CN102848039B - Tool and fixture structure arranged on electric discharge machine for machining glass die punch - Google Patents

Abstract

The invention provides a tool and fixture structure arranged on an electric discharge machine for processing a glass die punch, belonging to tools and fixtures for processing a glass die. The electric discharge machine comprises a workpiece platform and an electric discharge machine head, wherein the tool and fixture structure for cooling the glass die punch and processing the bottom groove comprises a base, a rotary table angle adjusting mechanism, a rotary table, a magnetic platform, a punch limiting mechanism and an electrode connecting mechanism, wherein the base is arranged on the workpiece platform, and a cavity for adjusting a top block to move is arranged on the workpiece platform; a first shaft seat is formed at one end of the pedestal, a second shaft seat is formed at the other end of the pedestal, and a rotary shaft is arranged between the first shaft seat and the second shaft seat; the rotary table angle adjusting mechanism is arranged at one side of the base; one side of the rotary table passes through the rotary shaft, and is fixed to the rotary shaft; the magnetic platform is fixed to the upper part of the rotary table, and is provided with a magnet chamber in which an magnet is arranged; the punch limiting mechanism is arranged on the magnetic platform; and the electrode connecting mechanism is arranged above the electric discharge machine head and corresponds to the upper part of the magnetic platform. With the adoption of the tool and fixture structure, the processing quality can be ensured, the processing time is reduced, the working strength is reduced, and the fixture structure can be conveniently connected with the electric discharge machine head of the electric discharge machine, and is convenient for installing an electrode.

Description

Be disposed at the clamp structure of the glass mold drift processing use on electric discharge machine

Technical field

the invention belongs to the technical field of tooling clamps of glass mold processing use, be specifically related to a kind of clamp structure that is disposed at the glass mold drift processing use on electric discharge machine.

Background technology

as is known in the industry, drift is a vitals in complete glass mold, is as the just mould of type (also claiming blank) parison inner chamber of punching press Bottle & Can class, in press-and-blow process bottle process processed, matches with mouth mould, choma and blank mould.The function of drift is: first guarantee the moulding of glass container oral area, secondly by the frit of melting with the complete punching press of impact style to just mold cavity and valve head, to guarantee that follow-up blank is that blank mould blank to shaping mould molds glass container as bottle.

in order to improve the cooling velocity of glass mold drift and to increase the service life, therefore conventionally at the diapire of cooling chamber and the position of sidewall interfaces of glass mold drift, process cooling kerve, and why to process at this position cooling kerve, be because the thickness at this position is significantly thick than other position.

utilize known CNC milling machine or lathe processing linear shape or circular-arc cooling bath generally can not have technology barrier, but due to the particularity of glass mold punch shape, particularly cooling kerve is refraction shape, is therefore difficult to be competent at.To this, with rocking arm, (rocking arm can be X-axis at XZ and the tilted angle < transverse shifting of YZ plane to the common use of prior art, vertically move as Y-axis, tool motion direction is Z axis >) the common universal milling machine with cartesian coordinate effect process, specifically: glass mold drift is clamped by the scroll chuck on the workbench of milling machine or the clamping device that is similar to scroll chuck, adjust again the angle of milling machine spindle, make the tool motion direction of glass mold drift and milling machine form certain gradient, then first use drill bit drilling, to remove a large amount of blank allowances, with milling cutter, mill out cooling kerve again.

there are following two place's shortcomings in this processing mode: the one, because glass mold drift has interference effect to milling machine rocking arm, thereby the angle of milling machine spindle is difficult to meet the angle that milling cutter needs cooling kerve milling machining, deviation is larger, can undermine glass mold drift, and even cause and scrap when serious; The 2nd, operating efficiency is low, because adopt the cooling kerve required time of a glass mold of milling machine milling processing, is 3 days (every day is in 8h), and due to need be by workman's hand-guided in milling process, therefore workman's labour intensity be large.

adopt electric spark to process and at least there is the following strong point being not limited to cooling kerve: one, equipment price is cheap, because electric discharge machining apparatus is significantly lower than the price of universal milling machine; Its two, the process-cycle is short and be conducive to improve working (machining) efficiency; Its three, workman's manipulation strength significantly reduces; Its four, crudy is ensured.But, as aforementioned, due to the position of glass mold punch shape, cooling kerve and the characteristic of shape, be therefore necessary for electric discharge machining apparatus and be equipped with the frock clamp structure that makes the variation of glass mold drift angle and location etc.

for frock clamp, as the industry's knowledge of the reason, it refers to for workpiece being clamped or located in machining uses the special equipment or the instrument that reach certain technological requirement, conventionally need to meet at product and add man-hour without the requirement such as interference, accurate positioning be reliable and easy to operate.Because frock clamp has the exclusive feature to processing a certain class or a certain product, therefore generalization degree is very low, often by producing the manufacturer of the product mode self manufacture to cut the garment according to the figure, for being put to electric discharge machining apparatus, that the cooling kerve of glass mold drift is added to clamping apparatus man-hour glass mold drift being clamped is no exception.

the applicant has carried out literature search, but in published domestic and abroad patent and non-patent literature, is showed no all being able to good fit and can guarantee the diapire surrounding of cooling chamber to process the technology enlightenment of cooling kerve to glass mold drift and electric discharge machining apparatus (abbreviation electric discharge machine).For this reason, the applicant has done long-term exploration and design, finally finds a way to resolve the problem, and has formed technical scheme described below.

Summary of the invention

task of the present invention is to provide a kind of and contributes to meet location to glass mold drift and angle and change and require and use and ensure the crudy of electric discharge machine to cooling kerve and shorten process time and alleviate the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine of operator's manipulation strength.

task of the present invention completes like this, a kind of clamp structure of glass mold drift processing use, described electric discharge machine comprises work piece platform and the electric spark head corresponding to work piece platform top, the clamp structure of described glass mold drift processing use comprises a pedestal, this pedestal is fixed in described work piece platform movably, on this pedestal, offer a jacking block and move cavity, and back to one end of operator's one side, form and have the one first surperficial axle bed that is projected on pedestal under this pedestal use state, and the other end forms to have and is projected on equally the surperficial of pedestal and one second axle bed that position is corresponding with the first axle bed, between the first axle bed and the second axle bed, be provided with rotationally single-revolution axle, single-revolution platform angle-adjusting mechanism, this panoramic table angle-adjusting mechanism is arranged under described pedestal use state the side towards operator, and to move cavity corresponding with described jacking block, be shelved on the single-revolution platform on described panoramic table angle-adjusting mechanism, this panoramic table is set on gyroaxis towards a side of described gyroaxis, and fixes with gyroaxis, one magnetic platform, this magnetic platform is fixed on the top of described panoramic table, and this magnetic platform has a magnet chamber, in this magnet chamber, is provided with a magnet, one drift position-limit mechanism, this drift position-limit mechanism is arranged on described magnetic platform, and leans out the upper edge of a side of the length direction of magnetic platform and the upper edge of a side of width, one electrode bindiny mechanism, this electrode bindiny mechanism is fixed on described electric spark head movably, and corresponding to the top of described magnetic platform.

in a specific embodiment of the present invention, in described work piece platform and the length direction that is positioned at work piece platform form and have T shape screw slot from one end to the other side, at the two ends of described pedestal and be respectively equipped with one corresponding to the position of T shape screw slot for by pedestal and the fixing base fixing mechanism of T shape screw slot.

in another specific embodiment of the present invention, described panoramic table angle-adjusting mechanism comprises adjusts handle and panoramic table jacking block, adjusting handle is bearing on described pedestal rotationally, pedestal side towards operator under use state is stretched out in one end of this adjustment handle, and the other end of adjusting handle is configured to spiro rod section, this spiro rod section probes into described jacking block and moves in cavity, the lower end of panoramic table jacking block and spiro rod section threaded engagement, and upper end leans out jacking block, move cavity, described panoramic table is shelved on the upper end of panoramic table jacking block.

in another specific embodiment of the present invention, at described gyroaxis, on the end face of described first axle bed one end, be fixed with an angle indicating dial, on this angle indicating dial, be provided with an arrow, and on the first axle bed and be provided with angle index line corresponding to the position of angle indicating dial.

in another specific embodiment of the present invention, at described panoramic table, towards a side of described gyroaxis, form shaft hole once, this gyroaxis borehole jack is put on gyroaxis, and the two ends at the length direction of this revolution axis hole respectively offer a fixing screw hole, on each fixing screw hole, be equipped with one for by panoramic table and gyroaxis is fixed and drive the rotating hold-down screw of gyroaxis by panoramic table.

of the present invention, also have in a specific embodiment, described drift position-limit mechanism comprises L shaped baffle plate and one group of baffle plate adjustment screw, the long limit of L shaped baffle plate corresponding to described magnetic platform towards a side of described electric spark head and lean out the upper edge of magnetic platform, and the minor face of L shaped baffle plate corresponding to magnetic platform towards a side of described the first axle bed and lean out equally the upper edge of magnetic platform, on L shaped baffle plate, with interval state, offer one group of baffle plate adjustment tank, the quantity that baffle plate is adjusted screw equates with the quantity of baffle plate adjustment tank, and fix with the magnetic platform screw hole being opened on magnetic platform in the position corresponding to each baffle plate adjustment tank.

more of the present invention and in a specific embodiment, described electrode bindiny mechanism comprises connecting rod of support, the first lock-on connection, the second lock-on connection, tranverse connecting rod, horn connecting rod and electrode fixed arm, connecting rod of support is fixed with longitudinal state and described electric spark head, the first locked joints is the level of state and fixes with connecting rod of support, one end of tranverse connecting rod is connected with the first lock-on connection, the other end is connected with the second lock-on connection, the second lock-on connection is connected with the upper end of horn connecting rod with level, horn connecting rod is longitudinal setting, electrode fixed arm is with level setting, one end of this electrode fixed arm and horn connecting rod are fixed, the other end is equipped with one and fixes for the electrode attachment screw being connected with electrode.

in of the present invention and then a specific embodiment, described base fixing mechanism comprises briquetting, T shape screw rod and lock nut, the upper end of T shape screw rod is connected with briquetting and leans out briquetting, match with described T shape screw slot in lower end, briquetting hook is put on described pedestal, and lock nut screws the upper end at T shape screw rod.

of the present invention, more, in a specific embodiment, at described pedestal, on the wall body of described the first axle bed one side, be fixed with one end of an arc brace again, and the other end of this arc brace and described magnetic platform are fixed towards a side of the first axle bed.

in again of the present invention and then a specific embodiment, described arc brace offers an arc adjustment tank towards one end of described magnetic platform, is equipped with an adjustment tank screw in this arc adjustment tank, and this adjustment tank screw and magnetic platform are fixed.

technical scheme provided by the invention can make panoramic table drive the angle of inclination of the magnetic platform fixing with it to change by the operation to panoramic table angle-adjusting mechanism, and by magnet, glass mold drift is held and spacing to glass mold drift by drift position-limit mechanism, thereby location and the angle that can meet the glass mold drift being opposite on magnetic platform change requirement, guarantee, by the crudy of cooling kerve of cooling chamber that is located at the electrode pair glass mold drift in electrode bindiny mechanism, to shorten process time; Because operator is easy to operate to panoramic table angle-adjusting mechanism, thereby can alleviate working strength; Electrode bindiny mechanism can be connected with the electric spark head of electric discharge machine easily, and power pole is installed easily again.

Accompanying drawing explanation

fig. 1 is embodiments of the invention structure chart.

fig. 2 is the cutaway view of Fig. 1.

fig. 3 is the schematic diagram of the glass mold drift shown in Fig. 2.

The specific embodiment

refer to Fig. 1 and Fig. 2, because electric discharge machine belongs to known technology, therefore applicant has only provided work piece platform 1 and the electric spark head 2 of electric discharge machine in the drawings, in work piece platform 1, forms and has the T shape screw slot 11 connecting from one end of work piece platform 1 to the other end.

as the technical essential of technical scheme provided by the invention, provided the pedestal 3 of the clamp structure of glass mold drift processing use, on this pedestal 3 and the middle position that is positioned at substantially pedestal 3 offer a jacking block and move cavity 31, under pedestal 3 use states back to operator's a side or claim to form towards one end of a side of electric spark head 2 and have an one first surperficial axle bed 32 that is projected on pedestal 3, and the other end same form have one to be projected on the surperficial of foundation base 3 and the second axle bed 33 that position is corresponding with the first pedestal 32.One end of single-revolution axle 34 is bearing on the first axle bed 32 rotationally, and the other end is bearing on the second axle bed 33 rotationally.Shown in figure, at gyroaxis 34, on the end face of first axle bed 32 one end, be fixed with one with the rotating angle indicating dial 341 of gyroaxis 34, specifically: in the middle position of the end face of gyroaxis 34, offer an indicating dial fixing screw hole 342, and in the middle position of angle indicating dial 341, offer a screwing through hole 3412, through screwing through hole 3412, screw in indicating dial fixing screw hole 342 with indicating dial hold-down screw 3413, thereby angle indicating dial 341 and gyroaxis 34 are fixed towards the end face of first axle bed 32 one end.On the first axle bed 32 and be provided with angle index line 321 corresponding to the position of angle indicating dial 341, and on angle indicating dial 341, be provided with arrow 3411.When gyroaxis 34 turns round, drive angle indicating dial 341 to turn round, its revolution degree is that angle of revolution is disclosed by arrow 3411 and the correspondence position of angle index line 321.That is to say, arrow 3411 is in alignment with a certain scale of angle index line, and surperficial gyroaxis 34 has turned round corresponding angle.

if by angle indicating dial 341 regularly gyroaxis 34 on the end face of one end of the second axle bed 33, and angle index line 321 is arranged on the second axle bed 33, so certainly should be considered as equivalence and substitutes and still belong to technology contents category disclosed by the invention.Again, if at gyroaxis 34 towards the same fixed angle indicating dial 341 in one end of the second axle bed 33 and on the second axle bed 33, angle index line is set equally, should be considered as so and technology contents equivalence disclosed by the invention, still belong to the present invention program's category.

at the two ends of aforesaid pedestal 3, be respectively equipped with the identical base fixing mechanism 35 of a structure, preferably but not the base fixing mechanism 35 being definitely limited to comprises briquetting 351, T shape screw rod 352 and lock nut 353, briquetting 35 hooks are put the marginal position of hanging at pedestal 3, the upper end of T shape screw rod 352 is connected with briquetting 351 and leans out briquetting 351, and match with T shape screw slot 11 in the lower end of T shape screw rod 352 in aforesaid T shape screw slot 11, lock nut 353 screws the end that leans out briquetting 351 at T shape screw rod 352.When clockwise turn lock nut 353, the lower end of T shape screw rod 352 and T shape screw slot 11 are close to, thereby briquetting 351 is limited in work piece platform 1 reliably, vice versa.

the panoramic table angle-adjusting mechanism 4 providing comprises an adjustment handle 41 and single-revolution platform jacking block 42, adjusting handle 41 is bearing on pedestal 3 rotationally in the position of moving cavity 31 corresponding to aforesaid jacking block, pedestal 3 side towards operator under use state is stretched out in one end of this adjustment handle 41, certainly, if the surface of position at operator place, to aforesaid angle indicating dial 341, can change the statement of one end of adjustment handle 41 to stretch out pedestal 3 right side towards operator under use state into so.Adjust the other end of handle 41 and be configured to spiro rod section 411, this spiro rod section 411 probes into and is positioned at jacking block and moves cavity 31.Matching with spiro rod section 411 by the screw 421 on it in the lower end of panoramic table jacking block 42, and the upper end of panoramic table jacking block 42 leans out jacking block, moves cavity 31.Preferably, the upper end of panoramic table jacking block 42 is designed to parabola, to reduce friction or claim to reduce the contact area between the panoramic table 5 that will describe below.In the present embodiment, the upper end of panoramic table jacking block 42 is configured to tubular body.

aforesaid panoramic table 5 is shelved on the upper end of aforesaid panoramic table jacking block 42 towards the bottom surface of a side of panoramic table angle-adjusting mechanism 4, and panoramic table 5 has revolution axis hole 51 towards a side formation of gyroaxis 34, this revolution axis hole 51 is nested with on gyroaxis 34, and the two ends at the length direction that turns round axis hole 51 respectively offer a fixing screw hole 511, on each fixing screw hole 511, be equipped with one and use by panoramic table 5 and drive the rotating hold-down screw 5111 of gyroaxis 34 for panoramic table 5 and gyroaxis 34 are fixed.

when operator operates the adjustment handle 41 of panoramic table angle-adjusting mechanism 4, for example, when adjusting handle 41 and rotating to clockwise direction, drive the direction displacement of panoramic table jacking block 42 to gyroaxis 34, thereby by panoramic table jacking block 42, panoramic table 5 is lifted towards a side of panoramic table jacking block 42, and because panoramic table 5 is fixing with gyroaxis 34, therefore by panoramic table 5, drive gyroaxis 34 to rotate corresponding angle, specifically by arrow 3411 and the correspondence position of angle index line 321, disclosed.Otherwise when operator adjusts handle 41 with counter clockwise direction turn, panoramic table 5 reduces towards a side of panoramic table jacking block 42.This is to have an inclined-plane 52 because the bottom of panoramic table 5 forms, particularly, the thickness of panoramic table 5 from panoramic table jacking block 42 towards the thickening gradually of the direction away from panoramic table jacking block 42.

on the magnetic platform 6 providing, offer one group of (the present embodiment is four) magnetic platform fixing screw hole 63, on each magnetic platform fixing screw hole 63, be equipped with a magnetic platform hold-down screw 631, magnetic platform hold-down screw 631 is fixed with the fixing hole 53 being opened on aforesaid panoramic table 5.Magnetic platform 6 forms and has a magnet chamber 61 towards a upper side, is provided with a magnet 611 in magnet chamber 61.

the drift position-limit mechanism 7 providing comprises L shaped baffle plate 71 and one group of baffle plate adjustment screw 72, and according to common practise, the length on two limits of " L " is different, and one is long limit, and another is minor face.Therefore the long limit of L shaped baffle plate 71 corresponding to magnetic platform 5 towards a side of electric spark head 2 and lean out the upper edge of magnetic platform 6, and the minor face of L shaped baffle plate 71 corresponding to magnetic platform 6 towards a side of the first axle bed 32 and lean out equally the upper edge of magnetic platform 6.On L shaped baffle plate 71, with interval state, offer one group of baffle plate adjustment tank 711, the quantity that baffle plate is adjusted screw 72 equates with the quantity of baffle plate adjustment tank 711, be in each baffle plate adjustment tank 711, to distribute a baffle plate to adjust screw 72, each baffle plate adjust screw 72 be preset on magnetic platform 6 and position and the corresponding magnetic platform screw hole 62 of baffle plate adjustment tank 711 fix.Shown in figure, when glass mold drift 9(Fig. 2 and Fig. 3 show) while being placed on magnet 611, can be spacing by drift position-limit mechanism 7, to avoid occurring the situation of landing at magnetic platform 6 in glass mold drift 9 when the direction of electric spark head 2 tilts.

please still see Fig. 1 and Fig. 2, the electrode bindiny mechanism 8 providing comprises connecting rod of support 81, first, the second lock-on connection 82, 84, tranverse connecting rod 83, horn connecting rod 85 and electrode fixed arm 86, connecting rod of support 81 is fixing with longitudinal state and aforesaid electric spark head 2, that is to say with longitudinal cantilever position and electric spark head 2 fixing, the first locked joints 82 is fixing with level and connecting rod of support 81 by chuck 821, one end of tranverse connecting rod 83 is fixedly connected with the first lock-on connection 82, and the other end is fixedly connected with the second lock-on connection 84, the second lock-on connection 84 passes through clipper joint 841 and is connected with the upper end of horn connecting rod 85 with level, and limited by nut 842.Horn connecting rod 85 is longitudinal setting, and electrode fixed arm 86 is with level setting, and the lower end of one end of this electrode fixed arm 86 and horn connecting rod 85 fixes, and the other end is equipped with an electrode attachment screw 861.For the ease of the public's understanding, applicant has illustrated electrode 10 in the drawings, and this electrode 10 is connected by electrode attachment screw 861.

at pedestal 3, on the wall body of the first axle bed 32 1 sides, with arc brace hold-down screw 362, be fixed with one end of an arc brace 36, and the other end of arc brace 36 offers an arc adjustment tank 361, position that should arc adjustment tank 361 is being equipped with to an adjustment tank screw 3611, and adjustment tank screw 3611 is with to be preset in aforementioned magnetic platform 6 fixing towards the screw 64 of a side of the first axle bed 32.

make the inclined degree of panoramic table 5 regulate when the description by above applicant after, just that arc brace hold-down screw 362 is fixing with screw 64, to fully make magnetic platform 6 remain on the state after being adjusted by reversing frame angle-adjusting mechanism 4.

ask for an interview Fig. 3 and continue in conjunction with Fig. 1 and Fig. 2, the upper edge of the glass mold drift 9 of Fig. 3 signal offers and connects screwed hole 91 with interval state, at the diapire of cooling chamber 92 and the position of sidewall interfaces of glass mold drift 9, with electrode corrosion mode or title spark machined mode, is processed with cooling kerve 921.

when to process shown in Fig. 3 cooling kerve 921 time, glass mold drift 9 is placed on magnet 611, by magnet 611, it is held, electrode 10 is installed on the electrode fixed arm 86 of aforesaid electrode bindiny mechanism 8, specifically, fixing with electrode 10 by the electrode attachment screw 861 on electrode fixed arm 86, if first spark machined is carried out in the long limit of cooling kerve 921, the length of the length of electrode 10 and cooling kerve 921 adapts so.By the operation to panoramic table angle-adjusting mechanism 4, panoramic table 5 is tilted towards the direction of gyroaxis 34 together with magnetic platform 6, until the position that the diapire of electrode 10 and cooling chamber 92 has a common boundary with sidewall contact, and locks arc brace 36, namely adjustment tank screw 3611 and screw 64 are fixed.Electric discharge machine is in running order, is processed the cooling kerve 921 of bottom one side of cooling chamber 92 by electrode 10, after kerve 921 completion of processing of this side, glass mold drift 9 is turned over to 180 °, the cooling kerve 921 of processing opposite side.When changing the electrode 10 adapting with the length of short side direction after cooling kerve 921 completion of processing of corresponding both sides, the minor face position of the diapire to cooling chamber 92 processes cooling kerve 921.Due between the cooling kerve 921 of long side direction and the cooling kerve 921 of short side direction by groove angle 9211 transition, and in the process of the cooling kerve 921 of processing, there is blind area in the position of groove angle 9211, therefore changes the electrode 10 just as bullet-shaped of being illustrated by Fig. 2 to tetra-grooves of groove angle 9211() carry out electrode processing.

through contrast, utilizing the cooling chamber 921 of the glass mold drift 9 of milling machine to same size to process identical cooling kerve 921 required times is 3 days (every day was in 8 hours), and utilize structure of the present invention to process, only need 1 day on electric discharge machine, therefore can significantly improve the working (machining) efficiency to cooling kerve 921, and workman is easy to operate.

Claims (10)

1. a kind of clamp structure that is disposed at the glass mold drift processing use on electric discharge machine, described electric discharge machine comprises work piece platform (1) and the electric spark head (2) corresponding to work piece platform (1) top, the clamp structure that it is characterized in that described glass mold drift processing use comprises a pedestal (3), this pedestal (3) is fixed in described work piece platform (1) movably, on this pedestal (3), offer a jacking block and move cavity (31), and back to one end of operator's one side, form and have the one first surperficial axle bed (32) that is projected on pedestal (3) under this pedestal (3) use state, and the other end forms to have and is projected on equally the surperficial of pedestal (3) and one second axle bed (33) that position is corresponding with the first axle bed (32), between the first axle bed (32) and the second axle bed (33), be provided with rotationally single-revolution axle (34), single-revolution platform angle-adjusting mechanism (4), this panoramic table angle-adjusting mechanism (4) is arranged under described pedestal (3) use state the side towards operator, and to move cavity (31) corresponding with described jacking block, be shelved on the single-revolution platform (5) on described panoramic table angle-adjusting mechanism (4), it is upper that this panoramic table (5) is set in gyroaxis (34) towards a side of described gyroaxis (34), and fixing with gyroaxis (34), one magnetic platform (6), this magnetic platform (6) is fixed on the top of described panoramic table (5), and this magnetic platform (6) has a magnet chamber (61), in this magnet chamber (61), be provided with a magnet (611), one drift position-limit mechanism (7), it is upper that this drift position-limit mechanism (7) is arranged on described magnetic platform (6), and lean out the upper edge of a side of the length direction of magnetic platform (6) and the upper edge of a side of width, one electrode bindiny mechanism (8), it is upper that this electrode bindiny mechanism (8) is fixed on described electric spark head (2) movably, and corresponding to the top of described magnetic platform (6).

2. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, the length direction that it is characterized in that described work piece platform (1) is upper and be positioned at work piece platform (1) forms the T shape screw slot (11) having from one end to the other side, at the two ends of described pedestal (3) and be respectively equipped with one corresponding to the position of T shape screw slot (11) for by base fixing mechanism (35) fixing to pedestal (3) and T shape screw slot (11).

3. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, it is characterized in that described panoramic table angle-adjusting mechanism (4) comprises adjustment handle (41) and panoramic table jacking block (42), adjusting handle (41) is bearing on described pedestal (3) rotationally, pedestal (3) side towards operator under use state is stretched out in one end of this adjustment handle (41), and the other end of adjusting handle (41) is configured to spiro rod section (411), this spiro rod section (411) probes into described jacking block and moves in cavity (31), the lower end of panoramic table jacking block (42) and spiro rod section (411) threaded engagement, and leaning out jacking block, upper end moves cavity (31), described panoramic table (5) is shelved on the upper end of panoramic table jacking block (42).

4. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, it is characterized in that being fixed with on the end face of described the first axle bed (32) one end at described gyroaxis (34) an angle indicating dial (341), on this angle indicating dial (341), be provided with an arrow (3411), and go up and be provided with angle index line (321) corresponding to the position of angle indicating dial (341) at the first axle bed (32).

5. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, it is characterized in that towards a side of described gyroaxis (34), forming shaft hole (51) once at described panoramic table (5), this revolution axis hole (51) is nested with on gyroaxis (34), and respectively offer a fixing screw hole (511) at the two ends of the length direction of this revolution axis hole (51), on each fixing screw hole (511), be equipped with one for panoramic table (5) and gyroaxis (34) are fixed and driven the rotating hold-down screw of gyroaxis (34) (5111) by panoramic table (5).

6. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, it is characterized in that described drift position-limit mechanism (7) comprises L shaped baffle plate (71) and one group of baffle plate adjustment screw (72), the long limit of L shaped baffle plate (71) corresponding to described magnetic platform (6) towards a side of described electric spark head (2) and lean out the upper edge of magnetic platform (6), and the minor face of L shaped baffle plate (71) corresponding to magnetic platform (6) towards a side of described the first axle bed (32) and lean out equally the upper edge of magnetic platform (6), at L shaped baffle plate (71), above with interval state, offer one group of baffle plate adjustment tank (711), the quantity that baffle plate is adjusted screw (72) equates with the quantity of baffle plate adjustment tank (711), and fix with the magnetic platform screw hole (62) being opened on magnetic platform (6) in the position corresponding to each baffle plate adjustment tank (711).

7. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, it is characterized in that described electrode bindiny mechanism (8) comprises connecting rod of support (81), the first lock-on connection (82), the second lock-on connection (84), tranverse connecting rod (83), horn connecting rod (85) and electrode fixed arm (86), connecting rod of support (81) is fixing with longitudinal state and described electric spark head (2), the first locked joints (82) is the level of state fixing with connecting rod of support (81), one end of tranverse connecting rod (83) is connected with the first lock-on connection (82), the other end is connected with the second lock-on connection (84), the second lock-on connection (84) is connected with the upper end of horn connecting rod (85) with level, horn connecting rod (85) is longitudinal setting, electrode fixed arm (86) is with level setting, one end of this electrode fixed arm (86) and horn connecting rod (85) are fixing, the other end is equipped with one and fixes for the electrode attachment screw (861) being connected with electrode.

8. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 2, it is characterized in that described base fixing mechanism (35) comprises briquetting (351), T shape screw rod (352) and lock nut (353), the upper end of T shape screw rod (352) is connected with briquetting (351) and leans out briquetting (351), match with described T shape screw slot (11) in lower end, briquetting (351) hook is put on described pedestal (3), lock nut (353) screws the upper end at T shape screw rod (352).

9. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 1, it is characterized in that being fixed with on the wall body of described the first axle bed (32) one sides at described pedestal (3) one end of an arc brace (36), and the other end of this arc brace (36) and described magnetic platform (6) are fixed towards a side of the first axle bed (32).

10. the clamp structure that is disposed at the glass mold drift processing use on electric discharge machine according to claim 9, it is characterized in that described arc brace (36) offers an arc adjustment tank (361) towards one end of described magnetic platform (6), in this arc adjustment tank (361), be equipped with an adjustment tank screw (3611), this adjustment tank screw (3611) is fixing with magnetic platform (6).

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