WO2016027384A1 - Sticking apparatus for screen protection sheet for portable electronic device - Google Patents

Sticking apparatus for screen protection sheet for portable electronic device Download PDF

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Publication number
WO2016027384A1
WO2016027384A1 PCT/JP2014/083905 JP2014083905W WO2016027384A1 WO 2016027384 A1 WO2016027384 A1 WO 2016027384A1 JP 2014083905 W JP2014083905 W JP 2014083905W WO 2016027384 A1 WO2016027384 A1 WO 2016027384A1
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WO
WIPO (PCT)
Prior art keywords
sheet
screen protection
protection sheet
screen
unit
Prior art date
Application number
PCT/JP2014/083905
Other languages
French (fr)
Japanese (ja)
Inventor
朗 西畑
博和 増田
Original Assignee
株式会社シントニア
株式会社Idクリエイト
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Priority to JP2014167017A priority Critical patent/JP2017178317A/en
Priority to JP2014-167017 priority
Application filed by 株式会社シントニア, 株式会社Idクリエイト filed Critical 株式会社シントニア
Publication of WO2016027384A1 publication Critical patent/WO2016027384A1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65CLABELLING OR TAGGING MACHINES, APPARATUS, OR PROCESSES
    • B65C1/00Labelling flat essentially-rigid surfaces
    • B65C1/02Affixing labels to one flat surface of articles, e.g. of packages, of flat bands
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09FDISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
    • G09F9/00Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements

Abstract

Provided is a sticking apparatus for automatically sticking a screen protection sheet to a portable electronic device. A screen protection sheet (m) is stuck to a portable electronic device (k) by the sticking apparatus provided with a device disposition unit (2), a peeling operation part (41), and a sticking unit (5). An adhesive layer is formed on a back surface of the screen protection sheet (m), a peelable sheet (n) is superposed thereon, and the peelable sheet (n) is provided with an extension section protruding from the screen protection sheet (m). The sticking unit (5) is provided with a suction part (51) for attaching the screen protection sheet (m) by suction and a movement part (52). The movement part (52) moves the suction part (51) forward while pressing the back surface side of the screen protection sheet (m) against a screen (g). Before this movement, the peeling operation part (41) peels the peelable sheet (n) from the back surface of the screen protection sheet (m) by tearing up and further moving backward the peelable sheet (n). The movement part (52) moves the suction part (51) such that the back surface side of the screen protection sheet (m) after the peelable sheet (n) is peeled is pressed against the screen (g).

Description

Device for attaching screen protection sheet for portable electronic device

The present invention relates to an apparatus for attaching a screen protection sheet of a portable electronic device.

As represented by mobile terminals such as smartphones and tablets, recent portable electronic devices tend to increase those that use a display screen as an operation surface.
Under such circumstances, in order to prevent damage to the display screen of the portable electronic device, a screen protection sheet made of a transparent plastic film used by being attached to the display screen is becoming widespread.

In this screen protection sheet, an adhesive layer made of re-peelable glue is formed on the back surface to be attached to the screen. The adhesive layer may be provided on the entire back surface, or may be provided only on a part of the back surface such as near the edge of the screen protection sheet.
In any case, the release sheet is overlapped on the back surface of the screen protection sheet to cover the back surface so that the screen protection sheet before use does not stick to the other.
When using the screen protection sheet, the purchaser of the screen protection sheet peels off the release sheet from the back surface of the screen protection sheet and attaches the back surface to the screen of the portable electronic device.

However, in the above-mentioned pasting of the screen protection sheet to the screen of the portable electronic device, it is difficult and troublesome for an unfamiliar person or a clumsy person at hand to properly attach the screen protection sheet to the position where the screen is located. Work. For this reason, it often occurs that dust is caught between the screen and the screen protection sheet or that the screen protection film is wrinkled.

In view of such a situation, a screen protection film sticking aid shown in Patent Document 1 has been proposed.
The screen protective film sticking aid shown in Patent Document 1 is a screen protective film sticking aid used for sticking a protective film for protecting the monitor screen to a monitor screen mounted on a device, wherein the monitor A removal object attached to the monitor screen is removed by attaching the frame to at least a part of the screen and a side surface of the screen and sliding the frame on the device. And a supply member for supplying the protective film so that a surface to which the protective film is applied faces the monitor screen after the removal member slides on the monitor screen. And press so that the adhesive surface of the protective film supplied through the supply gap and the supply gap is in contact with the monitor screen Those comprising a pressing member for. In the case of Patent Document 1, as shown in FIG. 5, after the removal member removes dirt and dust attached to the monitor screen by mounting the frame on the device and sliding on the monitor screen, the supply gap The protective film is supplied from the part, pressed by the pressing member, and the protective film is stuck on the monitor screen. The user slides the screen protective film sticking auxiliary tool on the monitor screen while supplying the protective film from the gap for supply. It is possible to easily attach a protective film to the monitor screen, and the frame is molded so as to surround at least a part of the monitor screen and its side surface, so that the device is held by the frame. Since it can be slid in the applied state, it is said that it is possible to prevent displacement when a protective film is applied.

Japanese Patent No. 5243670

However, Patent Document 1 still needs to be manually pasted to the screen. Moreover, although it is improved with the said sticking assistance tool, insertion of the protective film with respect to a sticking assistance tool must be performed by a user, and there exists a possibility that a wrinkle may arise depending on the direction and the method of insertion, and the speed of a slide.

The invention of the present application automatically sets the screen protection sheet without any human intervention by simply setting the protective film, that is, the screen protection sheet and the portable electronic device to which the screen protection sheet is attached, at a predetermined position. A sticking device for sticking to a screen of a portable electronic device is provided to solve the above-mentioned problems.

The present invention provides a screen protection sheet sticking device for sticking a screen protection sheet to a screen of a portable electronic device such as a smartphone, which has the following configuration.
That is, an adhesive layer made of a releasable glue is formed on a part of the back surface of the screen protection sheet to be attached to the screen or on the entire back surface, and the release sheet is overlapped on the back surface to overlap the back surface. The peeling sheet includes an extending portion that protrudes from at least one side of the screen protection sheet, and the sticking device peels off the peeling sheet and a device placement portion that places the portable electronic device. An operation part, and a sticking part for sticking the back surface of the screen protection sheet from which the release sheet has been peeled off to the screen, the sticking part holding a surface side of the screen protection sheet; A moving unit that moves the holding unit, the holding unit holding the screen protection sheet at a position away from the device placement unit, and the moving unit holding the screen protection sheet Holding part It is moved toward the portable electronic device of the device arrangement unit, and the back side of the screen protection sheet is pressed against the screen of the portable electronic device.In at least one process of the movement, the moving unit is: About the holding portion, the screen protection sheet is moved in a direction substantially orthogonal to the thickness direction of the screen protection sheet with the one side of the screen protection sheet as a head, and a direction substantially orthogonal to the thickness direction During the movement to or before the movement, the peeling operation unit moves relative to the holding unit so as to intersect the head of the screen protection sheet, thereby extending the extension part to the screen protection sheet. Pressing in the thickness direction, turning the release sheet from the top side of the screen protection sheet, and after turning, before the peeling operation unit moves in a direction substantially perpendicular to the thickness direction It moves in a substantially opposite direction relative to the movement of the screen protection sheet, and the rolled release sheet is gradually peeled from the back surface of the screen protection sheet. The holding unit is moved so as to press the back side of the screen protection sheet after peeling against the screen of the portable electronic device.

Note that the portable electronic device such as a smartphone here may be any portable electronic device provided with a display protected by a screen protection sheet, such as a smartphone, a tablet, a mobile phone, a PDA, a mobile game. Devices, electronic dictionaries, portable reading devices for electronic books, portable navigation devices, notebook computers, digital cameras, portable televisions, portable music playback devices, and portable video playback devices.

The above "Paste the screen protection sheet to the screen" means whether to paste the screen protection sheet only on the screen, or to paste the screen protection sheet in a wider area including the screen, This includes the case where a screen protection sheet is pasted only on a part of the screen. For example, the screen protection sheet may be pasted over the entire screen in both cases where the entire surface of the portable electronic device is a screen and the other partial region of the surface is a screen. In contrast to the above, when the liquid crystal part or the pressure sensor part is provided only in a part of the screen, the screen protection sheet is attached only to the part of the screen, that is, the area requiring protection. It may be a thing.

Moreover, in this invention, the said device arrangement | positioning part is provided with the arrangement surface which can arrange | position the said portable electronic device, and the said arrangement surface is on an arrangement surface so that the portable electronic device on the said arrangement surface may be surrounded. A plurality of abutting portions provided to abut each position on a side surface of the portable electronic device, and a part of the plurality of abutting portions is provided at a fixed position on the arrangement surface to be an alignment portion; The other part of the plurality of contact portions constitutes a restricting portion capable of restricting movement of the portable electronic device as a hit against the portable electronic device on the arrangement surface, and the restriction The portion is provided on the arrangement surface so that the position relative to the alignment portion can be changed, and the restriction portion is a screen protection sheet corresponding to each of the portable electronic devices having different dimensions or shapes depending on the change in the position. We were able to provide a sticking device

Further, in the present invention, a sheet placement portion for placing the screen protection sheet at a position to be held by the holding portion, wherein the extending portion of the release sheet is provided with a through hole or a notch as a fitting portion. The sheet placement portion has a sheet placement surface for placing the screen protection sheet so as to face the release sheet superimposed on the screen protection sheet. A fitted portion that is fitted to the fitting portion of the release sheet and positions the screen protection sheet with respect to the sheet placement surface is provided, and the fitted portion is configured to be able to protrude and retract from the sheet placement surface. When the screen protection sheet on the sheet arrangement surface is held by the holding unit, the screen is submerged from the sheet arrangement surface and detached from the fitting unit, and the screen of the release sheet By changing at least one of the position overlapping the protective sheet, the size of the release sheet, the shape of the release sheet, the shape of the release sheet, and the position of the fitting portion in the release sheet In addition, the apparatus for attaching the screen protective sheet capable of suppressing the trouble of adjustment on the apparatus side required for dealing with the change in the size or shape of the screen protective sheet could be provided.
Note that the change in the position of the screen protection sheet relative to the release sheet includes a change in the range of the screen protection sheet relative to the release sheet, that is, the size of the screen protection sheet.

Still further, in the present invention, the holding part is an adsorption part that adsorbs and holds the screen protection sheet, and the sticking part includes one or a plurality of negative pressure supply parts connected to the adsorption part. One or a plurality of valves, the adsorbing portion includes a flat contact surface facing the surface of the screen protection sheet, the contact surface is provided with a plurality of suction ports, The negative pressure supply unit supplies negative pressure to the suction port to adsorb the screen protection sheet to the contact surface, and each of the suction ports is configured to adsorb the screen protection sheet. The suction portion is distributed on the abutting surface so as to correspond to the one having the largest dimension, and the suction portion branches from the connection portion with the negative pressure supply portion toward each of the plurality of suction ports. A manifold having a passage extending therethrough, wherein the valve includes a plurality of the suctions. The supply of the negative pressure to a part of the suction ports is cut off, and the valve contacts the contact when adsorbing the screen protection sheet having a size smaller than the maximum size of the screen protection sheet. It was possible to provide a screen protection sheet sticking device that cuts off the supply of negative pressure to the suction port provided in a region that does not face the screen protection sheet.

The present invention can provide a screen protection sheet sticking device for automatically sticking a screen protection sheet to a screen of a portable electronic device such as a smartphone.
In particular, in a screen protection sheet provided with a releasable glue adhesive layer on the back side to be attached to the screen, and the release sheet is overlapped on the back side, the release sheet can be peeled off smoothly, for screen protection. It was possible to suppress wrinkling on the sheet.

Further, in the present invention, the screen protection sheet can be attached to the screens of various portable electronic devices having different dimensions and shapes by a single attaching device by changing the position of the restricting portion. In the embodiment level, both the smartphone and the tablet terminal can be supported, and the screen protection sheet can be attached to the screens of both the smartphone and the tablet terminal with a single attaching device.

Furthermore, in the present invention, the correspondence of the positioning by the holding portion to the screen protection sheet having different dimensions depending on the type of the portable electronic device is changed, the position of the screen protection sheet is changed with respect to the release sheet, and further the peeling This can be done by changing the size and shape of the sheet and the position of the fitting portion, and the adjustment effort on the apparatus side, such as the position adjustment of the sheet placement portion and the device placement portion, can be reduced.

Furthermore, in the present invention, a suction part is used as a holding part, and a manifold having a flat abutting surface is adopted for the suction part, whereby a plurality of suction pipe tips and suction cups for supplying negative pressure are provided. In the case where the screen protective sheet is sucked by being applied to the screen protective sheet, wrinkles that tend to occur around a portion that comes into contact with the pipe tip or the suction cup are hardly generated. Further, if a plurality of hoses are connected to supply negative pressure to the plurality of pipes, there is a risk that intake air leaks from the hoses due to deterioration over time. It is difficult to specify the position of the leak in the hose, and repair is time consuming. In the present invention that employs the manifold, the possibility of such intake air leakage is small, and the labor and cost required for maintenance can be suppressed.

(A) is a substantially whole front view which shows one Embodiment of the sticking apparatus of the screen protection sheet which concerns on this invention, (B) is a substantially whole back view of the sticking apparatus of the screen protection sheet of (A). (A) is a substantially whole front view which shows the internal structure of the sticking apparatus of the screen protection sheet | seat of FIG. 1 (A) with a broken line, (B) is a schematic front view of the internal structure of (A). (A) is a plan view of the main part (apparatus arrangement part) before use of the screen protective sheet sticking apparatus of FIG. 1 (A), (B) is a cross-sectional view along XX of (A), (C) FIG. 2 is a main part plan view showing a state in which the screen protection sheet sticking device of FIG. (A) is a principal part top view which shows the state which uses the sticking apparatus of the screen protection sheet of FIG.3 (C) for a tablet, (B) is sticking of the screen protection sheet of FIG.1 (A). The top view which shows the state which has arrange | positioned the sheet | seat for screen protection to the principal part (mainly sheet | seat arrangement | positioning part) of an apparatus. (A) is a bottom view of the main part (adsorption part) of the screen protective sheet sticking device of FIG. 1 (A), (B) (Y) cross-sectional view of (A), (C) is of (A) ZZ sectional view. (A)-(C) is a schematic front view of the internal structure showing each process of operation of the screen protective sheet sticking apparatus shown in FIG. 2 (B). (A)-(C) is a schematic front view of the internal structure showing each process of operation of the screen protective sheet sticking apparatus shown in FIG. 2 (B) after the state of FIG. 6 (C). (A) is a schematic front view of the main part (of the sheet arrangement part and the peeling operation part) of the screen protection sheet sticking device showing the details of the transition process from FIG. 6 (B) to FIG. 6 (C); B) is a schematic cross-sectional view of a screen protection sheet m that is attached to the screen of a portable electronic device by the above-described apparatus.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each figure, for convenience of explanation, U represents the upper side, S represents the lower side, F represents the front, B represents the rear, L represents the left side, and R represents the right side. However, the naming of each side of the screen protection sheet m is based on the traveling direction of the sheet being processed, unlike the front, rear, left, and right sides of the apparatus.

In FIG. 8B, hatching is omitted in order to avoid complexity of the drawing.
Here, a smartphone and a tablet are exemplified as the portable electronic device k on which the screen protection sheet m is attached to the liquid crystal screen.

(Screen protection sheet m)
First, the screen protection sheet m that is attached to the screen of the portable electronic device k by the apparatus according to the present invention will be described.
As shown in FIGS. 4B and 8A, the screen protecting sheet m includes a front side ma on the right side in the drawing, a side mb on the front (lower) side in the drawing, and a rear side (upper) in the drawing. It is a plastic transparent film formed in a substantially rectangular shape in a plan view formed on a side mc on the side and a rear side md on the left side in the drawing.

In this example, the screen protective sheet m is formed with an adhesive layer made of a removable glue on the entire lower surface, that is, the entire area on the back surface m2 side (not shown). However, this does not exclude the case where the adhesive layer is formed only on a part of the back surface m2.
As shown in FIG. 4B and FIG. 8B, the release sheet n is overlaid on the back surface m2 of the screen protecting sheet m to cover the back surface m2.

In this example, the release sheet n is a flat rectangular plastic film corresponding to the shape of the screen protection sheet m.
In a plan view of the screen protection sheet m, the release sheet n includes an extending portion that protrudes from each side of the screen protection sheet m in this example. In FIG. 4B, na is a front extending portion that protrudes from the front side ma of the screen protecting sheet m to the left side in the drawing, that is, the moving direction of the sheet being processed, and nb is the front side of the extending portion. A side extending portion protruding from the side mb to the near side, nc a side extending portion protruding from the back side mc to the back side, and nd a moving direction of the sheet from the rear side md of the sheet being processed The rear extension part which protrudes in the opposite direction is shown.

In this example, as shown in FIGS. 4B and 8B, through holes are fitted into the front extending portion na and the side extending portion nb from the upper surface n1 to the lower surface n2 of the release sheet n. n3 is provided.
However, the arrangement and the number of the fitting portions n3 are not limited to those shown in the drawings, and the fitting portions n3 can be provided in an extending portion other than the front extending portion na and the side extending portion nb.

Moreover, the fitting part n3 should just be able to fit with the to-be-fitted part mentioned later, and it is good also as what implements by providing a notch part in the edge of the peeling sheet n besides the said through hole, For example, the fitting portion n3 can be implemented as the four corners of the release sheet n having a rectangular shape in plan view, instead of providing the notch portion separately.

By changing any of the position of the release sheet n overlapping the screen protection sheet m, the dimension of the release sheet n, the shape of the release sheet n, and the position of the fitting portion n3 in the release sheet n, It is possible to reduce the time and effort of adjustment on the apparatus side required for dealing with a change in size or shape, that is, a change in the portable electronic device k. In particular, even if the size and shape of the screen protection sheet m are changed and the position of the release sheet n overlapping the screen protection sheet m is changed, by providing the fitting portion n3 at a position that can correspond to each change from the beginning, In the said change, it can respond, without changing the dimension of the peeling sheet n, the shape of the peeling sheet n, and the position of the said fitting part n3, and can save an effort further. In this case, a later-described fitted portion may be set at a position corresponding to the position of the fitting portion n3 from the beginning.

(Overall configuration of the device)
As shown in FIGS. 1 and 2, the screen protection sheet sticking apparatus includes a case 1 and an internal mechanism (FIG. 2B) accommodated in the case.
The internal mechanism includes an apparatus placement unit 2, a sheet placement unit 3, a peeling mechanism unit 4, a sticking unit 5, a power supply unit (not shown), and a control unit (not shown) that controls the operation of each unit. .).

Details of each part will be described below in order.
(Case 1)
The case 1 is a substantially rectangular parallelepiped casing as shown in FIG. In this example, the case 1 is mainly formed of a transparent plastic whose inside can be observed.

As shown in FIG. 1A, on the front surface of the case 1, a first opening / closing for inserting the unused screen protection sheet m from outside the case 1 into the case 1 and placing it in the sheet placement portion 3. Part 11 is provided. Next to the first opening / closing part 11 (right), a second opening / closing part 12 for inserting / removing the portable electronic device k to / from the case 1 is provided. In this example, a third opening / closing part 13 for collecting the used release sheet n is provided below the second opening / closing part 12.

Each of the first opening / closing part 11, the second opening / closing part 12, and the third opening / closing part 13 includes an opening provided in the case 1 and a door that closes the opening so as to be freely opened and closed.
The case 1 is provided with a power cord (not shown) that is connected to a commercial power source and supplies electricity to the power source unit.

As shown in FIG. 1B, a fan 14 is provided on the back of the case 1. The fan 14 introduces outside air into the case 1 to place the inside of the case 1 in a pressurized state while the apparatus is in use, and prevents dust and dirt from entering from the outside of the case 1. The fan 14 preferably employs a built-in dustproof filter.

The fan 14 is not limited to the back surface of the case 1 and may be provided at another position of the case 1.
In addition, on the surface of the case 1, an operation unit for performing each setting of the apparatus and turning on / off the power is provided (not shown).

(Equipment placement unit 2)
As shown in FIGS. 3A and 3C, the device placement unit 2 is a base plate that is rectangular in plan view. The upper surface of the device placement unit 2 forms a placement surface 21 on which the portable electronic device k can be placed.

As shown in FIG. 2A, the device placement unit 2 is provided in the vicinity of the second opening / closing unit 12 in the case 1 so that the portable electronic device k can be placed from the second opening / closing unit 12. Yes.
As shown in FIG. 2B, the case 1 is provided with a guide rail 24 extending in the front-rear direction F, B in the case 1, that is, extending from the back to the front side in FIG. A guide portion 25 guided by a guide rail 24 is provided on the lower surface of the device placement portion 2. By guiding the guide portion 25 to the guide rail 24, the device placement portion 2 can move back and forth. By this movement, the device placement unit 2 can be taken in and out from the second opening / closing unit 12. Then, the portable electronic device k can be placed on the placement surface 21 of the device placement unit 2 drawn out of the case 1.

Although not shown, the guide rail 24 is slightly inclined so as to gradually increase from the rear B side toward the front F side.
As shown in FIG. 3C, the placement surface 21 is provided on the placement surface 21 so as to surround the portable electronic device k on the placement surface 21, and abuts on each position on the side surface of the portable electronic device k. A plurality of contact portions 22 are provided.

A part of the plurality of contact parts 22 is provided at a fixed position on the arrangement surface 21 to form an alignment part 22a, and the other part of the plurality of contact parts 22 is a portable type on the arrangement surface 21. As a hit with respect to the electronic device k, there is a restricting portion 22b that restricts the movement of the portable electronic device k and leaves the positioning portion 22a.

As shown in FIG. 3C and FIG. 4A, the alignment unit 22a is two hits sandwiching one corner k3 of the portable electronic device k placed on the arrangement surface 21.
The restricting portion 22b is provided on the arrangement surface 21 so that the position relative to the alignment portion 22a can be changed.

Specifically, the alignment portion 22 a is a protrusion that protrudes from the arrangement surface 21 and is fixed to the arrangement surface 21. However, in this example, the arrangement surface 21 is provided with a plurality of concave portions indicated by black circles in FIG. 3, and the alignment portion 22a is a pin that can be fixed by being inserted into the concave portion, and the insertion concave portion is selected. By doing so, the position of the alignment portion 22a can be adjusted. However, the present invention can be implemented even if the concave portions that are not used are not provided or the alignment portion 22a cannot be separated from the arrangement surface 21 and the position adjustment of the alignment portion 22a is not performed.

On the other hand, in this example, each restricting portion 22b can approach or separate from the alignment portion 22a by sliding the arrangement surface 21.
Specifically, as shown in FIG. 3A, the device placement portion 2 is formed with a groove 23 extending in the sliding direction. As shown in FIG. 3B, the width of the groove 23 in the direction orthogonal to the direction in which the groove 23 extends is larger on the back side of the groove 23 than on the opening side of the groove 23. On the other hand, unlike the exposed front end side of the restricting portion 22b, the base side of the restricting portion 22b accommodated in the groove 23 has a width larger than the opening width of the groove 23 in the direction orthogonal to the direction in which the groove 23 extends, The restricting portion 22b does not fall out of the groove 23.

FIG. 3C illustrates an example of the smartphone k1 as the portable electronic device k, and FIG. 4A illustrates an example of the tablet k2 as the portable electronic device k. Regardless of the change of the portable electronic device k, the position of the portable electronic device k can always be adjusted by the alignment unit 22a with reference to the fixed position. And it can respond to the change of such a portable electronic device k by the change of the position by the said slide of each control part 22b.
In addition to those shown in the drawings, it can be carried out even if the position of the regulating portion 22b once adjusted by screwing is not shifted when the portable electronic device k is not frequently changed (not shown).

(Sheet placement part 3)
The sheet placement unit 3 shown in FIGS. 2 (B) and 4 (B) is for placing the screen protection sheet m at a position where the suction unit 51 described later holds the screen protection sheet m.

The sheet arrangement part 3 is a table having an upper surface as the sheet arrangement surface 31 and is fixed to the case 1. The sheet arrangement portion 3 has a substantially U shape in a side view of the apparatus, and both ends of the U shape are fixed to the upper surface of the bottom of the case 1.
As shown in FIG. 2A, the sheet placement unit 3 is provided in the case 1 in the vicinity of the first opening / closing unit 11 so that the screen protection sheet m can be set from the first opening / closing unit 11.

The sheet protection surface m is placed on the sheet arrangement surface 31, and the sheet arrangement surface 31 faces the lower surface n <b> 2 of the release sheet n superimposed on the screen protection sheet m (FIG. 6A).
As shown in FIGS. 2B and 4B, the sheet protection surface m is positioned on the sheet arrangement surface 31 by being fitted to the fitting portion n <b> 3 of the release sheet n on the sheet arrangement surface 31. A fitted portion 32 is provided.

The fitted portion 32 is a protrusion provided on the sheet placement portion 3 so as to protrude and retract from the sheet placement surface 31 by a known means. Although illustration is omitted, for example, the sheet disposition unit 3 includes a cam mechanism driven by a motor, and the control unit controls the motor to operate the cam mechanism and accommodate the fitted portion 32. The present invention can be carried out by causing the sheet placement surface 31 to appear and disappear from within the receiving recess.
When the screen protection sheet m on the sheet arrangement surface 31 is adsorbed by the adsorption unit 51 described later, the control unit immerses the fitted part 32 from the sheet arrangement surface 31 and leaves the fitting part n3. Let

(Attaching part 5)
As shown in FIGS. 2A and 2B, the adhering unit 5 includes an adsorbing unit 51 as a holding unit that adsorbs and holds the surface m1 side of the screen protecting sheet m, and a moving unit 52 that moves the adsorbing unit 51. , One or a plurality of negative pressure supply units connected to the adsorption unit, and a plurality of valves 53.

As shown in FIGS. 5A to 5C, the adsorbing portion 51 includes a flat contact surface 51c that faces the surface of the screen protection sheet m. The contact surface 51c is provided with a plurality of suction ports 51a and 51b. The negative pressure supply unit supplies negative pressure to the suction ports 51a and 51b, and adsorbs the surface m1 side of the screen protection sheet m to the contact surface 51c.

Each of the suction ports 51a and 51b is distributed on the contact surface 51c with a space between each other so as to correspond to the largest dimension of the screen protection sheet m to be attracted. In this example, the minimum screen protection sheet m to be handled is for the smartphone k1, and as shown by a two-dot chain line in FIG. 5A, a part of the suction port (suction port 51a) is displayed in the region a corresponding to the screen g. ) Is distributed. In this example, the maximum screen protection sheet m to be handled is for the tablet k2, and all of the suction ports 51a and 51b are distributed in the area b corresponding to the screen g as shown by the broken line in FIG. . That is, since the region a is included in the region b, the suction ports 51a in the region a corresponding to the smartphone k1 are distributed together with other partial suction ports 51b in the region b corresponding to the tablet k2. It is also what you do.

The suction part 51 is a manifold having a passage extending in a branching manner from the connection part with the negative pressure supply part toward each of the plurality of suction ports 51a and 51b. The valve 53 is an electromagnetic valve.
When adsorbing the screen protection sheet m of the smartphone k1, some valves 53 block the supply of negative pressure to the other suction ports 51b among the suction ports 51a and 51b.

That is, when adsorbing the screen protection sheet m having a size smaller than the maximum size of the screen protection sheet m, the valve 53 does not face the screen protection sheet m on the contact surface 51c as described above. The supply of negative pressure to the suction port 51b provided in the area (excluding the area a from the area b) is blocked.

In this example, it is assumed that it corresponds to two types of smartphone and tablet, but can also be implemented as one corresponding to three or more types of portable electronic devices. In that case, in addition to areas a and b, other than smartphones and tablets An area corresponding to the screen of the portable electronic device may be set, and the number of suction ports and valves 53 corresponding to the area may be increased (illustration is omitted).

As shown in FIGS. 2A and 2B, the moving part 52 includes a piston part 52 a provided with the suction part 51 on the tip side, a cylinder part 52 b that accommodates the piston part 52 a in a retractable manner, and a case 1. And a guide 52c provided.
The guide portion 52c is a guide bar extending in the left and right directions L and R in FIGS. 2A and 2B, and the cylinder portion 52b is attached to the guide portion 52c. It is possible to move in the directions L and R. The guide portion 52c extends from above the sheet placement portion 3 toward above the device placement portion 2.

With the above configuration, the moving unit 52 can move the suction unit 51 in the lateral direction from the sheet arranging unit 3 toward the device arranging unit 2 along the guide unit 52c.
The piston part 52a can move up and down with respect to the cylinder part 52b by protruding and retracting from the piston part 52a. Further, in this example, the negative pressure generated in the cylinder portion 52b is adsorbed in the piston portion 52a when the piston portion 52a extends downward from the cylinder portion 52b. An intake passage leading to the portion 51 is provided (not shown). That is, in this example, the piston part 52a and the cylinder part 52b constitute the negative pressure supply part. However, in addition to using the piston part 52a and the cylinder part 52b as the negative pressure supply part, it is also possible to implement a structure in which an air pump is separately connected to the suction part 51 as the negative pressure supply part.

The moving part 52 further lowers the suction part 51 that has reached the upper side of the device placement part 2 after the peeling sheet n is peeled off by the peeling mechanism part 4 by extending the piston part 52a, and the rear face m2 of the screen protecting sheet m. Can be pressed against the screen g of the portable electronic device k.

(Peeling mechanism part 4)
As shown in FIGS. 2 (B), 4 (B), and 8 (A), the peeling mechanism unit 4 removes the release sheet n from the screen protective sheet m while the moving unit 52 moves the screen protective sheet m. It peels from the back surface m2. In this example, the peeling mechanism unit 4 peels the peeling sheet n from the back surface m2 of the screen protection sheet m while the screen protection sheet m is moving from the left side L to the right side R in FIG. Let
Specifically, the peeling mechanism unit 4 includes a peeling operation unit 41, an operation unit 42, a shaft stopping unit 43, a receiving unit 44, a driving unit 45, and a discharge guide unit 46.
In this example, the peeling operation unit 41 is a free roller, the operation unit 42 is two arms that rotatably hold the roller, and the shaft stopper 43 pivotally stops the arm. .

The roller which is the peeling operation unit 41 is rotatably held between the tips of the two arms of the operation unit 42 (FIG. 4B). The shaft stopper 43 pivots the base side of the two arms of the operating portion 42. The shaft stopper 43 obtains power from a power source (not shown) such as a motor and swings the two arms around the base side. By this swinging, the roller as the peeling operation unit 41 moves from the upper side to the lower side with respect to the traveling direction of the screen protection sheet m during the movement from the left L to the right R in FIGS. 2 (B) and 8. And can cross. The receiving portion 44 is a rotating roller that rotates upon receiving power from the driving portion 45. The driving unit 45 employs known driving means such as a motor. The rotating roller which is the receiving portion 44 is fixed at a fixed position of the case 1. The rotating roller that is the receiving portion 44 can sandwich the release sheet n with the roller of the peeling operation portion 41 that has been lowered by the swing. The discharge guide part 46 guides the release sheet n peeled from the screen protection sheet m to the vicinity of the third opening / closing part 13.

As described above, during the movement from the left L to the right R in FIG. 2B, that is, during the movement in the direction substantially perpendicular to the thickness direction of the screen protection sheet m, the peeling operation unit 41 is moved to the suction unit 51. By moving relative to the head of the screen protection sheet m, the front extension portion na is pressed in the thickness direction of the screen protection sheet m, that is, the lower side, and the release sheet n is pressed against the screen protection sheet. It is possible to hit from the head side of m.

After the turning, the peeling operation unit 41 moves in a direction substantially opposite to the movement of the screen protection sheet m moving in the direction substantially orthogonal to the thickness direction, and the rolled release sheet n is used for screen protection. The sheet m is gradually peeled off from the back surface. This relatively reverse direction means that the screen protection sheet m is moving, and the peeling operation unit 41 does not necessarily move in the opposite direction to the screen protection sheet m with respect to the case 1. You don't have to.

(Power supply part)
The power supply unit supplies electricity from an external commercial power supply to the internal mechanism through the power cord. However, the battery is not limited to a commercial power source, and a battery may be used.

(Control part)
A control part receives supply of electricity from a power supply part, controls supply of electricity to each drive means and power source which have been described above, and controls operation of each part of the sticking apparatus.
Although illustration is omitted, a sensor is connected to the control unit, and the operation timing of each unit can be detected to match the operation timing of each unit. For example, when a light sensor composed of a light emitting part and a light receiving part is provided in the movement path between the suction part 51 and the suction part 51 in the case 1, the light receiving part receives light emitted from the light emitting part, or the light receiving part However, it can also be implemented by causing each unit to start the next operation with reference to the time when the light of the light emitting unit that has been received is blocked. Moreover, it can implement also as what uses physical sensors, such as a pressure-sensitive sensor, instead of such an optical sensor. Furthermore, a servo motor can be adopted as each driving means and power source, and the direction of the rotating shaft and the number of rotations of the motor can be detected to detect the operation timing of each part. In addition, the control unit may be provided with a timer to detect the passage of time from the start of operation and to determine the operation timing of each unit.

(Operation of equipment)
The operation of the device will be described.
By the operation of the operation unit, the power supply unit is turned on, the fan 14 is operated, and the inside of the case 1 is brought into a pressurized state.

At the start of use of the apparatus, the suction unit 51 is arranged directly above the arrangement surface 21 of the device arrangement unit 2 by the moving unit 52. That is, the suction part 51 is in the same position as shown in FIG. However, unlike the case of FIG. 7B, the suction portion 51 is retracted upward from the placement surface of the device placement portion 2 without sucking the screen protection sheet m, and the portable electronic device k is also placed in the device placement. It is not on the arrangement surface 21 of the part 2. At this time, the fitted portion 32 of the sheet arrangement portion 3 protrudes from the sheet arrangement surface 31 as shown in FIG. Further, the shaft stopping portion 43 of the peeling mechanism portion 4 maintains the state where the distal end side of the operating portion 42 is directed downward and the peeling operation portion 41 is disposed below the sheet placement surface 31.

The user opens the door of the first opening / closing part 11 and pulls out the device placement part 2 along the guide rail 24 (FIG. 2B). As shown in FIG. 3B or FIG. 4A, the portable electronic device k is placed at a predetermined position on the placement surface 21 of the device placement unit 2. In the arrangement, the position of the portable electronic device k is appropriately adjusted to a predetermined position on the arrangement surface 21 of the device arrangement unit 2 by the contact portion 22 described above. After the arrangement, the pulled out device arrangement portion 2 is returned to the original case 1 and the first opening / closing portion 11 is closed.

In the case of the tablet k2, the tablet k2 is placed on the placement surface 21 as shown in FIG. 4 (A), and then the user opens the second opening / closing part 12 to open the tablet k2 as shown in FIG. 4 (B). As shown in FIG. 5, the screen protection sheet m is arranged on the sheet arrangement surface 31 of the sheet arrangement unit 3. In this arrangement, the protruding portion to be fitted 32 is fitted into the fitting portion n3 of the release sheet n on the back surface m2 of the screen protection sheet m, so that the screen protection sheet m is surely placed at a predetermined position on the sheet placement surface 31. Can be arranged. After the arrangement of the screen protection sheet m, the second opening / closing part 12 is closed.

When the arrangement of the portable electronic device k and the screen protection sheet m is completed, the user operates the operation unit to cause the sticking apparatus to start sticking work.
In response to the operation of the operation unit, the control unit causes the moving unit 52 to move the suction unit 51 directly above the sheet arrangement surface 31 of the sheet arrangement unit 3.

When the control unit detects the arrival of the suction unit 51 directly above the sheet arrangement surface 31 by the above-described sensor or timer, the control unit detects the shaft stop portion of the peeling mechanism unit 4 as shown in FIG. 43 is operated to swing so that the front end side of the operating portion 42 faces upward, and the peeling operation portion 41 is moved upward from the sheet placement surface 31.
And a control part makes the state to which the to-be-fitted part 32 was sunk from the sheet | seat arrangement | positioning surface 31, and removes the to-be-fitted part 32 from the fitting part n3.

Next, as shown in FIG. 7B, the control unit extends the tip of the piston portion 52a of the moving unit 52 downward to lower the suction unit 51, and the contact surface 51c to the surface m1 of the screen protection sheet m. Make contact. During this contact, the valve 53 (solenoid valve) is opened. The surface m1 of the screen protecting sheet m is sucked into the suction ports 51a and 51b by the negative pressure from the negative pressure supply unit, and is sucked and held by the suction unit 51.
After the screen protection sheet m is adsorbed, the control unit swings so that the distal end side of the operating unit 42 is directed downward by the operation of the shaft stopping unit 43, and the roller serving as the peeling operation unit 41 is received by the receiving unit 44. Contact a rotating roller.

As shown in FIG. 6 (C), the above-described operation of the peeling operation unit 41 causes the peeling operation part 41 and the receiving part 44 to sandwich the front extension portion na of the peeling sheet n. As shown in FIG. 8A, the rotating roller that is the receiving portion 44 is located on the left side of the front end, that is, the right end of the sheet placement surface 31 of the sheet placement portion 3. For this reason, during the operation of the peeling operation unit 41, the peeling sheet n is smoothly rolled from the screen protection sheet m to the lower left side.

As described above, when the front extension part na of the release sheet n is sandwiched between the peeling operation part 41 and the receiving part 44, the control part rotates the receiving part 44 by driving the driving part 45. Further, simultaneously with the rotation of the receiving unit 44, the control unit operates the moving unit 52 to start moving the suction unit 51 in the lateral direction, that is, the right direction R. The speed of movement of the suction part 51 and the speed of feeding the release sheet n due to the rotation of the receiving part 44 are set to be the same. Due to the coincidence of the speeds, the release sheet n is smoothly peeled off as shown in FIG. As shown in FIG. 7B, the separated separation sheet n is guided to the discharge guide portion 46 and dropped to the vicinity of the third opening / closing portion 13.

When the control unit detects that the suction unit 51 has moved directly above the arrangement surface 21 of the device arrangement unit 2 as shown in FIG. 7B, the control unit, as shown in FIG. The moving part 52 lowers the suction part 51 and presses the screen protection sheet m against the screen g of the portable electronic device k, closes the valve 53 to release the negative pressure, and moves to the screen g of the portable electronic device k. A screen protection sheet m is pasted.

Due to the inclination of the guide rail 24 described above, the rear B side slightly floats from the front F side with respect to the screen g in the screen protection sheet m of the suction portion 51. For this reason, when the suction part 51 is pulled away, the rear B side of the screen protecting sheet m falls toward the screen g by its own weight, and the rear B side is gradually pasted to the screen g after the front F side. By gradually sticking to the screen G from the front F side to the rear B side in this way, the screen air is gradually removed from between the screen g and the screen protection sheet m for screen protection. Sheet m can be pasted.

After sticking the screen protection sheet m, the control unit causes the moving unit 52 to raise the suction unit 51 from the arrangement surface 21 of the device arrangement unit 2.
As described above, each time the screen protection sheet m of one portable electronic device k is attached, one corresponding independent screen protection sheet m is set in the attaching device. By handling the protective sheet cut according to the device, it is possible to quickly and flexibly cope with portable electronic devices of various sizes and shapes.

(Example of change)
The moving unit 52 can be implemented by other known means as long as the above-described movement of the adsorption unit 51 is possible. For example, it can be implemented by moving the suction portion 51 from the suction to the screen g by displacing the suction portion 51 in a guide groove (not shown) by a known cam mechanism. By using the cam mechanism in this way, the device can be reduced in size.

However, it is also possible to configure and implement the moving unit 52 other than the illustrated one or the cam mechanism.
Further, the peeling mechanism unit 4 is not limited to the roller as the peeling operation unit 41, but can be implemented by using another pressing member to roll the peeling sheet n.

When the screen protection sheet m is pasted on the screen g, the suction port of the suction portion 51 simultaneously shuts off suction by the valve 53, and in front of FIG. 2B (front F of FIG. 5A). The suction port located on the back side (the rear B in FIG. 5A) side of the suction port located on the) side can be controlled so as to release the suction with a gradual delay. As described above, when the suction of the suction port is canceled from the front side to the back side with a time difference, air can be smoothly discharged from between the screen protection sheet m and the screen g. The corresponding valves 53 are different between the suction ports at different positions between the front side and the back side so that the suction can be released due to the time difference, and the valve closing operation from the control unit to each valve 53 is performed. A plurality of command systems may be provided separately.

The screen protection sheet m does not need to be deformed like the release sheet n, and a material that is not easily deformed, such as a glass plate, can be employed in addition to the plastic film.
The release sheet n may be any material that can be rolled by the peeling operation unit 41. In addition to the plastic film, a deformable material such as a paper sheet can be used.

Further, in the example described above, the holding unit is the suction unit 51 that sucks and holds the screen protection sheet with negative pressure. However, the holding unit is not limited to the negative pressure, and the screen protection sheet is used. As long as it can be appropriately held, it is possible to adopt a configuration other than the suction unit 51, such as an adhesive unit that holds a sheet by adhesion or a known gripping device that holds a sheet by picking a screen protection sheet.

DESCRIPTION OF SYMBOLS 1 Case 2 Apparatus arrangement | positioning part 3 Sheet arrangement | positioning part 4 Peeling mechanism part 5 Adhering part 11 1st opening / closing part 12 2nd opening / closing part 13 3rd opening / closing part 14 Fan
21 Arrangement surface
22 Contact part 23 Groove 24 Guide rail 25 Guide part 31 Sheet arrangement surface 32 Fit part 41 Separation operation part 42 Actuation part 43 Shaft stop part 44 Receiving part 51 Adsorption part 52 Movement part 53 Valve

Claims (4)

  1. A screen protection sheet attaching device for attaching a screen protection sheet to a screen of a portable electronic device such as a smartphone,
    The screen protection sheet has a releasable adhesive layer formed on a part or the whole of the back surface to be attached to the screen, and the release sheet is overlapped on the back surface so that at least the adhesive layer on the back surface. The release sheet includes an extending portion that protrudes from at least one side of the screen protection sheet,
    The sticking device includes a device placement unit for placing the portable electronic device, a peeling operation unit for peeling the release sheet, and a paste for attaching the back surface of the screen protection sheet from which the release sheet has been peeled off to the screen. With a wearing part,
    The sticking unit includes a holding unit that holds the surface side of the screen protection sheet, and a moving unit that moves the holding unit,
    The holding unit holds the screen protection sheet at a position away from the device arrangement unit,
    The moving unit moves the holding unit holding the screen protection sheet toward the portable electronic device of the device arrangement unit, and moves the screen protection sheet to the screen of the portable electronic device. The back side is pressed,
    In at least one step of the movement, the moving unit is configured such that, with respect to the holding unit, the screen protecting sheet is substantially perpendicular to the thickness direction of the screen protecting sheet with the one side of the screen protecting sheet as the head. Shall be moved to
    During the movement in the direction substantially perpendicular to the thickness direction or before the movement, the peeling operation unit moves relative to the holding unit so as to intersect the head of the screen protection sheet, thereby extending the extension. A pressing portion is pressed in the thickness direction of the screen protection sheet to roll the release sheet from the top side of the screen protection sheet, and after the turn, the peeling operation portion is a direction substantially orthogonal to the thickness direction. It moves in a substantially opposite direction relative to the movement of the screen protection sheet that moves to, and the rolled release sheet is gradually peeled from the back surface of the screen protection sheet,
    The moving unit is configured to move the holding unit so as to press the back side of the screen protecting sheet after the peeling of the peeling sheet against the screen of the portable electronic device. Screen protection sheet sticking device.
  2. The device placement unit includes a placement surface on which the portable electronic device can be placed,
    The arrangement surface includes a plurality of abutting portions provided on the arrangement surface so as to surround the portable electronic device on the arrangement surface and abutting each position on a side surface of the portable electronic device,
    A part of the plurality of contact parts is provided at a fixed position on the arrangement surface to form an alignment part, and another part of the plurality of contact parts is the portable electronic device on the arrangement surface. As a hit against the device, a restriction unit that can restrict the movement of the portable electronic device,
    The restricting portion is provided on the arrangement surface so that the position relative to the alignment portion can be changed, and the restricting portion corresponds to each portable electronic device having a different size or shape depending on the change of the position. The sticking device for a screen protection sheet according to claim 1, wherein
  3. In the extended portion of the release sheet, a through hole or a notch is provided as a fitting portion,
    A sheet placement portion for placing the screen protection sheet at a position to be held by the holding portion;
    The sheet placement part has a sheet placement surface for placing the screen protection sheet so as to face the release sheet superimposed on the screen protection sheet,
    The sheet placement surface is provided with a fitted portion that is fitted to the fitting portion of the release sheet and positions the screen protection sheet with respect to the sheet placement surface,
    The fitted portion is provided in the sheet placement portion so as to be able to protrude and retract from the sheet placement surface. When the screen protection sheet on the sheet placement surface is held by the holding portion, the fit portion is recessed from the sheet placement surface. To remove from the mating part,
    At least one of a position of the release sheet overlapping the screen protection sheet, a dimension of the release sheet, a shape of the release sheet, a shape of the release sheet, and a position of a fitting portion in the release sheet. The attachment of the screen protection sheet according to claim 1 or 2, wherein the labor of adjustment on the apparatus side required for dealing with a change in the size or shape of the screen protection sheet can be suppressed by changing Landing gear.
  4. The holding unit is a suction unit that sucks and holds the screen protection sheet;
    The sticking part includes one or more negative pressure supply parts connected to the adsorption part, and one or more valves,
    The suction part includes a flat contact surface facing the surface of the screen protection sheet,
    The contact surface is provided with a plurality of suction ports, and the negative pressure supply unit supplies negative pressure to the suction port to adsorb the screen protection sheet to the contact surface.
    Each of the suction ports is distributed on the contact surface so as to correspond to the largest dimension of the screen protection sheet scheduled to be adsorbed,
    The suction part is a manifold provided therein with a passage extending from a connecting part with the negative pressure supply part toward each of the plurality of suction ports.
    The valve shuts off the supply of negative pressure to some of the plurality of suction ports,
    The valve, when adsorbing a screen protection sheet having a size smaller than the maximum size of the screen protection sheet, is connected to the suction port provided in a region that does not face the screen protection sheet on the contact surface. The apparatus for sticking a screen protection sheet according to any one of claims 1 to 3, wherein supply of negative pressure is cut off.
PCT/JP2014/083905 2014-08-19 2014-12-22 Sticking apparatus for screen protection sheet for portable electronic device WO2016027384A1 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
JP2014167017A JP2017178317A (en) 2014-08-19 2014-08-19 Application device for image screen protective sheet for portable electronic apparatus
JP2014-167017 2014-08-19

Publications (1)

Publication Number Publication Date
WO2016027384A1 true WO2016027384A1 (en) 2016-02-25

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ID=55350361

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2014/083905 WO2016027384A1 (en) 2014-08-19 2014-12-22 Sticking apparatus for screen protection sheet for portable electronic device

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JP (1) JP2017178317A (en)
WO (1) WO2016027384A1 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019142950A1 (en) * 2018-01-16 2019-07-25 (주)화이트스톤 Liquid crystal screen protector for smart device and attaching device therefor

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JP2005145461A (en) * 2003-11-11 2005-06-09 Sharp Corp Storage tray
JP2006319138A (en) * 2005-05-12 2006-11-24 Denso Corp Sheet-positioning method and apparatus thereof, and sheet-laminating apparatus using them
JP2007160697A (en) * 2005-12-14 2007-06-28 Hitachi Plant Technologies Ltd Method and device for sticking film
JP2007261616A (en) * 2006-03-28 2007-10-11 Sanko Co Ltd Conveyance tray
JP2011006226A (en) * 2009-06-26 2011-01-13 Jptec Kk Separation device
JP2012189739A (en) * 2011-03-10 2012-10-04 Hitachi High-Technologies Corp Fpd module assembling apparatus
JP2013161308A (en) * 2012-02-06 2013-08-19 Ekushiiru Corporation:Kk Positioning mechanism of protective sheet for display screen of electronic device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005145461A (en) * 2003-11-11 2005-06-09 Sharp Corp Storage tray
JP2006319138A (en) * 2005-05-12 2006-11-24 Denso Corp Sheet-positioning method and apparatus thereof, and sheet-laminating apparatus using them
JP2007160697A (en) * 2005-12-14 2007-06-28 Hitachi Plant Technologies Ltd Method and device for sticking film
JP2007261616A (en) * 2006-03-28 2007-10-11 Sanko Co Ltd Conveyance tray
JP2011006226A (en) * 2009-06-26 2011-01-13 Jptec Kk Separation device
JP2012189739A (en) * 2011-03-10 2012-10-04 Hitachi High-Technologies Corp Fpd module assembling apparatus
JP2013161308A (en) * 2012-02-06 2013-08-19 Ekushiiru Corporation:Kk Positioning mechanism of protective sheet for display screen of electronic device

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