respectively, when handwheel drives When two-way leading screw rotates clockwise, right-handed nut's seat is moved to the left, left-handed nut seat moves right, and the two is close；When handwheel band When dynamic two-way leading screw rotates counterclockwise, right-handed nut's seat moves right, left-handed nut seat is moved to the left, and the two is separate.

The electric conducting grinding head applies the active force of workpiece by compressed spring, specific as follows：Two-way leading screw rotation makes Nut seat and the spring of nut seat upper end move together, since the electric conducting grinding head in slider connecting plate and grinding rotary unit is fixed Connection also just applies active force to electric conducting grinding head indirectly when spring applies active force to slider connecting plate, finally makes conductive mill Head applies active force to workpiece.

The electric conducting grinding head adjusts the size of workpiece active force by the compression deformation of spring, specific as follows： After the side wall of spring contact slipper connecting plate, spring-compressed can be made by rotating two-way leading screw, and the amount of feeding of nut seat is exactly at this time The decrement of spring changes amount of force of the electric conducting grinding head to workpiece by changing the amount of feeding of nut seat.

For the ease of realizing that the pressure from electric conducting grinding head suffered by workpiece both sides is of substantially equal, the spring it is basic Performance and geometric parameter all same.

For at work, nut seat does not generate friction force effect, the left-handed nut seat and dextrorotation spiral shell with fixed platform Female seat is not in contact with fixed platform.

The anode of the workpiece connection electrolysis power, the cathode of two electric conducting grinding head connection electrolysis powers.

The material of the clamp body is electrically insulating material, so as to be the connection that is electrically insulated between workpiece and live spindle.

The bistrique collet is 2, and material is electrically insulating material, so that only electric conducting grinding head energy conducting electric current, avoids it His component is dissolved by galvano-cautery.

The abrading block external cylindrical surface of the electric conducting grinding head and the finished surface of workpiece are tangent.

The nozzle is 2, the both sides of workpiece is symmetrically positioned relative to workpiece, and be located at electric conducting grinding head and workpiece phase It cuts at the 5 ~ 15mm of oblique upper at place.

The operation principle of the utility model is：It is led using workpiece and two on the basis of based on electrochemical grinding processing technology The processing method that electric grinder rotates simultaneously realizes the processing of two-sided spill anti-pinch slot.The electrochemical grinding technology used is made with being electrolysed Based on, supplemented by mechanical grinding, the anode of workpiece connection electrolysis power, the cathode of two electric conducting grinding heads connection electrolysis powers, two A electric conducting grinding head symmetrically installs the workpiece anode surface generation anodic solution behind the both sides of workpiece, circuit conducting and one layer of generation is blunt Change film, the passivating film of workpiece surface is then removed by the ablation of two electric conducting grinding heads makes workpiece anode continue to dissolve, from And workpiece is made constantly to be processed, until being processed into required shape.For the ease of obtaining suitable mechanical grinding effect, can lead to The decrement of adjustment 4 basic performances and the spring of geometric parameter all same is crossed to realize.

Since the basis material of superthin diamond cutting blade is mostly carbon containing higher tool steel, processing production when electrochemical grinding Object is more, and for the ease of the discharge of electrolysate, workpiece and electric conducting grinding head take the flow direction rotation along electrolyte, i.e., workpiece and Left electric conducting grinding head is rotated clockwise in processing, and right electric conducting grinding head rotates counterclockwise in processing.

In conclusion the utility model has the following advantages compared with prior art：

1, the precision of the anti-clip slot after processing is high, and surface quality is good, and double-sided symmetrical is good.Using workpiece and two conductive mills The processing method of head rotation simultaneously, makes the uniform ablation in area to be machined, and process simultaneously to the both sides of workpiece, workpiece both sides institute The pressure from electric conducting grinding head received is of substantially equal, and the process of workpiece is stablized, and precision consistency is good, moreover, electrochemical grinding The loss of electric conducting grinding head is small in the process, and process costs are low.

2, the range of work is wide.The device of the utility model cannot be only used for the symmetrical of the anti-clip slot of superthin diamond cutting blade and add Work；Asymmetric processing can also be carried out to workpiece using different rotating speed and pressure to two electric conducting grinding heads；But also it can be with Device is used for the processing of single side thick-walled parts afterwards with minor modifications.

Description of the drawings

Fig. 1 is utility model device structural schematic diagram.

Fig. 2 is the schematic diagram that the utility model processes anti-clip slot.

Fig. 3 is the circuit diagram of utility model device.

Fig. 4 is the utility model grinding force loading unit schematic diagram.

Figure label title：1, workpiece；2, electric conducting grinding head；3, electrical feedthrough；4, fromer rail；5, front-slider；6, bistrique collet； 7, leading screw fixed seat；8, handwheel；9, right-handed nut's seat；10, two-way leading screw；11, guide rod；12, spring；13, bearing assembly； 14, rotary shaft；15, bearing assembly；16, rear slider；17, slider connecting plate；18, shaft coupling；19, motor；20, rear rail；21、 Left-handed nut seat；22, leading screw fixation kit；23, feed rod；24, feed rod fixation kit；25, fixed platform；26, live spindle； 27, clamp body；28, locking nut；29, feed rod fixation kit；30, electrolysis power；31, nozzle；32, anti-clip slot.

Specific implementation mode

The implementation of the utility model is described in further detail with reference to Fig. 1 to Fig. 4:One kind is ultra-thin for processing The electrochemical grinding device of the anti-clip slot of cutting piece made from diamond, including contain motor 19, shaft coupling 18, rotary shaft 14, bearing-bearing block Grinding rotary unit, fixed platform 25, the electrolysis electricity of component 13, bearing-bearing block assembly 15, bistrique collet 6 and electric conducting grinding head 2 Source 30, nozzle 31 and the piece-holder unit containing workpiece 1, live spindle 26, clamp body 27, locking nut 28, it is characterized in that： It further includes the electric conducting grinding head mobile guide containing fromer rail 4, rear rail 20, front-slider 5, rear slider 16, slider connecting plate 17 Unit, containing two-way leading screw 10, leading screw fixed seat 7 and leading screw fixed seat 22, handwheel 8, left-handed nut seat 21, right-handed nut seat 9, The grinding force loading unit of feed rod 23, feed rod fixation kit 24 and feed rod fixation kit 29, guide rod 11, spring 12.

Fromer rail 4, rear rail 20 are fixed in parallel to each other in fixed platform 25；Front-slider 5 and rear slider 16 respectively can It is slidably installed on fromer rail 4 and rear rail 20；Fixation is installed in 5 He of front-slider respectively for the rear and front end of slider connecting plate 17 The trend of slider connecting plate 17 on rear slider 16, and after fixing is vertical with the trend of fromer rail 4；Two-way leading screw 10 passes through leading screw Fixed seat 7 and leading screw fixed seat 22 are fixedly mounted in fixed platform 25；Handwheel 8 couples with the right end of two-way leading screw 10；It is two-way Leading screw 10 is placed between fromer rail 4 and rear rail 20, and the axis of two-way leading screw 10 and fromer rail 4 move towards parallel；Feed rod 23 Across left-handed nut seat 21 and right-handed nut's seat 9, and its both ends are fixed with feed rod fixation kit 24 and feed rod fixation kit 29 Connection；The axis of feed rod 23 is parallel with the axis of two-way leading screw 10；The trend of fromer rail 4 is parallel with the axis of live spindle 26； The axis of electric conducting grinding head 2 is vertical with the axis of live spindle 26；Left-handed nut seat 21 and right-handed nut seat 9 respectively with two-way leading screw 10 both ends are screw pair cooperation connection；2 guide rods 11 are fixedly mounted on left-handed nut seat 21 and right-handed nut's seat 9；Bullet 12 coaxial line of spring is socketed on guide rod 11；The other end of spring 12 is pressed on the side wall of slider connecting plate 17；Feed rod fixation group Part 24 and the fixation of feed rod fixation kit 29 are installed in fixed platform 25；Electric conducting grinding head 2 is 2, is symmetrically installed in 1 liang of workpiece Side, and two electric conducting grinding heads 2 is oppositely oriented.

Motor 19, shaft coupling 18, rotary shaft 14, bearing-bearing block assembly 13, bearing-bearing block assembly 15, bistrique collet 6, sequence coaxial line couples electric conducting grinding head 2 successively.

Grinding rotary unit be left and right two sets rotate independently of one another unit, often cover include motor 19, shaft coupling 18, Rotary shaft 14, bearing-bearing block assembly 13, bearing-bearing block assembly 15, bistrique collet 6 and electric conducting grinding head 2.

Rotary unit is ground to fix by internal bearing-bearing block assembly 13, bearing-bearing block assembly 15 and motor 19 It is installed on slider connecting plate 17.

Slider connecting plate 17 is 2.

Front-slider 5 and rear slider 16 are 2, can be moved freely on fromer rail 4 and rear rail 20 respectively.

Grinding rotary unit, slider connecting plate 17, front-slider 5 and rear slider 16 are fixedly connected as an entirety, and can be with It is moved left and right on fromer rail 4 and rear rail 20, this in the present apparatus is integrated with two sets of left and right, and independently of each other.

Left-handed nut seat 21 and right-handed nut's seat 9 limit rotation by two-way leading screw 10 and feed rod 23, can only be along two-way 10 axis direction of leading screw moves.

Two-way leading screw 10 rotates a circle, the amount of feeding phase of left-handed nut seat 21 and right-handed nut's seat 9 on two-way leading screw 10 Deng, and direction of feed is opposite.

Left-handed nut seat 21 and right-handed nut's seat 9 are screwed in from the left end and right end of two-way leading screw 10 respectively, when handwheel 8 drives When two-way leading screw 10 rotates clockwise, right-handed nut's seat 9 is moved to the left, left-handed nut seat 21 moves right, and the two is close；Work as hand When wheel 8 drives two-way leading screw 10 to rotate counterclockwise, right-handed nut's seat 9 moves right, left-handed nut seat 21 is moved to the left, and the two is remote From.

Electric conducting grinding head 2 applies the active force of workpiece 1 by compressed spring 12, specific as follows：The rotation of two-way leading screw 10 makes Left-handed nut seat 21 and right-handed nut's seat 9 and the spring 12 of their upper ends move together, due to slider connecting plate 17 and grinding Electric conducting grinding head 2 in rotary unit is fixedly connected, when spring 12 applies active force to slider connecting plate 17 also just indirectly to leading Electric grinder 2 applies active force, and electric conducting grinding head 2 is finally made to apply active force to workpiece 1.

Electric conducting grinding head 2 to the size of 1 active force of workpiece is adjusted by the compression deformation of spring 12, specific as follows： After the side wall of 12 contact slipper connecting plate 17 of spring, rotate two-way leading screw 10 can make spring 12 compress, at this time nut seat into It is exactly the decrement of spring 12 to amount, it is big to the active force of workpiece 1 to change electric conducting grinding head 2 by the amount of feeding for changing nut seat It is small.

For the ease of realizing that the pressure from electric conducting grinding head 2 suffered by 1 both sides of workpiece is of substantially equal, the basic nature of spring 12 It can be with geometric parameter all same.

For at work, nut seat does not generate friction force effect, left-handed nut seat 21 and right-handed nut with fixed platform 25 Seat 9 is not in contact with fixed platform.

Workpiece 1 connects the anode of electrolysis power 30, and two electric conducting grinding heads 2 connect the cathode of electrolysis power 30.

The material of clamp body 27 is electrically insulating material, so as to be the connection that is electrically insulated between workpiece 1 and live spindle 26.

Bistrique collet 6 is 2, and material is electrically insulating material, so that only 2 energy conducting electric current of electric conducting grinding head, avoids other portions Part is dissolved by galvano-cautery.

The abrading block external cylindrical surface and the finished surface of workpiece 1 of electric conducting grinding head 2 are tangent.

Nozzle is 2, the both sides of workpiece 1 is symmetrically positioned relative to workpiece 1, and tangent positioned at electric conducting grinding head 2 and workpiece 1 At the oblique upper 10mm at place.

For the ease of the exclusion of electrolysate, workpiece 1 and electric conducting grinding head 2 take the flow direction rotation along electrolyte, i.e. work Part 1 and left electric conducting grinding head 2 are rotated clockwise in processing, and right electric conducting grinding head 2 rotates counterclockwise in processing.

The utility model can execute according to the following steps, and the electrochemical grinding of anti-clip slot 32 is carried out to superthin diamond cutting blade Processing.

（1）Workpiece 1 is located in live spindle 26, mobile left grinding rotary unit makes outside the abrading block of left electric conducting grinding head 2 Cylindrical surface and the left side of workpiece 1 are tangent, and mobile right grinding rotary unit makes the abrading block external cylindrical surface and workpiece 1 of right electric conducting grinding head 2 The right side it is tangent.

（2）Rotate clockwise handwheel 8, until left-handed nut seat 21 and right-handed nut seat 9 on spring 12 respectively with left and right two 17 side wall of a slider connecting plate is in contact stopping.

（3）8 half-turn of handwheel is rotated clockwise again, and it is 3.2N, i.e. electric conducting grinding head 2 altogether to be computed two pressing force of the spring at this time It is 3.2N to the flexible force that 1 side of workpiece applies.

（4）Open electrolyte circulating filtration unit, the NaNO that temperature is 25 degree, mass fraction is 20%₃Electrolyte respectively from Two impacts of nozzle 31 enter between left electric conducting grinding head 2 and the gap of workpiece 1, between right electric conducting grinding head 2 and the gap of workpiece 1.

（5）Opening motor 19 drives left electric conducting grinding head 2 and workpiece 1 to rotate clockwise, right electric conducting grinding head 2 rotates counterclockwise, The rotating speed of electric conducting grinding head 2 is adjusted to 2000r/min, and the rotating speed of workpiece 1 is adjusted to 1.5r/min；Open simultaneously electrolysis power 30, voltage It is adjusted to 20V, starts to process, stops processing after 1min to be processed.

Claims (10)

1. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade, including contain motor（19）, shaft coupling Device（18）, rotary shaft（14）, bearing-bearing block assembly 13, bearing-bearing block assembly 15, bistrique collet（6）And electric conducting grinding head （2）Grinding rotary unit, fixed platform（25）, electrolysis power（30）, nozzle（31）With contain workpiece（1）, live spindle （26）, clamp body（27）, locking nut（28）Piece-holder unit, it is characterized in that：It further includes containing fromer rail（4）, after Guide rail（20）, front-slider（5）, rear slider（16）, slider connecting plate（17）Electric conducting grinding head mobile guide unit, contain two-way silk Thick stick（10）, leading screw fixed seat（7）With leading screw fixed seat（22）, handwheel（8）, left-handed nut seat（21）, right-handed nut seat（9）, light Thick stick（23）, feed rod fixation kit（24）With feed rod fixation kit（29）, guide rod（11）, spring（12）Grinding force load it is single Member；The fromer rail（4）, rear rail（20）It is fixed on fixed platform in parallel to each other（25）On；The front-slider（5）With Rear slider（16）Respectively slidably it is installed in fromer rail（4）And rear rail（20）On；The slider connecting plate（17）Before Fixation is installed in front-slider respectively at both ends afterwards（5）And rear slider（16）On, and the slider connecting plate after fixing（17）Trend with Fromer rail（4）Trend it is vertical；The two-way leading screw（10）Pass through leading screw fixed seat（7）With leading screw fixed seat（22）Fixed peace Mounted in fixed platform（25）On；The handwheel（8）With two-way leading screw（10）Right end connection；The two-way leading screw（10）It sets In fromer rail（4）And rear rail（20）Between, and two-way leading screw（10）Axis and fromer rail（4）Move towards parallel；Described Feed rod（23）Across left-handed nut seat（21）With right-handed nut's seat（9）, and its both ends respectively with feed rod fixation kit（24）With Feed rod fixation kit（29）It is fixedly connected；The feed rod（23）Axis and two-way leading screw（10）Axis it is parallel；Described Fromer rail（4）Trend and live spindle（26）Axis it is parallel；The electric conducting grinding head（2）Axis and live spindle（26） Axis it is vertical；The left-handed nut seat（21）With right-handed nut's seat（9）Respectively with two-way leading screw（10）Both ends be spiral Pair cooperation connection；The left-handed nut seat（21）With right-handed nut's seat（9）On 2 guide rods are fixedly mounted（11）；It is described Spring（12）Coaxial line is socketed in guide rod（11）On；The spring（12）The other end be pressed in slider connecting plate（17）'s On side wall；The feed rod fixation kit（24）With feed rod fixation kit（29）Fixation is installed in fixed platform（25）On；It is described Electric conducting grinding head（2）It is two, symmetrically installs in workpiece（1）Both sides, and two electric conducting grinding heads（2）It is oppositely oriented.

2. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The motor（19）, shaft coupling（18）, rotary shaft（14）, bearing-bearing block assembly（13,15）, bistrique collet （6）, electric conducting grinding head（2）Sequence coaxial line couples successively.

3. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：Bearing-bearing block assembly 13, bearing-bearing block assembly 15 and the motor（19）It is fixed to be installed in sliding block company Fishplate bar（17）On.

4. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The bistrique collet（6）Material be electrically insulating material.

5. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The electric conducting grinding head（2）Abrading block external cylindrical surface and workpiece（1）Finished surface it is tangent.

6. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The workpiece（1）With the left electric conducting grinding head（2）It is rotated clockwise in processing, the right conductive mill Head（2）It is rotated counterclockwise in processing.

7. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The left-handed nut seat（21）With right-handed nut's seat（9）Not with fixed platform（25）It is in contact.

8. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The nozzle 31 is 2, relative to workpiece（1）It is symmetrically positioned workpiece（1）Both sides, and positioned at conductive mill Head（2）With workpiece（1）At 5 ~ 15mm of oblique upper of the tangent.

9. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The spring（12）It is 4, their basic performance and geometric parameter all same.

10. a kind of electrochemical grinding device for processing the anti-clip slot of superthin diamond cutting blade according to claim 1, It is characterized in that：The workpiece（1）With the live spindle（26）Couple for electrical isolation.