CN203831907U - Polaroid attaching equipment - Google Patents

Abstract

The embodiment of the utility model provides polaroid attaching equipment, and relates to the field of display technology. The polaroid attaching equipment can eliminate the bubbles generated in an attaching process and prevent the bad attachment, thereby saving the materials. The polaroid attaching equipment comprises a vacuum adsorption carrying table and a display panel carrying table, wherein the vacuum adsorption carrying table comprises an upper carrying table, a lower carrying table and a movable slide block; the upper carrying table and the lower carrying table are correspondingly arranged, and the movable slide block is positioned between the upper carrying table and the lower carrying table; a plurality of adsorption holes and a plurality of strip-shaped guide grooves are distributed in the adsorption surface of the upper carrying table; strip-shaped guide rails parallel to the strip-shaped guide grooves are arranged on the lower carrying table; the movable slide block comprises a sliding plane and a clamping lug, wherein the sliding plane is arranged parallel to and near the bottom surface of the upper carrying table; a plurality of adsorption mouths are distributed on the sliding plane, and the positions of the adsorption mouths correspond to the positions of the strip-shaped guide grooves; the clamping lug is clamped on the strip-shaped guide rails and has removability along the extending directions of the strip-shaped guide rails. The polaroid attaching equipment disclosed by the embodiment of the utility model is used for manufacturing a display device.

Description

A kind of polaroid attaching device

Technical field

The utility model relates to Display Technique field, relates in particular to a kind of polaroid attaching device.

Background technology

At present, as shown in Figure 1, big size polaroid (40-110 cun) attaching device generally includes vacuum suction microscope carrier 10 for adsorbing polaroid and the display floater microscope carrier 20 for fixed display panel, and for pressing the roller 30 of attached polaroid.

In the attaching process of polaroid, shown in Fig. 3, described polaroid 50 exposes a segment distance to hold as attaching with respect to described vacuum suction microscope carrier 10, described display floater microscope carrier 20 moves to the opposite side of described vacuum suction microscope carrier 10, and now described display floater and described polaroid 50 are staggered relatively; Through CCD(Charge Couple Device, charge coupled device) video treatment system to after bit correction, the attaching end of described polaroid 50 attaching of aliging with the side of described display floater, and press attached by described roller 30; Along with the movement of display floater microscope carrier 20, between described display floater and described polaroid 50, there is relative displacement, now described polaroid 50 just can fit tightly with described display floater and depart from gradually described vacuum suction microscope carrier 10 under the attached effect of the pressure of described roller 30, until the end of described polaroid 50 is also attached to the surface of described display floater completely.

But, in the attaching process of above-mentioned polaroid, because the size of described polaroid is larger; therefore the end of described polaroid often can depart from vacuum suction effect and be subject to the impact of gravity; so that there is attaching the problem of bubble, bad thereby generation attaches, cause the waste of polaroid.

Utility model content

Embodiment of the present utility model provides a kind of polaroid attaching device, can eliminate the bubble producing in attaching process, avoid attaching bad, thereby save goods, materials and equipments.

For achieving the above object, embodiment of the present utility model adopts following technical scheme:

A kind of polaroid attaching device is provided, comprises vacuum suction microscope carrier and display floater microscope carrier; Described vacuum suction microscope carrier comprises corresponding upper strata microscope carrier and the lower floor's microscope carrier arranging, and moving slider between the two; On the adsorption plane of described upper strata microscope carrier, be distributed with multiple adsorption holes and multiple bar shaped guide groove; On described lower floor microscope carrier, be provided with the bar shaped guide rail that is parallel to described bar shaped guide groove; Described moving slider is made up of slip plane and Ka Er; Wherein, described slip plane parallel and press close to described upper strata microscope carrier bottom surface arrange; On described slip plane, be distributed with multiple adsorption mouth, and the position of described adsorption mouth is corresponding with the position of described bar shaped guide groove; Described card ear is fastened on described bar shaped guide rail, and has mobility along the bearing of trend of described bar shaped guide rail.

Preferably, described multiple adsorption hole is on the adsorption plane that matrix form is arranged in described upper strata microscope carrier uniformly; Described adsorption mouth grouping is arranged on the slip plane of described moving slider; Wherein, described adsorption hole is circular adsorption hole, and described adsorption mouth is cylindric adsorption mouth.

Preferably, described upper strata microscope carrier and described lower floor microscope carrier are rectangle microscope carrier and have identical size; Wherein, the bearing of trend of described bar shaped guide groove and described bar shaped guide rail is parallel to the direction that relatively moves of described vacuum suction microscope carrier and described display floater microscope carrier.

Further preferred, described lower floor microscope carrier comprises two bar shaped guide rails that are parallel to each other; Described moving slider is made up of a slip plane and two card ears; Wherein, the spacing between described two card ears and the spacing between described two bar shaped guide rails are consistent.

Further, described polaroid attaching device also comprises the roller for pressing attached polaroid; Wherein, the rotating direction of described roller is consistent with the direction that relatively moves of described vacuum suction microscope carrier and described display floater microscope carrier.

Optionally, described vacuum suction microscope carrier is fixed on described polaroid attaching device by rotating shaft.

Optionally, described polaroid attaching device also comprises CCD alignment system.

Optionally, described polaroid attaching device also comprises pumped vacuum systems.

The utility model embodiment provides a kind of polaroid attaching device, comprises vacuum suction microscope carrier and display floater microscope carrier; Described vacuum suction microscope carrier comprises corresponding upper strata microscope carrier and the lower floor's microscope carrier arranging, and moving slider between the two; On the adsorption plane of described upper strata microscope carrier, be distributed with multiple adsorption holes and multiple bar shaped guide groove; On described lower floor microscope carrier, be provided with the bar shaped guide rail that is parallel to described bar shaped guide groove; Described moving slider is made up of slip plane and Ka Er; Wherein, described slip plane parallel and press close to described upper strata microscope carrier bottom surface arrange; On described slip plane, be distributed with multiple adsorption mouth, and the position of described adsorption mouth is corresponding with the position of described bar shaped guide groove; Described card ear is fastened on described bar shaped guide rail, and has mobility along the bearing of trend of described bar shaped guide rail.

Known based on this, described vacuum suction microscope carrier has double-deck stage structure; Wherein, on the adsorption plane of described upper strata microscope carrier, be distributed with multiple adsorption holes, can be used for adsorbing polaroid; On described lower floor microscope carrier, be provided with bar shaped guide rail, can provide dragging track for described moving slider; On the slip plane of described moving slider, be provided with multiple adsorption mouth, can be used for adsorbing the end of polaroid, and along with the movement of described polaroid synchronizing moving.

On this basis, when need to be by polarizer sheet sticking during display floater surperficial, described vacuum suction microscope carrier can be adsorbed on polaroid on the adsorption plane of described upper strata microscope carrier by described adsorption hole, described display floater is fixed on described display floater microscope carrier, and now described polaroid and described display floater are staggered relatively; Process is to after bit correction, and the attaching end of described polaroid aligns with the side of described display floater and attaches in its surface; Along with the movement of described display floater, described polaroid is followed described display floater and is together moved and attach; Meanwhile, described moving slider is followed described polaroid synchronizing moving, and guarantees that by described adsorption mouth the end of described polaroid can not depart from vacuum suction effect.

Like this, the cooperation between described adsorption hole and described adsorption mouth just can ensure that each position of described polaroid can fully be subject to vacuum suction effect, thereby ignores the impact of gravity; Based on this, in the attaching process of described polaroid, just can effectively prevent from attaching the generation of bubble, thereby avoid attaching bad, save goods, materials and equipments.

Brief description of the drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of polaroid attaching device in prior art;

Fig. 2 is the position relationship schematic diagram of the polarizer sheet sticking end in polarizer sheet sticking process and vacuum suction microscope carrier in prior art;

Fig. 3 is the position relationship schematic diagram of the polaroid end in polarizer sheet sticking process and vacuum suction microscope carrier in prior art;

The structural representation of a kind of vacuum suction microscope carrier that Fig. 4 provides for the utility model embodiment;

The structural representation of a kind of vacuum suction microscope carrier that comprises rotating shaft that Fig. 5 provides for the utility model embodiment;

The structural representation of a kind of upper strata microscope carrier that Fig. 6 provides for the utility model embodiment;

The structural representation of a kind of adsorption mouth that Fig. 7 provides for the utility model embodiment;

A kind of lower floor microscope carrier that Fig. 8 provides for the utility model embodiment and the structural representation of moving slider.

Reference numeral:

10-vacuum suction microscope carrier; 20-display floater microscope carrier; 101-upper strata microscope carrier; 1011-adsorption hole; 1012-bar shaped guide groove; 102-lower floor microscope carrier; 1020-bar shaped guide rail; 103-moving slider; 1031-slip plane; 1032-card ear; 1033-adsorption mouth; 104-rotating shaft; 30-roller; 50-polaroid.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model embodiment provides a kind of polaroid attaching device, shown in figure 1, comprises vacuum suction microscope carrier 10 and display floater microscope carrier 20.As shown in Figure 4, described vacuum suction microscope carrier 10 comprises corresponding upper strata microscope carrier 101 and the lower floor's microscope carrier 102 arranging, and moving slider 103 between the two; On the adsorption plane of described upper strata microscope carrier 101, be distributed with multiple adsorption holes 1011 and multiple bar shaped guide groove 1012; On described lower floor microscope carrier 102, be provided with the bar shaped guide rail 1020 that is parallel to described bar shaped guide groove 1012; Described moving slider 103 is made up of slip plane 1031 and Ka Er 1032.

Wherein, described slip plane 1031 parallel and press close to described upper strata microscope carrier 101 bottom surface arrange; On described slip plane 1031, be distributed with multiple adsorption mouth 1033, and the position of described adsorption mouth 1033 is corresponding with the position of described bar shaped guide groove 1012; Described card ear 1032 is fastened on described bar shaped guide rail 1020, and has mobility along the bearing of trend of described bar shaped guide rail 1020.

It should be noted that, the first, described vacuum suction microscope carrier 10 can be for being fixed on polaroid on described adsorption plane by vacuum suction effect; Wherein, described vacuum suction effect can realize by the multiple adsorption holes 1011 that are positioned on described adsorption plane.

The utility model embodiment is not specifically limited for number and the distribution situation of described adsorption hole 1011, but considers the actual adsorption effect of described adsorption hole 1011 for described polaroid, and described adsorption hole 1011 is preferably arranged on described adsorption plane uniformly.

The second, described upper strata microscope carrier 101 comprises adsorption plane and bottom surface; Wherein, described adsorption plane deviates from described lower floor microscope carrier 102 and arranges, and described bottom surface is faced described lower floor microscope carrier 102 and arranged.

Described lower floor microscope carrier 102 comprises supporting surface and bottom surface; Wherein, described supporting surface is faced described upper strata microscope carrier 101 and is arranged, and described bottom surface deviates from described upper strata microscope carrier 101 and arranges.

Here, the adsorption plane of described upper strata microscope carrier 101 can be for placing polaroid, and the supporting surface of described lower floor microscope carrier 102 can provide dragging track for described moving slider 103.

The 3rd, described upper strata microscope carrier 101 and corresponding setting of described lower floor microscope carrier 102 refer to, described moving slider 103, in the process moving along the bar shaped guide rail 1020 of described lower floor microscope carrier 102, can ensure that described slip plane 1031 is positioned at the scope that described upper strata microscope carrier 101 covers all the time.

The 4th, the bar shaped guide rail 1020 of the bar shaped guide groove 1012 of described upper strata microscope carrier 101 and described lower floor microscope carrier 102 is parallel to each other, mainly that the position of described adsorption mouth 1033 can be corresponding all the time with described bar shaped guide groove 1012 in order to ensure that described moving slider 103 is in the process moving along described bar shaped guide rail 1020.

The 5th, described moving slider 103 is made up of described slip plane 1031 and described card ear 1032.Wherein, described moving slider 103 can be corresponding one by one with described bar shaped guide groove 1012, on each described bar shaped guide groove 1012, a described moving slider 103 is all set; Or can be also the simultaneously corresponding multiple described bar shaped guide grooves 1012 of described moving slider 103, on different described bar shaped guide grooves 1012, a described moving slider 103 is set altogether.

The utility model embodiment provides a kind of polaroid attaching device, comprises vacuum suction microscope carrier 10 and display floater microscope carrier 20.Described vacuum suction microscope carrier 10 comprises corresponding upper strata microscope carrier 101 and the lower floor's microscope carrier 102 arranging, and moving slider 103 between the two; On the adsorption plane of described upper strata microscope carrier 101, be distributed with multiple adsorption holes 1011 and multiple bar shaped guide groove 1012; On described lower floor microscope carrier 102, be provided with the bar shaped guide rail 1020 that is parallel to described bar shaped guide groove 1012; Described moving slider 103 is made up of slip plane 1031 and Ka Er 1032.

Wherein, described slip plane 1031 parallel and press close to described upper strata microscope carrier 101 bottom surface arrange; On described slip plane 1031, be distributed with multiple adsorption mouth 1033, and the position of described adsorption mouth 1033 is corresponding with the position of described bar shaped guide groove 1012; Described card ear 1032 is fastened on described bar shaped guide rail 1020, and has mobility along the bearing of trend of described bar shaped guide rail 1020.

Known based on this, described vacuum suction microscope carrier 10 has double-deck stage structure; Wherein, on the adsorption plane of described upper strata microscope carrier 101, be distributed with multiple adsorption holes 1011, can be used for adsorbing polaroid; On described lower floor microscope carrier 102, be provided with bar shaped guide rail 1020, can provide dragging track for described moving slider 103; On the slip plane 1031 of described moving slider 103, be provided with multiple adsorption mouth 1033, can be used for adsorbing the end of polaroid, and along with the movement of described polaroid synchronizing moving.

On this basis, when need to be by polarizer sheet sticking during display floater surperficial, described vacuum suction microscope carrier 10 can be adsorbed on polaroid on the adsorption plane of described upper strata microscope carrier 101 by described adsorption hole 1011, described display floater is fixed on described display floater microscope carrier 20, and now described polaroid and described display floater are staggered relatively; Process is to after bit correction, and the attaching end of described polaroid aligns with the side of described display floater and attaches in its surface; Along with the movement of described display floater, described polaroid is followed described display floater and is together moved and attach; Meanwhile, described moving slider 103 is followed described polaroid synchronizing moving, and guarantees that by described adsorption mouth 1033 end of described polaroid can not depart from vacuum suction effect.

Like this, the cooperation between described adsorption hole 1011 and described adsorption mouth 1033 just can ensure that each position of described polaroid can fully be subject to vacuum suction effect, thereby ignores the impact of gravity; Based on this, in the attaching process of described polaroid, just can effectively prevent from attaching the generation of bubble, thereby avoid attaching bad, save goods, materials and equipments.

Based on foregoing description, optional, described polaroid attaching device can also comprise pumped vacuum systems.Concrete, described pumped vacuum systems can all be connected with described adsorption mouth 1033 with described adsorption hole 1011, thereby ensures that the various piece of described polaroid can comprehensively be subject to vacuum suction effect.

Further, described polaroid attaching device can also comprise CCD alignment system; Wherein, described CCD alignment system can be a kind ofly to carry out the system to bit correction by CCD video treatment system.

Here, by described display floater with described polaroid is staggered relatively and prepare in the process that attaches, undertaken bit correction by described CCD alignment system, just can control accurately the relative position between described display floater and described polaroid, thereby ensure the polarizer sheet sticking display effect of described display floater afterwards.

Described display floater and described polaroid staggered relatively and realize CCD contraposition before, described display floater need to be fixed on described display floater microscope carrier 20, described polaroid is adsorbed on described vacuum suction microscope carrier 10, and then the two is staggered relatively; Wherein, described polaroid can expose a segment distance as attaching end with respect to described vacuum suction microscope carrier 10.On this basis, optional, as shown in Figure 5, described vacuum suction microscope carrier 10 can be fixed on described polaroid attaching device by rotating shaft 104.

Like this, the adsorption plane of described vacuum suction microscope carrier 10 and the stationary plane of described display floater microscope carrier 20 can be originally equal device oriented operating desks; Then described vacuum suction microscope carrier 10 is adsorbed on described polaroid its surface and exposes the attaching end of described polaroid, and described display floater is fixed on its surface by described display floater microscope carrier 20 simultaneously; Subsequently can be by described rotating shaft 104 by described vacuum suction microscope carrier 10 Rotate 180 degree, so that described polaroid transfers to back to operating desk, now described display floater microscope carrier 20 moves to the opposite side of the adsorption plane of described vacuum suction microscope carrier 10, to realize the staggered relatively of described display floater and described polaroid.

Further, shown in figure 4, described upper strata microscope carrier 101 and described lower floor microscope carrier 102 are rectangle microscope carrier and have identical size; Wherein, the bearing of trend of described bar shaped guide groove 1012 and described bar shaped guide rail 1020 is parallel to the direction that relatively moves of described vacuum suction microscope carrier 10 and described display floater microscope carrier 20.

Here,, shown in figure 1, the direction that relatively moves of described vacuum suction microscope carrier 10 and described display floater microscope carrier 20 is the left and right horizontal direction in figure.Concrete, described vacuum suction microscope carrier 10 and described display floater microscope carrier 20 can be arranged on the adjacent position of same level height, and the two all has mobility.Before the attaching process of described polaroid is carried out, described vacuum suction microscope carrier 10 and described display floater microscope carrier 20 are positioned at its initial position separately; In the time that the attaching process of described polaroid starts, described display floater microscope carrier 20 slowly moves to the opposite of described vacuum suction microscope carrier 10, and now described display floater and described polaroid are staggered relatively; Along with the carrying out of the attaching process of described polaroid, described display floater microscope carrier 20 is mobile to its initial position (right side in figure), and now described polaroid is attached to its surface gradually along with the movement of described display floater.

It should be noted that, although said process moves as example and describes taking described display floater microscope carrier 20, but the utility model embodiment can be also that described vacuum suction microscope carrier 10 moves or the two moves simultaneously, as long as moving the attaching process that realizes polaroid by microscope carrier, specifically do not limit.

Preferably, as shown in Figure 6 and Figure 7, described multiple adsorption holes 1011 are on the adsorption plane that matrix form is arranged in described upper strata microscope carrier 101 uniformly; Described adsorption mouth 1033 groupings are arranged on the slip plane 1031 of described moving slider 103.Wherein, described adsorption hole 1011 is circular adsorption hole; Described adsorption mouth 1033 is cylindric adsorption mouth.

By described adsorption hole 1011 is set uniformly on described adsorption plane, can make described polaroid be subject to uniform suction-operated; By described adsorption mouth 1033 is set on described slip plane 1031, can guarantees that described polaroid can not be subject to gravity effect and come off in the time moving to end, thereby avoid attaching the generation of bubble.

On this basis, as shown in Figure 8, described lower floor microscope carrier 102 can comprise two bar shaped guide rails 1020 that are parallel to each other; Described moving slider 103 can be made up of a slip plane 1031 and two card ears 1032; Wherein, the spacing between described two card ears 1032 and the spacing between described two bar shaped guide rails 1020 are consistent.

Like this, described card ear 1032 mobility on described bar shaped guide rail 1020 is just followed described polaroid for described adsorption mouth 1033 and is moved necessary condition is provided.

In the attaching process of described polaroid, consider the compactness of combination between described polaroid and described display floater, shown in figure 1, described polaroid attaching device can also comprise the roller 30 for pressing attached polaroid; Wherein, the rotating direction of described roller 30 is consistent with the direction that relatively moves of described vacuum suction microscope carrier 10 and described display floater microscope carrier 20.

Here, pressing in the process of attached polaroid by described roller 30, because the rotating direction of described roller 30 is consistent with the direction that relatively moves of described display floater microscope carrier 20 and described vacuum suction microscope carrier 10, therefore described roller 30 can press along the attaching direction of described polaroid attached, thereby ensure the compactness of the two combination.

The above; it is only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited to this; any be familiar with those skilled in the art the utility model disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (8)

1. a polaroid attaching device, comprises vacuum suction microscope carrier and display floater microscope carrier; It is characterized in that, described vacuum suction microscope carrier comprises corresponding upper strata microscope carrier and the lower floor's microscope carrier arranging, and moving slider between the two;

On the adsorption plane of described upper strata microscope carrier, be distributed with multiple adsorption holes and multiple bar shaped guide groove;

On described lower floor microscope carrier, be provided with the bar shaped guide rail that is parallel to described bar shaped guide groove;

Described moving slider is made up of slip plane and Ka Er;

Wherein, described slip plane parallel and press close to described upper strata microscope carrier bottom surface arrange;

On described slip plane, be distributed with multiple adsorption mouth, and the position of described adsorption mouth is corresponding with the position of described bar shaped guide groove;

Described card ear is fastened on described bar shaped guide rail, and has mobility along the bearing of trend of described bar shaped guide rail.

2. polaroid attaching device according to claim 1, is characterized in that, described multiple adsorption holes are on the adsorption plane that matrix form is arranged in described upper strata microscope carrier uniformly;

Described adsorption mouth grouping is arranged on the slip plane of described moving slider;

Wherein, described adsorption hole is circular adsorption hole, and described adsorption mouth is cylindric adsorption mouth.

3. polaroid attaching device according to claim 1, is characterized in that, described upper strata microscope carrier and described lower floor microscope carrier are rectangle microscope carrier and have identical size;

Wherein, the bearing of trend of described bar shaped guide groove and described bar shaped guide rail is parallel to the direction that relatively moves of described vacuum suction microscope carrier and described display floater microscope carrier.

4. polaroid attaching device according to claim 3, is characterized in that, described lower floor microscope carrier comprises two bar shaped guide rails that are parallel to each other;

Described moving slider is made up of a slip plane and two card ears;

Wherein, the spacing between described two card ears and the spacing between described two bar shaped guide rails are consistent.

5. according to the polaroid attaching device described in claim 1 to 4 any one, it is characterized in that, described polaroid attaching device also comprises the roller for pressing attached polaroid;

Wherein, the rotating direction of described roller is consistent with the direction that relatively moves of described vacuum suction microscope carrier and described display floater microscope carrier.

6. polaroid attaching device according to claim 1, is characterized in that, described vacuum suction microscope carrier is fixed on described polaroid attaching device by rotating shaft.

7. polaroid attaching device according to claim 1, is characterized in that, described polaroid attaching device also comprises CCD alignment system.

8. polaroid attaching device according to claim 1, is characterized in that, described polaroid attaching device also comprises pumped vacuum systems.