WO2020178911A1 - Multi-display system and video display device - Google Patents

Abstract

The purpose of the present invention is to provide a feature for adjusting seams between adjacent video display devices in a multi-display system so as to be less noticeable and, when remounting a video display module, suppressing interference between an end portion of the video display module and an end portion of another video display module. Each video display device 100 is provided with a plurality of LED display modules 1000, a housing frame 5, a holding member 40, and a compression spring 365. The holding member 40 includes an adjustment screw 310 that is an adjustment part for adjusting level differences in the plurality of LED display modules 1000 in the front-back direction by means of being rotated and a boss 50 that is a securing part for securing the position of the plurality of LED display modules 1000 in the front-back direction by means of being rotated . The compression spring 365 biases the holding member 40 rearward. The rotational axis of the adjustment screw 310 is arranged coaxially with the rotational axis of the boss 50.

Description

Multi-display system and video display device

The present invention relates to adjustment of a step between display surfaces of a display module of a video display device included in a multi-display system.

Proposes a multi-display system that has multiple video display devices with multiple display devices such as LEDs (Light Emitting Diodes), which are light-emitting devices, and that displays images on a large screen that combines the screens of multiple video display devices. Has been done. This multi-display system is widely used for displaying advertisements not only outdoors but also indoors due to improved performance of display elements and cost reduction. Therefore, it has been mainly used for displaying moving images such as natural images and animations.

However, due to the miniaturization of display elements, the pixel pitch has become narrower, and appropriate display quality can be obtained even with a short viewing distance. As a result, the multi-display system has come to be used not only for displaying advertisements indoors, but also for displaying images on personal computers such as conference rooms and surveillance applications. Especially, in a multi-display system for monitoring, a personal computer image close to a still image may be displayed.

In the multi-display system, the SMD (Surface Mount Device) type in which a small LED display module is mounted on the substrate is the mainstream, and until now a large multi-display system with a pixel pitch of 3 mm or more was configured. The LED display module has been formed by mounting an LED display element inside a cavity of a molded product molded of ceramic or resin and hardening it with a sealing resin.

However, in recent years, against the background of cost reduction and high definition of LED display elements using high-density mounted products, image display devices provided with LED display elements having a pixel pitch of 1 to 2 mm are tiled. A large-sized multi-display system configured by arranging a plurality of lines is introduced into the market.

By the way, in a multi-display system, the plane uniformity of the display surface of each video display device greatly affects the video quality. It is essential that the image display device be held and fixed and that the image display device can be replaced easily during maintenance without deterioration of quality. Therefore, in a video display device configured by arranging a plurality of display modules, it is necessary to suppress steps in the front-rear direction on the display surface of the video display device, and to make adjustments so that these steps are not noticeable.

For example, Patent Document 1 and Patent Document 2 disclose a configuration of a video display device and a holding method thereof.

Japanese Unexamined Patent Publication No. 2007-2448498 Japanese Unexamined Patent Publication No. 2017-62454

Patent Documents 1 and 2 describe a method of holding the display surface of each video display device, but do not consider the step difference of the display surface due to the variation in the fixed position.

Further, in the structure in which the display surface is fixed using screws, when the LED display module is once removed and then reattached, the position of the LED display module in the front-rear direction is not determined until the screw fits in the predetermined position, It becomes slanted with some points of the mounting points as fulcrums. Therefore, the edge of the LED display module may interfere with the edge of the LED display module adjacent to the LED display module, and the LED display element may be damaged.

Therefore, the present invention, in a multi-display system, adjusts the joint between the video display device and another video display device adjacent to it so as not to be conspicuous, and when the video display module is reattached, It is an object of the present invention to provide a technique capable of suppressing interference between an end and an end of a video display module adjacent to the end.

The multi-display system according to the present invention is a multi-display system in which a plurality of image display devices are arranged to form a large screen, and each of the image display devices includes a plurality of image display modules in which light emitting elements are arranged, and a plurality of image display modules. A housing frame in which the back surfaces of the plurality of video display modules are fixed, an adjustment unit that can be rotated and adjusts a step in the front-rear direction of the plurality of video display modules by the rotation operation, and a plurality of rotation-operable housing frames. A holding member having a fixing portion for fixing the position of the image display module in the front-rear direction by the rotation operation, and a compression spring for biasing the fixing portion rearward, and the rotation shaft of the adjusting portion is fixed. It is arranged coaxially with the rotation axis of the module.

According to the present invention, it is possible to adjust the joint between the video display device and another video display device adjacent to the video display device so as not to be noticeable. Furthermore, when the video display module is reattached, the end of the video display module and the end of the video display module adjacent thereto can interfere with each other.

The objects, features, aspects, and advantages of the present invention will become more apparent by the following detailed description and the accompanying drawings.

It is a perspective view showing a schematic structure of a multi-display system according to an embodiment. It is a perspective view which shows the schematic structure of the image display device included in the multi-display system which concerns on embodiment. It is a perspective view which shows the state which removed one LED display module from the video display apparatus. It is sectional drawing which shows the state before an LED display module of an image display apparatus is attached to a holding member. It is a rear perspective view of a holding member. It is sectional drawing which shows the state which the LED display module of an image display apparatus was temporarily fixed to the holding member. It is sectional drawing which shows the state which the LED display module of an image display apparatus was finally fixed to the holding member. It is a perspective view showing a state where an LED display module of an image display device included in a multi-display system according to a related art is floated. FIG. 6 is a cross-sectional view showing a state before an LED display module of an image display device included in a multi-display system according to a related art is finally fixed to a housing frame. FIG. 11 is a cross-sectional view showing a state where an LED display module of an image display device included in a multi-display system according to a related art is permanently fixed to a housing frame.

<Related technology>
First, prior to the description of the embodiments of the present invention, problems of the related art will be described in detail. FIG. 8 is a perspective view showing a floating state of the LED display module 1001A of the image display device 100A included in the multi-display system according to the related technology. FIG. 9 is a cross-sectional view showing a state before the LED display module 1000A of the video display device 100A included in the multi-display system according to the related art is finally fixed to the housing frame 5. FIG. 10 is a cross-sectional view showing a state in which the LED display module 1000A of the image display device 100A included in the multi-display system according to the related technology is actually fixed to the housing frame 5.

As shown in FIGS. 8 and 9, the video display device 100A included in the multi-display system includes four video display modules, LED display modules 1001A to 1004A, a housing frame 5, and a position adjusting bolt 3100. In the related art, when the LED display modules 1001A to 1004A are not distinguished, they are described as the LED display module 1000A.

As shown in FIGS. 9 and 10, the LED display module 1000A includes an LED substrate 1 on which an LED element is mounted, a mold base 2 for holding the LED substrate 1, and a fixing screw 3000. The fixing screw 3000 includes a flange-shaped magnet 3001, a male screw portion 3002 protruding from the back surface of the magnet 3001 to the housing frame 5 side, and a holding component 3003 provided integrally with the back surface of the magnet 3001.

The position adjusting bolt 3100 has a hollow cylindrical shape and is screwed to the housing frame 5. A female screw portion 3101 that is screwed into the male screw portion 3002 is formed on the front portion inside the position adjusting bolt 3100, and the male screw portion 3002 and the female screw portion 3101 can be screwed together.

In the related art, when each LED display module 1000A is removed or reattached from the display surface side in response to a product defect or the like, in order to rotate the magnet 3001 from the display surface side of the LED display module 1000A, as shown in FIG. A jig 520 having a magnet 521 and a knob 522 is used. Alternatively, a tool 3103 that rotates the male screw portion 3002 from the back side is used.

When the male screw portion 3002 is screwed into the female screw portion 3101, the LED display module 1000A is in a floating state and is slanted as shown in FIG. 8 until it is pulled toward the housing frame 5 side and the holding component 3003 reaches the fixed position. The position becomes undefined. As a result, the edge of the LED display module 1000A interferes with the edge of the LED display module 1000A adjacent to the LED display module 1000A, and the LED display element mounted on the front surface side of the LED display module 1000A may be damaged. The following embodiments solve such problems.

<Embodiment>
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing a schematic configuration of a multi-display system 200 according to the embodiment.

As shown in FIG. 1, the multi-display system 200 includes a plurality of video display devices 101 to 106 for displaying images arranged in a matrix. In the present embodiment, when the image display devices 101 to 106 are not distinguished, they are referred to as the image display device 100.

FIG. 2 is a perspective view showing a schematic configuration of the video display device 100. FIG. 3 is a perspective view showing a state in which one LED display module 1001 is removed from the image display device 100. As shown in FIGS. 2 and 3, the image display device 100 includes four image display modules, LED display modules 1001 to 1004, a housing frame 5, holding members 41 to 43, and a compression spring 365 (see FIG. 4). I have it. In the present embodiment, when the LED display modules 1001 to 1004 are not distinguished, the LED display module 1000 is described, and when the holding members 41 to 43 are not distinguished, the holding member 40 is described. In the LED display module 1000, a plurality of light emitting elements such as LED elements are arranged.

As shown in FIG. 3, the LED display module 1000 includes an LED substrate 1 on which LED elements are mounted, a mold base 2 that holds the LED substrate 1, and three mold bases 2 that protrude from the back surface of the mold base 2 toward the housing frame 5 side. It is provided with male screw parts 11 to 13. In the present embodiment, when the male screw parts 11 to 13 are not distinguished, they are described as the male screw part 10. The holding member 40 is attached to the housing frame 5 and holds the male screw portion 10. The LED display module 1000 is provided with a metal fitting 700, and the metal fitting 700 assists in fixing the LED display module 1000 and the housing frame 5 during transportation.

FIG. 4 is a cross-sectional view showing a state before the LED display module 1000 of the video display device 100 is attached to the holding member 40. FIG. 5 is a rear perspective view of the holding member 40.

As shown in FIGS. 4 and 5, the holding member 40 includes a flange portion 351 made of a magnetic material, a disk-shaped magnet 30, a boss 50, a sleeve portion 350, a taper portion 361, a female screw portion 360, a stopper 364, and an adjustment member. A screw 310 is provided.

The flange portion 351 is circular when viewed from the front, and includes a front edge portion 351a, a side surface portion 351b, a back surface portion 351c, and an opening portion 351d. The flange portion 351 has a shape capable of covering the outer peripheral portion of the front surface, the side surface, and the rear surface of the magnet 30, and the portion excluding the outer peripheral portion of the front surface of the magnet 30 is exposed from the opening 351d. The front edge portion 351a, which is the contact surface of the flange portion 351 with respect to the LED display module 1000, contacts the back surface of the LED display module 1000.

As shown in FIG. 5, the magnet 30 has six magnetic poles. The boss 50 is fixed to the central portion of the back surface of the magnet 30. Inside the boss 50, a sleeve portion 350, a taper portion 361, and a female screw portion 360 are provided. The sleeve portion 350 is fixed so as to penetrate the central portion of the magnet 30, and the male screw portion 10 of the LED display module 1000 is inserted into the sleeve portion 350. The taper portion 361 is continuously formed on the rear side of the sleeve portion 350 and guides the male screw portion 10 inserted in the sleeve portion 350 rearward. The female screw portion 360 is continuously formed on the rear side of the taper portion 361 and is screwed with the male screw portion 10 guided by the taper portion 361.

The adjusting screw 310 is fixed to the back surface portion 351c of the flange portion 351 and screwed into the screw hole 5a of the housing frame 5. The back surface portion 351c of the flange portion 351 is sandwiched between the magnet 30 and the adjustment screw 310 that adjusts the step difference in the front-rear direction of the LED display module 1000. The adjusting screw 310 can be moved back and forth, for example, by a rotating operation with a tool from the back side. Accordingly, the steps in the front-rear direction of the plurality of LED display modules 1001 to 1004 can be adjusted by rotating the adjusting screw 310. Here, the adjusting screw 310 is rotatable and corresponds to an adjusting unit that adjusts a step in the front-rear direction of the LED display module 1000 by rotating.

The adjusting screw 310 has a hollow cylindrical shape and is provided with a through hole 310a that accurately guides the boss 50. The boss 50 is inserted into the through hole 310a of the adjusting screw 310 and can move back and forth with respect to the adjusting screw 310.

The compression spring 365 is attached to the rear end of the boss 50. Specifically, the compression spring 365 is mounted between the rear end of the adjusting screw 310 on the boss 50 and the stopper 364 arranged at the rear end of the boss 50. The compression spring 365 is retained by the stopper 364 and biases the holding member 40 rearward. As a result, the magnet 30 and the boss 50 of the holding member 40 are biased rearward by the compression spring 365 so as not to rattle.

The stopper 364 is fixed to the rear end of the boss 50 with a screw 366. After the LED display modules 1001 to 1004 are adjusted to positions aligned on a flat surface by the rotation operation of the adjusting screw 310, the adjusting screw 310 is fixed to the housing frame 5 by the nut 55.

FIG. 6 is a cross-sectional view showing a state in which the LED display module 1000 of the video display device 100 is temporarily fixed to the holding member 40.

As shown in FIG. 6, when the male screw portion 10 is inserted in parallel with the sleeve portion 350 having the same length, the LED display module 1000 is placed in contact with the flange portion 351 whose front-rear position has been adjusted to the temporary fixing position in advance. It is close to the contact surface. The temporary fixing position is a position parallel to the front of the main fixing position of the LED display module 1000, and the LED display module 1000 is urged by the compression spring 365 via the boss 50. A predetermined clearance is provided between the back surface of the LED display module 1000 and the leading edge portion 351a of the flange portion 351 so that the LED display module 1000 does not become unstable such as being slanted. At this time, the LED display module 1000 is not fixed.

Here, the temporary fixing means a state in which the male screw portion 10 is inserted into the sleeve portion 350 and the LED display module 1000 is close to the contact surface of the flange portion 351.

The multi-display system 200 further includes a magnet jig 500 that can come into contact with the front surface of the LED display module 1000. The magnet jig 500 is a jig for operating the magnet 30 of the holding member 40, and includes an exterior portion 511, a magnet 510 having the same number of poles as the magnet 30 of the holding member 40, and a knob 512.

The magnet jig 500 includes a magnet 510 having a magnetic pole similar to that of the magnet 30 of the holding member 40, and forms a magnet coupling by facing the magnet 30. With the LED display module 1000 in a predetermined position, the magnet 30 of the holding member 40 is drawn into the magnet 510 side of the magnet jig 500. Therefore, by rotating the magnet 510 of the magnet jig 500, the magnet of the holding member 40 is rotated. The LED display module 1000 can be attached and detached by rotating the 30 and the boss 50.

By rotating the knob 512 with the magnet jig 500 in contact with the LED display module 1000, the magnet 30 of the holding member 40 is synchronously rotated, and the LED display module 1000 is fixed to the flange portion 351 adjusted to a predetermined position. You can do it. An adjusting screw 310 is fixed to the flange portion 351, and the adjusting screw 310 is fixed to a predetermined position with a nut 55.

FIG. 7 is a cross-sectional view showing a state where the LED display module 1000 of the video display device 100 is permanently fixed to the holding member 40.

As shown in FIG. 7, when the knob 512 is rotated while the magnet jig 500 is in contact with the front surface of the LED display module 1000, the magnet 30 and the boss 50 of the holding member 40 move forward while rotating. The male screw portion 10 of the LED display module 1000 is screwed into the female screw portion 360 of the holding member 40, and the male screw portion 10 and the female screw portion 360 are fastened. As the boss 50 moves forward, the compression spring 365 mounted between the adjusting screw 310 and the stopper 364 is compressed. Due to the repulsive force due to the compression of the compression spring 365, the flange portion 351 of the holding member 40 is fixed between the LED display module 1000 and the adjustment screw 310 of which the step in the front-back direction of the LED display module 1000 is adjusted. There is. At this time, the contact surface of the LED display module 1000 is located rearward of the contact surface when it is temporarily fixed, and is in contact with the contact surface of the flange portion 351.

Here, the boss 50 is rotatable and corresponds to a fixing portion that fixes the position of the LED display module 1000 in the front-rear direction by rotating operation. In addition, the main fixing means a state in which the male screw portion 10 is fastened to the female screw portion 360 and the LED display module 1000 is fixed to the flange portion 351.

After the assembly and configuration of the multi-display system 200, the knob 512 is rotated in the reverse direction with the magnet jig 500 in contact with the front surface of the LED display module 1000, so that the female screw portion 360 of the holding member 40 becomes the male screw portion of the LED display module 1000. It is possible to remove from 10 and remove the LED display module 1000.

In this embodiment, as shown in FIG. 3, the position of the LED display module 1000 is adjusted and fixed using the three male screw portions 10, but the number of the male screw portions 10 is not necessarily three. However, the number can be changed as needed.

As described above, in the multi-display system 200 according to the embodiment, each video display device 100 includes a plurality of LED display modules 1000 in which light emitting elements are arranged and a housing to which the back surfaces of the plurality of LED display modules 1000 are fixed. A body frame 5, an adjusting screw 310 that is rotatable and that adjusts the steps in the front-rear direction of the plurality of LED display modules 1000 by rotating, and a rotating operation that rotates the positions of the plurality of LED display modules 1000 in the front-rear direction. The holding member 40 having the boss 50 that is fixed by operation and the compression spring 365 that biases the boss 50 backward are provided, and the rotation shaft of the adjustment screw 310 is arranged coaxially with the rotation shaft of the boss 50.

Therefore, the joint between the video display device 100 and another adjacent video display device 100 can be adjusted so as not to be noticeable.

Further, since the compression spring 365 biases the boss 50 rearward, it is possible to suppress rattling of the LED display module 1000 attached to the holding member 40 including the boss 50. Accordingly, when the LED display module 1000 is reattached, it is possible to prevent the end portion of the LED display module 1000 and the end portion of the LED display module 1000 adjacent thereto from interfering with each other. As a result, it is possible to prevent the light emitting element from being damaged.

When the LED display module 1000 is attached to the housing frame 5, the rotation axis of the adjusting screw 310 of the holding member 40 and the rotation axis of the boss 50 are arranged coaxially, so that the LED display module 1000 is held and the front-rear direction. The position of can be adjusted. If the adjusting portion and the fixing portion are present at different positions, the adjusting position may shift when the adjustment portion adjusts the position of the display surface and then fixes the position.

However, when the rotation axis of the adjustment unit and the rotation axis of the fixed unit are coaxial as in the present embodiment, the adjusted position does not shift when fixing the position after adjusting the position of the display surface, This has the effect of eliminating the bending of the display surface of the LED display module 1000 due to the positional deviation between the adjustment unit and the fixed unit.

Further, since the LED display module 1000 is fastened and fixed by the male screw portion 10 and the female screw portion 360, even if a vibration such as an earthquake is applied after the multi-display system 200 is assembled and configured, the positional deviation of the LED display module 1000 and It has the effect of suppressing falling.

When removing or reattaching the LED display module 1000 from the display surface side, when the LED display module 1000 bends, the mounting work is repeated many times to eliminate the step between the display surface of the adjacent LED display module 1000. However, in the present embodiment, the LED display module 1000 is not fixed in an unstable state, so that the work is easy even when the mounting work is repeated.

A magnet jig 500 capable of contacting the front surface of the LED display module 1000 is further provided, the LED display module 1000 has a male screw portion 10 protruding from the back surface toward the housing frame 5, and the holding member 40 is an LED display module. A flange portion 351 made of a magnetic material that comes into contact with the back surface of the 1000, a disk-shaped magnet 30 arranged inside the flange portion 351, a boss 50 fixed to the back surface of the magnet 30, and a boss 50 arranged inside the boss 50. A sleeve portion 350 that penetrates the central portion of the magnet 30 and into which the male screw portion 10 of the LED display module 1000 is inserted; a taper portion 361 that is formed on the rear side of the sleeve portion 350 to guide the male screw portion 10; A magnet formed by magnetic attraction between the magnet jig 500 and the magnet 30 of the holding member 40, which has a female screw portion 360 formed on the rear side and to which the male screw portion 10 is screwed, and which is brought into contact with the front surface of the LED display module 1000. By the coupling, the boss 50 of the holding member 40 is rotatably supported.

Therefore, since the boss 50 is pulled toward the LED display module 1000 while the LED display module 1000 is in a predetermined position, the magnet 30 and the boss 50 of the holding member 40 are rotated by rotating the magnet jig 500, and the LED The display module 1000 can be attached and detached.

Since the LED display module 1000 can be attached and detached from the display surface side by the magnet jig 500, it is not necessary to provide a maintenance space for people to enter on the back side of the product, which is effective in saving space.

The adjusting screw 310 is fixed to the back surface of the flange portion 351 and has a through hole 310a for guiding the inserted boss 50. The compression spring 365 is arranged at the rear end of the adjusting screw 310 and the rear end of the boss 50. When the LED display module 1000 is temporarily fixed to the housing frame 5, the LED display module 1000 is arranged between the stoppers 364 and comes into contact with the flange portion 351. It is biased by the compression spring 365 so as to be positioned in front of the abutting surface when it is permanently fixed to the frame 5.

Therefore, since the contact surface of the LED display module 1000 at the time of temporary fixing is located in front of the contact surface at the time of main fixing, the end portion of the LED display module 1000 can be repeatedly removed when the LED display module 1000 is repeatedly attached and detached. It is possible to suppress the interference of the end portion of the LED display module 1000 adjacent to the LED display module 1000.

Since the boss 50 is biased by the compression spring 365, it is possible to suppress loosening of the fastening between the male screw portion 10 and the female screw portion 360 due to vibration or the like.

Although the present invention has been described in detail, the above description is an example in all aspects, and the present invention is not limited thereto. It is understood that innumerable variants not illustrated can be envisaged without departing from the scope of the invention.

In the present invention, the embodiments can be appropriately modified or omitted within the scope of the invention.

5 housing frame, 10 male screw part, 30 magnet, 40-43 holding member, 50 boss, 100-106 video display device, 200 multi-display system, 310 adjusting screw, 310a through hole, 350 sleeve part, 351 flange part, 360 Female thread part, 361 taper part, 364 stopper, 365 compression spring, 500 magnet jig, 1000 to 1004 LED display module.

Claims (4)

1. A multi-display system (200) in which a plurality of video display devices (100 to 106) are arranged to form a large screen,
   Each of the video display devices (100 to 106)
   A plurality of video display modules (1000 to 1004) in which light emitting elements are arranged,
   A housing frame (5) to which the back surfaces of the plurality of video display modules (1000 to 1004) are fixed,
   An adjusting unit (310) that adjusts the step in the front-rear direction of the plurality of video display modules (1000 to 1004) that can be rotated and a plurality of the video display modules (1000 to 1004) that can be rotated. ) With a holding member (40 to 43) having a fixing portion (50) for fixing the position in the front-rear direction by the rotation operation.
   A compression spring (365) for urging the fixed portion (50) backward,
   Equipped with
   A multi-display system (200) in which the rotating shaft of the adjusting portion (310) is arranged coaxially with the rotating shaft of the fixed portion (50).
2. The image display module (1000 to 1004) further comprises a magnet jig (500) that can come into contact with the front surface,
   The video display module (1000 to 1004) has a male screw portion (10) protruding from the back toward the housing frame (5).
   The holding member (40 to 43) has a flange portion (351) made of a magnetic material, which is in contact with the back surface of the image display module (1000 to 1004), and a disc shape disposed inside the flange portion (351). The magnet (30), the fixing part (50) fixed to the back surface of the magnet (30), and the image penetrating the central part of the magnet (30) disposed inside the fixing part (50). A sleeve part (350) into which the male screw part (10) of the display module (1000 to 1004) is inserted, and a taper part (361) formed on the rear side of the sleeve part (350) and guiding the male screw part (10). ) And a female threaded portion (360) formed on the rear side of the tapered portion (361) and to which the male threaded portion (10) is screwed.
   By a magnetic coupling by magnetic attraction between the magnet jig (500) brought into contact with the front surface of the video display module (1000 to 1004) and the magnet (30) of the holding member (40 to 43), The multi-display system (200) according to claim 1, wherein the fixing portion (50) of the holding member (40 to 43) is rotatably supported.
3. The adjusting portion (310) has a through hole (310a) fixed to the back surface of the flange portion (351) and guides the fixed portion inserted.
   The compression spring (365) is arranged between the rear end of the adjusting portion (310) and the stopper (364) arranged at the rear end of the fixing portion (50).
   The contact surface of the image display module (1000 to 1004) that abuts the flange portion (351) when the image display module (1000 to 1004) is temporarily fixed to the housing frame (5), The compression spring (365) biases the display module (1000 to 1004) so as to be positioned in front of the contact surface when the display module (1000 to 1004) is permanently fixed to the housing frame (5). The described multi-display system (200).
4. A plurality of video display modules (1000 to 1004) in which light emitting elements are arranged,
   A housing frame (5) to which the back surfaces of the plurality of video display modules (1000 to 1004) are fixed,
   An adjusting unit (310) that adjusts the step in the front-rear direction of the plurality of video display modules (1000 to 1004) that can be rotated and a plurality of the video display modules (1000 to 1004) that can be rotated. ) With a holding member (40 to 43) having a fixing portion (50) for fixing the position in the front-rear direction by the rotation operation.
   A compression spring (365) for urging the fixed portion (50) backward,
   Equipped with
   An image display device (100 to 106) in which the rotating shaft of the adjusting portion (310) is arranged coaxially with the rotating shaft of the fixed portion (50).

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