JP4060246B2 - Large display device and its assembly method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a large display device configured by arranging a plurality of display devices and an assembling method thereof.
[0002]
[Prior art]
A display device is known in which a non-light-emitting portion existing along two adjacent sides on the display surface of an EL (electroluminescence) element is positioned behind another adjacent EL element. (For example, Patent Document 1). In this display device, since the non-light emitting portion existing on a part of the display surface is arranged so as to be hidden behind the other EL elements, each EL element is arranged in a slightly inclined state with respect to the frame. A dot matrix type display device is realized which is fixed and can perform a display in which a non-light emitting portion is not noticeable when each EL element constituting the display device emits light.
[0003]
[Patent Document 1]
Japanese Examined Patent Publication No. 6-61023 (refer to pages 4 to 5, FIGS. 3 and 4)
[0004]
[Problems to be solved by the invention]
However, when assembling the above display device by two-dimensionally arranging a plurality of EL elements, it is necessary to position each EL element by checking the degree of overlap of the EL elements while measuring or measuring them. There wasn't.
[0005]
Even if the position where an appropriate degree of overlap can be obtained is determined, when each EL element is fixed to the frame, the mounting operation must be performed from the back side (that is, the frame side) of the display device. It was. In addition, due to this, when removing each EL element from the display device, it has been necessary to perform the removal work from the back side of the display device.
[0006]
Furthermore, although each EL element is fixed by a double-sided adhesive tape or the like, the fixing operation using the adhesive tape or the like takes time and also takes time for removal.
[0007]
The present invention has been made to solve the above-described problems, and while arranging a plurality of display elements so that non-light-emitting portions are not conspicuous, the work efficiency when assembling a large display device is greatly increased. It was made for the purpose of improving.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a large display device according to the present invention is a large display device configured by arranging a plurality of display devices, the frame supporting the plurality of display devices from the back side, and the frame. In contrast, each display device is inclined in a certain direction, a support member that supports a part of display devices adjacent to each other so as to overlap each other with a predetermined gap, and the display device is fixed to the support member, An attachment / detachment mechanism configured to be able to release the fixed state by an operation through the gap,The support member is formed so as to protrude from the frame corresponding to the arrangement pitch of the plurality of display devices, and a lock portion that fixes one of the display devices adjacent to each other and a positioning portion that fixes the other Are formed in the same plane, and the attachment / detachment mechanism portion fixes the one display device at the lock portion.
[0010]
  In the assembling method according to the present invention, the plurality of display devices or the plurality of display devices are fixed to a common fixing member by inclining in a predetermined direction in advance so as to overlap each other with a predetermined gap.pluralA method of assembling a large-sized display device configured by arranging display modules, wherein each display device or each display module is fixedly protruded from a frame that supports the plurality of display devices or the plurality of display modules from the back side. And a support member that supports each of the display devices or the display modules that are adjacent to each other with a predetermined gap between them. Positioning by inserting and mounting a protrusion formed on one edge of the display device into the positioning hole of the display device, and pressing the positioned display device or the display module from the front side. Or a step of bringing the display module into a predetermined inclined state; And fixing the other edge portion of the chair or the display module opposite to the one edge portion to a lock portion formed in the same plane as the positioning hole of the support member. .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0013]
Embodiment 1 FIG.
FIG. 1 is a configuration diagram of a large display device 1 according to the present embodiment as viewed from the side. When the display surface of the large-sized display device 1 is viewed from the front side (left side in FIG. 1), a plurality of display devices 10 such as EL (electroluminescence) elements, PDP (plasma display panels), and liquid crystal displays are two-dimensionally arranged. This is a display device that can display a large screen as a whole when each display device 10 displays a part of the display screen.
[0014]
As shown in FIG. 1, the large display device 1 is configured by a plurality of display devices 10 being supported by a frame 20 from the back side. The frame 20 provided on the back side of the large-sized display device 1 is provided with a shelf-like support member 30 formed to protrude from the frame 20 to the front side.
[0015]
The support member 30 is provided to define the arrangement position of each display device 10 with respect to the frame 20 and to fix each display device 10 at a predetermined position. Therefore, each display device 10 can be easily positioned by arranging each display device 10 at a position defined by the support member 30.
[0016]
More specifically, a plurality of support members 30 are formed along the longitudinal direction of the frame 20 at substantially equal intervals corresponding to the arrangement pitch of the plurality of display devices 10. Each support member 30 extends along the horizontal direction of the frame 20, and can support a plurality of display devices 10 in the horizontal direction with the same support form.
[0017]
And each support member 30 supports the lower edge part of an upper display device among the display devices 10 arrange | positioned adjacent to a vertical direction, and the upper edge part of a lower display device. . At this time, the lower edge portion of the upper display device is supported at a position relatively close to the frame 20 of the support member 30, whereas the upper edge portion of the lower display device is near the distal end portion of the support member 30. Supported by For this reason, the support member 30 can support each display device 10 in a state where the display device 10 is inclined in a certain direction (specifically, the front side) with respect to the frame 20. In addition, as a result, the lower edge portion of the upper display device is arranged at the rear position of the upper edge portion of the lower display device, and the display devices adjacent to each other in the vertical direction are supported so as to overlap each other.
[0018]
Further, the support member 30 is formed such that a position for supporting the lower edge portion of the upper display device and a position for supporting the upper edge portion of the lower display device are separated by a predetermined length or more. Therefore, the lower edge portion of the upper display device and the upper edge portion of the lower display device are supported so as to overlap each other with a certain gap 40 therebetween. In the gap 40, an attachment / detachment mechanism portion 15 is provided at a position behind the upper edge portion of the lower display device so as not to be visually recognized when viewed from the front side. In addition, the gap 40 is set to a size that allows an attachment / detachment operation with respect to the attachment / detachment mechanism portion 15 as will be described later.
[0019]
As described above, when the plurality of display devices 10 are fixed to the frame 20 by the support member 30, when the display screen is viewed from the front side of the large-sized display device 1, the lower frame among the screen frames of the display device is displayed. It is visually recognized as being hidden by the upper frame of the display device arranged below. In general, in this type of large-sized display device, the screen frame of each display device 10 is visually recognized as a joint between images on the display screen. As described above, one of the display devices 10 adjacent to each other is displayed. By arranging the screen frame of the device behind the screen frame of the other display device so as to be hidden, the width of the seam can be reduced.
[0020]
FIG. 2 is a view of a part of the display screen of the large display device 1 as seen from the front side. As described above, by arranging the display devices 10 adjacent to each other in the vertical direction, as shown in FIG. 2, the width W1 of the seam 3 extending in the horizontal direction between the display devices is set in the vertical direction. The extending seam 4 can be made thinner than the width W2. Therefore, if the large display device 1 is viewed as a whole, the area of the seam can be reduced, and the effective area for displaying the image can be increased, so that high-quality image display is realized. .
[0021]
The large display device 1 according to the present embodiment performs a simple operation from the front side by performing an attaching / detaching operation to the attaching / detaching mechanism portion 15 through the gap 40 when attaching / detaching each display device to / from the frame 20. It is now possible to perform the attaching / detaching work. Hereinafter, this specific configuration will be described.
[0022]
FIG. 3 is an enlarged view of a part of FIG. 1, and is a diagram showing in detail the support state of the display device 10 by the support member 30. In FIG. 3, only a part of the adjacent display devices 10a and 10b supported by the support member 30 is shown.
[0023]
As shown in FIG. 3, the support member 30 is formed in a shelf shape having an inclined surface that gently falls from the frame 20 toward the front surface side. And the display surface of each display device 10 is installed substantially perpendicularly to this inclined surface, so that each display device 10 is supported so as to be in a constant inclined state.
[0024]
In addition, a positioning hole 31 is formed in the center of the shelf-like portion of the support member 30 as a positioning portion for positioning the lower edge portion of the display device 10a. Further, a lock hole 32 is formed near the tip of the shelf-like portion of the support member 30 as a lock portion for fixing the upper edge portion of the display device 10b.
[0025]
As shown in the display device 10 a of FIG. 3, the lower edge portion of each display device 10 is formed with a protrusion 11 that fits into the positioning hole 31 formed in the support member 30. And the projection part 11 formed in the lower edge part of the display device 10 is fixedly inserted in the positioning hole 31 in a state where the lower part of the display device 10 is positioned. In addition, it is preferable to form the protrusion part 11 in at least two places of the lower edge part of a display device, such as providing in the both ends of the lower edge part of the display device 10, respectively.
[0026]
On the other hand, an attachment / detachment mechanism 15 is provided at the upper edge located on the opposite side of the lower edge in each display device 10 as shown in the display device 10b of FIG. When the display device 10b is attached to the large display device 1, the attachment / detachment mechanism unit 15 is provided so as to be positioned in a gap (gap 40 in FIG. 1) between the display devices 10a and 10b. Thereby, even when the display device 10b is attached to the large display device 1, the attaching / detaching mechanism portion 15 can be operated through the gap.
[0027]
The attachment / detachment mechanism portion 15 is provided at a position corresponding to the lock hole 32 formed in the support member 30, and is fixed by an upward force biased by an elastic member 16 such as a spring provided in the display device 10b. A member 17 is provided. The fixing member 17 includes a hook 17a that engages with the lock hole 32 and an operation portion 17b that can be operated from a gap (gap 40 in FIG. 1) between the display devices 10a and 10b when the fixed state is released. The structure is integrally formed. The hook 17a has a downward slope toward the back side of the display device 10b. When the display device 10b is pushed from the front side, the hook 17a contacts the support member 30 and is pushed downward. When the hook 17a is pushed to the position of the lock hole 32, the hook 17a is engaged with the lock hole 32 by the urging force of the elastic member 16, and the upper portion of the display device 10b is fixed. In addition, it is preferable that such attachment / detachment mechanism portions 15 are also formed at both ends of the upper edge portion of the display device 10 at least two places on the upper edge portion of the display device 10.
[0028]
Further, as shown in FIG. 3, when the operator presses down the operation unit 17b in the state where the upper part of the display device 10b is fixed, the hook 17a is also pushed down accordingly, and the engagement between the hook 17a and the lock hole 32 occurs. The fixed state due to the joint is released. That is, the hook 17a and the operation unit 17b are configured to perform operations linked to each other, and the locked state by the hook 17a is released when the operation unit 17b is pressed. The height of the operation unit 17b is determined to be lower than the upper end of the display device 10b (more strictly speaking, the upper end of the display panel) when no operation is performed on the operation unit 17b. It is preferable that the operation unit 17b is not visually recognized when the large display device 1 is viewed from the front side.
[0029]
Next, an operation procedure for assembling the large display device 1 configured as described above will be described with reference to operation procedure diagrams shown in FIGS. First, as shown in FIG. 4A, the protrusion 11 formed on the lower edge portion is inserted into the positioning hole 31 in order to fix the lower portion of the display device 10. As a result, the state shown in FIG. In this state, when the display device 10 is pushed rearward from the front side, the display device 10 moves rearward along the circular path with the positioning portion of the lower edge as a fulcrum. Then, the hook 17a and the lock hole 32 are engaged with each other by the action of the attaching / detaching mechanism portion 15, and the fixed state shown in FIG. In the state of FIG. 4C, the display device 10 is fixed to both the positioning unit and the lock unit, and is fixed to the frame 20.
[0030]
Therefore, in the large display device 1, when each display device 10 is attached to the frame 20, the attachment operation can be performed only by a simple operation from the front side.
[0031]
Further, when the display device 10 is detached from the large-sized display device 1 during maintenance or the like, the operation unit 17b is pressed from the gap 40 between the display devices superimposed on each other to release the fixed state, and the reverse of the above. It can be easily removed by following the procedure. Also at this time, the removal work can be performed only by a simple work from the front side. Therefore, even when the work from the back side is difficult, such as when the large display device 1 is attached to the wall surface of a building, the replacement work of the display device 10 can be easily performed. it can.
[0032]
As described above, in the large display device 1 of the present embodiment, the support member 30 tilts each display device 10 in a certain direction with respect to the frame 20, and a part of the display devices 10 adjacent to each other has a predetermined gap. It is the structure which supports so that it may overlap and separate. And it is comprised so that the fixed state of the display device supported by the supporting member 30 can be cancelled | released through the clearance gap. Therefore, the joint of the display screen is made inconspicuous, and at the same time, the attaching operation and the removing operation can be performed only from the front side of the large display device 1. Therefore, the work efficiency can be greatly improved while maintaining the quality of the display image at a high quality.
[0033]
If the display device size is relatively large, a sufficient gap can be provided in the overlapping portion by slightly tilting each display device. However, if the display device size is relatively small, the display device can be attached and detached. In order to ensure a sufficient gap for operating the mechanism unit 15, the inclination angle of each display device must be increased. However, if the inclination of each display device is increased, there is a possibility that the image quality of the display image on the large display device 1 may be reduced. It is preferable that the inclination angle of the display device 10 is within a range of 1 to 5 degrees with respect to the frame 20. However, for example, when the large display device 1 is installed at a high place on the wall surface of a building and the display screen is looked up from the lower side, the inclination angle of each display device 10 is 5 degrees with respect to the frame 20. Since a good display image may be visually recognized even if set as described above, the preferred range is not limited to the above.
[0034]
The support member 30 is formed so as to protrude from the frame 20 corresponding to the arrangement pitch of the plurality of display devices 10, and one of the display devices 10 adjacent to each other is fixed to the support member 30. A lock part and a positioning part for fixing the other are formed. Therefore, it is possible to fix both display devices adjacent to each other with one support member 30. Therefore, the structure for fixing and supporting the plurality of display devices 10 can be simplified, and the cost can be reduced.
[0035]
In addition, since the attaching / detaching mechanism portion 15 in the present embodiment is configured by a hook 17a that is detachable from the lock hole 32 provided at the upper edge portion of the display device 10, when the display device 10 is attached, After the lower part is fixed to the positioning part, the display device can be easily attached only by pushing the display device from the front side toward the frame 20. That is, when the push-in operation from the front is performed, the hook 17a engages with the lock hole 32, whereby the display device 10 can be automatically set in a fixed state. Therefore, the work efficiency at the time of assembly improves.
[0036]
Further, the hook 17a is urged in the engagement direction by the elastic member 16, and the operation portion 17b connected to the hook 17a has a structure provided in the gap between the adjacent display devices 10. The display device 10 can be easily detached and the display device 10 can be easily removed. In addition, since the operation unit 17b is connected to the hook 17a, the gap between the display devices 10a and 10b can be reduced, so that the inclination and the gap of each display device 10 give the image quality of the display image. The influence can be reduced.
[0037]
In this embodiment, the case where the hook 17a biased by the elastic member 16 is provided on the upper edge portion of the display device 10 and the lock hole 32 is formed as a lock portion in the support member 30 is illustrated. However, these arrangement relationships may be reversed. That is, the hook 17a urged by the elastic member 16 may be provided in the support member 30, and a lock hole in which the hook 17a engages may be formed in the upper edge portion of the display device 10.
[0038]
Moreover, in this embodiment, the case where the protrusion 11 for positioning was formed in the lower edge part of the display device 10, and the positioning hole 31 in which the protrusion 11 is inserted is formed in the support member 30 was illustrated. However, these arrangement relationships may be reversed. That is, a positioning hole for positioning may be formed in the lower edge portion of the display device 10, and a protrusion may be formed in the support member 30.
[0039]
Embodiment 2. FIG.
Next, an example different from the above-described example of the support state of the display device 10 by the support member 30 will be described. In the present embodiment, the overall configuration of the large display device 1 is the same as that shown in FIG.
[0040]
FIG. 5 is a diagram illustrating a support form of the display device 10 according to the present embodiment. 5, only a part of the adjacent display devices 10a and 10b supported by the support member 30 is shown in the same manner as in FIG. 3, and the following is a description of parts different from the configuration of FIG. .
[0041]
As shown in FIG. 5, a through hole 33 through which the screw 41 is inserted is formed near the tip of the shelf-like portion of the support member 30 as a lock portion for fixing the upper edge portion of the display device 10 b. On the other hand, a screw hole 18 that is screwed into the screw 41 is formed in the upper edge portion of the display device 10b. For this reason, in the present embodiment, the support member 30 and the upper edge portion of the display device 10b are screwed together by the screws 41. In other words, the attachment / detachment mechanism 15 in the present embodiment is realized as a screwing mechanism including the screw 41, the through hole 33, and the screw hole 18. In addition, it is preferable that such attachment / detachment mechanism portions 15 are also formed at at least two places on the upper edge portion of the display device 10 by providing them at both ends of the upper edge portion of the display device 10.
[0042]
Therefore, in this embodiment, the upper edge portion of the display device 10b is supported by screwing the screw 41 from above through the gap between the display devices 10a and 10b with the display device 10b in a predetermined inclined state. It is fixed to the member 30. Further, when removing the display device 10b, the fixed state is released by removing the screw 41 from above through the gap between the display devices 10a and 10b, and the display device 10b becomes removable.
[0043]
As in the present embodiment, the attachment / detachment mechanism 15 is configured by a screwing mechanism using screws 41, so that each display device 10 can be compared with a mechanism configured by a hook biased by an elastic member such as a spring. It can be firmly fixed to the frame 20. Therefore, each display device 10 is stably supported even when the large display device 1 is vibrated by a strong wind or the like.
[0044]
Further, since the screws 41 can be attached and detached through the gap between the display devices 10a and 10b, both the attachment and removal operations of each display device 10 can be easily performed from the front side. In addition, those work procedures in this embodiment are the same as those shown in FIGS. 4A to 4D except that the screw 41 needs to be attached or removed when the display device is in a predetermined inclined state. This is the same as shown in c).
[0045]
Embodiment 3 FIG.
Next, an example in which the buffer member 45 is provided in the gap between the display devices 10 arranged adjacent to each other so as to overlap each other will be described. In the present embodiment, the overall configuration of the large display device 1 is the same as that shown in FIG.
[0046]
FIG. 6 is a diagram illustrating a support form of the display device 10 according to the present embodiment. 6 shows only a part of the adjacent display devices 10a and 10b supported by the support member 30 as in the case of FIG. 5, and the following description will be made on parts different from the configuration of FIG. .
[0047]
As shown in FIG. 6, the tip portion of the support member 30, which is a portion along the lateral direction in which the support member 30 is extended, that is, the non-installation portion of the detachable mechanism portion 15 (that is, the display device by the screw 41. A buffer member 45 that prevents a collision between the display devices 10a and 10b is provided in a gap between a portion excluding a portion to which 10b and the support member 30 are fixed. An arbitrary cushioning material can be used as the buffer member 45 and is pasted at an appropriate position on the support member 30 in advance. At this time, it is preferable that the height dimension of the buffer member 45 is set to a dimension that does not protrude from the upper edge of the display device 10b when the display screen of the large display device 1 is viewed from the front side.
[0048]
Such a buffer member 45 is provided in an appropriate position along the extending direction of the support member 30 and avoiding the installation position of the attachment / detachment mechanism portion 15, so that the large display device 1 vibrates or is large. Even when a large impact is applied to the display device 1, the adjacent display devices 10 do not directly collide with each other, and the shock is reduced by the buffer member 45.
[0049]
Such a buffer member 45 is not limited to the case where the attaching / detaching mechanism portion 15 is formed by a screwing mechanism, but is formed by a hook mechanism biased by the elastic member 16 (that is, in the first embodiment). If applicable).
[0050]
Further, by disposing the buffer member 45 at an appropriate position of the support member 30, the possibility of the adjacent display devices 10 colliding with each other and being damaged is reduced, and the large display device 1 having high durability against vibration and impact. Is realized.
[0051]
In this case as well, any work for attaching and detaching each display device 10 can be easily performed from the front side, and the work procedure is the same as that shown in FIGS. is there.
[0052]
Modified example.
As mentioned above, although several embodiment was described about this invention, this invention is not limited to what was mentioned above.
[0053]
For example, in the above, the case where the display devices 10 arranged in the vertical direction are inclined so that the display surface of each display device is slightly inclined downward is illustrated, but the present invention is not limited to this. . Therefore, for example, the display devices 10 arranged in the horizontal direction may be arranged so that the display surface is inclined slightly diagonally right or slightly diagonally left. However, for example, when the large display device 1 is installed at a high place on the wall surface of a building, it is considered that the display screen is often looked up from the lower side. Thus, it is preferable to arrange the display surfaces of the display devices so as to be slightly inclined downward.
[0054]
Embodiment 4 FIG.
FIG. 7 is a plan view of a large display device according to this embodiment. FIG. 7 shows the relationship between the arrangement of the frame 20 and the display device 10 when a part of the display screen of the large display device 1 is viewed from the front side. The frame 20 is arranged in a beam shape with equal intervals, and support members 30 are formed at predetermined intervals in the portions of each beam. A broken line corresponds to the display device 10. A circuit board 71 corresponding to the back surface of each display device 10 is integrally provided. The circuit board 71 is fixed to a part of the display device 10 or a structural member integrated with the display device 10 via screws or spacers. The circuit board 71 supplies a signal to the display device 10 through a cable.
[0055]
As described above, in the large display device described in this embodiment, since the display device 10 is integrally provided with the circuit board 71 for driving the display device 10 on the back surface, There is no need to install it in a place, space can be saved, and maintenance efficiency is improved.
[0056]
Embodiment 5. FIG.
An example that is different from the above-described example of the support state of the display device 10 by the support member 30 will be described.
[0057]
FIG. 8 is an example of a frame 20 that fixes the display device 10. The frame 20 is provided with slits 72 at predetermined intervals corresponding to the pitch at which the display devices 10 are arranged. In FIG. 8, a circuit board 71 corresponding to the back surface of each display device 10 is provided integrally. The circuit board 71 is fixed to a part of the display device 10 or a structural member integrated with the display device 10 via screws or spacers. However, in the present invention, the circuit board 71 may be provided separately from the display device 10.
[0058]
FIG. 9 is a side view of the state in which the display device 10 is fixed to the frame 20. A plate-like fastener 74 having a notch 73 is provided on the back surface of the display device 10. The plate-like fastener 74 may be a structure that is integrally formed with the back member of the display device 10 or a structure that is separately screwed to the back member of the display device 10. Further, the notch 73 has a predetermined angle with respect to the display surface of the display device 10. This is because each display device 10 is tilted and fixed with respect to the frame 20. What is necessary is just to set the angle of the notch part 73 according to the inclination-angle of each display device 10. FIG. Furthermore, in FIG. 9, the circuit board 71 is disposed on the back surface of each display device 10, and is directly attached to the structural member with a screw or attached via a spacer.
[0059]
Next, an operation procedure when assembling the large display device 1 with the display device 10 configured as described above will be described. First, the plate-like fastener 74 of the display device 10 is inserted so as to fit the slit 72 provided at a predetermined position of the frame 20, thereby positioning in the left-right direction. Next, in FIG. 9, the display device 10 is pushed from the front surface to a predetermined position in the direction of arrow A to position the display device 10 in the front-rear direction with respect to the frame 20. At this time, the upper portion of the slit 72 is provided at a position where it does not collide with the lower display device 10 to which the upper display device 10 is already fixed. Next, the display device 10 is pushed from the top to the bottom in the direction of arrow B to a predetermined position, and the notch 73 provided in the plate-like fastener 74 moves to the lower part of the slit 72 and meshes with the frame 20. Accordingly, the display device 10 is fixed to the frame 20 in the state shown in FIG.
[0060]
When the display device 10 is fixed to the frame 20, the upper part of the display device 10 located on the lower side is located on the front surface of the lower part of the display device 10 located on the upper side. Therefore, a part overlaps in the upper and lower display devices 10, and the joint of the display device 10 becomes inconspicuous. In this way, the large display device 1 can be assembled by attaching the display device 10 in order from the lower portion of the large display device 1 to the upper portion. The plate-like fastener 74 forms a space between the notch 73 and the display device 10. Therefore, the distance from the frame 20 to the surface of the display device 10 is large at the top of the display device 10 and is small at the bottom of the display device 10. As a result, a gap 40 is formed between the upper part of the display device 10 located on the lower side and the lower part of the display device 10 located on the upper side.
[0061]
As described above, in the large display device described in the present embodiment, the frame 20 that supports the plurality of display devices 10 from the back side, the slits 72 that are provided in the frame at predetermined intervals, and the display surface of the display device 10. A plate-like fastener 74 provided for each display device 10, which has a notch 73 having a predetermined angle with respect to the slit 20 and can fix the display device 10 to the frame 20 by engaging the notch 73 with the slit 72. Therefore, the slit 72 of the frame 20 can be formed simultaneously with the molding of the frame 20, and a new part such as the shelf-like support member 30 is not necessary. Further, the display device 10 needs to add a notch 73 by extending a part of the structural member as a plate-like fastener 74 or attach a plate-like fastener 74 of another member having the notch 73. However, the attaching / detaching mechanism portion 15 is not necessary, and the cost is suppressed.
[0062]
Further, in the method for assembling the large display device described in the present embodiment, each display device 10 is fixed to the frame 20 by using the notch 73 of the plate-like fastener 74 provided with the plurality of display devices 10 on the back surface. A step of positioning in the left-right direction by inserting into the provided slit 72, a step of predetermined positioning in the front-rear direction of the display device 10 by pushing the display device 10 positioned in the left-right direction from the front side, and a display The device 10 is pushed downward, and the notch 73 of the plate-like fastener 74 provided on the back surface of the display device 10 is engaged with the slit 72 provided on the frame 20. It only needs to be pushed down from top to bottom, and it is extremely simplified.
[0063]
Embodiment 6 FIG.
Further, the configuration of a large display device having different display device 10 support states will be described.
[0064]
In this embodiment, unlike the above embodiment, each display device 10 is not fixed to a frame, but a plurality of display devices 10 are fixed to a common fixing member and fixed to each frame. To do. FIG. 10 is a plan view of a large display device in which the display module 81 is fixed to the frame 20. In FIG. 10, two display modules 81, in which two vertically adjacent display devices 10 are fixed to a common fixing member 82 and integrated, are fixed to the left and right sides of the frame 20. In each display module 81, two display devices 10 are attached to a fixing member 82, and a circuit board 71 is disposed in the center. In the present invention, the circuit board 71 may be provided separately from the display device 10.
[0065]
FIG. 11 is a side view of the state in which the display module 81 is fixed to the frame 20. One circuit board 71 is provided corresponding to one display module 81, and the two display devices 10 are driven by this one circuit board 71. The circuit board 71 is directly attached to the fixing member 82 of the display module 81 with a screw or fixed via a spacer or the like, and supplies a signal to each display device 10 via a cable. The upper part of the display device 10 positioned on the lower side is fixed to the fixing member 82 so as to overlap with a predetermined gap 40 so as to hide a part of the lower part of the display device 10 positioned on the upper side. The display device 10 is fixed at a predetermined angle with respect to the fixing member 82. The fixing method may be screwing or other simple methods.
[0066]
Next, such a display module 81 is fixed to the frame 20. The fixing method shown in FIG. 11 is the same as the method of fixing the display device 10 of the fifth embodiment to the frame 20. That is, a plate-like fastener 74 having a notch 73 is provided on the fixing member 82 and is engaged with and fixed to the slit 72 provided on the frame 20. Since the display device 10 is inclined at a predetermined angle with respect to the fixing member 82, the angle of the notch 73 is formed at 0 degree (parallel) with respect to the fixing member 82. That is, the display module 81 is fixed in parallel to the frame 20. However, when the display device 10 is parallel to the fixing member 82 or when the inclination of the display device 10 is adjusted even at the notch 73, the notch 73 is provided with a predetermined angle with respect to the fixing member 82. Also good.
[0067]
Further, the display module 81 may be fixed to the frame 20 by the fixing method described in the first embodiment. That is, the display module 81 is fixed to the frame 20 by providing the support member 30 on the frame 20 and providing the attaching / detaching mechanism portion 15 on the fixing member 82. Even in this case, the display module 81 is fixed in parallel to the frame 20. Therefore, the support member 30 is adjusted so that the display module 81 is parallel to the frame 20. However, when the display device 10 is parallel to the fixing member 82 or when the inclination of the display device 10 is adjusted even by the support member 30, the support member 30 that tilts the display module 81 in a certain direction may be provided. good.
[0068]
As described above, in the large display device described in the present embodiment, the plurality of display devices 10 are inclined in advance in a certain direction so as to partially overlap with each other with the predetermined gap 40, and the common fixing member 82 is used. The plate-like fastener 74 or the support member 30 and the attachment / detachment mechanism 15 are provided on the fixing member 82 for each display module 81 instead of being provided for each display device 10. Since the display module 81 is fixed in parallel to the frame 20, the quantity can be greatly reduced as compared with the case where the plate-like fastener 74 or the support member 30 and the attachment / detachment mechanism portion 15 are provided for each display device 10. , Can reduce costs. Moreover, since the display module 81 can be attached and detached in units, work efficiency is improved.
[0069]
10 and 11 show a display module 81 in which two vertically adjacent display devices 10 are fixed to a common fixing member 82 and integrated. However, the present invention is not limited to this, and may be a display module 81 in which four display devices 10 adjacent vertically and horizontally are fixed to a common fixing member 82 and integrated.
[0070]
Modified example.
Further, a configuration of a large display device having a different display module 81 structure will be described. FIG. 12 is an example in which the circuit board 71 for driving each display device 10 is provided integrally with the display module 81 in the display module 81 described in this embodiment, and the circuit board 71 forms a part of the structural member. . Here, it is assumed that the circuit board 71 is fixed to the structural member of the display module 81 with screws. When integrating the plurality of display devices 10 with the fixing member 82, the structure of the fixing member 82 can be simplified and reduced in weight by forming a part of the fixing member 82 with the circuit board 71. Further, a cooling fan or the like can be attached to the circuit board 71.
[0071]
Compared with the method of providing the circuit board 71 corresponding to each display device 10, the configuration method of such a large display device 1 can provide the circuit board 71 in common, so that common parts can be reduced and drastically reduced. Cost reduction is possible. Further, by adopting a configuration in which a larger number of display devices 10 are driven by one circuit board 71, the cost can be further reduced and the structure is simplified.
[0072]
Embodiment 7 FIG.
An example different from the above-described configuration and assembly method of the large display device will be described.
[0073]
FIG. 13 is a side view of the large display device according to the present embodiment. FIG. 13 shows an example of a large display device in which a windshield 90 is provided on the front surface of the display device 10 for the purpose of waterproofing. Each of the large display devices 1 described in the above embodiments is a method of assembling the display device 10 from the display surface side. Therefore, when the windshield 90 is provided on the front surface of the display device 10 as shown in FIG. 13, it is difficult to assemble the display device 10 or the display module 81 to the frame 20. Therefore, in the present embodiment, the moving mechanism unit 91 is provided at the lower part of each beam-shaped frame 20, and the display device 10 can be moved in the arrow direction (the front-rear direction of the display screen). Specifically, a rail is provided on the floor, and the frame 20 provided with the moving mechanism unit 91 moves on the rail. Note that the movement mechanism 91 may be provided not only on the lower part of the frame 20 but also on the upper part of the frame 20.
[0074]
When the moving mechanism 91 is provided in the frame 20 as in the present embodiment, the display device 10 can be moved rearward during assembly, and a work space can be secured between the windshield 90 and the display device 10. The display device 10 or the display module 81 is attached to the frame 20 using the work space. When the attaching operation is completed, the display device 10 is moved forward. At the time of maintenance, the display device 10 is moved backward, and the display device 10 or the display module 81 is attached or detached.
[0075]
As described above, in the large display device described in the present embodiment, since the frame 20 further includes the moving mechanism unit 91 for moving the display device 10 back and forth, the large display device 1 having the windshield 90 and the like. Also, the attachment / detachment and maintenance work of the display device 10 can be simplified.
[0076]
In the large display device described in the present embodiment, the moving mechanism unit 91 moves the frame 20 that fixes the display device 10 backward, and the first embodiment, the fifth embodiment, or the sixth embodiment. The process of fixing each display device 10 or each display module 81 to the frame 10 moved rearward by the method for assembling the large display device described in the above, and the frame 20 for fixing the display device 10 by the moving mechanism unit 91 forward Therefore, even in the large display device 1 having the windshield 90 or the like, the display device 10 can be easily attached and detached and maintained.
[0077]
【The invention's effect】
  As described above, in the large display device according to the present invention, the support member tilts each display device in a certain direction with respect to the frame, and a part of the display devices adjacent to each other overlap with each other with a predetermined gap. It is the structure which supports to. And it is comprised so that the fixed state of a display device can be cancelled | released through the clearance gap.Further, the support member is formed to protrude from the frame corresponding to the arrangement pitch of the plurality of display devices, and includes a lock portion that fixes one of the display devices adjacent to each other, and a positioning portion that fixes the other Are formed in the same plane, and the attaching / detaching mechanism portion fixes the one display device in the lock portion.Therefore, it is possible to display high-quality images without making the joints of the display screen inconspicuous, and it is possible to attach and remove display devices only from the front side of the large display device, greatly improving work efficiency. I am letting.
[0079]
  Also, in the method of assembling a large display device according to the present invention, the fixing of each display device or each display module is formed so as to protrude from the frame.In addition, each display device is inclined in a certain direction with respect to the frame, and a part of the display devices adjacent to each other is supported so as to overlap with a predetermined gap.A projection device formed on one edge of the display device is inserted into the positioning hole of the support member for positioning, and the display device or display module is pushed from the front side by pressing the positioned display device or display module. And the other edge of the display device or display module opposite to the one edge of the display device or display module.Flush with the positioning holeIt is performed by fixing to the lock part formed in the. Therefore, the mounting operation can be performed only by a simple operation from the front side of the large display device.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a large display device as viewed from a side surface.
FIG. 2 is a view of a part of a display screen of a large display device as viewed from the front side.
3 is a diagram showing a support state of the display device in Embodiment 1. FIG.
FIG. 4 is a process diagram showing an operation procedure when assembling a large display device.
5 is a diagram showing a support form of a display device in Embodiment 2. FIG.
6 is a diagram showing a support form of a display device in Embodiment 3. FIG.
7 is a diagram showing a support form of a display device in Embodiment 4. FIG.
FIG. 8 is a diagram showing a support form of a display device in a fifth embodiment.
FIG. 9 is a side view showing a support form of a display device in a fifth embodiment.
10 is a diagram showing a support form of a display device in Embodiment 6. FIG.
FIG. 11 is a side view showing a support form of a display device in a sixth embodiment.
12 is a side view showing a support form of a display device in a modification of the sixth embodiment. FIG.
13 is a side view showing a support form of a display device in Embodiment 7. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Large display device 10,10a, 10b Display device, 11 Protrusion part, 15 Detachment mechanism part, 16 Elastic member, 17,82 Fixing member, 17a Hook, 17b Operation part, 18 Screw hole, 20 Frame, 30 Support member, 31 Positioning hole, 32 Lock hole, 33 Through hole, 40 Gap, 41 Screw, 45 Buffer member, 71 Circuit board, 72 Slit, 73 Notch, 74 Plate-shaped fastener, 81 Display module, 90 Windshield, 91 Movement Mechanism part.

Claims (10)

A large display device configured by arranging a plurality of display devices,
A frame that supports the plurality of display devices from the back side;
A support member that inclines each display device in a certain direction with respect to the frame, and supports a part of the display devices adjacent to each other so as to overlap each other with a predetermined gap therebetween;
An attachment / detachment mechanism configured to fix the display device to the support member and to be able to release the fixed state by an operation through the gap;
With
The support member is formed so as to protrude from the frame corresponding to the arrangement pitch of the plurality of display devices, and a lock portion that fixes one of the display devices adjacent to each other and a positioning portion that fixes the other Are formed in the same plane,
The attachment / detachment mechanism unit fixes the one display device in the lock unit. The large display device according to claim 1,
  In the positioning portion, a positioning hole for inserting and mounting a projection formed on one edge of the display device is formed, and a locking hole is formed in the locking portion,
  The attachment / detachment mechanism includes a hook that is formed on the other edge of the display device opposite to the one edge, and is detachable from the lock hole.
  The display device is fixed by the projection being inserted into the positioning hole at the one edge and the hook being engaged with the lock hole at the other edge. . The large display device according to claim 2,
  The hook is biased in the engagement direction by an elastic member,
  The large display device, wherein the attachment / detachment mechanism portion further includes an operation member coupled to the hook for releasing the engaged state by the hook biased by the elastic member. The large display device according to claim 1,
  The positioning portion is formed with a positioning hole for inserting and mounting a protrusion formed on one edge of the display device, and the lock portion is formed with a through hole,
  The attachment / detachment mechanism includes a screw that is screwed into a screw hole formed on the other edge of the display device opposite to the one edge.
  In the display device, the protrusion is inserted into and attached to the positioning hole at the one edge, and the display device is fixed by screwing the screw inserted through the through hole into the screw hole. Large display device characterized by A large-sized display device according to any one of claims 1 to 4,
  The plurality of display devices constitute a display module that is fixed to a common fixing member by being inclined in a certain direction in advance so that a part thereof overlaps with a predetermined gap therebetween,
  The support member and the attachment / detachment mechanism section are provided in the fixing member for each display module, instead of being provided for each display device, and fix the display module in parallel to the frame. To
  Large display device. In the large sized display device in any one of Claims 1 thru | or 5,
  It further includes a buffer member provided in the gap and preventing a collision between display devices adjacent to each other,
  Large display device. The large display device according to any one of claims 1 to 5,
  In the display device or the display module, a circuit board for driving the display device is integrally provided on the back surface.
  Large display device. The large display device according to any one of claims 1 to 5,
  The frame further includes a moving mechanism for moving the display device back and forth.
  Large display device. A large-scale display device configured by arranging a plurality of display modules or a plurality of display modules that are inclined in a predetermined direction and fixed to a common fixing member so that the display devices overlap each other with a predetermined gap. It is an assembly method, and each display device or each display module is fixed.
The plurality of display devices or the plurality of display modules are formed so as to protrude from a frame that supports the plurality of display modules from the back side, and each display device or each display module is inclined with respect to the frame in a certain direction and adjacent to each other. Alternatively, positioning is performed by inserting and mounting a protrusion formed on one edge of the display device or the display module into a positioning hole of a support member that supports the display module so that a part of the display module overlaps with a predetermined gap. Process,
Pressing the positioned display device or display module from the front side to bring the display device or display module into a predetermined tilt state; and
Fixing the other edge portion of the display device or the display module opposite to the one edge portion to a lock portion formed in the same plane as the positioning hole of the support member;
A method for assembling a large display device, characterized in that A step of moving a frame for fixing the display device or the display module backward by a moving mechanism;
  Fixing each display device or each display module to the frame moved backward by the method for assembling a large display device according to claim 9;
  A step of moving a frame for fixing the display device or the display module forward by a moving mechanism;
  A method for assembling a large display device, characterized in that

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