CN201825561U - Substrate loading device - Google Patents

Abstract

The utility model discloses a substrate loading device, which is used for loading substrates in a vacuum environment. The substrate loading device comprises a vacuum cavity, a clamping mechanism, a clamping conveying mechanism, a clamping lifting mechanism, a substrate conveying mechanism and a substrate lifting mechanism, wherein the clamping conveying mechanism, the clamping lifting mechanism, the substrate conveying mechanism and the substrate lifting mechanism are positioned in the vacuum cavity, the clamping mechanism is used for clamping the substrates, the clamping conveying mechanism drives the clamping mechanism to be conveyed into or out of the vacuum cavity along the horizontal direction, the clamping lifting mechanism drives the clamping mechanism to move in a lifting manner, the substrate conveying mechanism drives the substrates to be conveyed into the vacuum cavity along the horizontal direction, and the substrate lifting mechanism drives the substrates to move in a lifting manner. The substrate loading device is capable of ensuring that stable vacuum is constantly kept in the cavity in the whole process of loading the substrates, and is safe, clean and reliable.

Description

Substrate uploading device

Technical field

The utility model relates to a kind of substrate uploading device, relates in particular to a kind of cleaning of substrate process, safe and reliable substrate uploading device uploaded.

Background technology

Thin plates such as glass baseplate have been widely used in makes LCD-TFT read-out, organic light emitting display (OLED) panel, thin-film solar panels application and other fellows.In this type of is used mostly at cleaning plating thin film transistor on glass, the processing procedure of this class large glass base material comprises usually implements a plurality of consecutive steps, comprises as chemical vapor deposition process (CVD), physical vapor deposition (PVD) processing procedure (PVD), organic substance evaporation, magnetron sputtering deposition or etch process.The system that is used to handle glass baseplate can comprise one or more process chamber, to carry out aforementioned described processing procedure.Current trends panel processing is towards the development of large area substrates size, so that can form more multi-display on the base material or make more large-scale telltale and more large-scale solar panel.

Because the technological requirement of this type of processing procedure is relatively stricter, promptly must under vacuum state and in the clean fully space environment, carry out, evaporation processing procedure as Organic Light Emitting Diode, its sediment is for being vaporish organic substance, very easily react and then change sediment composition on the base material if any the words of existence such as air, steam, influence its luminescent effect with the organic vapor deposition material; For another example, in the magnetron sputtering deposition processing procedure process, after the plasma glow discharge mutually in the bump space unreactable gas make degree of ionization reach avalanche condition, thereby large tracts of land, clash into metal targets on a large scale, metallic atom guides deposit or/and atomic group breaks away from target to substrate at magnetic force, right this process is bad as sealing, vacuum environment is not enough will have a strong impact on the degree of glow discharge, airborne oxygen and steam also can corrode target simultaneously, cause the magnetron sputtering processing procedure to interrupt or/and deposit film is affected; Plated film, the overlay film processing procedure of base materials such as this all glass of class all must guarantee the absolute reliability of the vacuum system of whole processing procedure.Like this, in this type of processing procedure, under vacuum environment, finish substrate uploading and just highlighted significance.

Traditional substrate uploading device comprises vacuum cavity and is positioned at the substrate microscope carrier and the manipulator of vacuum cavity, it is indoor that the substrate that will input to the substrate microscope carrier by manipulator under vacuum environment transfers to relevant fabrication process, yet this substrate uploading device has following defective: on the one hand, the substrate microscope carrier can not move in the horizontal direction, need substrate to be delivered on the substrate microscope carrier in the vacuum cavity by input port by the exterior transmission device of vacuum cavity, above-mentioned transmission device is withdrawed from vacuum cavity, close the gate of input port, begin the substrate uploading operation then, in this process, need exterior transmission device to enter in the vacuum cavity, influence the interior cleanliness of vacuum cavity and the air-tightness of vacuum cavity; On the other hand, during by the manipulator substrate transport, manipulator can only be caught an end of substrate, and substrate tends to occur problems such as shake inclination in transmission course, and making the transmission course instability influences the safety of substrate uploading.

Therefore, be badly in need of maintaining under the stable vacuum state in the cavity in a kind of whole process that guarantees substrate uploading always, and safety, cleaning, failure-free substrate uploading device.

The utility model content

The purpose of this utility model provides a kind of upload process and maintains under the vacuum state, and safety, cleaning, failure-free substrate uploading device.

For on realizing purpose is arranged, the utility model discloses a kind of substrate uploading device, be used for uploading substrate under the vacuum environment, this substrate uploading device comprises vacuum cavity, clamping device, and be positioned at the clamping conveying mechanism of described vacuum cavity, the clamping lifting mechanism, substrate conveying mechanism, substrate lifting mechanism and substrate contraposition mechanism, described clamping device is used for the clamping substrate, described clamping conveying mechanism drives the described vacuum cavity of described clamping device along continuous straight runs input and output, described clamping lifting mechanism drives described clamping device and moves up and down, described substrate conveying mechanism drives described substrate along continuous straight runs and imports described vacuum cavity, described substrate lifting mechanism is positioned at described substrate below and drives described substrate and moves up and down the described described substrate of substrate contraposition institutional adjustment position in the horizontal direction.

Preferably, described clamping device comprises grip block, clamping driver train and top wheel mechanism, some clips are installed on the described grip block, described grasping drive unit drives described top wheel mechanism and moves up and down, and described top wheel mechanism presses the top of described clip and controls described clip and open or close.

Particularly, described clamping conveying mechanism comprises gripper rail, motor and gear, described motor links to each other with the turning cylinder of described gear and drives described gear and rotates, have tooth bar on the sidewall of described grip block, described gear is meshed with described gear and drives described grip block and moves on described gripper rail.

More specifically, described grip block and the contacted position of described gripper rail are equipped with roller, and described grip block moves on described gripper rail by roller, avoid grip block to move the mechanical wear that produces on gripper rail, increase the service life of grip block.

Preferably, described substrate conveying mechanism comprises delivery section and drive division, described delivery section comprises some guide rails and axle sleeve, described guide rail in twos relatively and be arranged side by side in the described vacuum cavity, described axle sleeve is step-like and is installed in described guide rail the inner, described drive division comprises worm and worm wheel, described worm screw links to each other with described worm gear and drives described worm gear and rotates, described worm gear is fixed on the outer end of described guide rail and drives described guide rail and rotates, and described axle sleeve carries described substrate and drives described substrate and inputs to described vacuum cavity.Carry substrate by guide rail class conveying mechanism, make the middle part of substrate be carried on vacantly on the delivery section, be easy to the substrate lifting mechanism and drive the substrate rising.

Particularly, described axle sleeve is wrapped with rubber layer.Rubber layer has been avoided the damage of substrate in course of conveying effectively.

Preferably, the automatic uploading device of described substrate also comprises substrate contraposition mechanism, the described described substrate of substrate contraposition institutional adjustment position in the horizontal direction.Traditional substrate alignment device is by manipulator the delivery port of substrate from vacuum cavity to be transferred out, it is unfixing that yet manipulator grasps the position of substrate, substrate can only be delivered to general position, the position that can not guarantee to place substrate is accurate, make and be difficult to accurate contraposition in the substrate uploading process, compared with prior art, when the utility model carries out substrate uploading, by clamping lifting mechanism and substrate lifting mechanism clamping device and substrate are delivered in the substrate contraposition mechanism, carry out accurate contraposition by contraposition mechanism, make clamping device that described substrate is delivered to accurate position, solved the problem that is difficult to accurate contraposition in the prior art, made that the substrate uploading contraposition is reliable.

Particularly, described substrate contraposition mechanism comprises the contraposition fixed mount, the first contraposition driver train, the second contraposition driver train, first pair of potential head and second pair of potential head, described first pair of potential head is positioned at same horizontal surface and vertical mutually with second pair of potential head, be installed with first contraposition frame relative and the second contraposition frame relative on the described contraposition fixed mount with described second pair of potential head with described first pair of potential head, the described first pair of potential head of the described first contraposition driving mechanisms control moves to the described first contraposition frame direction, and the described second pair of potential head of the described second contraposition driving mechanisms control moves to the described second contraposition frame direction.This contraposition mechanism structure is simple, and contraposition is convenient.

Preferably, described clamping lifting mechanism comprises the first clamping lifting mechanism and the second clamping lifting mechanism, the described first clamping lifting mechanism links to each other with described clamping conveying mechanism and drives described clamping conveying mechanism and moves up and down, and the described second clamping lifting mechanism passes described clamping conveying mechanism and drives described clamping device and moves up and down.When using two lifting mechanisms to drive the clamping device rising, earlier by the first clamping lifting mechanism with the clamping conveying mechanism rise an end distance from, bump against the clamping conveying mechanism when avoiding substrate to be input to vacuum cavity, driving clamping device by the second clamping lifting mechanism again rises, when making clamping device clamping substrate, clamping device and clamping conveying mechanism are separated, bump against the clamping conveying mechanism when preventing clamping device clamping substrate, reduce the rise height of clamping conveying mechanism, and the mobile space of the clamping conveying mechanism that reduces to a certain extent again, actv. has been saved the space in the vacuum cavity.

Preferably, described substrate lifting mechanism comprises drive motor, lifting bar and lifter plate, described drive motor links to each other with described lifting bar and controls described lifting bar action, described lifting bar links to each other with described lifter plate and drives described lifter plate and moves up and down, and described lifter plate is positioned at described substrate below and drives described substrate and moves up and down.This simple in structure, cost is low, easy operating.

Compared with prior art, the utility model substrate uploading device comprises vacuum cavity, clamping device, clamping conveying mechanism, clamping lifting mechanism, substrate conveying mechanism and substrate lifting mechanism, by clamping conveying mechanism in the vacuum cavity and substrate conveying mechanism clamping device and substrate are successively carried on the one hand, the input gate valve of closing the vacuum cavity input channel then begins to carry out uploading of substrate, make that vacuum cavity maintains under the stable vacuum state in the upload process of substrate always, make the substrate uploading process keep clean; On the other hand, after the clamping device clamping substrate, there is the clamping device along continuous straight runs of substrate to be delivered to outside the vacuum cavity clamping, guaranteed course of conveying stability and safety by the clamping conveying mechanism.In a word, the utility model substrate uploading device can guarantee to maintain under the stable vacuum state in the cavity in the whole process of substrate uploading always, and safety, cleaning, reliable.

Description of drawings

Fig. 1 is the structural representation of the utility model substrate uploading device.

Fig. 2 is the structural representation of another angle of the utility model substrate uploading device.

Fig. 3 is the structural representation of clamping lifting mechanism described in the utility model and clamping conveying mechanism.

Fig. 4 is clamping lifting mechanism described in the utility model and another angle structural representation of clamping conveying mechanism.

Fig. 5 is the structural representation of substrate conveying mechanism described in the utility model and substrate lifting mechanism.

Fig. 6 is the structural representation of substrate conveying mechanism described in the utility model and another angle of substrate lifting mechanism.

Fig. 7 is the birds-eye view of grip block described in the utility model.

Fig. 8 is the lateral plan of grip block described in the utility model.

Fig. 9 is a grip block opposite side view described in the utility model.

Figure 10 is the structural representation of clip described in the utility model.

The specific embodiment

By describing technology contents of the present utility model, structural attitude in detail, realized purpose and effect, give explanation below in conjunction with embodiment and conjunction with figs. are detailed.

Substrate uploading device 100 described in the utility model is used for uploading of vacuum environment subtegulum 16, this substrate uploading device 100 comprises vacuum cavity 10, clamping device 20, and is positioned at clamping conveying mechanism 30, clamping lifting mechanism 40, substrate conveying mechanism 50 and the substrate lifting mechanism 60 of described vacuum cavity 10.Described clamping device 20 is used for clamping substrate 16, described clamping conveying mechanism 30 drives the described vacuum cavity 10 of described clamping device 20 along continuous straight runs input and output, described clamping lifting mechanism 40 drives described clamping device 20 and moves up and down, described substrate conveying mechanism 50 drives described substrate 16 along continuous straight runs and imports described vacuum cavity 10, and described substrate lifting mechanism 60 is positioned at described substrate 16 belows and drives described substrate 16 and moves up and down.Referring to figs. 1 to Figure 10, the concrete structure and the function of the utility model substrate uploading device 100 described.

With reference to figure 1, the sidepiece of described vacuum cavity 10 offers input channel 11 and delivery channel 13, input gate valve 12 is installed on the described input channel 11, output gate valve 14 is installed on the described delivery channel 13, when the beginning substrate uploading, inflation in vacuum cavity 10, air pressure in vacuum cavity 10 equates with air pressure outside the cavity, open input gate valve 12, after substrate 16 inputs, carry out vacuum pumping, the air pressure in vacuum cavity 10 equates with the air pressure of importing process chamber of waiting of substrate 16, open output gate valve 14, substrate is exported by clamping conveying mechanism 30.

With reference to figure 1, Fig. 2, Fig. 7 to Figure 10, described clamping device 20 comprises grip block 23, clamping driver train 21 and top wheel mechanism 22, have some clips 232 on the described grip block 23, described grasping drive unit 21 drives described top wheel mechanism 22 and does lifting action, and described top wheel mechanism 22 presses the top of described clip 232 and controls described clip 232 and open or close.

Particularly, with reference to figure 7, Fig. 8 and Fig. 9, some clips 23 are installed on the described grip block 23 2, the sidewall of described grip block 23 at least one sides offers tooth bar 231, and with 70 collisions of substrate contraposition mechanism, the edge of grip block 23 offers some grooves when preventing that grip block 23 from rising, and described clip 232 is installed in the groove.More specifically, with reference to Figure 10, described clip 232 comprises permanent seat 241, handgrip 242, turning cylinder 243 and torsion spring 244, offer mounting hole 245 on the described permanent seat 241, the top bending of described handgrip 241, it is hook-shaped that the bottom is, described turning cylinder 243 passes the body of described handgrip 242 and is installed on the described permanent seat 241, described torsion spring 244 is installed on the described turning cylinder 243, and an end of described torsion spring 244 is conflicted in the lower end of bending place, described handgrip top, the other end is conflicted on permanent seat 241, during clamping substrate 16, to pressing down the top of touching handgrip 242, described handgrip 242 moving axis 243 that rotates rotates, the outside Unscrew in the bottom of described handgrip 242, substrate 16 is placed in the handgrip 242, decontrol the pressure of handgrip 242 tops, under the effect of torsion spring 244, handgrip 242 moving axis 243 contrarotations that rotate, the bottom of handgrip 242 is rotating closed and clamping substrate 16 inwardly.

Particularly, described clamping driver train 21 comprises drive motor 211 and drive spindle 212, described top wheel mechanism 22 comprises top wheel carrier 222 and top wheel 221, described drive motor 211 links to each other with described drive spindle 212 and controls described drive spindle 212 and stretch, described drive spindle 212 links to each other with described top wheel carrier 222 and controls described top wheel carrier 222 and moves up and down, described top wheel 221 is installed on the described top wheel carrier 222, and described top wheel 221 is positioned at the top of described clip 232.When opening clip 232, the described drive spindle 212 of described drive motor 211 controls stretches out, and drive spindle 212 drives top wheel carrier 222 and descends, the top of the top wheel 221 downward conflict clips 232 on top wheel carrier 222, and clip 232 is opened; When closing described clip 232, described drive spindle 212 withdrawals of described drive motor 211 controls, drive spindle 212 drives top wheel carriers 222 and rises, and the top wheel 221 on top wheel carrier 222 upwards breaks away from the top of clip 232, and clip 232 cuts out.

With reference to figure 1-Fig. 4, described clamping conveying mechanism 30 comprises gripper rail 31, motor 32, gear 33, worm drive portion 34, described motor 32 links to each other with the turning cylinder of described gear 33 and drives described gear 33 and rotates, described gear 33 is positioned on the side of described gripper rail 31, in the present embodiment, gear 33 has three, lay respectively at the front end of gripper rail 31, middle-end and end, the gear of middle-end links to each other with motor 32, when described grip block 23 is imported vacuum cavities 10, earlier clamping conveying mechanism 30 is elevated on the same horizontal surface of input channel 11 by clamping lifting mechanism 40, motor 32 actions and control are attached thereto gear 33 and rotate, this gear 33 drives in addition by worm drive portion 34, and two gears 33 rotate, gear 33 is meshed with the tooth bar 231 of grip block 23 sidepieces and drives grip block 23 and moves on gripper rail 31, is positioned at the middle-end of gripper rail 31 until grip block 23; During output grip block 23, earlier clamping conveying mechanism 30 is elevated on the same horizontal surface of delivery channel 13 by clamping lifting mechanism 40, motor 32 actions and pinion 33 rotate, gear 33 moves by 13 directions to output on gripper rail 31 with tooth bar 231 engagements and drive grip block 23, until grip block 23 output vacuum cavities 10.Wherein, the bottom of delivery track 31 offers the through hole that passes through for substrate 16.

The better one, described grip block 23 is equipped with roller 233 with described gripper rail 31 contacted places, and described grip block 23 moves on described gripper rail 31 by roller 233.

With reference to figure 1-Fig. 4, described clamping lifting mechanism 40 comprises the first clamping lifting mechanism 41 and the second clamping lifting mechanism 42, the described first clamping lifting mechanism 41 links to each other with described clamping conveying mechanism 30 and drives described clamping conveying mechanism 30 and moves up and down, and the described second clamping lifting mechanism 42 links to each other with described clamping device 20 and drives described clamping device 20 and moves up and down.

Particularly, the described first clamping lifting mechanism 41 comprises drive motor 411 and lifting bar 412, described drive motor 411 links to each other with described lifting bar 412 and controls described lifting bar 412 expanding-contracting actions, described lifting bar 412 links to each other with the gripper rail 31 of described clamping conveying mechanism 30 and drives described clamping conveying mechanism 30 and moves up and down, the described second clamping lifting mechanism 42 comprises drive motor 421 and lifting bar 422, described drive motor 421 links to each other with described lifting bar 422 and controls described lifting bar 422 expanding-contracting actions, and the grip block 23 on described lifting bar 422 passes the gripper rail 31 of described clamping conveying mechanism 30 and drives directly over the gripper rail 31 moves up and down.

With reference to figure 1, Fig. 2, Fig. 5 and Fig. 6, described substrate conveying mechanism 50 comprises delivery section 51 and drive division 52, described delivery section 51 comprises guide rail 511 and axle sleeve 512, described axle sleeve 512 is stepped and be installed in the front end of guide rail 511, described drive division 52 comprises worm screw 522 and worm gear 521, described worm screw 522 matches to merge with described worm gear 521 and drives described worm gear 521 rotations, being fixed on the terminal of described guide rail 511 and driving described guide rail 511 of described worm gear rotated, described substrate 16 is carried on the described axle sleeve 512, and moves along with the rotation of guide rail 511.

The better one, described axle sleeve 512 is wrapped with rubber layer, when substrate 16 is mobile on axle sleeve 512, rubber layer can actv. the lower surface of protection substrate 16.

With reference to figure 1, Fig. 2, Fig. 5 and Fig. 6, described substrate lifting mechanism 60 comprises drive motor 61, lifting bar 62 and lifter plate 63, described drive motor 61 links to each other with described lifting bar 62 and controls described lifting bar 62 expanding-contracting actions, described lifting bar 51 links to each other with described lifter plate 63 and drives described lifter plate 63 and moves up and down, and described lifter plate 63 is used to drive the substrate 16 that is carried on substrate conveying mechanism 50 tops and rises.Wherein, the first clamping lifting mechanism 14, the second clamping lifting mechanism 42 and substrate lifting mechanism 60 have all passed same guide frame 15.

The better one, with reference to figure 1, Fig. 2, Fig. 5 and Fig. 6, described substrate uploading device 100 also comprises substrate contraposition mechanism 70, is used to adjust described substrate 16 position in the horizontal direction.Described substrate contraposition mechanism 70 comprises contraposition fixed mount 71, the first contraposition driver train 72, the second contraposition driver train 73, first pair of potential head 74, second pair of potential head 75, be installed in the first contraposition frame 76 and the second contraposition frame 77 on the contraposition fixed mount 71, described first pair of potential head 74 is positioned at same horizontal surface and vertical mutually with second pair of potential head 75, described first pair of potential head 74 is relative with the first contraposition frame 76, second pair of potential head 75 is relative with the second contraposition frame 77, the described first pair of potential head 74 of the described first contraposition driver train, 72 controls moves to the described first contraposition frame, 76 directions, and the described second pair of potential head 75 of the described second contraposition driver train, 73 controls moves to the described second contraposition frame, 77 directions.

Particularly, the described first contraposition driver train 72 comprises drive motor 721 and drive spindle 722, described first pair of potential head 74 is installed in drive spindle 722 ends, described drive motor 721 drives described drive spindle 722 and does expanding-contracting action, and described drive spindle 722 drives described first pair of potential head 74 and moves to the described first contraposition frame, 76 directions; The described second contraposition driver train 73 comprises drive motor 731 and drive spindle 722, described second pair of potential head 75 is installed in drive spindle 732 ends, described drive motor 731 drives described drive spindle 732 and does expanding-contracting action, and described drive spindle 732 drives described second pair of potential head 75 and moves to the described second contraposition frame, 77 directions.

With reference to figure 1-Figure 10, describe the principle of work and the working process of the utility model substrate uploading device 100 in detail.The step that the utility model substrate uploading device 100 is uploaded substrate 16 is as follows:

(1) grip block 23 horizontal feed is arrived in the vacuum cavity 10, specific as follows: as to give inflation in the vacuum cavity 10, equate with air pressure outside the cavity until the air pressure of vacuum cavity 10, open input gate valve 12, grip block 23 is imported vacuum cavities 10 by input channel 11, motor 32 actions and the pinion 33 of clamping conveying mechanism 30 rotate, gear 33 is meshed and drives grip block 23 with the tooth bar 231 of grip block 23 sidepieces and moves along gripper rail 31, be input to gripper rail 31 middle-ends until grip block 23, motor is out of service.

(2) grip block 23 is risen to the position of substrate contraposition mechanism 70, specific as follows: drive motor 411 actions and the control lifting bar 412 of the first clamping lifting mechanism stretch out, lifting bar 412 drives gripper rail 31 and rises to appropriate location (gripper rail 31 is risen on the same horizontal surface of delivery channel 13 in the present embodiment), drive motor 421 actions and the control lifting bar 422 of the second clamping lifting mechanism stretch out, lifting bar 422 passes gripper rail 31 and drives grip block 31 and rises, and rises to the position of the first contraposition frame 76 until grip block 31.

(3) substrate 16 is delivered in the vacuum cavity 10, specific as follows: that substrate 16 is imported vacuum cavities 10 by input channel 11, the worm screw 522 of substrate conveying mechanism 50 is rotated, worm gear 521 rotates thereupon and drives guide rail 511 and rotates, axle sleeve 512 rotates and drives substrate 16 along continuous straight runs and is input to vacuum cavity 10, be moved to the middle-end of the delivery section 51 of substrate conveying mechanism 50 until substrate 16, close input gate valve 12, vacuum cavity 10 is carried out vacuum pumping.

(4) substrate is risen to the position of substrate contraposition mechanism 70, it is specific as follows: when substrate 16 is positioned at the middle-end of substrate conveying mechanism 50, the lifter plate 63 of substrate lifting mechanism 60 is positioned at the below of substrate 16, drive motor 61 actions and the drive lifting bar 62 of substrate lifting mechanism 60 stretch out, lifting bar 62 drives lifter plate 63 and rises, and drive substrate 16 risings, rise to the position of the first contraposition frame 76 until substrate 16.

(5) substrate 16 is carried out contraposition, specific as follows: drive motor 721 actions and the controlling and driving bar 722 of the first contraposition driver train 72 stretch out, drive spindle 722 drives first pair of potential head 74 and moves to the first contraposition frame, 76 directions, first pair of potential head 74 contacts a side of substrate 16, conflicts on the first contraposition frame 76 until the opposite side of substrate 16; Drive motor 731 actions and the controlling and driving bar 732 of the second contraposition driver train 73 stretch out, drive spindle 732 drives second pair of potential head 75 and moves to the second contraposition frame, 77 directions, second pair of potential head 75 contacts a side of substrate 16, opposite side until substrate 16 is conflicted on the second contraposition frame 77, finishes the contraposition of substrate 16.

(6) grip block 23 clamping substrates 16, specific as follows: drive motor 211 actions and the controlling and driving bar 212 of clamping driver train 21 stretch out, described drive spindle 212 drives top wheel carrier 222 and descends, wheel 221 tops that press clip 232 downwards, top on top wheel carrier 222, and clip 232 is opened; Substrate lifting mechanism 50 drives substrate 16 and rises, and is positioned at the clip 232 of grip block 23 until substrate 16; Drive motor 211 actions of clamping driver train 21 and 212 withdrawals of controlling and driving bar, described drive spindle 212 drives top wheel carrier 222 and rises, top wheel 221 on top wheel carrier 222 breaks away from the top of clip 232, clip 232 is closed and clamps the edge of substrate 16, and substrate 16 is held plate 23 clampings.

(7) clamping there is the grip block 23 of substrate 16 export vacuum cavities 10.Specific as follows: drive motor 421 actions of the second clamping lifting mechanism 42 and 422 withdrawals of control lifting bar, lifting bar 422 passes gripper rail 31 and drives grip block 31 and descends, be carried on until grip block 31 on the gripper rail 31 of clamping conveying mechanism 30, this moment, grip block 31 was positioned on the same horizontal surface with delivery channel 13; Put on the air simultaneously or vacuum pumping in this, air pressure in vacuum cavity 10 equates with waiting the process chamber air pressure of uploading substrate, open output gate valve 14, motor 32 actions of clamping conveying mechanism 30, and by gear 33 drive grip blocks 31 on gripper rail 31 to delivery channel 13 direction parallel motions, there is the grip block of substrate 16 to export vacuum cavity 10 until clamping, closes output gate valve 14.

Above disclosed only is preferred embodiment of the present utility model, can not limit the interest field of the utility model certainly with this, and therefore the equivalent variations of being done according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (10)

1. substrate uploading device, be used for uploading substrate under the vacuum environment, it is characterized in that, comprise vacuum cavity, clamping device, and be positioned at the clamping conveying mechanism of described vacuum cavity, the clamping lifting mechanism, substrate conveying mechanism and substrate lifting mechanism, described clamping device is used for the clamping substrate, described clamping conveying mechanism drives the described vacuum cavity of described clamping device along continuous straight runs input and output, described clamping lifting mechanism drives described clamping device and moves up and down, described substrate conveying mechanism drives described substrate along continuous straight runs and imports described vacuum cavity, and described substrate lifting mechanism is positioned at described substrate below and drives described substrate and moves up and down.

2. substrate uploading device as claimed in claim 1, it is characterized in that, described clamping device comprises grip block, clamping driver train and top wheel mechanism, have some clips on the described grip block, described grasping drive unit drives described top wheel mechanism and moves up and down, and described top wheel mechanism presses the top of described clip and controls described clip and open or close.

3. substrate uploading device as claimed in claim 2, it is characterized in that, described clamping conveying mechanism comprises gripper rail, motor, gear, described motor links to each other with the turning cylinder of described gear and drives described gear and rotates, have tooth bar on the sidewall of described grip block, described gear is meshed with described gear and drives described grip block and moves on described gripper rail.

4. substrate uploading device as claimed in claim 3 is characterized in that, described grip block and the contacted position of described gripper rail are equipped with roller.

5. substrate uploading device as claimed in claim 1, it is characterized in that, described substrate conveying mechanism comprises delivery section and drive division, described delivery section comprises some guide rails and axle sleeve, described guide rail in twos relatively and be arranged side by side in the described vacuum cavity, described axle sleeve is step-like and is installed in described guide rail the inner, described drive division comprises worm and worm wheel, described worm screw and described worm wheel also drive described worm gear rotation, described worm gear is fixed on the outer end of described guide rail and drives described guide rail and rotates, and described axle sleeve carries described substrate and drives described substrate and inputs to described vacuum cavity.

6. substrate uploading device as claimed in claim 5 is characterized in that described axle sleeve is wrapped with rubber layer.

7. substrate uploading device as claimed in claim 1 is characterized in that, described substrate uploading device also comprises substrate contraposition mechanism, the described described substrate of substrate contraposition institutional adjustment position in the horizontal direction.

8. substrate uploading device as claimed in claim 7, it is characterized in that, described substrate contraposition mechanism comprises the contraposition fixed mount, the first contraposition driver train, the second contraposition driver train, first pair of potential head and second pair of potential head, described first pair of potential head is positioned at same horizontal surface and vertical mutually with second pair of potential head, be installed with first contraposition frame relative and the second contraposition frame relative on the described contraposition fixed mount with described second pair of potential head with described first pair of potential head, the described first pair of potential head of the described first contraposition driving mechanisms control moves to the described first contraposition frame direction, and the described second pair of potential head of the described second contraposition driving mechanisms control moves to the described second contraposition frame direction.

9. substrate uploading device as claimed in claim 1, it is characterized in that, described clamping lifting mechanism comprises the first clamping lifting mechanism and the second clamping lifting mechanism, the described first clamping lifting mechanism links to each other with described clamping conveying mechanism and drives described clamping conveying mechanism and moves up and down, and the described second clamping lifting mechanism is positioned at described clamping device below and drives described clamping device and moves up and down.

10. substrate uploading device as claimed in claim 1, it is characterized in that, described substrate lifting mechanism comprises drive motor, lifting bar and lifter plate, described drive motor links to each other with described lifting bar and controls described lifting bar action, described lifting bar links to each other with described lifter plate and drives described lifter plate and moves up and down, and described lifter plate is positioned at described substrate below and drives described substrate and moves up and down.

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