CN213860773U - Mylar mounting jig and Mylar mounting system - Google Patents

Abstract

The utility model relates to a wheat draws to paste dress tool and wheat draws to paste dress system, wheat draws to paste dress tool and screen module cooperation and uses, and wheat draws to paste dress tool includes: the device comprises a base, a first positioning structure, a second positioning structure and a driving mechanism. Mylar pastes dress tool's second location structure and base clearance fit, and can remove between initial position and subsides dress position under actuating mechanism's drive, because shading Mylar projection on second location structure's subsides dress displacement direction and the coincidence of the predetermined position of screen module side, make actuating mechanism accomplish when pasting the dress displacement at drive second location structure, shading Mylar can realize the location laminating with screen module side predetermined position, the laminating precision and the laminating position uniformity of position are predetermine to shading Mylar and screen module side have not only been promoted, and can pass through actuating mechanism control laminating dynamics, avoid screen module damage.

Description

Mylar mounting jig and Mylar mounting system

Technical Field

The present disclosure relates to the field of electronic technology, and in particular, to a mylar placement jig and a mylar placement system.

Background

For example, electronic devices such as mobile phones include a screen module, and a light-shielding mylar is attached to a side surface of the screen module to prevent light leakage from affecting a light sensing test. However, because the bonding width of the side edge of the screen module is small, the manual bonding of the shading mylar easily causes the problems of skewing, dislocation, warping and the like.

In the related art, the side mylar mounting jig of the screen module generally includes an upper positioning plate for assembling the shading mylar and a lower positioning plate for assembling the screen module, and the upper positioning plate is fixedly connected to the lower positioning plate. In the shading mylar process, the screen module is pushed to be close to the shading mylar to realize attachment, so that the shading mylar attachment consistency is poor, the accuracy is low, and the light leakage phenomenon is easily caused. In addition, the above-mentioned tool still can't control the laminating dynamics that the shading wheat was drawn, causes screen module damage scheduling problem easily.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wheat draws to paste dress tool and wheat draws to paste dress system to promote the laminating precision of screen module side shading wheat and draw, avoid shading wheat to draw the screen module damage of laminating in-process simultaneously.

According to a first aspect of this disclosure, a mount tool is drawn to wheat is provided, uses with the cooperation of screen module, the mount tool is drawn to wheat includes: the device comprises a base, a first positioning structure, a second positioning structure and a driving mechanism;

the first positioning structure is fixedly arranged on the base, and the screen module is matched with the first positioning structure in a positioning mode;

the second positioning structure is movably matched with the base, and the driving mechanism is matched with the second positioning structure so as to drive the second positioning structure to move to an initial position or a mounting position relative to the base; shading mylar with second location structure location cooperation, shading mylar is in the projection on the subsides dress displacement direction of second location structure with the preset position coincidence of screen module side.

Optionally, a slide rail is arranged on the base, and the driving mechanism drives the second positioning structure to move relative to the slide rail.

Optionally, the driving mechanism includes a stepping motor and a slider, and the slider is in sliding fit with the slide rail; the stepping motor is fixedly connected to the sliding block, and the second positioning structure is fixedly connected to the stepping motor.

Optionally, a limiting block is arranged on the base, and when the second positioning structure is located at the initial position, the sliding block is in limiting fit with the limiting block.

Optionally, the second positioning structure includes a positioning column; the shading mylar comprises release paper and a shading main body, wherein the release paper comprises a first area and a second area, and the shading main body is attached to the first area; and the second area is provided with a positioning hole which is matched with the positioning column in a positioning way.

Optionally, the second positioning structure includes at least two positioning pillars, the second region is provided with the positioning holes corresponding to the positioning pillars one to one, and the positioning holes are in positioning fit with the positioning pillars.

Optionally, the second positioning structure further comprises a positioning plate, the positioning column is arranged on the positioning plate, and the positioning plate is in limit fit with the release paper.

Optionally, the first positioning structure comprises an assembly groove and a first suction opening arranged at the bottom of the assembly groove; the Mylar surface mounting jig further comprises a first air suction mechanism, and the first air suction mechanism is matched with the first air suction opening;

when the screen module is assembled in the assembling groove, the screen module covers at least one first air suction opening, and the preset position of the side edge of the screen module faces the second positioning structure.

Optionally, the mylar placement jig further comprises a second air suction mechanism, the second positioning structure comprises a positioning plate, and a second air suction opening matched with the second air suction mechanism is formed in the positioning plate; when the shading mylar is arranged on the positioning plate, the shading mylar covers at least one of the second air suction openings.

According to a second aspect of the present disclosure, a mylar placement system is provided, the mylar placement system includes a screen module, a shading mylar, and any mylar placement jig of the first aspect, the screen module is assembled to the first positioning structure, and the shading mylar is assembled to the second positioning structure.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the utility model discloses second location structure and the base clearance fit of wheat pulling subsides dress tool, and can move between initial position and subsides dress position under actuating mechanism's drive, because shading wheat pulling is in the projection of second location structure's subsides dress displacement direction and the coincidence of the predetermined position of screen module side for when second location structure removes to subsides dress position, shading wheat pulling pastes the cooperation with the predetermined position of screen module side. Because shading mylar sets up on second location structure, removes through actuating mechanism drive second location structure to drive shading mylar and remove and then realize and predetermineeing the location laminating of position with screen module side, not only promoted shading mylar and the laminating precision and the laminating position uniformity of position are predetermine to screen module side, and can avoid the damage of screen module through actuating mechanism control laminating dynamics.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural view illustrating a second positioning structure of a mylar placement jig located at a placement position according to an exemplary embodiment of the disclosure;

fig. 2 is a schematic structural view illustrating a second positioning structure of a mylar placement jig in an initial position according to an exemplary embodiment of the disclosure;

fig. 3 is a schematic partial structure diagram of a mylar placement tool in an exemplary embodiment of the disclosure;

fig. 4 is a schematic view of a partial structure of a mylar placement tool in another exemplary embodiment of the present disclosure;

fig. 5 is an exploded view of a mylar jig according to an exemplary embodiment of the disclosure.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

For example, electronic devices such as mobile phones include a screen module, and a light-shielding mylar is attached to a side surface of the screen module to prevent light leakage from affecting a light sensing test. However, because the bonding width of the side edge of the screen module is small, the manual bonding of the shading mylar easily causes the problems of skewing, dislocation, warping and the like.

In the related art, the side mylar mounting jig of the screen module generally includes an upper positioning plate for assembling the shading mylar and a lower positioning plate for assembling the screen module, and the upper positioning plate is fixedly connected to the lower positioning plate. In the shading mylar process, the screen module is pushed to be close to the shading mylar to realize attachment, so that the shading mylar attachment consistency is poor, the accuracy is low, and the light leakage phenomenon is easily caused. In addition, the above-mentioned tool still can't control the laminating dynamics that the shading wheat was drawn, causes screen module damage scheduling problem easily.

The utility model provides a wheat draws and pastes dress tool uses with the cooperation of screen module. Fig. 1 is a schematic structural view illustrating a second positioning structure of a mylar placement jig located at a placement position according to an exemplary embodiment of the disclosure; fig. 2 is a schematic structural view of a second positioning structure of a mylar placement jig at an initial position in an exemplary embodiment of the disclosure. As shown in fig. 1 and 2, the mylar jig 1 includes: a base 11, a first positioning structure 12, a second positioning structure 13 and a drive mechanism 14. The first positioning structure 12 is fixedly arranged on the base 11, and the screen module 2 is in positioning fit with the first positioning structure 12. The second positioning structure 13 is movably engaged with the base 11, and the driving mechanism 14 is engaged with the second positioning structure 13 to drive the second positioning structure 13 to move to an initial position or a mounting position relative to the base 11. Shading mylar 3 and second location structure 13 location cooperation, shading mylar 3 pastes the projection in the subsides dress displacement direction of second location structure 13 and the coincidence of the preset position 21 of screen module 2 side. When the second positioning structure 13 is at the initial position, the light-shielding mylar 3 is far away from the screen module 2; when the second positioning structure 13 is located at the mounting position, the light-shielding mylar 3 is in adhesive fit with the preset position 21 on the side of the screen module 2.

It should be noted that the mounting displacement of the second positioning structure 13 may refer to a displacement of the second positioning structure 13 generated to finally attach the shading mylar 3 to the preset position 21 on the side of the screen module 2. For example, when the second positioning structure 13 forms a linear motion at the initial position and the mounting position, the mounting displacement may refer to a displacement of the second positioning structure 13 from being close to the screen module 2 to being perpendicular to the predetermined side 21 when the attachment is completed, or may refer to a displacement of the second positioning structure 13 from the initial position toward the mounting position. When the second positioning structure 13 forms complex motions including curvilinear motion and linear motion with different displacement directions at the initial position and the mounting position, the mounting displacement may refer to a section of displacement of the second positioning structure 13 perpendicular to the preset side 21 from the time when the second positioning structure is close to the screen module 2 to the time when the mounting is completed.

In the above embodiment, the first positioning structure 12 for assembling the screen module 2 is fixed on the base 11, the second positioning structure 13 is movably matched with the base 11, and the second positioning structure 13 can move between the initial position and the mounting position under the driving of the driving mechanism 14, because the projection of the light shielding mylar 3 in the mounting displacement direction of the second positioning structure 13 coincides with the preset position 21 on the side of the screen module 2, when the second positioning structure 13 moves to the mounting position, the light shielding mylar 3 is in adhesive fit with the preset position 21 on the side of the screen module 2. Because shading mylar 3 sets up on second location structure 13, through actuating mechanism 14 drive second location structure 13 removal to drive shading mylar 3 and remove and then realize presetting the location laminating of position 21 with screen module 2 side, not only promoted shading mylar 3 and preset the laminating precision and the laminating position uniformity of position 21 with screen module 2 side, and can avoid screen module 2 damage through actuating mechanism 14 control laminating dynamics.

In the above embodiment, the base 11 is provided with the slide rail 111, and the driving mechanism 14 can drive the second positioning structure 13 to move relative to the slide rail 111, so as to improve the stability and the position accuracy of the second positioning structure 13 during the moving process through the structure of the slide rail 111. It should be noted that the extending direction of the slide rail 111 can be perpendicular to the side of the preset position 21 of the light-shielding mylar 3 to be attached to the screen module 2, so as to shorten the stroke of the second positioning structure 13 and improve the control convenience. Or, in other embodiments, the slide rail 111 may also include a multi-segment structure such as a linear structure and/or a curved structure, and the extending direction of the slide rail 111 with different structural segments may be set according to specific requirements, so as to improve the flexibility of the arrangement of the slide rail 111.

In some embodiments, the second positioning structure 13 may be directly disposed on the slide rail 111 and slidably engaged with the slide rail 111, and the driving mechanism 14 is fixedly disposed on the base 11 and drives the second positioning structure 13 to move relative to the slide rail 111, so as to improve the structural reliability and control convenience of the mylar fitting jig.

In other embodiments, as shown in fig. 3, the driving mechanism 14 may be disposed on the sliding rail 111, and the second positioning structure 13 is fixedly connected to the driving mechanism 14, so that the second positioning structure 13 is moved by the movement of the driving mechanism 14. The structural arrangement simplifies the structural complexity of the second positioning structure 13, and the second positioning structure 13 can move relative to the slide rail 111 only by fixedly connecting the second positioning structure 13 with the driving mechanism 14.

For example, the driving mechanism 14 may include a stepping motor 141 and a slider 142, the slider 142 is slidably engaged with the slide rail 111, the stepping motor 141 is fixedly connected to the slider 142, and the second positioning structure 13 is fixedly connected to the stepping motor 141. When the sliding block 142 of the driving mechanism 14 is controlled to slide relative to the sliding rail 111, the second positioning structure 13 can be driven to move relative to the sliding rail 111. The slider 142 and the stepping motor 141 may be fixedly connected by a connector such as a screw.

In the above embodiment, the base 11 may further have a stop block 112, and when the second positioning structure 13 is at the initial position, the sliding block 142 is in stop fit with the stop block 112. The stopper 112 prevents the sliding block 142 from sliding out of the sliding rail 111, and defines the initial position of the second positioning structure 13. Or, in other embodiments, the limiting block 112 may be disposed on the base 11 and/or the sliding rail 111, and when the second positioning structure 13 is located at the initial position, the limiting block 112 may be in limiting cooperation with at least one of the slider 142, the stepping motor 141, and the second positioning structure 13, so that the limiting block 112 can limit the second positioning structure 13 at the initial position of the second positioning structure 13, which is not limited by the present disclosure.

In some embodiments, as shown in fig. 3, the second positioning structure 13 includes a positioning column 131, the light-shielding mylar 3 includes a release paper 32 and a light-shielding main body 31, the release paper 32 includes a first region 321 and a second region 322, the light-shielding main body 31 is attached to the first region 321, a positioning hole 3221 is disposed on the second region 322, and the positioning hole 3221 is in positioning fit with the positioning column 131. The release paper 32 is divided into a first area 321 and a second area 322, and is matched with the positioning column 131 through the positioning hole 3221 on the second area 322, so that the light-shielding mylar 3 is positioned. When the driving mechanism 14 is disposed on the slide rail 111 and the second positioning structure 13 is fixedly connected to the driving mechanism 14, the positioning column 131 can be fixed on the driving mechanism 14 through a connecting member such as a screw, so as to drive the light-shielding mylar 3 matched with the positioning column 131 to move through the movement of the driving mechanism 14, so that the light-shielding main body 31 is attached to the preset position 21 on the side of the screen module 2 at the mounting position.

In the above embodiment, the second positioning structure 13 may include at least two positioning pillars 131, the second area 322 is provided with positioning holes 3221 corresponding to the positioning pillars 131 one by one, and the positioning holes 3221 are in positioning fit with the positioning pillars 131. The positioning accuracy of the second positioning structure 13 for the light-shielding mylar 3 is improved by the cooperation of the at least two positioning columns 131 and the positioning holes 3221, and the light-shielding mylar 3 is prevented from shaking.

In the above embodiment, the second positioning structure 13 further includes a positioning plate 132, the positioning column 131 is disposed on the positioning plate 132, and the positioning plate 132 is in limit fit with the release paper 32. Through setting up locating plate 132 for second location structure 13 for locating plate 132 forms spacingly with shading mylar 3 from type paper 32, has further promoted shading mylar 3's location equipment precision.

In some embodiments, as shown in fig. 4, the mylar placement jig 1 further includes a second air suction mechanism 16, the second positioning structure 13 includes a positioning plate 132, and the positioning plate 132 is provided with a second air suction opening 1321 engaged with the second air suction mechanism 16. When the light shielding mylar 3 is disposed on the positioning plate 132, the light shielding mylar 3 covers the at least one second air suction opening 1321. When the second air suction mechanism 16 is started, the light shielding mylar 3 can be adsorbed on the positioning plate 132 through the second air suction opening 1321, and the light shielding mylar 3 is further prevented from being changed in position during movement or attachment to affect the attachment accuracy.

Further, the second positioning structure 13 may further include a positioning column 131, the positioning column 131 is disposed on the positioning plate 132, the light-shielding mylar 3 includes a release paper 32 and a light-shielding main body 31, the release paper 32 includes a first area 321 and a second area 322, the light-shielding main body 31 is attached to the first area 321, the second area 322 is provided with a positioning hole 3221, and the positioning hole 3221 is in positioning fit with the positioning column 131. When the second air suction mechanism 16 is activated, the light-shielding mylar 3 is sucked through the second air suction opening 1321, so that the back surface of the release paper 32 is attached to the positioning plate 132 to avoid a change in position. The first area 321 may be disposed below the second area 322, that is, the positioning column 131 is disposed above the second air suction opening 1321, so as to perform double positioning on the light-shielding mylar 3, and avoid structural interference.

It should be noted that the second air suction mechanism 16 may include a vacuum suction pump (not labeled), a second air suction port 161, a second connecting pipe (not labeled), and the like, the second air suction port 161 is communicated with the vacuum suction pump, and the second air suction opening 1321 and the second air suction port 161 may be communicated through the second connecting pipe. The second suction port 161 may be provided on the base 11 to achieve assembly fixation. Further, the second suction port 161 may be disposed at an edge position of the base 11 to reduce a space occupation of the base 11. The second suction opening 1321 may be one or more hole structures provided on the positioning plate 132, and the shape of the hole structures may be circular, rectangular, irregular, etc., which is not limited by the present disclosure.

In some embodiments, as shown in fig. 5, the first positioning structure 12 includes an assembly groove 121 and a first air suction opening 122 disposed at the bottom of the assembly groove 121, and the mylar placement jig 1 further includes a first air suction mechanism 15, and the first air suction mechanism 15 is fitted to the first air suction opening 122. When the screen module 2 is assembled in the assembly slot 121, the screen module 2 covers at least one first suction opening 122, and the predetermined position 21 on the side of the screen module 2 faces the second positioning structure 13. When the first suction mechanism 15 is activated, the bottom surface of the screen module 2 is sucked through the first suction opening 122, so that the screen module 2 is fixed in the assembly groove 121 to avoid position change.

It should be noted that the first positioning structure 12 and the base 11 can be fixedly connected by a connecting member such as a screw. In addition, the first suction mechanism 15 may include a vacuum suction pump, a first suction port 151, a first connection pipe (not labeled), and the like, where the first suction port 151 is communicated with the vacuum suction pump, and the first suction opening 122 and the first suction port 151 may be communicated through the first connection pipe. The first suction port 151 may be provided on the base 11 to achieve assembly fixation. Further, the first suction port 151 may be disposed at an edge position of the first positioning structure 12, so as to communicate the first suction port 151 with the first suction opening 122. The first suction opening 122 may be one or more groove structures disposed at the bottom of the assembly groove 121, and the shape of the groove structure may be circular, rectangular, bar-shaped, irregular pattern, etc., which is not limited by the present disclosure.

In the use process of the mylar placement jig 1, the shading mylar 3 can be fixed on the second positioning structure 13, and the second air suction mechanism 16 is opened to adsorb and fix the shading mylar 3, so that the mylar is prevented from falling. Then, the slide block 142 of the driving mechanism 14 is controlled to move along the slide rail 111, and the stepping motor 141 and the second positioning structure 13 disposed on the slide block 142 move along the slide rail 111 toward the predetermined position 21 on the side of the screen module 2 along with the slide block 142. When the second positioning structure 13 moves to the mounting position, and the shading mylar 3 contacts the screen module 2, the stepping motor 141 controls the laminating force of the shading mylar 3 and the preset position 21 on the side edge of the screen module 2, so as to avoid damage to the screen module 2 under the condition of realizing stable lamination. After the attachment is completed, the slider 142 drives the stepping motor 141 and the second positioning structure 13 to return to the initial position, and the slider 142 is in limit fit with the limit block 112.

It should be noted that the preset position 21 on the side of the screen module 2 may be located on the side of the whole of the touch pad, the screen cover, and the screen module 2, and when the preset position 21 is located on the touch pad, the touch pad may be separately assembled on the first positioning structure 12 to complete the mounting of the light-shielding mylar 3 on the side of the touch pad. The mylar mounting jig 1 can be used for attaching the shading mylar 3 at an extremely narrow position, for example, the shading mylar 3 attached to the side surface of the screen module 2 with the width of 0.77mm can be realized.

The utility model discloses a system is pasted to wheat is drawn and is pasted dress, wheat draw system includes that screen module 2, shading wheat draw 3 and above-mentioned wheat draw and paste dress tool 1, and screen module 2 assembles in first location structure 12, and shading wheat draws 3 assembles in second location structure 13.

Because wheat draws subsides dress tool 1's second location structure 13 and base 11 clearance fit, and can remove between initial position and subsides the dress position under actuating mechanism 14's drive, because shading wheat draws 3 and the position 21 coincidence of predetermineeing of screen module 2 side in the projection of second location structure 13 subsides dress displacement direction, make when second location structure 13 removes to subsides the dress position, shading wheat draws 3 and the cooperation of pasting of predetermineeing of screen module 2 side 21. Because the shading mylar 3 is arranged on the second positioning structure 13, the driving mechanism 14 drives the second positioning structure 13 to move, and drives the shading mylar 3 to move so as to realize the positioning and fitting with the preset position 21 on the side edge of the screen module 2. A first location structure 12 for assembling screen module 2 is fixed on base 11, and screen module 2 is assembled in first location structure 12, and need not to remove at shading mylar 3 laminating in-process, has not only promoted shading mylar 3 and the laminating precision and the laminating position uniformity of screen module 2 side preset position 21, and can avoid screen module 2 damage through 14 control laminating dynamics of actuating mechanism.

It should be noted that, the screen module 2 may be a screen module 2 of an electronic device such as a mobile phone, a wearable device, a tablet computer, a television, a vehicle-mounted terminal, and a medical terminal, and the disclosure is not limited thereto.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. The utility model provides a wheat draws to paste dress tool, its characterized in that uses with the cooperation of screen module, wheat draws to paste dress tool includes: the device comprises a base, a first positioning structure, a second positioning structure and a driving mechanism;

the first positioning structure is fixedly arranged on the base, and the screen module is matched with the first positioning structure in a positioning mode;

the second positioning structure is movably matched with the base, and the driving mechanism is matched with the second positioning structure so as to drive the second positioning structure to move to an initial position or a mounting position relative to the base; shading mylar with second location structure location cooperation, shading mylar is in the projection on the subsides dress displacement direction of second location structure with the preset position coincidence of screen module side.

2. The Mylar placement jig of claim 1, wherein a slide rail is disposed on the base, and the driving mechanism drives the second positioning structure to move relative to the slide rail.

3. The Mylar jig of claim 2, wherein the driving mechanism comprises a stepping motor and a slide block, and the slide block is in sliding fit with the slide rail; the stepping motor is fixedly connected to the sliding block, and the second positioning structure is fixedly connected to the stepping motor.

4. The Mylar placement jig of claim 3, wherein the base is provided with a limiting block, and when the second positioning structure is located at the initial position, the sliding block is in limiting fit with the limiting block.

5. The Mylar placement jig of claim 1, wherein the second positioning structure comprises a positioning post; the shading mylar comprises release paper and a shading main body, wherein the release paper comprises a first area and a second area, and the shading main body is attached to the first area; and the second area is provided with a positioning hole which is matched with the positioning column in a positioning way.

6. The Mylar placement jig as claimed in claim 5, wherein the second positioning structure comprises at least two positioning posts, the second region is provided with positioning holes corresponding to the positioning posts one by one, and the positioning holes are in positioning fit with the positioning posts.

7. The Mylar placement jig of claim 5, wherein the second positioning structure further comprises a positioning plate, the positioning column is disposed on the positioning plate, and the positioning plate is in limit fit with the release paper.

8. The Mylar jig of claim 1, wherein the first positioning structure comprises an assembly slot and a first suction opening disposed at a bottom of the assembly slot; the Mylar surface mounting jig further comprises a first air suction mechanism, and the first air suction mechanism is matched with the first air suction opening;

when the screen module is assembled in the assembling groove, the screen module covers at least one first air suction opening, and the preset position of the side edge of the screen module faces the second positioning structure.

9. The mylar placement jig according to claim 1, further comprising a second air suction mechanism, wherein the second positioning structure comprises a positioning plate, and a second air suction opening is formed in the positioning plate and is matched with the second air suction mechanism; when the shading mylar is arranged on the positioning plate, the shading mylar covers at least one of the second air suction openings.

10. A mylar placement system comprising a screen module, a light-shielding mylar, and the mylar placement fixture of any of claims 1-9, wherein the screen module is assembled to the first positioning structure, and the light-shielding mylar is assembled to the second positioning structure.

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