CN1517286A

CN1517286A - Adsorbed pap

Info

Publication number: CN1517286A
Application number: CNA031602037A
Authority: CN
Inventors: 福岛彰; 朗; 神田敏朗; 彦; 小谷善彦
Original assignee: Espec Corp
Current assignee: Espec Corp
Priority date: 2003-01-07
Filing date: 2003-09-27
Publication date: 2004-08-04
Anticipated expiration: 2023-09-27
Also published as: KR100730241B1; JP2004209612A; KR20040063756A; TW200412319A; TWI309226B; JP3917528B2; CN1329263C

Abstract

The suction pad 1 comprises: a pad 2 provided with a supporting surface 22 to suck the lower surface W<SB>1</SB>of the substrate W with vacuum, and a cylindrical part 23 to be supported; a supporting case 3 to support the cylindrical part 23, packing 4; and the like. The lower end 23a of curved surface of the cylindrical part 23 is supported movably in a lateral direction X with the plane surface 31 of the supporting case 3, and at the same time, the cylindrical part 23 is restrained from large displacement with an inner ring 32. Further, the inclination of the pad is restrained with a space between the ring surface 24 of the pad and the upper end surface 33. The packing 4 seals a vacuum side 34b from an open air side 34a so that the packing 4 may not hinder the pad from moving. When the suction supporting surface of the pad is pulled by the heat-contracted substrate, the pad is moved in that direction. As a result, the supporting surface and substrate are not separated, and the vacuum destruction is surely prevented.

Description

Absorption layer

Technical field

The present invention relates to a kind of absorption layer, it comprises pad portion and support portion, this pad portion has: be the bearing surface that adsorbs of the above-mentioned supported face of the object on plane and supported supported portion by the vacuum that produces the adsorption affinity bigger than the bearing force that supports the load that above-mentioned object produces, to supported face, this support portion, support above-mentioned supported portion, relate in particular to and when the hot-cured of liquid crystal glass base is transferred, prevent the technology that the vacuum suction emaciated face falls.

Background technology

To liquid crystal display glass substrate (below, abbreviate " glass substrate " as) etc. have the object of plane supported portion, when heat treatment or the operation before and after it are transferred, use a plurality of absorption layers that are installed on the manipulator usually.That is,, not only it is placed on the manipulator simply for to a certain degree high speed and move safely and transfer glass substrate, and by absorption layer vacuum suction glass substrate securely.

This substrate is transferred the structure of part, usually, as shown in Figure 5, by glass substrate W, carry 4 absorption layers 1 ' of this substrate W pad 2 ', be configured on the manipulator 10 and be installed with this pad 2 ' supporter 3 ', and be formed in the pad 2 ' and and the path 25 used of the vacuum attraction that is conducted of supporter 3 ' one side, bottom and the formations such as the dome shape bearing surface 24 ' between the supporter 3 ' and 33 ' that are formed on pad 2 '.And the rotation of the pad by the dome shape bearing surface can be corresponding with the error of the leaning angle of the bearing surface of crooked or 4 pads of glass substrate.(for example with reference to patent documentation 1.)

Patent documentation 1: the spy opens flat 07-237765 communique (Fig. 1,2 and related description)

But, heat-treat the back and take out when transferring putting into thermal chamber about 280 ℃ by the square large-scale glass substrate of above-mentioned existing absorption layer about, produce the problem of the degree of vacuum reduction between the absorption bearing surface 22 of glass substrate W and absorption layer 1 ' 1m.

This problem is considered to make as the graphic Cm of the largest interval between a plurality of absorption layers elongated owing to the maximization of glass substrate, and when taking out hi-heat glass substrate, its temperature descends sharp and makes the quantitative change of thermal contraction big, because of making their both sides, glass substrate and relative displacement between the manipulator all apply external force again to the absorption layer that is in the middle of it, and can not be corresponding with it in existing structure, be to produce the action that destroys vacuum.In addition,, the maximization of glass substrate increases, so also be related to the The Effect of Inertia Force etc. of the working direction that when handover, on glass substrate, produces owing to producing weight.

Promptly, as shown in Figure 6, in the absorption layer of existing spherical support structure, if glass substrate along direction shown in the arrow shrink, the contact surface of absorption layer along its direction by power F drawing, then on the dome shape bearing surface of absorption layer, produce with integral body stop its drawing power-F, act on the center-of-gravity position of the plane of action of power, corresponding to tensile force f and resistance-F and their interval h, make moment loading into M=Fh on absorption layer, and it is rotated in a clockwise direction shown in the direction of arrow in the drawings.

In this case, because pad 2 ' the supported body 3 ' supports, can not be directly move along the action direction of F, so F ,-F is the power of character with holding state of the change of will arriving greatly and their relevant portions.And, can produce the absorption bearing surface 22a that makes a side with the bearing surface 22b of opposite side be fulcrum, W below glass substrate W ₁The breakaway force that leaves like that, has contact surface with glass substrate to leave and sucks atmosphere, destroys the possibility of vacuum state wherein shown in Fig. 6 (a).

In addition, shown in Fig. 6 (b), by F and the parallel couple of-F pad 2 is floated by drawing with the shrinkage direction of glass substrate along glass substrate W, make between dome shape bearing surface 24 ' and 33 ' and leave, and make extraneous gas enter the path 25 that is in vacuum state from this part, destroy and can produce vacuum.

Summary of the invention

And, in fact can produce the bad phenomenon of destroying vacuum by above-mentioned reason.Therefore, the invention solves the problems referred to above of existing technology, even its purpose is to provide the absorption layer that also can prevent vacuum breaking under the big situation such as a kind of thermal change position at object reliably.

The present invention is for above-mentioned purpose, the absorption layer of the 1st invention, comprise pad portion and support portion, this pad portion has: be the bearing surface that adsorbs of the above-mentioned supported face of the object on plane and supported supported portion by the vacuum that produces the adsorption affinity bigger than the bearing force that supports the load that above-mentioned object produces, to supported face, this support portion, support above-mentioned supported portion, it is characterized in that:

Above-mentioned supported and above-mentioned support portion, for above-mentioned pad portion can move along the direction with above-mentioned plane parallel and the tiltable supporting relation of above-mentioned bearing surface, and have the mobile limiting structure portion and restriction above-mentioned bevelled amount inclination limiting structure portion little slant range in of the above-mentioned mobile amount of restriction in little moving range.

In the 2nd invention, except that above-mentioned, it is characterized in that: above-mentioned support portion has the spatial portion of putting into above-mentioned supported portion; Above-mentioned pad portion has and is conducted, is formed in above-mentioned supported with above-mentioned bearing surface and have the path of opening at above-mentioned spatial portion, to form above-mentioned vacuum; And having sealing element, the sealing parts are separated above-mentioned spatial portion from above-mentioned aperture position to above-mentioned bearing surface one side, the permeability to air of the both sides that are separated of blocking, and corresponding above-mentioned moving and above-mentioned inclination deformable at above-mentioned spatial portion.

Description of drawings

Fig. 1 (a) is that instruction diagram, (b) of an example of the expression cross section state of using absorption layer of the present invention is the birds-eye view that expression is installed in this absorption layer the state on the manipulator.

It (b) is the instruction diagram that another routine cross section state of absorption layer of the present invention is used in expression that Fig. 2 (a) reaches.

Fig. 3 is the instruction diagram of principle of the absorption layer of Fig. 1.

Fig. 4 is the instruction diagram of an example again that absorption layer of the present invention is used in expression, and (a) reaching (b) is respectively (b) and the a-a line (a) and the arrow scheme of b-b line.

Fig. 5 (a) is that instruction diagram, (b) of an example of the cross section state of the existing absorption layer of expression is the birds-eye view that expression is installed in this absorption layer the state on the manipulator.

Fig. 6 (a) and (b) be the instruction diagram of the principle of above-mentioned existing absorption layer.

Among the figure: the 1-absorption layer, 2-pad (pad portion), 3-supports case (support portion), 4-liner (sealing element), the 22-bearing surface, 23-cylindrical portion (supported portion), 23a-bottom (supported portion), 23b-cylinder outside (mobile limiting structure portion), 24-anchor ring (inclination limiting structure portion), 25-path, 25a-opening, 31-planar portions (support portion), 32-inner ring portion (mobile limiting structure portion), 33-upper end facial (inclination limiting structure portion), 34-spatial portion, the outer gas side of 34a, 34b-, inlet side (both sides that are spaced), c ₁-narrow interval (mobile limiting structure portion), c ₂-narrow interval (inclination limiting structure portion), the Ft-plane, part (supporting the bearing force of the load of object), V-adsorption affinity, W-glass substrate, substrate (object), W are shared in the deadweight of g-substrate ₁-following (supported face).

The specific embodiment

Fig. 1 (a) is the instruction diagram that the example that the integral body of absorption layer of the present invention constitutes is used in expression.

Absorption layer 1, comprise: have bearing surface 22 and as the pad 2 of the pad portion of the cylindrical portion 23 of supported supported portion, as the support case 3 that can support the support portion of cylindrical portion 23, and as the liner 4 of sealing element etc., wherein, above-mentioned bearing surface 22 is for the marginal portion around the middle body 21 that is formed on the upper end, by the supported following W of the adsorbable cross section state as supported face of the vacuum glass substrate W (being designated hereinafter simply as " substrate W ") that is the object of graphic plane Ft ₁

The absorption layer 1 of above-mentioned present embodiment shown in Fig. 1 (b), is installed on the manipulator 10.That is, the position with size as shown that case 3 is fixedly mounted on manipulator 10 will be supported.Size Cm is the largest interval that 4 pad 1 is installed in the present embodiment.In addition, the supporter of the reality of substrate W is a manipulator, supports case 3 and also can be formed directly on manipulator 10.In addition, the state that is separated with 2 manipulators 10 in (b) is represented, but they are integrated in not shown position.

Pad 2 cylindrical portion 23 with support case 23, having pad 2 can be along the direction that parallels with plane Ft, be that the horizontal directions X of graphic cross section state moves and bearing surface 22 tiltable supporting relations.Removable and bevelled supporting relation, be so that support case 3 do not limit cylindrical portion 23 directions X motion and make when supporting the states rotation of cylindrical portion 23 at pad 2 and can not hinder the mode of its rotation to realize.For example, in the spherical support as existing absorption layer relation because stop pad to move to in-plane, so even rotatable be not supporting relation movably yet.

Thus, such as shown in the present embodiment, the bottom 23a of cylindrical portion 23 is formed the curved surface shape, and will bear its support case 3 be arranged to the planar portions 31 of cross section with the contacted face of bottom 23a towards horizontal directions X.And, in addition be not provided with and hinder the structure division that moves with rotation.In addition, bottom 23a also can be opposite with the curved surface peace relation of plane of planar portions 31.In addition, though as long as a side be small size then even the relation between the plane is also passable, in order to make rotation slyness, preferably any face is made as curved surface.In addition, bottom 23a only is provided with 1 place in the position at the center that is equivalent to bearing surface 22 usually, but also can form a plurality of curved surfaces.

Relation between bottom 23a and the planar portions 31, ideal are that pad 2 is moved and the supporting relation that rotates easily.Thus, between bottom 23a and planar portions 31, do not produce big friction force.Like this, these parts are not made as for example such material of rubber, are processed into to a certain degree slick and sly face and be set as the hardness, the little material of friction coefficient, and mutual contact surface originally that have to a certain degree, so that mutual friction coefficient is not too big.In this case, move into, shift out substrate W,, should preferably consider this respect so will have resistance to effect of heat as its material requirements because absorption layer also is used in the heat treated device.Based on such condition, in the present embodiment, on pad 2 and support case 3, use heat-resistant resin material and corrosion-resistant steel respectively.And, with general working accuracy they are processed, make between the two friction coefficient about 0.3～0.4.

The mobile limiting structure portion of the amount that moves as restriction in little mobile scope in the present embodiment, is provided with and vacates narrow interval c with supported as its cylinder outside 23b of cylindrical portion 23 with the cylinder outside ₁And the inner ring portion 32 that forms as the salient that protrudes from support case 3.The absorption layer that is mounted 1 shown in Fig. 1 (b), though for it being positioned or keeping posture and originally preferably do not move along in-plane, but in the present invention, because it is corresponding with the thermal change position of the het expansion that produces and thermal contraction on the substrate W easily when absorption is supported, pretend and be little mobile scope, be set at the scope that can allow above-mentioned thermal change position really.

In addition, as this mobile limiting structure portion, can adopt other suitable structures.For example, also can replace inner ring portion 32 and on cylindrical portion 23 installation ring, and at it and support between the inner face of case 3 above-mentioned interval c is set ₁, or inner ring portion 32 is set as the barrel-contoured structure of length with certain-length.If portion is set as tubular with inner ring, but then also dual-purpose in the inclination limiting structure portion of then narration.

As the restriction inclination limiting structure portion of tilt quantity in little slant range, in the present embodiment, the following anchor ring 24 that is provided with the middle body 21 of upper end of pad 2 and bearing surface 22 with relative with it to vacating narrow interval c ₂The upper end face 33 of support case 3.The absorption layer of as Fig. 1 (b), installing 1, though as long as originally become the reference plane that parallels with the face of manipulator 10, must be corresponding with the error of leaning angle between the bearing surface of the bending of aforesaid substrate W or pad separately etc.Because interval c ₂Be to be provided with, so for example bearing surface 22 can be decided to be the scope that tilts to about 5 ° for this reason.

In addition, as this inclination limiting structure portion, also can adopt other suitable structures in the same manner with mobile limiting structure portion.For example, as mentioned above,, then when absorption layer 1 tilts, stop its bevelled cylinder outside 23b by the upper and lower side of inner ring portion 32 if inner ring portion 32 is made as the tubular with certain length, therefore can be with it as inclination limiting structure portion.

In addition, in the absorption layer 1 of present embodiment, as shown in the figure, support the spatial portion 34 that case 3 has cylindrical portion put into 23, pad 2 has the path 25 that is conducted, is formed in the cylindrical portion 23 with bearing surface 22 and have opening 25a in spatial portion 34, to be formed for adsorbing the vacuum of substrate W.And, be provided with above-mentioned liner 4, this liner 4, in spatial portion 34 from the position of opening 25a to bearing surface 22 1 side compartment portions 34, and interdict the permeability to air of the both sides that form by outer gas side 34a that is separated out and inlet side 34b, and the sealing element of the inclination deformable ground formation of the mobile and bearing surface 22 of the corresponding pad 2 of conduct.Symbol 35 be conducted with inlet side spatial portion 34b and be connected with not shown vacuum pipe arrangement, the via intermedia of blowing air when vacuum attraction.

Liner 4 is as the structure of compartment portion 34, in the present embodiment, position above the opening 25a of

cylindrical portion

23,23b seals bonding to the internal side diameter 41 of liner 4 outside cylinder, simultaneously, to support case 3 and be divided into

nowel

3a, 3b two parts, and the outside diameter 42 of liner 4 will be clipped among the slot part 3c between them.Such liner 4, being formed the cross section is curvilinear curved surface shape, and the material that utilizes the silicone rubber conduct to have flexibility in the present embodiment, so that generation is out of shape with the mobile inclination with bearing surface 22 of aforesaid pad 2 is corresponding easily.

This liner 4, as long as because can allow to fill up 2 to the motion of in-plane and hand of rotation and externally seal between gas side 34a and the inlet side 34b, so can be made as other the suitable shape except that the shape of Fig. 1, Fig. 2 represents its another example.

The structure of (a) wherein is that internal side diameter 41 with liner 4 is set as the ring end 41a of path slightly than cylinder outside 23b.Symbol 23c is a locating part.The structure of present embodiment is that extended loop end 41a and being embedded on the 23b of cylinder outside installs.Thereby, install easily.On the other hand, between cylinder outside 23b and ring end 41a, can obtain leak tightness by its convergent force.

What (b) illustrate is the example that liner 4 is made as the ring-type of cross section U font.Interior outside

diameter

41,42 embeds pad 2 cylindrical portion 23 respectively and supports among the slot part 3c of case 3, and with their consecutive parts respectively with the inner face 3b of cylinder outside 23b and nowel 3b ₁Contact.

The liner 4 of present embodiment, because the cross section is the U font, so, when therein as the barometric pressure Pa of external pressure and and path 25 in be identically formed for vacuum when producing difference of pressure between the vacuum pressure Pv outside the U font of vacuum, owing to utilize pad 2 and support side and the bottom surface that case 3 supports liner 4, so the resistance to pressure of against vacuum is good.On the other hand,, dwindles the width of U font, so pad 2 moves along horizontal directions X easily because enlarging easily.And the liner 4 of present embodiment not only allows to fill up 2 and moves but also then can make pad 2 be returned to the effect of original center reliably if its displacing force disappears because have, so it is good to fill up 2 station keeping.Its result can make the liner 4 of present embodiment be made as the inclination limiting structure portion that reaches that moves.

Above-described absorption layer of the present invention 1 is installed on the manipulator 10 shown in Fig. 1 (b) usually, is used for the immigration of heat treated device and the moving of the Fabrication procedure that shifts out of substrate W, the action effect that performance is following.

In annealing device, stack many substrate W, for example be heated to 280 ℃, if through certain time of heat, then in 1 production process, take out the substrate that heat treatment finishes one by one and move into new substrate, heat-treat successively.The taking-up that use the manipulator of the absorption layer of having equipped present embodiment to carry out substrate W plate this moment is put into.

If manipulator 10 is inserted in the not shown annealing device, sets its position below the substrate W that should take out, then rise and substrate W is carried on the bearing surface 22 of 4 absorption layers 1 in Fig. 1 example.At this moment, be formed with the pad 2 of bearing surface 22, be in the roughly reference position of its cylindrical portion 23 in inner ring portion 32, and the anchor ring 24 of below of being kept bearing surface 22 by the upper end face 33 that supports case 3 is in the scope of little leaning angle, so that it moves and rotation easily, therefore if on the bearing surface 22 of pad bearing substrate W, then bearing surface 22 is at reference position W below substrate W roughly ₁Contact, with supporting substrate W.

In addition, at this moment, be installed in the also not shown vacuum action of drives mechanical hand 10 on the automation, by in manipulator or its outside, the not shown vacuum pipe arrangement that is provided with along its guiding, support via intermedia 35, inlet side spatial portion 34b, the opening 25a in the case 3 and be formed on path 25 in the cylindrical portion 23 through being formed on successively, from middle body 21 W below substrate of upper end ₁Between gap portion attract air.Its result, all bearing surfaces 22 of 4 absorption layers 1 fully and the following W of substrate ₁Contact and it is adsorbed support.This adsorption affinity, as described later, the load support power of wt part that is set to the substrate W that is shared than 1 absorption layer 1 is big.

At this moment, substrate W becomes 280 ℃ temperature because of heat treatment.On the other hand, because just manipulator 10 inserts in the thermal chamber, so temperature and less rising.Shift out the manipulator of supporting substrate W at this state from thermal chamber, again substrate W is moved on to following process for producing line.And between this, substrate can reduce temperature sharp under the outer temperature degree environment of slow cool down chamber or outside.

Its result, the supported substrate W of the certain position on manipulator 10 produces and shrinks.Its amount of contraction if substrate temperature drops to normal temperature from 280 ℃, then is about 1mm between the ultimate range Cm between the pad of the Fig. 1 of the square substrate W about 1m.At this moment, pad 2 bears the external force from substrate W and support case 3, and its relation table is shown among Fig. 3.

On manipulator 10, be in the absorption layer 1 of position relation of the largest interval Cm of Fig. 1 (b), for substrate W is shunk about 1mm by the following W of absorption bearing surface 22 by substrate W ₁Direction along parallel its face is born pulling force, and is relative therewith, overcomes the friction force R between the planar portions 31 of filling up 2 bottom 23a and supporting case 3.Thereby, if pulling force is made as F, before motion, be the relation of F=-R then at pad 2, i.e. effect has tensile force f identical with the friction force size, that direction is opposite.

On the other hand, on pad 2, as the vertical power towards the below that produces above-mentioned friction force R, effect has the sharing part g and share power v downwards when the masterpiece that is produced by vacuum is used on the liner 4, because of the vacuum that is applied on the cylindrical portion 23 of its generation of these absorption layers 1 of the deadweight G of substrate W.Thereby, be made as μ as if the friction coefficient between the face of above-mentioned friction force effect, then R=μ (g+v).

In addition, if like this because of the friction effect by R and-couple that R constitutes, then in view of the above, produce M ₁The moment of=Rh.H is the distance between the plane of action of graphic R.This moment M ₁, in the figure of the bearing surface 22 that fills up, become generation and will make right end portion 22a W below substrate ₁The disengaging moment of the power that the below in figure breaks away from.Thereby this power becomes the power that will produce vacuum breaking.

Relative therewith because below substrate W ₁And effect has the adsorption affinity V that is produced by vacuum between the bearing surface 22, so if produce above-mentioned disengaging moment M ₁, be that the center produces M with the left end portion 22b of bearing surface 22 in the drawings then ₂The bonding moment of=VD/2 is to resist mutually with it.

Thereby, as long as M ₁Less than M ₂, then the bearing surface 22 of pad just can be below substrate W ₁Break away from, therefore do not produce vacuum breaking.At this, compare M ₁With M ₂, as follows.

If will be made as Δ P, will be made as D and d respectively to the diameter of the pressure portion of bearing surface 22 and liner 4, then by the difference of pressure that vacuum produces barometric pressure Pa and vacuum pressure Pv

V＜Δ P (π d ²/ 4) (1/2) supposes v=Δ P (π d ²/ 4) (1/2), V=Δ P π D ²/ 4),

M then ₁And M ₂Be respectively:

M ₁＝μ(g+v)h＝μgh+μvh

=μ gh (deadweight part)+μ Δ p (π d ²/ 4) (1/2) h (vacuum section)---(1)

M ₂＝VD/2＝ΔP(πD ²/4)(D/2)---(2)。

At this, manipulator 10 is made thinlyyer as far as possible, and to alleviate its weight, on the other hand, the diameter of bearing surface 22 is for the size that will obtain to keep the necessary adsorption affinity of substrate, be set as about D 3h.In addition, foregoing vacuum adsorption force V, the bearing force g that lotus is undertaken in score is big.In addition, at M ₁Middle for example about 0.3 the μ that exists.And,,, for example be set as about D=2d so its diameter d is fully littler than the diameter D of bearing surface 22 because liner 4 is placed in the spatial portion 34 that supports case 3.Its result, if V is about 2 times of g, M ₂Also be M ₁In 10 times of deadweight part, 40 times of vacuum section, thereby become M ₁8 times.

Its result, bonding moment M ₂For big value, with break away from moment M ₁Compare and have sufficient surplus, can prevent the disengaging of bearing surface 22 relative substrate W reliably, and by the vacuum breaking of its generation.

On the other hand, as an example of each relevant condition of the absorption layer that uses with reality, if g=2N, d=14mm, h=10mm, D=30mm, μ=0.3 calculating v, V, M when press square substrate big or small about Δ P=0.05Mpa, 1m ₁, M ₂, then v 3.8N, V 35N, M ₁ 0.0174Nm, M ₂ 0.525Nm 30M ₁Thereby, can prevent vacuum breaking to the safety factor that does not have problems with big by the disengaging generation of bearing surface.

In addition, in this relation because fill up 2 be set as can and support the supporting relation that moves between the case 3, so for the thermal contraction of substrate W, in fact with surpass slightly-tensile force f of R makes pad 2 move about 1mm along the thermal contraction direction.

For this point, in the absorption layer of existing spherical support type, owing to do not allow pad to move along base plate supports face direction, become big, make adsorption plane be separated, destroy the shortcoming of vacuum state so have the disengaging moment of adsorption plane, in fact also produce aforesaid bad phenomenon really.According to using absorption layer of the present invention, can solve aforesaid this class problem really.In addition,, then when the shifting out of substrate W, be applied to external force on the substrate W, much less danger that substrate W comes off from bearing surface etc. arranged by its acceleration/accel or vibration etc. if adsorption plane is separated.

Fig. 4 is another configuration example that absorption layer of the present invention is used in expression.

The absorption layer 1 of present embodiment is not provided as the liner 4 of sealing element with comparing of Fig. 1.And, by with the identical cylindrical portion 23 as supported portion of Fig. 1 in set paths 25, open guide hole 36 in supporting case 3, and the perforation guide hole 36 that is connected with path 25 and the easy deformation that is connected with the vacuum attraction pipe arrangement of manipulator 10 the intermediate pipe 5 that forms etc. be formed in vacuum structure division on the bearing surface.

Intermediate pipe 5 with the mode of easy deformation, in the present embodiment by inlet portion 51, in the shape of a spiral the curve 52 of shape around about coupled cylindrical portion 23 1 circle, from export department 53 that guide hole 36 is derived, and pipe 54 consecutive etc. with it constitute.This intermediate pipe 5 is made by heat stable resin material with flexibility etc., and is installed on the cylindrical portion 23 in modes such as welding.By guiding the intermediate pipe 5 of this shape and material is set, and can makes the retentivity of vacuum good.And, utilize the freedom of the displacement between inlet portion 51 and the spout member 53, can allow to fill up 2 move and rotation easily.

(effect of invention)

According to aforesaid the present invention, in the 1st invention, absorption layer comprises pad portion and support portion, this pad portion has: by the vacuum that produces the adsorption affinity bigger than the bearing force that supports the load that is produced by object, to supported face the bearing surface that adsorbs of the supported face of the object on plane and supported supported portion, this support portion, support supported portion, if so when object is moved, keep vacuum, then support conduct by the objects such as liquid crystal glass base of hot-cured substrate by vacuum suction, and comprise in indoor the shifting out of heat treated be placed in, can object be moved.

And, because being made as pad portion with supported with the support portion can be along the supporting relation that moves with the plane parallel direction, so when begin when mobile from absorption during, on objects such as substrate, produce big heal differential and object is expanded or contraction because of heat produces, the pad portion on the support portion of being installed on is subjected between object and support portion along with the power of plane parallel direction the time, relative support portion, pad portion moves with the direction of the object that adsorbs support along its plane, therefore, can be by the big sufficient adsorption affinity of support load than the support object, keep the contact relation of adsorbing between object and the support portion reliably.Its result can keep the vacuum of adsorption section and object is moved safely.

In this case, external force at its in-plane on the contact surface of the bearing surface of supported face that acts on object and pad portion absorption, at supported of pad portion and support another contact part place between its support portion, though be supporting relation movably, but produce friction force inevitably by contact, and because outer force rate friction force is big, so pad portion moves to discharge external force, but before this, friction force and become couple with the external force of its opposite sign but equal magnitude, produce external force moment in view of the above, generation will break away from the power of adsorbing contact surface.

So but friction force is produced by the bearing force of the load that supports object, and owing to has friction coefficient more less than bearing force usually.Relative therewith, with respect to the create antagonism adsorption affinity of moment of external force moment, compare big more, just bigger than rubbing more with bearing force.In addition, become the absorption contact surface of other conditions of size of decision external force moment and the interval of other contact surface, need not to set greatly especially, for between the spacing of the substrate that the support portion inserted heat-treat and expendable weight and being installed on the manipulator that thickness establishes thinly etc. as far as possible, so be subjected to closely-spaced restriction, therefore be made as the value more less usually than the interval of adsorption plane.Its result, antagonism moment are than the abundant big value of external force moment, and pad portion can not make the absorption contact surface not move along in-plane easily with breaking away from, can prevent to produce vacuum breaking reliably.

In addition, because supported and support portion, for making bearing surface with the contacted pad of the supported face portion of object such supporting relation that can tilt easily, even so usually between a plurality of absorption layers that are equipped on the manipulator etc. the heeling condition of bearing surface error is arranged, also tilt can contact easily with the supported face of object because of each bearing surface.Its result can reliably produce by vacuum and adsorb vacuum when supporting.

And, because be provided with amount that restriction moves mobile limiting structure portion in little mobile scope, so restriction pad portion unnecessary movement, and it is maintained in the scope of Support Position of benchmark, can satisfy the supporting condition that supports in the position that with the object is purpose.

And then, because be provided with the inclination limiting structure portion of restriction bevelled amount in little bevelled scope, even so when the bearing surface of pad portion does not support object, also bearing surface is maintained in the only essential little leaning angle of trying one's best, when supporting object, prevent dislocation, and can be easy to contact with object by the Support Position of big angular deflection generation.

In the 2nd invention, because the support portion has the spatial portion of putting into supported portion; Pad portion has and is conducted, is formed on bearing surface in supported and have the path of opening at spatial portion, and is described to form; And have sealing element, and the sealing parts, in the one side compartment portion from the aperture position to the bearing surface of spatial portion, the permeability to air of the both sides that blocking is separated is so can make the spatial portion of open side become the evacuated space that can form vacuum.Its result is provided with the via that is opened on evacuated space on the support portion, do not have annexation, can be connected the vacuum pipe arrangement on the support portion of not moving with pad portion.Its result can connect the vacuum pipe arrangement easily.

And, the sealing parts because can with the corresponding distortion of inclination with its bearing surface of moving of pad portion, so can not hinder moving of pad portion, thereby when object has thermal contraction, can not help the disengaging and the vacuum breaking of consequent absorption bearing surface.In addition, because sealing element is formed by soft to a certain degree material usually, so by using such material to become common deformable shape, and can not hinder this pad portion to move easily and the bevelled characteristic.

On the other hand, if sealing element is set like this, spatial portion is separated into vacuum state, then between sealing element place, the spatial portion that is being separated inside and outside, produce difference of pressure, though sealing element is subjected to the external pressure based on vacuum, can sustains this external force and interdict foregoing permeability to air, maintenance vacuum.The formation of this sealing element, with known suitable method the two ends of sealing element are fixed on and have in the pad portion and support portion that becomes the opening that forms spatial portion, and the material by suitably selecting only to sustain above-mentioned external pressure or thickness of material and realization easily.

In addition because if external pressure is added on the sealing element, then the distolateral power of one is added in the pad portion, so except that produce by the load of object bearing force, this external pressure also acts between supported and the support portion, and friction force is increased.But because need not to increase spatial portion and increase sealing element, and spatial portion is formed in the support portion, so the area of spatial portion is set more lessly than the area of the bearing surface of object, so external pressure is far smaller than the adsorption affinity of contact surface.And, because identical, produce friction force, so the final power that is produced by this additional external pressure becomes the abundant little value of contact force than adsorption plane by friction coefficient with the situation of bearing force.Its result keeps the contact condition that the vacuum suction between supported by bearing surface and object produces reliably.

Claims

1. absorption layer, comprise pad portion and support portion, described pad portion has: be the bearing surface that adsorbs of the described supported face of the object on plane and supported supported portion by the vacuum that produces the adsorption affinity bigger than the bearing force that supports the load that described object produces, to supported face, described supported portion is supported in described support portion, it is characterized in that:

Described supported and described support portion, for described pad portion can move along the direction with described plane parallel and the tiltable supporting relation of described bearing surface, and have the mobile limiting structure portion and restriction described bevelled amount inclination limiting structure portion little slant range in of the described mobile amount of restriction in little moving range.

2. absorption layer as claimed in claim 1 is characterized in that: described support portion has the spatial portion of putting into described supported portion; Described pad portion has and is conducted, is formed in described supported with described bearing surface and have the path of opening at described spatial portion, to form described vacuum; And having sealing element, the sealing parts are separated described spatial portion from described aperture position to described bearing surface one side, the permeability to air of the both sides that are separated of blocking, and corresponding described moving and described inclination deformable at described spatial portion.