阅读说明：本技术 显示设备 (Display device ) 是由 张启良 于 2018-09-26 设计创作，主要内容包括：一种显示设备,包括一固定架、一第一显示装置、以及一第二显示装置。第一显示装置设置于固定架上,且包括一第一上电连接器。第二显示装置设置于固定架上,且包括一第一下容置槽以及位于第一下容置槽内的一第一下电连接器。当第一上电连接器电性连接于第一下电连接器时,第一上电连接器位于第一下容置槽内。(A display device comprises a fixed frame, a first display device and a second display device. The first display device is arranged on the fixing frame and comprises a first electrifying connector. The second display device is arranged on the fixing frame and comprises a first lower accommodating groove and a first lower electric connector positioned in the first lower accommodating groove. When the first power-on connector is electrically connected to the first lower electrical connector, the first power-on connector is located in the first lower accommodating groove.)

1. A display device, comprising:

a fixed mount;

the first display device is arranged on the fixing frame and comprises a first power-on connector; and

the second display device is arranged on the fixing frame and comprises a first lower accommodating groove and a first lower electric connector positioned in the first lower accommodating groove;

when the first upper electric connector is electrically connected with the first lower electric connector, the first upper electric connector is positioned in the first lower accommodating groove.

2. The display apparatus of claim 1, wherein the second display device further comprises a bottom portion, and the first lower electrical connector is located at the bottom portion.

3. The display apparatus of claim 2, wherein the first lower receiving groove is located at the bottom.

4. The display apparatus of claim 1, wherein the second display device further comprises a top portion and a second power-on connector on the top portion.

5. The display apparatus of claim 4, further comprising a third display device, wherein the third display device further comprises a second lower electrical connector electrically connected to the second upper electrical connector.

6. The display apparatus of claim 1, further comprising a plurality of mounting elements, wherein the first display device and the second display device are arranged in a first direction, wherein the plurality of mounting elements extend through the mount in a second direction that is different from the first direction and connect the first display device and the second display device.

Technical Field

The present disclosure relates to a display apparatus, and more particularly, to a display apparatus having a plurality of display devices.

Background

Display screens have become popular in recent years as a method of dynamically displaying advertisements. Due to the size of the display screen, it is difficult to display a large-area screen with a single display screen.

In order to solve the above problems, a plurality of display screens are connected into a screen wall to display a large-area image in the prior art. However, the conventional display screen is complicated to install, and a plurality of connecting wires are required to provide power and signals for each display screen. In addition, the display screens are difficult to align, the display surfaces of the display screens are difficult to align on the same plane, and the time for assembling the screen wall is further increased.

Thus, while current curtain walls meet their intended purpose, many other requirements have not been met. Accordingly, there is a need for improved solutions for curtain walls.

Disclosure of Invention

The display equipment can be connected to each display device without additional connecting wires in the process of assembling the display devices, and further the complexity of installing the display equipment is reduced. In addition, the display equipment can utilize a limiting mechanism between the display devices to assist in aligning the display devices so as to reduce the assembling time of the display equipment.

The application provides a display device, which comprises a fixing frame, a first display device and a second display device. The first display device is arranged on the fixing frame and comprises a first electrifying connector. The second display device is arranged on the fixing frame and comprises a first lower accommodating groove and a first lower electric connector positioned in the first lower accommodating groove. When the first power-on connector is electrically connected to the first lower electrical connector, the first power-on connector is located in the first lower accommodating groove.

Drawings

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below, wherein:

fig. 1 is a perspective view of a first embodiment of a display device of the present application.

Fig. 2 is an exploded view of a first embodiment of the display device of the present application.

FIG. 3 is a schematic diagram of a display device according to the present application in some embodiments.

Fig. 4 is a schematic diagram of a first embodiment of a display device of the present application.

Fig. 5 is a schematic diagram of a first embodiment of a display device of the present application.

Fig. 6 is a schematic diagram of a second embodiment of a display device of the present application.

Fig. 7 is a schematic diagram of a third embodiment of a display device of the present application.

Fig. 8 is a schematic diagram of a fourth embodiment of the display device of the present application, wherein the power-on connector is in a stowed position.

FIG. 9 is a schematic diagram of a fourth embodiment of a display device of the present application with the power-on connector in a connected position.

FIG. 10 is a schematic diagram of a fifth embodiment of the display device of the present application in which the power up connector is in a connected position.

Fig. 11 is a schematic diagram of a fifth embodiment of the display device of the present application, wherein the power-on connector is in a stowed position.

Fig. 12 is a perspective view of a sixth embodiment of a display device of the present application.

Fig. 13 is a schematic diagram of a sixth embodiment of a display device of the present application.

Element numbering in the figures:

1-display device

10-fixed mount

11-fixed foot

12. 13-fixed rod

131-lock hole

20-display device

20a to display device (first display device)

20 b-display device (second display device)

20c display device (third display device)

21(21a, 21b, 21c) -casing

211(211a, 211b, 211c) -top

212(212a, 212b, 212c) to the bottom

213(213a, 213b) -upper accommodation groove

214(214a, 214b, 214c) -lower accommodation groove

215(215a, 215b) -channel

216(216a, 216b, 216c) -rear side

22(22a, 22b, 22c) -display panel

221(221a, 221b, 221c) -light emitting diode

23(23a, 23b, 32c) -Power-on connector

24(24a, 24b, 24c) -lower electrical connector

25-elastic element

26-moving element

27 to first magnetic element (magnetic element)

30-connecting element

D1 first Direction

D2 second direction

M1 conductive adhesive

P1 reference plane

T1, T2-fixing element

T3 magnetic device

T31-mounting rack

T32 second magnetic element

W1-wall

Detailed Description

The following description provides many different embodiments, or examples, for implementing different features of the application. The particular examples set forth below are intended as a shorthand representation of the present application, which is intended to be illustrative only and not limiting. For example, the description of a structure having a first feature over or on a second feature may include direct contact between the first and second features, or another feature disposed between the first and second features, such that the first and second features are not in direct contact.

Moreover, the present description may use the same reference numbers and/or letters in the various examples. The foregoing is used for simplicity and clarity and does not necessarily indicate a relationship between the various embodiments and configurations.

The terms first and second, etc. in this specification are used for clarity of explanation only and do not correspond to and limit the scope of the claims. The terms first feature, second feature, and the like are not intended to be limited to the same or different features.

Spatially relative terms, such as above or below, top or bottom, and the like, may be used herein for ease of description only with respect to one element or feature or relationship to another element or feature on the drawings. Devices that are used or operated in different orientations than those depicted in the figures are included. The shapes, dimensions, and thicknesses of the figures may not be drawn to scale or simplified for clarity of illustration, but are provided for illustration only.

Fig. 1 is a perspective view of a first embodiment of a display device 1 of the present application. Fig. 2 is an exploded view of a first embodiment of the display device 1 of the present application. For clarity, only three display devices 20 are depicted in FIG. 2. The display device 1 may be a tv wall, and is disposed on a wall W1. The display device 1 includes a fixing frame 10 and a plurality of display devices 20. The holder 10 may be fixed to a wall W1.

The fixing frame 10 may include a plurality of fixing legs 11, a plurality of fixing bars 12, and a plurality of fixing bars 13. The fixing leg 11 may be fixed to the wall W1. The fixing rod 12 may be fixed to the fixing leg 11, and the fixing rod 13 may be fixed to the fixing rod 12.

In some embodiments, the fixing feet 11 may extend perpendicular to the wall W1. The fixing bars 13 may be perpendicular to the fixing bars 12 and may be parallel to each other. In the embodiment, the fixing rod 12 and the fixing rod 13 can be separated from the wall W1, so that the operator can fix the display device 20 on the fixing rod 13 conveniently.

In this embodiment, the fixing rod 13 may extend along a first direction D1. Each of the fixing bars 13 may have a plurality of locking holes 131 arranged in the first direction D1. The fixing element T1 passes through the locking hole 131 of the fixing frame 10 along a second direction D2 and is connected to the display device 20, so as to fix the display device 20 on the fixing rod 13 of the fixing frame 10. In the embodiment, the first direction D1 may be perpendicular to the second direction D2, but not limited thereto. In another embodiment, the second direction may be different from the first direction.

The display devices 20 may be arranged on the fixing frame 10 in an array arrangement. The number of display devices 20 may be more than two. For example, the number of the display devices 20 may be 4, 6, 9, 12, or 16, but not limited thereto. In the present embodiment, the number of the display devices 20 may be 9.

Each display device 20 is capable of displaying an image. The images displayed by all the display devices 20 can be merged into a whole image. Each display device 20 may include a housing 21 and a display panel 22. The housing 21 and the display panel 22 may extend perpendicular to the second direction D2. The display panel 22 may be disposed at one side of the housing 21.

The display panels 22 (or the display devices 20) may be the same or substantially the same size. In the present embodiment, the display panel 22 (or the display device 20) may be rectangular. However, the present invention is not limited to the display panels 22 (or the display devices 20) having the same size and shape, and may be any display panels 22 (or the display devices 20) in which display signals are connected to each other as long as they are combined. In other words, the size and/or shape of each display panel 22 (or display device 20) may be different. In some embodiments, the display panel 22 (or the display device 20) may be polygonal or irregular in shape. The polygon can be a triangle, a quadrangle, a pentagon, or a hexagon. As shown in fig. 3, the display panels 22 (or the display devices 20) are irregularly shaped and connected to each other.

The display panel 22 may be a light emitting diode panel or a liquid crystal panel. In the present embodiment, the display panel 22 may be an led panel and includes a plurality of leds 221. The leds 221 may be arranged on the display panel 22 in an array. The light emitting diode 221 may be an inorganic light emitting diode or an organic light emitting diode. Each led 221 can emit light of a specific color, such as red, yellow, or blue. The light emitted by each led 221 forms an image.

For the sake of brevity, the size of the light emitting diodes 221 is enlarged and the number of the light emitting diodes 221 is reduced in the drawings of the present application. For example, the number of the light emitting elements may be about one thousand to thirty million, but not limited thereto.

Fig. 4 is a schematic diagram of a first embodiment of the display device 1 of the present application. Each display device 20(20a, 20b, 20c) may further include an upper electrical connector 23(23a, 23b, 23c) and a lower electrical connector 24(24a, 24b, 24 c). The upper electrical connector 23 is located at the top 211(211a, 211b, 211c) of the housing 21, and the lower electrical connector 24 is located at the bottom 212(212a, 212b, 212c) of the housing 21. In addition, the lower electrical connector 24 can be electrically connected to the upper electrical connector 23.

The housing 21 may have a plurality of upper receiving grooves 213(213a, 213b) and a plurality of lower receiving grooves 214(214a, 214b, 214 c). The upper receiving groove 213 is located at the top 211(211a, 211b, 211c) of the housing 21, and the lower receiving groove 214 is located at the bottom 212(212a, 212b, 212c) of the housing 21. In the present embodiment, the upper receiving groove 213 is exposed to the rear side surface 216(216a, 216b, 216c) of the housing 21. The upper electrical connector 23 is connected (or pivoted) to the top 211 of the housing 21, and the lower electrical connector 24 is disposed in the lower receiving groove 214.

In this embodiment, the power-on connector 23 is rotatable with respect to the housing 21. When the upper electrical connector 23 is located at a receiving position, the upper electrical connector 23 is located in the upper receiving groove 213, and the upper electrical connector 23 does not protrude from the top 211 of the housing 21. When the upper electrical connector 23 is located at a connecting position, the upper electrical connector 23 is movable and can protrude out of the first top portion 211, and an end of the upper electrical connector 23 is not located in the upper receiving groove 213.

As shown in fig. 2 and 4, when assembling the display apparatus 1, the display device (first display device) 20a may be fixed on the fixing frame 10 via the fixing element T1. Further, the power-on connector 23a of the display device 20a is rotated to the connection position.

A display device (second display device) 20b may be placed on the display device 20 a. In other words, the bottom portion 212b of the display device 20b corresponds to (is aligned with) the top portion 211a of the display device 20 a. Thereafter, the upper electrical connector 23a of the display device 20a is aligned and connected to the lower electrical connector 24b of the display device 20 b. In another embodiment, the upper electrical connector 23a is electrically connected to the lower electrical connector 24 b. In yet another embodiment, the upper electrical connector 23a is adjacent to the lower electrical connector 24b and the upper electrical connector 23a at least partially overlaps the lower electrical connector 24b in the first direction D1 or the second direction D2.

In the present embodiment, the upper electrical connector 23a of the display device 20a is located in the lower receiving groove 214b of the display device 20b, and the upper electrical connector 23a is connected to the lower electrical connector 24b in the lower receiving groove 214 b. In other words, when the upper electrical connector 23a is connected to the lower electrical connector 24b, the upper electrical connector 23a is located in the lower receiving groove 214 b. Finally, the display device 20b can be fixed to the fixing frame 10 via the fixing element T1, so that the assembly of the display device 20b can be easily completed.

A display device (third display device) 20c may be placed on the display device 20 b. In other words, the bottom portion 212c of the display device 20c corresponds to (is aligned with) the top portion 211b of the display device 20 b. Thereafter, the upper electrical connector 23b of the display device 20b is moved to the connection position, and the upper electrical connector 23b is connected to the lower electrical connector 24c of the display device 20 c. In another embodiment, the upper electrical connector 23b is electrically connected to the lower electrical connector 24 c. In yet another embodiment, the upper electrical connector 23b is adjacent to the lower electrical connector 24c and the upper electrical connector 23b at least partially overlaps the lower electrical connector 24c in the first direction D1 or the second direction D2.

In the present embodiment, the upper electrical connector 23b is located in the lower receiving groove 214c of the display device 20c, and the upper electrical connector 23b is connected to the lower electrical connector 24c in the lower receiving groove 214 c. In other words, when the upper electrical connector 23b is connected to the lower electrical connector 24c, the upper electrical connector 23b is located in the lower receiving groove 214 c. Finally, the display device 20c can be fixed to the fixing frame 10 via the fixing element T1, so that the assembly of the display device 20c can be easily completed. Further, as shown in fig. 2, the power-on connector 23c of the display device 20c may be located at the storage position.

In the present embodiment, the shape of the lower receiving groove 214 can match the shape of the upper electrical connector 23. When the display device 20b is assembled on the display device 20a, the upper electrical connector 23a is inserted into the lower receiving groove 214b of the display device 20 b. Therefore, the relative position of the display device 20b with respect to the display device 20a can be limited by the upper connector 23a and the lower receiving groove 214b of the display device 20b, thereby assisting the alignment and assembly of the display devices 20.

In addition, when the display device 20c is assembled above the display device 20b, the upper electrical connector 23b is inserted into the lower receiving groove 214c of the display device 20 c. Therefore, the relative position of the display device 20c with respect to the display device 20b can be limited by the upper connector 23b and the lower receiving groove 214c of the display device 20c, thereby assisting the alignment and assembly of the display devices 20.

In the embodiment, the display device 20 can be easily aligned by the upper connector 23 and the lower receiving groove 214, so that the display panel 22 is located on a reference plane P1, thereby reducing the assembly time of the display apparatus 1 and enabling the display apparatus 1 to display a whole image with better quality.

As shown in fig. 4, the display device 20a, the display device 20b, and the display device 20c are arranged in the first direction D1. The lower electrical connector 24a of the display device 20a is electrically connected to the upper electrical connector 23a, and the upper electrical connector 23a is electrically connected to the lower electrical connector 24b of the display device 20 b. The lower electrical connector 24b of the display device 20b is electrically connected to the upper electrical connector 23b, and the upper electrical connector 23b is electrically connected to the lower electrical connector 24c of the display device 20 c.

In the present embodiment, a signal source and a power source (not shown) can be electrically connected to the lower electrical connector 24a of the display device 20 a. Therefore, the image signal generated by the signal source can be transmitted to the display device 20a through the lower electrical connector 24a, the display device 20b through the lower electrical connector 24b, and the display device 20c through the lower electrical connector 24 c. The power generated by the power source may be transmitted to the display device 20a via the lower electrical connector 24a, the display device 20b via the lower electrical connector 24b, and the display device 20c via the lower electrical connector 24 c.

Accordingly, after the display devices 20 are mounted on the fixing frame 10, additional connecting wires are not required to be connected to each display device 20, thereby reducing the complexity of mounting the display apparatus 1.

Fig. 5 is a schematic diagram of a first embodiment of the display device 1 of the present application. In the embodiment, when one of the display devices 20 is damaged, the damaged display device 20 can be directly removed along the second direction D2 without detaching the adjacent display device 20, so as to improve the efficiency of repairing the display apparatus 1 and reduce the difficulty of repairing the display apparatus 1.

As shown in fig. 5, when the display device 20b is damaged and needs to be repaired, the fixing element T1 can be removed from the display device 20b, and the upper electrical connector 23b is moved out of the lower receiving groove 214c of the display device 20c and moved to the receiving position in the upper receiving groove 213b of the display device 20 b. The display device 20b is then moved in the second direction D2 to be separated from the fixing frame 10, the display device 20a and the display device 20 c. Therefore, when the display device 20b is damaged and needs to be repaired, the display device 20a and/or the display device 20c do not need to be removed, so that the efficiency of repairing the display apparatus 1 can be improved, and the difficulty of repairing the display apparatus 1 can be reduced.

Fig. 6 is a schematic diagram of a second embodiment of the display device 1 of the present application. In the present embodiment, the power-on connector 23 is located in the upper receiving groove 213. The display apparatus 1 further includes a plurality of connection members 30 detachably connecting the upper and lower electrical connectors 23 and 24 of two adjacent display devices 20.

As shown in fig. 6, when the display apparatus 1 is assembled, the display device 20a may be fixed to the fixing frame 10 via a fixing member T1. Thereafter, the display device 20b may be placed on the display device 20a, and the lower receiving groove 214b of the display device 20b may be aligned with the upper receiving groove 213a of the display device 20 a. In other words, the lower receiving groove 214b of the display device 20b may be connected to the upper receiving groove 213a of the display device 20a in the first direction D1.

Then, the connecting element 30 is inserted into the lower receiving groove 214b of the display device 20b and the upper receiving groove 213a of the display device 20a, and connected to the upper electrical connector 23a and the lower electrical connector 24b, so that the upper electrical connector 23a and the lower electrical connector 24b are electrically connected through the connecting element 30. Finally, the display device 20b is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20b is completed.

The display device 20c can be placed on the display device 20b, and the lower receiving groove 214c of the display device 20c is aligned with the upper receiving groove 213b of the display device 20 b. Then, the connecting element 30 is inserted into the lower receiving groove 214c of the display device 20c and the upper receiving groove 213b of the display device 20b and connected to the upper electrical connector 23b and the lower electrical connector 24c, so that the upper electrical connector 23b and the lower electrical connector 24c are electrically connected through the connecting element 30. Finally, the display device 20c is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20c is completed.

In the embodiment, the display device 20 can be easily aligned by the connecting element 30, the upper receiving groove 213 and the lower receiving groove 214, so as to position the display panel 22 on a reference plane P1, thereby reducing the assembly time of the display apparatus 1 and enabling the display apparatus 1 to display a whole image with better quality.

As shown in fig. 6, when the display device 20b is damaged and needs to be repaired, the fixing element T1 can be removed from the display device 20b, and the connecting element 30 in the upper receiving groove 213b and the lower receiving groove 214b of the display device 20b can be separated from the display device 20 b. The display device 20b is then moved in the second direction D2 to be separated from the fixing frame 10, the display device 20a and the display device 20 c. Therefore, when the display device 20b is damaged and needs to be repaired, the display device 20a and/or the display device 20c may not need to be removed, and thus the efficiency of repairing the display apparatus 1 may be improved and the difficulty of repairing the display apparatus 1 may be reduced.

Fig. 7 is a schematic diagram of a third embodiment of the display device 1 of the present application. In this embodiment, the display device 20 may not include the upper receiving groove 213 and the lower receiving groove 214. The upper electrical connector 23 and the lower electrical connector 24 are disposed on the rear side 216 of the housing 21. The connecting member 30 detachably connects the upper electrical connector 23 and the lower electrical connector 24 of two adjacent display devices 20. In the present embodiment, the connecting element 30 can be fixed to the rear side 216 of the housing 21 via a fixing element T2.

As shown in fig. 7, when the display apparatus 1 is assembled, the display device 20a may be fixed to the fixing frame 10 via a fixing member T1. Thereafter, display device 20b may be placed over display device 20a, and display device 20b may be aligned with display device 20 a. Thereafter, the connecting element 30 is connected to the upper electrical connector 23a and the lower electrical connector 24 b. The connecting member 30 is fixed to the display device 20a and the display device 20b by a fixing member T2. Finally, the display device 20b is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20b is completed.

Display device 20c is placed over display device 20b and display device 20c is aligned with display device 20 b. After that, the connecting member 30 is connected to the upper electrical connector 23b and the lower electrical connector 24 c. The connecting member 30 is fixed to the display device 20b and the display device 20c by a fixing member T2. Finally, the display device 20c is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20c is completed.

In the process of installing the connecting element 30, the user can easily align the display device 20 by the relative positions of the connecting element 30, the upper electrical connector 23 and the lower electrical connector 24 to position the display panel 22 on a reference plane P1, so as to reduce the assembly time of the display apparatus 1 and enable the display apparatus 1 to display a good quality overall image.

Fig. 8 is a schematic diagram of a fourth embodiment of the display device 1 of the present application, wherein the power-on connector 23 is located at a storage position. Fig. 9 is a schematic diagram of a fourth embodiment of the display device 1 of the present application, in which the power-on connector 23 is in a connected position.

In the present embodiment, the upper receiving grooves 213(213a, 213b) and the lower receiving grooves 214(214a, 214b, 214c) are communicated with each other through a channel 215(215a, 215b), that is, the upper receiving groove 123, the lower receiving groove 214 and the channel 215 are an integral body, so that the display device 20 can arrange circuits in the upper receiving grooves 213, the lower receiving grooves 214 and the channel 215, or dissipate heat through the channel 215.

The upper electrical connector 23 is movably disposed in the upper receiving groove 213, and the lower electrical connector 24 is disposed in the lower receiving groove 214. As shown in fig. 8, when the upper electrical connector 23 is located at a receiving position, the upper electrical connector 23 is located in the upper receiving groove 213 and may not protrude from the top 211 of the display device 20. As shown in FIG. 9, the upper electrical connector 23 is movable and may protrude from the top portion 211 when the upper electrical connector 23 is in a connected position.

Each display device 20 further includes an elastic element 25 and a moving element 26. The elastic element 25 is disposed in the upper receiving groove 213 and is used for providing an elastic force, which can be used to push the upper electrical connector 23. In some embodiments, the elastic element 25 may be a spring. One end of the elastic member 25 contacts the housing 21 and the other end contacts the upper electrical connector 23.

The moving element 26 may be provided to the housing 21. The moving element 26 may be connected to the upper electrical connector 23 and protrude from the rear side 216 of the housing 21. Therefore, the user can move the moving element 26 at the rear side of the housing 21 to selectively move the upper electrical connector 23 to the receiving position and the connecting position.

In the present embodiment, the user can apply force to move the moving element 26 to the storage position. When the upper electrical connector 23 is in the receiving position, the elastic element 25 provides an elastic force to move the upper electrical connector 23 to the connecting position.

As shown in fig. 8, when the display apparatus 1 is assembled, the display device 20a may be fixed to the fixing frame 10 via a fixing member T1. Thereafter, the power-on connector 23a of the display device 20a is moved to the storage position, and the display device 20b is placed on the display device 20 a. Thereafter, as shown in fig. 9, the upper electrical connector 23a is moved to the connection position, inserted into the lower receiving groove 214 of the display device 20b, and connected to the lower electrical connector 24b of the display device 20 b. Finally, the display device 20b is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20b is completed.

The power-on connector 23b of the display device 20b is movable to the storage position, and the display device 20c is placed on the display device 20 b. Thereafter, as shown in fig. 9, the upper electrical connector 23b is moved to the connection position, inserted into the lower receiving groove 214c of the display device 20c, and connected to the lower electrical connector 24c of the display device 20 c. Finally, the display device 20c is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20c is completed.

In the embodiment, the display device 20 can be easily aligned by the upper connector 23 and the lower receiving groove 214, so that the display panel 22 is located on a reference plane P1, thereby reducing the assembly time of the display apparatus 1 and enabling the display apparatus 1 to display a whole image with better quality.

As shown in fig. 8, when the display device 20b is damaged and needs to be repaired, the fixing member T1 may be removed from the display device 20b, and the power-on connector 23a of the display device 20a and the power-on connector 23b of the display device 20b may be moved to the storage positions. The display device 20b is then moved in the second direction D2 to be separated from the fixing frame 10, the display device 20a and the display device 20 c. Therefore, when the display device 20b is damaged and needs to be repaired, the display device 20a and/or the display device 20c do not need to be removed, so that the efficiency of repairing the display apparatus 1 can be improved, and the difficulty of repairing the display apparatus 1 can be reduced.

Fig. 10 is a schematic diagram of a fifth embodiment of the display device 1 of the present application, wherein the power-on connector 23 is in a connected position. Fig. 11 is a schematic diagram of a fifth embodiment of the display device 1 of the present application, wherein the power-on connector 23 is in a storage position. The fifth embodiment is different from the fourth embodiment in that the moving element 26 is connected (or pivoted) in the housing 21. The display device 20 further includes a first magnetic element 27 disposed on the moving element 26.

In this embodiment, the moving element 26 may be an L-shape, one end of the moving element 26 is connected to the upper connector 23, and the first magnetic element 27 is disposed on the other end of the moving element 26.

In this embodiment, the power-on connector 23 can be moved from the connecting position of FIG. 10 to the storing position of FIG. 11 by at least one magnetic device T3. The magnetic device T3 can be used to generate a magnetic force to the first magnetic element 27. When the magnetic force generated by the magnetic device T3 attracts the first magnetic element 27 to move toward the display panel 22, the moving element 26 rotates and drives the power-on connector 23 to move to the storage position.

In the present embodiment, the magnetic device T3 may include a mounting bracket T31 and a second magnetic element T32. The mounting rack T31 is detachably disposed on the display device 20 and can contact or be adjacent to the display panel 22. The second magnetic element T32 is movably disposed on the mounting bracket T31 and may be located in the mounting bracket T31.

When the power connector 23 is to be moved from the connecting position to the receiving position, as shown in fig. 10, the magnetic device T3 is mounted on the display device 20 and can contact or be adjacent to the display panel 22. At this time, the second magnetic element T32 may be located at a first position and away from the display panel 22. When the second magnetic element T32 is far from the display panel 22, the magnetic force generated by the second magnetic element T32 on the first magnetic element 27 is smaller than the elastic force applied by the elastic element 25 on the upper power connector 23, so the upper power connector 23 is maintained at the connection position.

As shown in fig. 11, when the second magnetic element T32 is moved to a second position adjacent to the display panel 22, the magnetic force generated by the second magnetic element T32 on the first magnetic element 27 is greater than the elastic force applied by the elastic element 25 on the upper electrical connector 23, so that the moving element 26 can move the upper electrical connector 23 to the storage position.

As shown in fig. 11, when the upper electrical connectors 23a and 23b are moved to the storage position, the fixing element T1 can be removed from the display device 20b, that is, the display device 20b can be moved in the second direction D2 and separated from the fixing frame 10, the display device 20a and the display device 20 c. Therefore, when the display device 20b is damaged and needs to be repaired, the display device 20a and/or the display device 20c do not need to be removed, so that the efficiency of repairing the display apparatus 1 can be improved, and the difficulty of repairing the display apparatus 1 can be reduced.

Fig. 12 is a perspective view of a sixth embodiment of a display device 20 of the present application. Fig. 13 is a schematic diagram of a sixth embodiment of the display device 1 of the present application. In the present embodiment, the upper electrical connector 23 and the lower electrical connector 24 can be flat cables. One end of the upper electrical connector 23 is attached to the top 211 of the housing 21 and the other end of the upper electrical connector 23 is attached to the rear side 216 of the housing 21. The lower electrical connector 24 is disposed at the bottom 212 of the housing 21.

In the present embodiment, the upper electrical connector 23 can protrude from the top 211 of the housing 21, and the lower electrical connector 24 can be located inside the bottom 212 of the housing 21. When connecting the two display devices 20, the upper electrical connector 23 and the lower electrical connector 24 can have an alignment function for aligning the two display devices 20.

As shown in fig. 12 and 13, when the display apparatus 1 is assembled, the display device 20a may be fixed to the fixing frame 10 via the fixing member T1. Then, a conductive paste M1 is coated on the top 211a of the display device 20 a. The display device 20b is then placed on the display device 20a, and the lower electrical connector 24b of the display device 20b is aligned with the upper electrical connector 23a of the display device 20 a. The application is not particularly limited to the position where the conductive paste M1 is applied as long as the conductive paste M1 is disposed between the two display devices 20. That is, in another embodiment, the conductive paste M1 can be coated on the bottom 212b of the display device 20b, and then the display device 20b is placed on the display device 20 a.

After the lower electrical connector 24b of the display device 20b is aligned with the upper electrical connector 23a of the display device 20a, the display device 20b can be easily aligned with the display device 20a, and the lower electrical connector 24b of the display device 20b can be made to correspond to or be connected to the upper electrical connector 23a of the display device 20 a. In another embodiment, the upper electrical connector 23a is electrically connected to the lower electrical connector 24 b. In yet another embodiment, the upper electrical connector 23a is adjacent to the lower electrical connector 24b and the upper electrical connector 23a at least partially overlaps the lower electrical connector 24b in the first direction D1 or the second direction D2. Finally, the display device 20b is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20b is completed.

Then, a conductive paste M1 is coated on the top 211b of the display device 20 b. The display device 20c is then placed over the display device 20b, and the lower electrical connector 24c of the display device 20c is aligned with the upper electrical connector 23b of the display device 20 b. The present application does not particularly limit the position where the conductive paste M1 is applied, as long as the conductive paste M1 is disposed between the display devices 20. That is, in another embodiment, the conductive paste M1 can be coated on the bottom 212c of the display device 20c, and then the display device 20c is placed on the display device 20 b.

After the lower electrical connector 24c of the display device 20c is aligned with the upper electrical connector 23b of the display device 20b, the display device 20c can be easily aligned with the display device 20b, and the lower electrical connector 24c of the display device 20c can be made to correspond to or be connected to the upper electrical connector 23b of the display device 20 b. In another embodiment, the upper electrical connector 23b is electrically connected to the lower electrical connector 24 c. In yet another embodiment, the upper electrical connector 23b is adjacent to the lower electrical connector 24c and the upper electrical connector 23b at least partially overlaps the lower electrical connector 24c in the first direction D1 or the second direction D2. Finally, the display device 20c is fixed to the fixing frame 10 through the fixing element T1, and the assembly of the display device 20c is completed.

In the embodiment, the Conductive paste M1 may be an Anisotropic Conductive paste M1 (ACF). The upper electrical connectors 23 and the lower electrical connectors 24 of two adjacent display devices 20 can be electrically connected in the first direction D1 via the conductive paste M1.

In the present embodiment, the upper electrical connector 23 and the lower electrical connector 24 can easily align the display devices 20 to position the display panels 22 on the reference plane P1, so as to reduce the assembly time of the display apparatus 1 and enable the display apparatus 1 to display the whole image with better quality.

As shown in fig. 13, when the display device 20b is damaged and needs to be repaired, the fixing element T1 can be removed from the display device 20b, and the display device 20b can be moved in the second direction D2 by applying force or using a suitable tool (a cutting knife) and separated from the fixing frame 10, the display device 20a and the display device 20 c. Therefore, when the display device 20b is damaged and needs to be repaired, the display device 20a and/or the display device 20c do not need to be removed, so that the efficiency of repairing the display apparatus 1 can be improved, and the difficulty of repairing the display apparatus 1 can be reduced.

In the present embodiment, damage to the upper electrical connector 23 and/or the lower electrical connector 24 may be caused during the process of removing the display device 20 b. However, since the upper electrical connector 23 and/or the lower electrical connector 24 are attached to the outside of the housing 21, they can be easily replaced.

The above-disclosed features may be combined, modified, replaced, or transposed with respect to one or more disclosed embodiments in any suitable manner, and are not limited to a particular embodiment.

In summary, the display apparatus of the present application may be connected to each display device without additional connecting wires during the assembling process of the display device, thereby reducing the complexity of installing the display apparatus. In addition, when one of the display devices is damaged, the damaged display device can be directly removed, and the efficiency of maintaining the display device can be improved.

While various embodiments have been described above, it will be apparent to those skilled in the art that they have been presented by way of example only, and not limitation, and that various changes and modifications can be made without departing from the spirit and scope of the disclosure. Therefore, the above-mentioned embodiments should not be taken as limiting the scope of the present application, which is defined by the appended claims.