JP6528458B2 - Film sticking apparatus, film sticking method, manufacturing apparatus for information processing apparatus, and manufacturing method for information processing apparatus - Google Patents

Description

  The technology disclosed in the present application relates to a film sticking apparatus, a film sticking method, a manufacturing apparatus of an information processing apparatus, and a manufacturing method of an information processing apparatus.

  BACKGROUND ART Conventionally, a film sticking apparatus is known as one means for sticking a film to an object such as a display unit of an information processing apparatus. Among these film sticking apparatuses, for example, there are apparatuses provided with an adsorbing member for adsorbing a film and a pressing member for attaching a film adsorbed to the adsorbing member to an object. In this film sticking apparatus, the film is stuck to the object by the relative movement from one end side to the other end of the film while the pressing member presses the film against the object.

Japanese Patent Application Laid-Open No. 11-174228 JP, 2009-145795, A

  However, in the above-mentioned film sticking apparatus, before the pressing member reaches the other end side (pasting end portion) of the film, the other end side of the film may be peeled off from the suction member and stuck to the object.

  Therefore, the technique disclosed in the present application aims to suppress peeling of the other end side of the film from the adsorption member before the pressing member reaches the other end side of the film as one side surface. .

In order to achieve the above object, according to one aspect of the technology disclosed in the present application, a film sticking apparatus including a mesh, a pressing member , a dividing member, and a suction unit is provided. A film to be attached to an object is placed on the mesh. This mesh is opposed to the object through the film .

The pressing member is disposed on the opposite side to the object with respect to the mesh. The pressing member relatively moves from one end side to the other end side of the film while pressing the film against the object to stick the film to the object. The partitioning member partitions the space opposite to the object with respect to the mesh in the direction of relative movement of the pressing member together with the pressing member. The suction unit sucks the air of the space located on the other end side with respect to the pressing member and the dividing member in the space.

  According to the technology disclosed in the present application, it is possible to suppress peeling of the other end side of the film from the adsorption member before the pressing member reaches the other end side of the film.

It is a top view of a film sticking device. It is a side view of a film sticking device. FIG. 2 is a perspective view of an information processing apparatus having a display unit. It is a perspective view of a display part and a film. It is 1st explanatory drawing of the film sticking method which used the film sticking apparatus. It is 2nd explanatory drawing of the film sticking method which used the film sticking apparatus. It is 3rd explanatory drawing of the film sticking method which used the film sticking apparatus. It is an enlarged view of the peripheral part of the pressing member in the lower figure of FIG. It is a block diagram showing the manufacture device of an information processor.

  Hereinafter, an embodiment of the technology disclosed in the present application will be described.

  The film sticking apparatus 10 (hereinafter referred to as a sticking apparatus 10) of the present embodiment shown in FIGS. 1 and 2 is for sticking a film 64 (see FIG. 2) to an object. In the present embodiment, as an example, an object is used as the display unit of the information processing apparatus. The information processing apparatus is, for example, a smartphone or a tablet terminal.

  In FIG. 3, an information processing apparatus 60 assuming a smartphone as an example is shown. The touch panel 62 is an example of a “display unit”, and is made of, for example, glass. The touch panel 62 is mounted on a liquid crystal display (LCD) module. In the present embodiment, the information processing apparatus 60 is configured to include the film 64.

  The film 64 is, for example, an anti-scattering film (ASF: Anti-shatter Film) for preventing the glass fragments from being scattered or the surface of the touch panel 62 being scratched when the touch panel 62 is broken. Paste to As shown in FIG. 4, the film 64 has a structure in which a hard coat layer 66, a polyester base 68, and an adhesive layer 70 are laminated, and has substantially the same size and shape as the touch panel 62. It is formed.

  As shown in FIGS. 1 and 2, the sticking apparatus 10 includes a stage 12, a rotation drive unit 14, a mesh 16, a pressing squeegee 18, a case 20, a partitioning member 22, and a movement drive unit 24. , And a suction unit 26. The pressing squeegee 18 is an example of the “pressing member”, and the dividing member 22 is an example of the “suction suppressing portion”.

  The stage 12 is formed of a rectangular flat plate in plan view. The size of the stage 12 is larger than the size of the touch panel 62. The holding surface 12A of the stage 12 is provided with a clamp 28 for holding the touch panel 62.

  The rotation drive unit 14 is for rotating the stage 12, and includes a motor 30 and a rotation shaft 32. The rotation shaft 32 is connected to the output shaft of the motor 30, and the rotation shaft 32 is fixed to the end of the stage 12. The stage 12 is rotated with the operation of the motor 30, and the holding surface 12A is switched to an open state in which the holding surface 12A is upward and to a closed state in which the holding surface 12A is downward. In the following, when there is no specification of the open state and the closed state of the stage 12, it is assumed that the stage 12 is in the closed state.

  The mesh 16 is formed of a flexible cloth material and has air permeability. The mesh 16 is disposed below the touch panel 62 held by the holding surface 12A so as to face the touch panel 62. The size of the mesh 16 is larger than the size of the film 64, and the film 64 is placed on the mesh 16.

  The pressing squeegee 18 is disposed below the mesh 16. The pressing squeegee 18 is disposed on the side opposite to the touch panel 62 with respect to the mesh 16. The pressing squeegee 18 is for pressing the film 64 toward the touch panel 62 through the mesh 16 as described later, and is made of an elastic material such as rubber, for example.

  Further, as shown in FIG. 1, the pressing squeegee 18 is formed in a long shape extending in the short direction of the touch panel 62. Further, as shown in FIG. 2, the pressing squeegee 18 is formed in a right triangle shape in a side view, and is disposed with the bottom surface down. The inclined surface 18A of the pressing squeegee 18 is directed to the front side (arrow F side) of the moving direction of the pressing squeegee 18 moved by the moving drive unit 24 described later.

  As illustrated in FIG. 2, the case 20 is formed in a box shape that opens to the touch panel 62 side, and is disposed on the side opposite to the touch panel 62 with respect to the mesh 16 (under the mesh 16). The mesh 16 described above is stretched in the opening 34 of the case 20. That is, the mesh 16 is fixed to the peripheral edge of the opening 34 in a tensioned state. A gap is secured between the opening 34 of the case 20 and the touch panel 62. The case 20 also has a bottom surface 20A facing the opening 34, and a pair of side surfaces 20B (see FIG. 1) extending in the longitudinal direction of the touch panel 62.

  The dividing member 22 has a base portion 36 and a pressurizing portion 38. The pressing unit 38 is disposed on the side of the touch panel 62 with respect to the base 36, and moves in a direction in which the base 36 is in contact with or separated from the touch panel 62. The above-described pressing squeegee 18 is provided at the tip of the pressing unit 38. When the pressing squeegee 18 is moved to the touch panel 62 side together with the pressing unit 38, the pressing squeegee 18 abuts against the touch panel 62 through the film 64 and the mesh 16, and the pressing squeegee 18 is pressed to the touch panel 62 side.

  The movement drive unit 24 is, for example, a pneumatic or hydraulic cylinder device or the like, and is provided inside the case 20. The movement drive unit 24 has a movable unit 40 that moves in the longitudinal direction of the touch panel 62. The movable portion 40 is provided with the base portion 36 of the partitioning member 22 described above, and the pressing squeegee 18 described above is moved in the longitudinal direction of the touch panel 62 together with the partitioning member 22 as the movable portion 40 moves. More specifically, the pressing squeegee 18 is moved from one end 64A side of the film 64 to be attached to the touch panel 62 to the other end 64B side (arrow F side).

  Further, the partitioning member 22 moved together with the pressing squeegee 18 is accommodated in the case 20 together with the pressing squeegee 18. Like the pressing squeegee 18, the dividing member 22 extends in the short direction of the touch panel 62 (see FIG. 1).

  As shown in FIG. 2, opposing surfaces 42A of the pressing squeegee 18 and the dividing member 22 with the bottom surface 20A are in contact with or close to the bottom surface 20A of the case 20, respectively. Similarly, as shown in FIG. 1, the opposing surfaces 42B of the pressing squeegee 18 and the pair of side surfaces 20B of the dividing member 22 are in contact with or in proximity to the pair of side surfaces 20B of the case 20, respectively. . The proximity in this case means a state closer to contact.

  Further, as shown in FIG. 2, the space 44 in the case 20 is partitioned by the pressing squeegee 18 and the partitioning member 22 in the longitudinal direction of the touch panel 62 (the moving direction of the pressing squeegee 18). That is, of the space 44 in the case 20, the space located on the side of the pressing squeegee 18 and the end 64A of the film 64 with respect to the dividing member 22 is the first space 46 and the other end of the film 64 with respect to the pressing squeegee 18 and A space located on the 64 B side is taken as a second space 48.

  In addition, a suction port 50 is formed on the side wall of the case 20 on the second space 48 side. The pressing squeegee 18 and the dividing member 22 are disposed between the first space 46 and the suction port 50, and the space between the first space 46 and the suction port 50 is closed by the pressing squeegee 18 and the dividing member 22. It is done. On the other hand, the second space 48 and the suction port 50 are in communication.

  The suction unit 26 is, for example, a vacuum suction device or the like, and is connected to the suction port 50 via a connection member or the like. When the suction unit 26 operates, air in the second space 48 is sucked through the suction port 50.

  Next, a film sticking method using the sticking device 10 described above will be described.

  First, as shown in the upper view of FIG. 5, the touch panel 62 is placed on the holding surface 12A of the stage 12 with the stage 12 opened (the holding surface 12A is upward). In addition, the touch panel 62 is fixed to the stage 12 by the clamps 28. Further, the film 64 is placed on the mesh 16.

  Then, as shown in the lower part of FIG. 5, with the operation of the motor 30 of the rotation drive unit 14, the stage 12 is rotated together with the rotation shaft 32, and the stage 12 is closed. When the stage 12 is closed, the touch panel 62 and the mesh 16 are opposed via the film 64 as shown in the upper view of FIG.

  At this time, the pressing squeegee 18 is moved in advance to the end 64A of the film 64. Further, the pressing squeegee 18 is retracted together with the pressing unit 38 to the side opposite to the touch panel 62 (downward). Even if the pressing squeegee 18 is retracted to the opposite side to the touch panel 62 side, the tip portion of the pressing squeegee 18 is in contact with the mesh 16, so the space 44 in the case 20 is the first space 46 and the first space 46. It is divided into the second space 48.

  Then, when the film 64 is placed on the mesh 16 as described above, the suction unit 26 is activated, and the air in the second space 48 is sucked through the suction port 50. In addition, when the air in the second space 48 is sucked through the suction port 50, the air is sucked into the second space 48 through the mesh 16 on the other end 64 B side of the film 64 with respect to the pressing squeegee 18. Adsorbed on

  The space between the first space 46 and the suction port 50 is closed by the pressing squeegee 18 and the dividing member 22 disposed between the first space 46 and the suction port 50. Therefore, even if the suction unit 26 operates, suction of air through the mesh 16 is suppressed at the end 64 A side of the film 64 with respect to the pressing squeegee 18. In this case, the suppression of the suction includes the case where the suction is to be prevented but the suction is slightly performed.

  Subsequently, as shown in the lower part of FIG. 6, the pressing unit 38 provided in the dividing member 22 is moved to the touch panel 62 side (upper side). Then, the pressing squeegee 18 is moved to the touch panel 62 side together with the pressing unit 38 so that the pressing squeegee 18 is abutted against the touch panel 62 via the film 64 and the mesh 16 and the pressing squeegee 18 is moved to the touch panel 62 side. It is pressurized.

  Next, as shown in the upper view and the lower view of FIG. 7, the movement drive unit 24 is operated to move the pressing squeegee 18 from the one end 64A side of the film 64 to the other end 64B side. At this time, the pressing squeegee 18 is moved while pressing the film 64 toward the touch panel 62 through the mesh 16.

  Then, the pressing squeegee 18 is moved from the one end 64A side of the film 64 to the other end 64B side in this manner, whereby the film 64 is sequentially pressed from the one end 64A side to the other end 64B side against the touch panel 62, and the film 64 is moved. It is attached to the touch panel 62. Further, when the film 64 is attached to the touch panel 62 by the pressing squeegee 18 in this manner, the dividing member 22 is moved together with the pressing squeegee 18 from the one end 64A of the film 64 to the other end 64B.

  Next, the operation and effects of the present embodiment will be described.

  First, in order to clarify the action and effect of the present embodiment, a comparative example will be described. As a comparative example, for example, an example in which the dividing member 22 is omitted from the sticking device 10 of the present embodiment can be mentioned. When the dividing member 22 is omitted, the first space 46 and the second space 48 in the case 20 communicate with each other. In the state where the first space 46 and the second space 48 are communicated, air is sucked through the mesh 16 also at the one end 64A side of the film 64 with respect to the pressing squeegee 18 in addition to the other end 64B Be done.

  However, when the pressing squeegee 18 moves to the other end 64B side of the film 64 and the adhesion of the film 64 proceeds, the mesh 16 from the film 64 due to its own weight or tension at the one end 64A side of the film 64 with respect to the pressing squeegee 18 Peel off. Such a peeling portion is, for example, a portion indicated by the arrow A in FIGS. 7 and 8. As described above, when the mesh 16 is peeled from the film 64 on the side of the end 64A of the film 64 with respect to the pressing squeegee 18, an air leak occurs in the peeled portion.

  In addition, when air leaks in the peeled portion, the amount of air sucked through the mesh 16 in the peeled portion increases. As a result, the suction pressure in the case 20 is reduced, and the amount of air sucked through the mesh 16 is reduced on the other end 64B side of the film 64 with respect to the pressing squeegee 18, so the adsorption force of the film 64 on the other end 64B side Decreases.

  Then, when the adsorptive power to the other end 64B side of the film 64 decreases, the other end 64B side of the film 64 peels from the mesh 16 before the pressing squeegee 18 reaches the other end 64B side (pasting end portion) of the film 64. May stick to the touch panel 62. In this case, air bubbles may be generated between the touch panel 62 and the film 64 on the other end 64 B side of the film 64.

  On the other hand, in addition to the pressing squeegee 18, the dividing member 22 is provided in the case 20 in the sticking apparatus 10 of the present embodiment, as compared with the above comparative example. A space 44 in the case 20 is divided by the pressing squeegee 18 and the dividing member 22 in the moving direction of the pressing squeegee 18. Further, the space between the first space 46 located on one end 64 A side of the film 64 and the suction port 50 in the space 44 is closed by the pressing squeegee 18 and the dividing member 22. Accordingly, the suction of air through the mesh 16 is suppressed at the end 64 A of the film 64 with respect to the pressing squeegee 18.

  For this reason, even if the mesh 16 peels off from the film 64 due to its own weight, tension or the like on the end 64A side of the film 64 with respect to the pressing squeegee 18, the influence on the second space 48 can be suppressed. A drop in suction pressure can be suppressed. As a result, the amount of air sucked through the mesh 16 is secured on the side of the other end 64B of the film 64 with respect to the pressing squeegee 18, so that the suction force to the other end of the film 64 can be secured.

  As a result, before the pressing squeegee 18 reaches the other end 64B side (pasting end portion) of the film 64, the other end 64B side of the film 64 can be prevented from peeling off from the mesh 16 and sticking to the touch panel 62 ( See Figure 8). This can suppress the generation of air bubbles between the touch panel 62 and the film 64 on the other end 64B side of the film 64.

  Moreover, since the suction of air through the mesh 16 at the one end 64A side of the film 64 with respect to the pressing squeegee 18 can be suppressed by a simple structure using the dividing member 22, cost increase can be suppressed.

  A case 20 is disposed on the opposite side of the touch panel 62 to the mesh 16, and the second space 48 is formed so as to be surrounded by the case 20. Therefore, the airtightness of the second space 48 can be enhanced, and the suction pressure in the second space 48 can be secured. Thereby, the adsorptive power with respect to the other end 64B side of the film 64 can be improved.

  Further, in the pressing squeegee 18 and the partitioning member 22, opposing surfaces 42A and 42B (see FIGS. 1 and 2) with the bottom surface 20A of the case 20 and the pair of side surfaces 20B are formed. The facing surfaces 42A and 42B are in contact with or in proximity to the bottom surface 20A and the pair of side surfaces 20B, respectively. As a result, the air tightness between the pressing squeegee 18 and the partition member 22 and the case 20, and hence the air tightness of the second space 48, can be enhanced, so that the suction pressure in the second space 48 can be further improved. it can.

  The pressing squeegee 18 is provided on the dividing member 22, and the dividing member 22 is moved together with the pressing squeegee 18 toward the other end 64 B of the film 64. Therefore, as shown in the lower part of FIG. 7, when the dividing member 22 is moved to the other end 64 B side of the film 64 together with the pressing squeegee 18, the volume of the second space 48 decreases, and this second space 48 Internal suction pressure can be increased. As a result, the adsorptive power of the film 64 to the other end 64B side can be improved with the progress of the adhesion of the film 64, and thus peeling of the other end 64B side of the film 64 from the mesh 16 can be more effectively suppressed. .

  Next, a modification of the present embodiment will be described.

  In the above embodiment, the pressing squeegee 18 and the dividing member 22 are moved from the one end 64A side of the film 64 to the other end 64B side by the movement driving unit 24. However, the mesh 16, the case 20 and the stage 12 may be moved while the pressing squeegee 18 and the dividing member 22 are fixed. That is, as long as the pressing squeegee 18 and the dividing member 22 are relatively moved from the one end 64A to the other end 64B of the film 64, the pressing squeegee 18 and the dividing member 22 may be moved or fixed. .

  Moreover, in the said embodiment, although the pressing squeegee 18 (pasting squeegee) is used as an example of a "pressing member", a pressing roller (sticking roller) may be used as an example of a "pressing member."

  Further, in the above embodiment, in order to suppress suction of air through the mesh 16 at the one end 64A side of the film 64 with respect to the pressing squeegee 18, the partitioning member 22 that partitions the space 44 in the case 20 together with the pressing squeegee 18 It is used as an example of "suction suppression part". However, as an example of the "suction suppressing portion", for example, a member or a structure other than the dividing member 22 is used, such as a mask member provided on the end 64A side of the film 64 with respect to the pressing squeegee 18 and covering the mesh 16. Also good.

  Further, in the above embodiment, as shown in the upper view of FIG. 6, the tip end portion of the pressing squeegee 18 abuts on the mesh 16 in a state where the pressing squeegee 18 is retracted to the opposite side (downside) to the touch panel 62 side. Be done. Then, the space 44 in the case 20 is divided into the first space 46 and the second space 48 by the pressing squeegee 18 and the dividing member 22.

  However, in a state where the pressing squeegee 18 is retracted to the opposite side (downside) to the touch panel 62 side, the leading end of the pressing squeegee 18 is separated from the mesh 16 so that the first space 46 and the second space 48 are communicated. It is good. Then, when the pressing squeegee 18 is moved to the touch panel 62 side, the tip end portion of the pressing squeegee 18 may abut on the mesh 16, and the space 44 may be divided into the first space 46 and the second space 48.

  Further, in the above embodiment, the pressing squeegee 18 is separated from the dividing member 22, but the pressing squeegee 18 may be integrally formed with the dividing member 22.

  In the above embodiment, the film 64 is attached to the touch panel 62 and then the touch panel 62 is assembled to the information processing apparatus 60. However, the film 64 may be attached to the touch panel 62 assembled to the information processing apparatus 60 .

  Further, the information processing apparatus 60 may be a new product before shipment, or may be one collected for replacement of the touch panel 62 after shipment.

  Further, in the above embodiment, the object to which the film 64 is attached is the touch panel 62. However, the film 64 may be attached to the surface of the display unit other than the touch panel 62. The film 64 may be attached to an object other than the display unit of the information processing apparatus.

  Next, a manufacturing apparatus of an information processing apparatus using the above-described sticking apparatus 10 will be described.

  The manufacturing apparatus 100 of the information processing apparatus to which the above-mentioned sticking apparatus 10 is applied is shown with the block diagram by FIG. The manufacturing apparatus 100 of the information processing apparatus includes a film sticking unit 102. The above-described sticking device 10 is applied to the film sticking unit 102.

  In the manufacturing apparatus 100 of the information processing apparatus, for example, the film sticking section 102 sticks the film 64 to the touch panel 62 in a state where the touch panel 62 is assembled to the information processing apparatus 60. In the information processing apparatus manufacturing apparatus 100, after the film sticking section 102 attaches the film 64 to the touch panel 62, an assembly operation of the information processing apparatus 60 including the assembly operation of the touch panel 62 may be performed. .

  In the method of manufacturing the information processing apparatus using the manufacturing apparatus 100 of the information processing apparatus, the film pasting method in the film pasting unit 102 is as described in the above embodiment. The method of manufacturing the information processing device may include an assembly operation of the information processing device 60 including an operation of assembling the touch panel 62.

  In addition, the manufacturing apparatus 100 of the information processing apparatus provided with the film sticking part 102 to which the above-mentioned sticking apparatus 10 was applied was demonstrated here. However, in the present embodiment, the information processing apparatus 60 is configured to include the film 64. Therefore, when the film 64 is stuck on the touch panel 62 by the above-mentioned sticking device 10 in a state where the touch panel 62 is assembled to the information processing device 60, the sticking device 10 can be regarded as a manufacturing device of the information processing device .

  As mentioned above, although one Embodiment of the technique which this application discloses was described, the technique which this application discloses is not limited above, In the range which does not deviate from the main point besides this, it deforms variously and it implements Of course it is possible.

  The following appendices will be further disclosed regarding one embodiment of the technology disclosed in the present application described above.

(Supplementary Note 1)
A mesh on which a film to be attached to an object is placed and which is opposed to the object via the film;
A suction unit for suctioning air through the mesh to cause the film to be adsorbed to the mesh;
A pressing member disposed on the opposite side to the target with respect to the mesh and relatively moving from one end side to the other end of the film while pressing the film against the target, and sticking the film to the target;
A suction suppressing portion that suppresses suction of air through the mesh at the one end side with respect to the pressing member when the film is attached to the object by the pressing member;
Film sticking apparatus comprising:
(Supplementary Note 2)
The suction suppressing portion is a dividing member that divides a space on the opposite side to the object with respect to the mesh in the relative movement direction of the pressing member together with the pressing member,
The suction unit sucks air in a space located on the other end side with respect to the pressing member and the dividing member in the space.
The film sticking apparatus according to Appendix 1.
(Supplementary Note 3)
The mesh is disposed on the opposite side to the object with respect to the mesh, and the mesh has a stretched opening, and further includes a case that accommodates the pressing member and the dividing member.
The film sticking apparatus as described in Supplementary Note 2.
(Supplementary Note 4)
The case has a bottom surface facing the opening, and a pair of side surfaces extending in a relative movement direction of the pressing member.
The opposing surfaces of the pressing member and the partitioning member to the bottom surface and the pair of side surfaces are in contact with or in proximity to the bottom surface and the pair of side surfaces, respectively.
The film sticking apparatus as described in appendix 3.
(Supplementary Note 5)
A gap is secured between the opening and the object,
The film sticking apparatus as described in Supplementary Note 3 or 4.
(Supplementary Note 6)
The case is formed with a suction port in communication with the space located on the other end side with respect to the pressing member and the dividing member in the space,
The suction unit sucks air through the suction port.
The film sticking apparatus as described in any one of appendixes 3 to 5.
(Appendix 7)
The partition member moves relative to the pressing member.
The film sticking apparatus as described in any one of supplementary notes 2-6.
(Supplementary Note 8)
The pressing member is provided to the dividing member.
The film sticking apparatus as described in appendix 7.
(Appendix 9)
The apparatus further comprises a movement drive unit for moving the pressing member and the partitioning member.
The film sticking apparatus of Additional remark 7 or Additional remark 8.
(Supplementary Note 10)
The partition member is
A base provided on a movable portion of the movement drive portion;
The pressing member is provided, and has a pressing unit that moves toward the target with respect to the base and presses the pressing member toward the target.
The film sticking apparatus as described in Supplementary Note 9.
(Supplementary Note 11)
The pressing member is a pressing squeegee,
The film sticking apparatus as described in any one of Supplementary Notes 1 to 10.
(Supplementary Note 12)
The mesh is a flexible cloth material.
The film sticking apparatus according to any one of supplementary notes 1 to 11.
(Supplementary Note 13)
Further comprising a stage for holding the object;
The film sticking apparatus according to any one of supplementary notes 1 to 12.
(Supplementary Note 14)
A film to be attached to an object is placed on a mesh, and the mesh and the object are made to face each other through the film,
Suctioning air through the mesh to cause the film to adsorb to the mesh;
The pressing member is relatively moved from one end side to the other end side of the film while pressing the film against the target by a pressing member arranged on the opposite side to the target with respect to the mesh, and the film is the target And restraining the suction of air through the mesh at the one end side of the pressing member when the film is attached to the object by the pressing member.
Film sticking method.
(Supplementary Note 15)
A film to be attached to a display unit of an information processing apparatus is placed, and a mesh opposed to the display unit through the film;
A suction unit for suctioning air through the mesh to cause the film to be adsorbed to the mesh;
A pressing member disposed on the opposite side of the display to the mesh and relatively moving from one end to the other of the film while pressing the film against the display to stick the film to the display;
A suction suppression unit that suppresses suction of air through the mesh on the one end side of the pressing member when the film is attached to the display unit by the pressing member;
An apparatus for manufacturing an information processing apparatus, comprising:
(Supplementary Note 16)
A film to be attached to a display unit of an information processing apparatus is placed on a mesh, and the mesh and the display unit are made to face each other through the film,
Suctioning air through the mesh to cause the film to adsorb to the mesh;
The pressing member is relatively moved from one end side to the other end side of the film while pressing the film against the display unit by a pressing member arranged on the opposite side to the display unit with respect to the mesh, and the film is displayed on the display unit Bonding the film to the display unit by the pressing member, and suppressing the suction of air through the mesh on the one end side of the pressing member.
Method of manufacturing information processing apparatus

10 Film sticking device (sticking device)
16 mesh 18 pressing squeegee (example of pressing member)
20 case 20A bottom surface 20B side surface 22 partitioning member (an example of a suction suppressing portion)
26 suction part 42A, 42B opposing surface 44 space 46 first space 48 second space 50 suction port 60 information processor 62 touch panel (display part, an example of an object)
64 film 64A one end 64B other end 100 manufacturing apparatus of information processing apparatus

Claims (7)

A mesh on which a film to be attached to an object is placed and which is opposed to the object via the film ;
A pressing member disposed on the opposite side to the target with respect to the mesh and relatively moving from one end side to the other end of the film while pressing the film against the target, and sticking the film to the target;
A partitioning member that partitions a space opposite to the object with respect to the mesh in the relative movement direction of the pressing member together with the pressing member;
A suction unit for sucking air in a space located on the other end side with respect to the pressing member and the dividing member among the spaces;
Film sticking apparatus comprising: The mesh is disposed on the opposite side to the object with respect to the mesh, and the mesh has a stretched opening, and further includes a case that accommodates the pressing member and the dividing member.
The film sticking apparatus according to claim 1. The case has a bottom surface facing the opening, and a pair of side surfaces extending in a relative movement direction of the pressing member.
The opposing surfaces of the pressing member and the partitioning member to the bottom surface and the pair of side surfaces are in contact with or in proximity to the bottom surface and the pair of side surfaces, respectively.
The film sticking apparatus according to claim 2. The partition member moves relative to the pressing member.
The film sticking apparatus as described in any one of Claims 1-3 . A film to be attached to an object is placed on a mesh, and the mesh and the object are made to face each other through the film,
  Suctioning air through the mesh to cause the film to adsorb to the mesh;
  The pressing member is relatively moved from one end side to the other end side of the film while pressing the film against the target by a pressing member arranged on the opposite side to the target with respect to the mesh, and the film is the target When the film is attached to the object by the pressing member, the space on the opposite side of the object with respect to the mesh is divided by the partitioning member along with the pressing member in the relative movement direction of the pressing member And suctioning air of the space located on the other end side with respect to the pressing member and the dividing member among the spaces,
  Film sticking method. A film to be attached to a display unit of an information processing apparatus is placed, and a mesh opposed to the display unit through the film;
  A pressing member disposed on the opposite side of the display to the mesh and relatively moving from one end to the other of the film while pressing the film against the display to stick the film to the display;
  A partitioning member that partitions a space on the opposite side of the display to the mesh in the relative movement direction of the pressing member along with the pressing member;
  A suction unit for sucking air in a space located on the other end side with respect to the pressing member and the dividing member among the spaces;
  Equipped with
  Information processing apparatus manufacturing apparatus. A film to be attached to a display unit of an information processing apparatus is placed on a mesh, and the mesh and the display unit are made to face each other through the film,
  Suctioning air through the mesh to cause the film to adsorb to the mesh;
  The pressing member is relatively moved from one end side to the other end side of the film while pressing the film against the display unit by a pressing member arranged on the opposite side to the display unit with respect to the mesh, and the film is displayed on the display unit When the film is attached to the display unit by the pressing member, the space on the opposite side to the display unit with respect to the mesh is partitioned by the partitioning member along with the pressing member in the relative movement direction of the pressing member And suctioning air of the space located on the other end side with respect to the pressing member and the dividing member among the spaces,
  Method of manufacturing information processing apparatus

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