CN208629696U - A kind of double-station silicon crystal bar cutting rotary table - Google Patents

Abstract

The utility model relates to a kind of double-station silicon crystal bars to cut rotary table, including workbench, swing mechanism and driving mechanism；For workbench tool there are two clamping station, clamping station is symmetrically disposed on the two sides of workbench；Swing mechanism includes live spindle, bearing and rotation gear, and bearing and rotation gear are sheathed on outside live spindle；Driving mechanism includes telescoping mechanism and driving rack, and driving rack is engaged with rotation gear, and telescopic end and the driving rack of telescoping mechanism are fixed, and the collapsing length of telescopic end is the half for rotating gear perimeter；Workbench is fixedly connected with live spindle.The utility model has the advantage of the position switchings that can be realized two clamping stations on workbench, bar cutting carries out simultaneously with loading and unloading, cutting area is without waiting for the loading and unloading time, improve production efficiency, cost of labor is saved, change the scheme that the structures such as original servomotor, gear reducer execute revolution work, reduces production cost, improve the competitiveness of product in market.

Description

A kind of double-station silicon crystal bar cutting rotary table

Technical field

The utility model relates to hard and brittle material cutting technology field more particularly to a kind of double-station silicon crystal bar cutting revolution works Make platform.

Background technique

With attention and opening that society utilizes green regenerative energy sources, photovoltaic solar power field is increasingly obtained Pay attention to and develops.In photovoltaic solar power field, common crystal silicon solar energy battery be made of the high quality silicon on piece, This silicon wafer is formed from the silicon rod after lifting or casting by diamond wire saw cut.

Currently, the silicon crystal bar process equipment sold, used in the market, is mostly to need first to carry out on silicon crystal bar in workbench Expect work, bar is then fed into Working position, finally silicon wafer bar is processed in progress saw blade cutting.However it uses This operation mode, when carrying out feeding and feeding transmission process, saw blade cutting mechanism needs to wait the set-up time of bar, Working efficiency is more low, and cost of labor is higher.

This programme is solved the above problems by using double-station rotary table.Understand according to market survey, currently on the market And there is no the double-station rotary tables dedicated for silicon crystal bar cutting processing, and only exist for silicon single crystal rod evolution Revolving platform drives revolving platform own rotation, and then automatical and efficient reality by servo motor, decelerating motor combination Worm Wheel System Existing silicon single crystal rod waits for the rotation adjustment in evolution face, but drives revolving platform to rotate using servo motor and speed reducer, equipment Manufacturing cost is high, and user's use cost is excessively high, market competitiveness wretched insufficiency.

Summary of the invention

For this reason, it may be necessary to provide a kind of double-station silicon crystal bar cutting rotary table, cut to solve silicon crystal bar in the prior art Low efficiency is cut, high labor cost, equipment production and application is at high cost, competes hypodynamic problem.

To achieve the above object, a kind of double-station silicon crystal bar cutting rotary table is inventor provided, including workbench, Swing mechanism and driving mechanism；

For the workbench tool there are two clamping station, the clamping station is symmetrically disposed on the two sides of workbench；

The swing mechanism includes live spindle, bearing and rotation gear, and the bearing and rotation gear are sheathed on rotation Turn outside main shaft；

The driving mechanism includes telescoping mechanism and driving rack, and the driving rack is engaged with rotation gear, described to stretch The telescopic end of contracting mechanism is fixed with driving rack, and the collapsing length of the telescopic end is the half for rotating gear perimeter；

The workbench is fixedly connected with live spindle.

It further include positioning buffer gear as a kind of preferred structure of the utility model, the positioning buffer gear includes Rotational positioning block and buffer bar, the rotational positioning block are fixed in live spindle, and rotational positioning block and live spindle link, institute Stating buffer bar is two, and two buffer bars are symmetrical arranged along live spindle, and buffer bar is located on the path of rotational positioning block movement, When the telescopic end of telescoping mechanism moves to range and minimum stroke, two buffer bars respectively with rotational positioning block Against.

As a kind of preferred structure of the utility model, the buffer bar includes Limit screw, spring and mandril, the limit Position screw rod has accommodating cavity, is provided with spring in the accommodating cavity, described mandril one end and spring are against the other end of mandril can With rotational positioning block against.

As a kind of preferred structure of the utility model, the buffer bar further includes adjusting nut, the adjusting nut set Set on the outside of Limit screw, by being threadedly engaged between adjusting nut and Limit screw.

As a kind of preferred structure of the utility model, the rotational positioning block includes socket part and limiting section, the limit Position portion is fixed on the side wall of socket part, the socket part be arranged with outside live spindle, and with live spindle link.

As a kind of preferred structure of the utility model, the driving mechanism further includes rack fixing seat, and the rack gear is solid Reservation is sheathed on rotation gear exterior, and rack fixing seat opens up on the rack fixing seat with teeth not with rotation Gear Contact Sliding rail, the driving rack are located in rack gear sliding rail, and driving rack is engaged with the rotation gear being located inside rack fixing seat.

As a kind of preferred structure of the utility model, the rotational positioning block is located inside rack fixing seat, the tooth Buffer bar accommodating hole is offered on the side wall of fixing seat, the adjusting nut of the buffer bar is fixed on buffer bar accommodating hole.

It further include electromagnetism locked mechanism as a kind of preferred structure of the utility model, the electromagnetism locked mechanism includes Mounting rack and electromagnetism locking lever, the electromagnetism locking lever include electromagnet and adjusting rod, and the adjusting rod is fixed on mounting rack, The electromagnet is set to one end of adjusting rod, and the electromagnetism locking lever is two, and two electromagnetism locking levers are located at rotational positioning On the path of block movement, when the telescopic end of telescoping mechanism moves to range and minimum stroke, two electromagnetic locks The electromagnet of solid rod respectively with rotational positioning block against.

As a kind of preferred structure of the utility model, the telescoping mechanism is cylinder, hydraulic cylinder or linear motor, The length of the telescopic rod of the cylinder, hydraulic cylinder or linear motor is greater than the half of rotation gear perimeter.

As a kind of preferred structure of the utility model, clamp system, the clamping are additionally provided in the clamping station Mechanism is set on the side plate of clamping station, and clamp system is used for silicon crystal bar to be cut.

It is different from the prior art, above-mentioned technical proposal has the advantages that the utility model double-station silicon crystal bar is cut back Revolving worktable drives driving rack to move along a straight line by telescoping mechanism, and driving rack and the cooperation of rotation gear will linear motions It is converted into rotary motion, drives live spindle rotation to drive workbench to rotate, and stretching by control telescoping mechanism telescopic end Contracting length is to rotate the half of gear perimeter, so that turntable carries out 180 ° of rotary motion, realizes two clamping work on workbench The position switching of position a, so that station when carrying out cutting, does not interfere another station operation of feeding and discharging, removes the bar cut Band cutting bar is put, bar cutting carries out simultaneously with loading and unloading, and cutting area greatly improves production without waiting for the loading and unloading time Efficiency has saved cost of labor, changes the scheme that the structures such as original servomotor, gear reducer execute revolution work, manufactures Cost decline up to 80%, greatly improves the competitiveness of product in market.

Detailed description of the invention

Fig. 1 is the strabismus structural representation that a kind of double-station silicon crystal bar of the utility model cuts one embodiment of rotary table Figure；

Fig. 2 be a kind of double-station silicon crystal bar of the utility model cut another embodiment of rotary table schematic front view it One；

Fig. 3 be a kind of double-station silicon crystal bar of the utility model cut another embodiment of rotary table schematic front view it Two；

Fig. 4 is the part-structure signal that a kind of double-station silicon crystal bar of the utility model cuts one embodiment of rotary table Figure；

Fig. 5 is the sectional structure signal that a kind of double-station silicon crystal bar of the utility model cuts one embodiment of rotary table Figure；

Fig. 6 is the section view for the plan structure that a kind of double-station silicon crystal bar of the utility model cuts one embodiment of rotary table Schematic diagram；

Fig. 7 is the oblique view of structural diagram of one embodiment of the present embodiment middle rack fixing seat；

Fig. 8 is the schematic view of the front view of one embodiment of the present embodiment middle rack fixing seat.

Description of symbols:

100, workbench；110, clamping station；

200, swing mechanism；210, live spindle；220, bearing；230；Rotate gear；240, rotary sleeve；250, upper axis Hold lid；260, lower ball cover；

300, driving mechanism；310, telescoping mechanism；311, telescopic rod；320, driving rack；

410, rotational positioning block；411, socket part；412, limiting section；

420, buffer bar；421, Limit screw；422, spring；423, mandril；424, adjusting nut；

500, Working gantry；

600, rack fixing seat；610, rack gear sliding rail；620, buffer bar accommodating hole；

700, electromagnetism locked mechanism；710, mounting rack；720, electromagnetism locking lever；721, electromagnet；722, adjusting rod；

800, clamp system；

900, more silicon crystal bars.

Specific embodiment

Technology contents, construction feature, the objects and the effects for detailed description technical solution, below in conjunction with specific reality It applies example and attached drawing is cooperated to be explained in detail.

Fig. 1 to Fig. 8 is please referred to, the utility model provides a kind of double-station silicon crystal bar cutting rotary table, including work Make platform 100, swing mechanism 200 and driving mechanism 300；

As shown in Figure 1.Clamping platform of the workbench 100 as silicon crystal bar, it is enterprising that silicon crystal bar is fixed on workbench 100 Row cutting processing.Specifically, the tool of workbench 100 is there are two clamping station 110, the clamping station 110 is symmetrically disposed on The two sides of workbench 100；Workbench 100 be arranged two clamping stations 110 make this workbench 100 may be implemented cutting with up and down Material work carries out simultaneously, without counteracting.Preferably, two clamping stations 110 are located at workbench 100 Two sides, two workbench 100, which rotate 180 °, may be implemented operating position exchange.

As shown in Figure 4.The swing mechanism 200 realizes two clamping stations for driving workbench 100 to carry out rotary motion 110 exchange is removed the bar cut and is put so that a station when carrying out cutting, does not interfere another station operation of feeding and discharging Upper band cuts bar, and bar cutting carries out simultaneously with loading and unloading, and cutting area is without waiting for the loading and unloading time.Specifically, described time Rotation mechanism 200 includes live spindle 210, bearing 220 and rotation gear 230, and the bearing 220 and rotation gear 230 are arranged Outside live spindle 210；Rotation gear 230 rotation drives the live spindle 210 to link with it to occur with respect to bearing 220 Rotation, the rotation of live spindle 210 then drive the workbench 100 being fixed in live spindle 210 to carry out rotary motion, are realized The conversion of 110 position of clamping station.Specifically, the fixation between the live spindle 210 and workbench 100 can pass through weldering It connects, rivet or is bolted.Preferably, detachable connection method is used between live spindle 210 and workbench 100, it is convenient The maintenance or replacement of the two.The workbench 100 can be socketed in outside live spindle 210 or workbench 100 is fixed On the top of live spindle 210.In certain other embodiments, the swing mechanism 200 further includes rotary sleeve 240, upper ball cover 250 and lower ball cover 260, the outside of rotary sleeve 240 socket and live spindle 210, lower bearing Lid 260 is set to the bottom end of live spindle 210, and upper ball cover 250 is socketed in the live spindle 210 of 100 lower section of workbench.Institute The rotary sleeve 240 stated plays the protective effect to live spindle 210, while more convenient live spindle 210 rotates.Upper and lower axle It holds lid 260 to be sealed the position up and down of live spindle 210, prevents oil leakage, while preventing the cutting powder of silicon crystal bar Bits are fallen into, and influence the rotation of live spindle 210.

Please see Fig. 2 to Fig. 4.The driving mechanism 300 provides mechanism as the power of the present apparatus, provides driving force and is used for Swing mechanism 200 and workbench 100 is driven to rotate.Specifically, the driving mechanism 300 includes 310 He of telescoping mechanism Driving rack 320, the driving rack 320 are engaged with rotation gear 230, the telescopic end and driving cog of the telescoping mechanism 310 Item 320 is fixed, and the collapsing length of the telescopic end is the half for rotating 230 perimeter of gear.In the present embodiment, telescopic machine Structure 310 carries out straight reciprocating motion, and telescoping mechanism 310 has the telescopic rod 311 connecting with driving rack 320, with telescopic rod The flexible end motion of 311 movements drives the driving rack 320 being secured to move along a straight line, and engages with driving rack 320 The linear motion of driving rack 320 is converted into rotary motion by rotation gear 230, and live spindle 210 is driven to be rotated.Such as figure Shown in 2 and Fig. 3, when Fig. 2 and Fig. 3 are respectively that telescopic end moves to minimum stroke and range, the schematic front view of the present apparatus, 110 working region of clamping station exchanges at this time.Preferably, the collapsing length i.e. telescopic end for controlling telescopic end do linear reciprocation Movement linear motion distance for rotation 230 perimeter of gear half, with control telescopic end move to range or Minimum stroke, live spindle 210 and workbench 100 rotate 180 °, realize the exchange of 100 liang of clamping stations 110 of workbench, It is exactly rotation of two workbench 100 on cutting region and loading and unloading region progress position.It is replaced using such driving mechanism 300 Traditional mode using servomotor, gear reducer and worm and gear realizes rotary motion, the manufacturing cost of the present apparatus It substantially reduces, the competitiveness of product in market greatly improves, and applicability is wider.

The utility model double-station silicon crystal bar cut rotary table by telescoping mechanism 310 drive driving rack 320 into Linear motion is converted into rotary motion by row linear motion, driving rack 320 and the rotation cooperation of gear 230, drives live spindle 210 rotations are rotation gear 230 by the collapsing length of control 310 telescopic end of telescoping mechanism to drive workbench 100 to rotate The half of perimeter realizes that the position of two clamping stations 110 on workbench 100 is cut so that turntable carries out 180 ° of rotary motion It changes, so that a station when carrying out cutting, does not interfere another station operation of feeding and discharging, removes the bar cut and put band cutting Bar, bar cutting carry out simultaneously with loading and unloading, and cutting area greatly improves production efficiency without waiting for the loading and unloading time, saves Cost of labor, changes the scheme that the structures such as original servomotor, gear reducer execute revolution work, and manufacturing cost decline is high Up to 80%, the competitiveness of product in market is greatly improved.

As shown in Figures 1 to 6.It further include positioning buffer gear as a kind of preferred embodiment of the utility model, it is described Positioning buffer gear be used for determine live spindle 210 carry out 180 ° rotation whether in place, and live spindle 210 rotate The impact force driven when in place to live spindle 210 plays buffer function.Specifically, the positioning buffer gear includes that rotation is fixed Position block 410 and buffer bar 420, the rotational positioning block 410 are fixed in live spindle 210, and rotational positioning block 410 and rotation are led Axis 210 links, and the buffer bar 420 is two, and two buffer bars 420 are symmetrical arranged along live spindle 210, and buffer bar 420 In on the path that rotational positioning block 410 moves, range and minimum stroke are moved in the telescopic end of telescoping mechanism 310 When, two buffer bars 420 respectively with rotational positioning block 410 against, that is to say, that rotational positioning block 410 is suitable in this structure When hour hands rotate 180 ° or counterclockwise 180 ° of rotation, rotational positioning block 410 can all touch buffer bar 420, and buffer bar 420 is used In the impact force of buffering 410 motion process of rotational positioning block, prevent vibration from generating loud noise.Using the structure, telescoping mechanism When 310 progress linear expansion movement, telescopic end pushes rack drives rotation gear 230 to rotate, to drive rotational positioning block 410 Rotation, when telescopic end ejection reaches range, rotational positioning block 410 touches buffer bar 420 first, when rotational positioning block 410 illustrate that live spindle 210 is rotated in place when touching buffer bar 420, to avoid cylinder from shifting range onto or being reduced to most Impact is generated with rotational positioning block 410 when small stroke, using 420 flexible contact of buffer bar, avoids impact endurance test shock, reduces equipment mill Damage extends the service life of entire cutting rotary table.

Please refer to Fig. 6.In the particular embodiment, the buffer bar 420 includes Limit screw 421, spring 422 and mandril 423, the Limit screw 421 has accommodating cavity, is provided with spring 422, described 423 one end of mandril and spring in the accommodating cavity 422 against, mandril 423 the other end can with rotational positioning block 410 against.It is used in double-station silicon crystal bar cutting rotary table In the process, rotational positioning block 410 is contacted with the mandril 423 of buffer bar 420 first, and 423 compressed spring 422 of mandril utilizes spring 422 elastic buffer power weakens the impact force of rotational positioning block 410.In certain preferred embodiments, the buffer bar 420 is also Including adjusting nut 424, the adjusting nut 424 is sheathed on the outside of Limit screw 421, adjusting nut 424 and Limit screw By being threadedly engaged between 421.The setting of the adjusting nut is that Limit screw 421 is cooperated to adjust entire buffer bar 420 Position, specifically rotary banking screw 421 make Limit screw 421 carry out front-rear position adjustment with respect to adjusting nut, to guarantee Rotational positioning block 410 can contact the mandril 423 of buffer bar 420, so that entire buffer bar 420 plays right decrease rotation and determines The effect of position 410 impact force of block.

Please refer to Fig. 6.As a kind of preferred embodiment of the utility model, the rotational positioning block 410 includes socket part 411 and limiting section 412, the limiting section 412 be fixed on the side wall of socket part 411, the socket part 411 be arranged with rotation lead Outside axis 210, and link with live spindle 210.In the present embodiment, the rotational positioning block 410 has socket part 411 and limit Position portion 412 form, socket part 411 connect live spindle 210, as linkage part, the limiting section 412 as with buffer bar 420 contact portion, in certain other embodiments, location structure of the limiting section 412 also as live spindle 210, Prevent live spindle 210 from moving.

In embodiment as shown in Figure 7 and Figure 8.The driving mechanism 300 further includes rack fixing seat 600, the rack gear Fixing seat 600 plays the role of protecting driving rack 320 and rotates gear 230, and is further by rack fixing seat 600 Driving rack 320 presets motion path, so that the linear motion of driving rack 320 is more accurate and smooth.Specifically, described Rack fixing seat 600 is sheathed on outside rotation gear 230, and rack fixing seat 600 is not contacted with rotation gear 230, the tooth Offer rack gear sliding rail 610 in fixing seat 600, the driving rack 320 is located in rack gear sliding rail 610, driving rack 320 with Rotation gear 230 inside rack fixing seat 600 engages.

Please refer to Fig. 1 and Fig. 5.As a kind of preferred embodiment of the utility model, the rotational positioning block 410 is located at tooth Inside fixing seat 600, buffer bar accommodating hole 620, the buffer bar 420 are offered on the side wall of the rack fixing seat 600 Adjusting nut 424 be fixed on buffer bar accommodating hole 620.In the present embodiment, the rack fixing seat 600 can also be to rotation Turn locating piece 410 to be protected, and guarantee total aesthetics in appearance, rack fixing seat 600 is also as buffer bar 420 Mounting structure is supported, the installation of buffer bar 420 is facilitated to fix.In certain embodiments, the utility model double-station silicon crystal bar is cut Cutting rotary table further includes Working gantry 500, installation supporting mechanism of the Working gantry 500 as entire mechanism, work Swing mechanism 200 is lifted to certain altitude by rack 500, facilitates the progress of rotary motion.

Please refer to Fig. 1 and Fig. 5.It further include electromagnetism locked mechanism 700 as a kind of preferred embodiment of the utility model, The electromagnetism locked mechanism 700 is used for after clamping station 110 moves to designated position, carries out positioning lock to live spindle 210 Gu preventing when carrying out silicon crystal bar cutting work, workbench 100 shakes, and the cut surface of silicon crystal bar is caused chipping occur very Occur to the case where wavy surface, when especially telescoping mechanism 310 is using cylinder, because the unstable of gas source easily causes rotation to lead Axis 210 shakes, therefore the setting of electromagnetism locked mechanism 700 is very important.Specifically, the electromagnetism locked mechanism 700 include mounting rack 710 and electromagnetism locking lever 720, and the electromagnetism locking lever 720 includes electromagnet 721 and adjusting rod 722, institute It states adjusting rod 722 to be fixed on mounting rack 710, the electromagnet 721 is set to one end of adjusting rod 722, the electromagnetism locking Bar 720 is two, and two electromagnetism locking levers 720 are located on the path of the movement of rotational positioning block 410, in stretching for telescoping mechanism 310 When contracting end motion is to range and minimum stroke, the electromagnet 721 of two electromagnetism locking levers 720 is fixed with rotation respectively Position block 410 against.In the present embodiment, the adjusting rod 722 can be according to the position of actual use situation adjustment electromagnet 721 Set, electromagnet 721 enabled to touch rotational positioning block 410, the telescopic end of telescoping mechanism 310 move to range with And when minimum stroke, need to cut the silicon crystal bar being fixed in a clamping station 110, and to another clamping station 110 Operation of feeding and discharging is carried out, needs workbench 100 firm at this time, then being powered to electromagnet 721 so that rotation is sucked in electromagnet 721 Locating piece 410 prevents live spindle 210 from shaking, and when needing to switch clamping station 110, so that it is disappeared to the power-off of electromagnet 721 Magnetic enables live spindle 210 normally to make rotating motion.Preferably, in the present embodiment, the setting of buffer bar 420, prevents Rotational positioning block 410 causes greater impact to electromagnet 721, and the two is worn, therefore 423 outline of mandril of buffer bar 420 More than electromagnet 721, rotational positioning block 410, which will first contact mandril 423, can just play due buffer function.Preferably, described Adjusting rod 722 include straight-bar portion and be socketed on straight-bar portion adjusting nut 424, adjusting nut 424 is fixed on mounting rack 710, Rotation straight-bar portion makes its relative adjustment nut 424 carry out shift in position, the final setting position for changing electromagnet 721.

As a kind of preferred embodiment of the utility model, the telescoping mechanism 310 is cylinder, hydraulic cylinder or straight line Motor, the length of the telescopic rod 311 of the cylinder, hydraulic cylinder or linear motor be greater than rotation 230 perimeter of gear two/ One.In actual use, the telescopic rod 311 of cylinder, hydraulic cylinder or linear motor stretches in telescoping tube to range When, still there is part to be located at cylinder interior, and there are also parts to connect with driving rack 320 for 311 one end of telescopic rod, therefore necessity is protected The length for demonstrate,proving telescopic rod 311 is greater than the half of rotation 230 perimeter of gear, can guarantee the movement travel of telescopic rod 311 Length be equal to rotation 230 perimeter of gear half, to guarantee that workbench 100 is able to carry out 180 ° of rotary motion.

It please refers to Fig.1 to Fig.3.As a kind of preferred embodiment of the utility model, also set up in the clamping station 110 There is clamp system 800, the clamp system 800 is set on the side plate of clamping station 110, and clamp system 800 is for be cut Silicon crystal bar.According to the difference of clamping station 110 and clamp system 800, the utility model double-station silicon crystal bar cutting revolution work Make platform and be both capable of clamping circular single crystal silicon rod, is also capable of clamping square polysilicon silicon rod.In the embodiment shown in fig. 1, it is clamped shown in Station 110 has square groove, and it is suitable for the clamping of square polysilicon silicon rod, the clamp system 800 is to be arranged in clamping station The telescoping cylinder of 110 sides, the telescopic rod 311 of telescoping cylinder pass through the control control clamping work of telescopic rod 311 towards polycrystalline silicon rod side wall The width of position 110, realizes the clamping to silicon crystal bar, and structure adaptability is stronger.

It should be noted that being not intended to limit although the various embodiments described above have been described herein The scope of patent protection of the utility model.Therefore, based on the innovative idea of the utility model, embodiment described herein is carried out Change and modification or equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, directly Or above technical scheme is used in other related technical areas indirectly, it is included in the patent protection model of the utility model Within enclosing.

Claims (10)

1. a kind of double-station silicon crystal bar cuts rotary table, which is characterized in that including workbench, swing mechanism and driving machine Structure；

For the workbench tool there are two clamping station, the clamping station is symmetrically disposed on the two sides of workbench；

The swing mechanism includes live spindle, bearing and rotation gear, and the bearing and rotation gear are sheathed on rotation master Outside axis；

The driving mechanism includes telescoping mechanism and driving rack, and the driving rack is engaged with rotation gear, the telescopic machine The telescopic end of structure is fixed with driving rack, and the collapsing length of the telescopic end is the half for rotating gear perimeter；

The workbench is fixedly connected with live spindle.

2. double-station silicon crystal bar according to claim 1 cuts rotary table, which is characterized in that further include positioning buffering Mechanism, the positioning buffer gear include rotational positioning block and buffer bar, and the rotational positioning block is fixed in live spindle, rotation Turn locating piece and live spindle links, the buffer bar is two, and two buffer bars are symmetrical arranged along live spindle, buffer bar position In rotational positioning block movement path on, it is described when the telescopic end of telescoping mechanism moves to range and minimum stroke Two buffer bars respectively with rotational positioning block against.

3. double-station silicon crystal bar according to claim 2 cuts rotary table, which is characterized in that the buffer bar includes Limit screw, spring and mandril, the Limit screw have accommodating cavity, are provided with spring, the mandril one in the accommodating cavity End and spring against, mandril the other end can with rotational positioning block against.

4. double-station silicon crystal bar according to claim 3 cuts rotary table, which is characterized in that the buffer bar also wraps Adjusting nut is included, the adjusting nut is sheathed on the outside of Limit screw, matches between adjusting nut and Limit screw by screw thread It closes.

5. cutting rotary table according to double-station silicon crystal bar described in claim 2 to 4 any one, which is characterized in that institute Stating rotational positioning block includes socket part and limiting section, and the limiting section is fixed on the side wall of socket part, and the socket part is arranged It links outside live spindle, and with live spindle.

6. double-station silicon crystal bar according to claim 5 cuts rotary table, which is characterized in that the driving mechanism is also Including rack fixing seat, the rack fixing seat is sheathed on rotation gear exterior, and rack fixing seat not with rotation Gear Contact, Rack gear sliding rail is offered on the rack fixing seat, the driving rack is located in rack gear sliding rail, driving rack be located at rack gear Rotation gear engagement inside fixing seat.

7. double-station silicon crystal bar according to claim 6 cuts rotary table, which is characterized in that the rotational positioning block Inside rack fixing seat, buffer bar accommodating hole, the adjusting of the buffer bar are offered on the side wall of the rack fixing seat Nut is fixed on buffer bar accommodating hole.

8. double-station silicon crystal bar according to claim 2 cuts rotary table, which is characterized in that further include electromagnetism locking Mechanism, the electromagnetism locked mechanism include mounting rack and electromagnetism locking lever, and the electromagnetism locking lever includes electromagnet and adjusting rod, The adjusting rod is fixed on mounting rack, and the electromagnet is set to one end of adjusting rod, and the electromagnetism locking lever is two, and two Root electromagnetism locking lever is located on the path of rotational positioning block movement, moves to range and most in the telescopic end of telescoping mechanism When small stroke, the electromagnet of two electromagnetism locking levers respectively with rotational positioning block against.

9. double-station silicon crystal bar according to claim 1 cuts rotary table, which is characterized in that the telescoping mechanism For cylinder, hydraulic cylinder perhaps the telescopic rod of the linear motor cylinder, hydraulic cylinder or linear motor length be greater than rotary teeth Take turns the half of perimeter.

10. double-station silicon crystal bar according to claim 1 cuts rotary table, which is characterized in that the clamping station On be additionally provided with clamp system, the clamp system is set on the side plate of clamping station, clamp system be used for silicon to be cut Crystal bar.