TWM497794U - Curved display - Google Patents

Abstract

A curved display includes a flexible display panel, a backboard supporting the flexible display panel, and an adjusting mechanism. The backboard includes plural rigid sections and at least one flexible section. The adjusting mechanism is utilized for adjusting the backboard and the flexible display panel thereon.

Description

Curved display

The present invention relates to a display device, and more particularly to a curved display.

With the rapid advancement in the production technology of electronic technology and flat panel displays such as liquid crystal displays, the production cost of liquid crystal displays is also decreasing. Liquid crystal displays are not only widely used in computer display devices, but also gradually used in family life to watch TV programs and multimedia entertainment. With the diversification of displays, curved displays have become more popular, providing a wide-angle image information for public advertising and other purposes.

However, the curvature of the existing curved display is mostly fixed, and the visible range that can be provided is also fixed, so that the display effect of the curved display is limited.

The present invention provides a curved display with adjustable curvature.

One embodiment of the present invention provides a curved display comprising a flexible display panel, a backboard for supporting the flexible display panel, and an adjustment mechanism for adjusting the curvature of the flexible display panel. Backplane has multiple A rigid block and at least one flexible block. The adjustment mechanism is coupled to the back plate, and the adjustment mechanism includes a first rod body, a second rod body, and a knob. The first ends of the first rod body and the second rod body are respectively connected to two sides of the back plate, and the first rod body and the second end portion of the second rod body partially overlap. The knob is disposed at an overlap between the first rod body and the second end of the second rod body, and the knob is used for adjusting the overlapping length of the first rod body and the second rod body, thereby adjusting the curvature of the flexible display panel.

In one or more embodiments of the present invention, the flexible blocks are located between the rigid blocks.

In one or more embodiments of the present invention, the first rod body and the second rod body respectively include a sliding slot, and the knob is pivotally connected to the back plate and fits in the sliding slot. When the knob is rotated, the first rod body and the first rod body The second rod moves relative to the knob.

In one or more embodiments of the present invention, the inner surface of the chute is respectively provided with a rack structure, and the knob includes a first gear portion and a second gear portion that are engaged with the chute, and the first gear portion and the first rod body The meshing direction of the rack structure is different from the meshing direction of the rack structure of the second gear portion and the second shaft.

In one or more embodiments of the present invention, the shape of the rods of the first rod body and the second rod body may be in a shape of a letter, a Y shape, a T shape or a C shape.

In one or more embodiments of the present invention, when the flexible display panel is convex, when the overlapping length between the first rod and the second rod is greater than the concave of the flexible display panel, the first rod and the The length of overlap between the second rods.

Another embodiment of the present invention provides a curved display including a flexible display panel, a backboard for supporting the flexible display panel, and an adjustment mechanism for changing the curvature of the flexible display panel. The backing plate has a plurality of rigid blocks and at least one flexible block. Adjustment mechanism is set on the backboard The corner includes a rotating shaft portion connected to a corner of the backboard, and a pushing portion extending from the rotating shaft portion and fixed to the backboard. When the shaft portion is rotated, the rotating shaft portion drives the pushing portion to push the backing plate to change the curvature of the back panel and the flexible display panel thereon.

In one or more embodiments of the present invention, wherein the curvature of the flexible display panel is smaller than the curvature of the flexible display panel when the hinge portion is located outside the opening, the curvature of the flexible display panel is smaller.

In one or more embodiments of the present invention, the adjustment mechanism further includes a gear portion disposed at one end of the rotating shaft portion, and the curved display further includes an outer frame and a screw disposed in the outer frame, and the gear portion is coupled to the screw.

In one or more embodiments of the present invention, the number of adjustment mechanisms is plural, and the adjustment mechanism can be operated independently of each other.

In one or more embodiments of the present invention, the number of adjustment mechanisms is plural, and the adjustment mechanism is respectively disposed at a corner of the backboard, and the curved display further includes two connecting rods respectively connected to the rotating shaft portions on both sides of the backboard. The smaller the distance between the two connecting rods, the greater the curvature of the flexible display panel.

In one or more embodiments of the present invention, the flexible blocks are located between the rigid blocks.

The present invention provides a curved display that can adjust the curvature according to different needs, so that the display field of view is more suitable for the viewer's needs, or the curved display application is more flexible and meets the requirements according to the specific advertising design requirements.

100,200‧‧‧ curved display

110, 210‧‧‧flexible display panel

120, 220‧‧‧ Backplane

122, 222‧‧‧ rigid blocks

124, 224‧‧‧Flexible blocks

126‧‧‧ openings

130, 230‧‧ ‧ adjustment agencies

140‧‧‧First body

142, 152‧‧‧ first end

144, 154‧‧‧ second end

146, 156‧‧ ‧ chute

148, 158‧‧‧ rack structure

150‧‧‧Second body

160‧‧‧ knob

162‧‧‧First gear department

164‧‧‧Second gear department

232‧‧‧Rotary shaft

234‧‧‧Promotion Department

236‧‧‧ Gear Department

240‧‧‧Front frame

242‧‧‧ screw

244‧‧‧ openings

250‧‧‧ Connecting rod

1 and 2 are respectively a perspective view and an exploded view of an embodiment of the curved display of the present invention.

3 and 4 are side views of the curved display of Fig. 1 in different operating states, respectively.

5 to 7 are perspective views respectively showing different embodiments of the curved display of the present invention.

8 and 9 are respectively a perspective view and an exploded view of another embodiment of the curved display of the present invention.

10 to 12 are schematic views of the curved display in Fig. 8 at different stages of operation, respectively.

13 and 14 are respectively a perspective view and an exploded view of still another embodiment of the curved display of the present invention.

Fig. 15 and Fig. 16 are respectively schematic views of the curved display in Fig. 13 in different operational states.

The spirit and scope of the present invention will be apparent from the following description of the preferred embodiments of the invention. It does not depart from the spirit and scope of the present invention. In addition, relative terms such as "upper" and "lower" or "left" and "right" are used to describe the relationship of one element to another in the drawings. Relative vocabulary is used to describe different orientations of the device other than those described in the drawings. example For example, if the device in one of the figures is turned over, the element will be described as being located on the "lower" side of the other elements. The exemplary vocabulary "below" may include both "lower" and "upper" orientations depending on the particular orientation of the drawings. Similarly, if the device in one of the figures is turned over, the element will be described as being "below" or "below" the other elements. The exemplary vocabulary "below" or "below" can include both "upper" and "upper" orientations.

Please refer to FIG. 1 and FIG. 2 simultaneously, which are respectively a perspective view and an exploded view of an embodiment of the curved display of the present invention. The curved display 100 includes a flexible display panel 110, a backing plate 120 for supporting the flexible display panel 110, and an adjustment mechanism 130 for adjusting the curvature of the flexible display panel 110.

The flexible display panel 110 is a non-rigid display panel that has a certain flexibility and can generate an appropriate amount of deformation when subjected to an external force. The flexible display panel 110 is preferably a display panel that can self-illuminate without requiring a backlight module, such as a thinned organic light emitting diode display panel. The flexible display panel 110 further includes an optical film.

The backplane 120 is configured to support the flexible display panel 110. The flexible display panel 110 can be fixed to the backplane 120 through a clamp or a bonding manner. The back plate 120 includes a plurality of rigid blocks 122 and at least one flexible block 124. The rigid blocks 122 are used to provide a certain structural strength, and the flexible blocks 124 are used to allow the back plate 120 to be deformed. The material of the rigid block 122 can be, for example, metal or plastic. The material of the flexible block 124 can be, for example, a flexible plastic. Rigid block 122 with The flexible blocks 124 are arranged in a staggered arrangement such that the flexible blocks 124 are located between the rigid blocks 122. For example, the number of the rigid blocks 122 is three, the number of the flexible blocks 124 is two, the shapes of the rigid blocks 122 and the flexible blocks 124 are both rectangular, and the flexible block 124 is located at two rigidities. Between blocks 122. The flexible block 124 and the rigid block 122 can be fixed by various methods such as adhesive bonding, screw locking, clamp fixing, and hot-melt bonding.

The adjustment mechanism 130 is coupled to the back plate 120 to adjust the curvature of the back plate 120 and the flexible display panel 110 fixed to the back plate 120 through the adjustment mechanism 130. The adjustment mechanism 130 includes a first rod 140, a second rod 150, and a knob 160. The first end 142 of the first rod body 140 and the first end 152 of the second rod body 150 are respectively connected to opposite sides of the back plate 120, and the second end 144 of the first rod body 140 and the second rod body 150 are The second ends 154 partially overlap. The knob 160 is disposed at a second end 144 of the first rod 140 and overlaps with the second end 154 of the second rod 150 for adjusting the overlapping length of the first rod 140 and the second rod 150. The adjustment mechanism 130 can further adjust the curvature of the flexible display panel 110 by adjusting the overlapping length of the first rod 140 and the second rod 150.

The first rod body 140 and the second rod body 150 respectively include sliding grooves 146 and 156. The rigid block 122 in the middle of the back plate 120 has an opening portion 126. The knob 160 passes through the sliding slots 146 and 156 and is pivotally connected to the opening portion 126 of the back plate 120. The knob 160 is further engaged with the sliding slots 146 and 156. The first rod 140 and the second rod 150 move relative to the knob 160 when the knob 160 is rotated.

In other words, the rigid block 122 of the backing plate 120 can be used to provide a certain The structural strength and supporting force, as well as the positioning of the first rod 140, the second rod 150 and the knob 160 are set. The flexible block 124 can then be flexed to allow the backing plate 120 to deform.

More specifically, the inner surfaces of the first rod 140 and the sliding grooves 146, 156 of the second rod 150 are respectively provided with rack structures 148, 158, and the knob 160 includes useful fittings with the chutes 146, 156. The first gear portion 162 and the second gear portion 164, wherein the second gear portion 164 and the first gear portion 162 are disposed one above the other on the rotating shaft of the knob 160 to respectively form a rack structure 148 with the first rod 140 Engaged with the rack structure 158 of the second shaft 150.

It should be noted that the meshing direction of the first gear portion 162 and the rack structure 148 of the first rod 140 is different from the meshing direction of the rack structure 158 of the second gear portion 164 and the second rod 150. When the rotation of the knob 160 through the first gear portion 162 and the second gear portion 164 drives the first rod 140 and the second rod 150 to move, the first rod 140 and the second rod 150 move in opposite directions.

Please refer to FIG. 3 and FIG. 4 simultaneously, which are respectively side views of the curved display 100 in FIG. 1 in different operating states. For example, when the knob 160 is rotated clockwise, the first rod 140 will move to the left in the plane, and the second rod 150 will move to the right in the plane, so that The overlap between the first rod 140 and the second rod 150 is reduced, and the distance between the first end 142 of the first rod 140 and the first end 152 of the second rod 150 is increased. In turn, the flexible back panel 120 and the flexible display panel 110 thereon are bent inwardly. The concave curved display 100 as shown in Fig. 3 is obtained. If the knob 160 is rotated counterclockwise, the first rod 140 will move to the right in the plane, and the second rod 150 will move to the left in the plane, so that the first rod The overlapping portion between the body 140 and the second rod 150 is increased, and the distance between the first end 142 of the first rod 140 and the first end 152 of the second rod 150 is reduced, thereby driving The flexible back panel 120 and the flexible display panel 110 thereon are bent outward to obtain a curved display 100 that is convex from the user's direction as shown in FIG.

Since the first rod 140, the second rod 150 and the knob 160 are fixed to the rigid block 122 of the back plate 120, when the knob 160 is rotated, the knob 160 can be regarded as a fixed point, and the first rod 140 and the second rod The body 150 moves relative to the knob 160. At this time, the flexible block 124 of the back plate 120 can be deformed correspondingly, and the flexible display panel 110 on the back plate 120 is bent.

The bending amplitude of the flexible display panel 110 can be adjusted according to actual needs. For example, the knob 160 can be rotated clockwise or counterclockwise to further reduce or increase the relationship between the first rod 140 and the second rod 150. The overlap length increases or shortens the distance between the first end 142 of the first rod 140 and the first end 152 of the second rod 150, thereby increasing the curvature of the back panel 120 and the flexible display panel 110 thereon. The discount range. Alternatively, if the bending amplitude of the curved display 100 is not to be too large, the knob 160 can be rotated in the reverse direction, and the back panel 120 and the flexible display panel 110 thereon can be flattened. In other words, turn the knob clockwise or counterclockwise 160, the first rod body 140 and the second rod body 150 can be moved relative to the knob 160, thereby adjusting the overlapping length between the first rod body 140 and the second rod body 150, thereby adjusting the curvature of the flexible display panel 110. .

The operation of the knob 160 can be achieved by manual operation or by electric operation. When the knob 160 is to be manually operated, the knob 160 is configured to be exposed to the housing of the display or exposed to the display housing through other additional extensions for user manipulation. Alternatively, when the knob 160 is to be operated electrically, the knob 160 can be coupled to the drive device and components such as gears or screws to allow the user to electrically control the knob 160 to rotate without directly contacting the knob 160.

Please refer to FIG. 1 and FIG. 5 to FIG. 7 simultaneously, wherein FIG. 5 to FIG. 7 are respectively perspective views of different embodiments of the curved display of the present invention. The first end 142 of the first rod body 140 and the first end 152 of the second rod body 150 are respectively fixed to opposite sides of the back plate 120, and are preferably fixed to the rigid block 122 of the back plate 120. The shape of the rods of the first rod body 140 and the second rod body 150 may be a shape (as shown in FIG. 1), a Y shape (as shown in FIG. 5), a T shape (as shown in FIG. 6), or a C shape (eg, Figure 7). It is to be understood by those skilled in the art that the above examples are not intended to limit the present invention, and those skilled in the art can change it according to actual needs, and are within the scope of the present invention.

Referring to Figures 8 and 9, respectively, a perspective view and an exploded view of another embodiment of the curved display of the present invention. The curved display 200 includes a flexible display panel 210 , a back plate 220 for supporting the flexible display panel 210 , and a curved piece for adjusting the back plate 220 and the flexible display panel 210 . Rate adjustment mechanism 230.

The flexible display panel 210 is a non-rigid display panel that has a certain flexibility and can generate an appropriate amount of deformation when subjected to an external force. The flexible display panel 210 is preferably a display panel that can self-illuminate without requiring a backlight module, such as a thinned organic light emitting diode display panel. The flexible display panel 210 further includes an optical film.

The backplane 220 is configured to support the flexible display panel 210. The flexible display panel 210 can be fixed to the backplane 220 through a clamp or a bonding manner. The back plate 220 in this embodiment includes two rigid blocks 222 and a flexible block 224 located between the rigid blocks 222. The rigid blocks 222 and the flexible blocks 224 are rectangular in shape, and are located in two The rigid block 222 on the side is used to provide a certain structural strength, and the flexible block 224 is used to allow the back plate 220 to be deformed. The material of the rigid block 222 can be, for example, metal or plastic, and the material of the flexible block 224 can be, for example, a flexible plastic. The flexible block 224 and the rigid block 222 can be fixed by various methods such as adhesive bonding, screw locking, clamp fixing, and hot-melt bonding.

The adjustment mechanism 230 includes a shaft portion 232 and a pushing portion 234. The rotating shaft portion 232 is connected to a corner of the back plate 220, and the pushing portion 234 is a sheet extending from the rotating shaft portion 232 and is fixed to the backing plate 220. When the rotating shaft portion 232 is rotated, the rotating shaft portion 232 drives the pushing portion 234 to push the backing plate 220 to change the curvature of the backing plate 220. The material of the rotating shaft portion 232 and the pushing portion 234 may be plastic, and the rotating shaft portion 232 and the pushing portion 234 may be integrally formed by injection molding.

The curved display 200 further includes an outer frame 240 and a screw 242 disposed in the outer frame 240. The material of the outer frame 240 may be plastic or metal. In this embodiment, the number of the outer frames 240 is two, the shape of the outer frame 240 is approximately U-shaped, and the two outer frames 240 are respectively disposed on opposite sides of the flexible display panel 210. For example, in the present embodiment, the two outer frames 240 and the screw 242 are disposed along the long axis direction D2 of the flexible display panel 210 and are respectively located on both sides of the flexible display panel 210. Alternatively, in other embodiments, the two outer frames 240 and the screw 242 may also be disposed along the short axis direction D1 of the flexible display panel 210 and on both sides of the flexible display panel 210. The screw 242 is located in the outer frame 240. The outer frame 240 is provided with an opening 244 adjacent to the screw 242 at both ends. The adjusting mechanism 230 further includes a gear portion 236 disposed at one end of the rotating shaft portion 232. The gear portion 236 passes through the opening 244 and the screw. 242 coupled. In this way, when the shaft portion 232 is pushed, the gear portion 236 also rotates along the screw 242, so that the shaft portion 232 moves in the direction of the screw 242 while rotating, thereby changing the back plate 220 and The curvature of the display panel 210 is displayed.

Furthermore, since the gear portion 236 affects the curvature of the flexible display panel 210 when it is rotated inward or outward along the screw 242, the size of the opening 244 can be designed in accordance with the required degree of bending during design. By controlling the rotational distance of the gear portion 236 in the opening 244, the maximum bending curvature of the flexible display panel 210 is controlled.

In this embodiment, the number of the adjusting mechanisms 230 is four, and the adjusting mechanism 230 is respectively located at four corners of the backboard 220. The curved display 200 further includes two connecting rods 250, and the connecting rods 250 are respectively connected to the backing plate 220. The shaft portion 232 on both sides, that is, the direction of the connecting rod 250 is perpendicular to the direction of the screw 242. The connecting rod 250 can rotate the rotating shaft portion 232 connected at both ends by the same angle, and the bending width of the back plate 220 and the flexible display panel 210 is relatively uniform.

Please refer to FIG. 10 to FIG. 12, which are respectively side views of the curved display 200 in FIG. 8 at different stages of operation. As shown in FIG. 10, the curved display 200 is in a flat state. At this time, the back plate 220 and the flexible display panel 210 thereon are substantially parallel to the outer frame 240, and the rotating shaft portion 232 is located approximately outside the opening 244.

When the shaft portion 232 is inverted in one direction, as shown in FIG. 11, the shaft portion 232 drives the pushing portion 234 to push the flexible back plate 220 to move, and since the connecting rod 250 connects the opposite shaft portions 232, The two shaft portions 232 rotate synchronously, and the gear portion 236 is rotated inward along the screw 242 to control the deformation direction of the back plate 220. When the gear portions 236 on both sides of the back plate 220 are respectively brought together along the screw 242, the distance between the two connecting rods 250 is also shortened, so that the back plate 220 is deformed along the pushing portion 234, thereby causing the back plate 220 to be deformed. The curvature of the flexible display panel 210 is changed, for example, the flexible display panel 210 is recessed inward.

Of course, in other embodiments, the back plate 220 and the flexible display panel thereon may be designed when the back plate 220 is deformed along the pushing portion 234 when the gear portions 236 on both sides of the back plate 220 are close to each other. 210 protrudes outward as shown in Fig. 12.

Referring to Figures 13 and 14, respectively, a perspective view and an exploded view of still another embodiment of the curved display of the present invention. Curved display 200 packs The utility model comprises a flexible display panel 210, a backboard 220 for supporting the flexible display panel 210, an adjustment mechanism 230 for changing the curvature of the flexible display panel 210, an outer frame 240 and a plurality of screws 242, wherein the backboard 220 A rigid block 222 and a flexible block 224 located between the rigid blocks 222 are included. This embodiment only illustrates differences from the previous embodiment, and other overlapping portions will not be described again. In the embodiment, the outer frame 240 is located on the left and right sides of the flexible display panel 210, and the outer frame 240 has a U-shape. The outer frame 240 has an opening 244 on the upper and lower sides of the frame. The number of the adjusting mechanism 230 and the screw 242 are four, and the adjusting mechanism 230 and the screw 242 are respectively disposed corresponding to the four corners of the back plate 220, and the adjusting mechanism 230 is operated independently, that is, the four corners of the back plate 220 are bent. The degree of folding can vary.

Referring to Figures 15 and 16, respectively, are side views of the curved display 200 of Figure 13 in different operational states. As shown in FIG. 15, the curved display 200 is in a flat state, and the operator can adjust the adjustment mechanism 230 at four corners according to the needs of the body to adjust the back plate 220 and the flexible display on the back plate 220. The curvature of the panel 210 is to enhance the user's interest in viewing and enhance the advertising effect. For example, as shown in FIG. 16, the operator can operate only the adjustment mechanism 230 located at the upper right and lower left of the drawing such that only the back panel 220 located at the upper right and lower left corners of the drawing and the flexible display panel 210 thereon are bent. Folding, the back panel 220 and the flexible display panel 210 are obliquely deformed. In other words, the adjustment mechanisms 230 at the four corners can be independently operated, and the curvature of the flexible display panel 210 can be changed by changing the distance that the rotation shaft portion 232 moves on the screw 242.

In summary, the present invention provides a curved display that can adjust the curvature according to different needs, so that the display field of view is more in line with the needs of the viewer, or the application of the curved display is more flexible in response to specific advertising design requirements. And meet the needs.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any one skilled in the art can make various changes and retouchings without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached.

100‧‧‧ curved display

110‧‧‧Flexible display panel

120‧‧‧back board

122‧‧‧Rigid blocks

124‧‧‧Flexible block

130‧‧‧Adjustment agency

140‧‧‧First body

142, 152‧‧‧ first end

150‧‧‧Second body

160‧‧‧ knob

Claims (13)

A curved display comprising: a flexible display panel; a back plate having a plurality of rigid blocks and at least one flexible block, the back plate supporting the flexible display panel; and an adjustment mechanism connecting the back The adjusting mechanism includes: a first rod body and a second rod body, wherein the first rod body and the first rod body are respectively connected to two sides of the back plate, the first rod body and the first rod body The second end of the second rod partially overlaps; and a knob is disposed at an overlap of the second ends of the second rod, the knob is used for adjusting the overlapping length of the first rod and the second rod, and then adjusting The curvature of the flexible display panel. The curved display of claim 1, wherein the flexible block is located between the rigid blocks. The curved display of claim 1, wherein the first rod and the second rod respectively comprise a sliding slot, the knob is pivotally connected to the back plate and is engaged in the sliding slots, when the knob is rotated The first rod and the second rod move relative to the knob. The curved display of claim 3, wherein the inner surfaces of the sliding slots are respectively provided with a rack structure, and the knob comprises one of the slots a first gear portion and a second gear portion, the meshing direction of the first gear portion and the rack structure of the first rod body is different from the meshing of the second gear portion and the rack structure of the second rod body direction. The curved display according to claim 4, wherein the first rod body and the first end of the second rod body have a shape of a shape of a letter, a Y shape, a T shape or a C shape. The curved display of claim 1, wherein when the flexible display panel is convex, when the overlapping length between the first rod and the second rod is greater than the concave of the flexible display panel, the first The length of overlap between a rod and the second rod. A curved display comprising: a flexible display panel; a back plate having a plurality of rigid blocks and at least one flexible block, the back plate supporting the flexible display panel; and at least one adjustment mechanism disposed on the a corner of the backboard, comprising: a rotating shaft portion connected to a corner of the backboard; and a pushing portion extending from the rotating shaft portion and fixed to the backing plate, the rotating shaft portion driving the rotating shaft portion The pusher pushes the backing plate to change the curvature of the backing plate. The curved display of claim 7, wherein the adjustment mechanism is further included a curved gear portion is disposed at one end of the rotating shaft portion, the curved display further includes an outer frame and a screw disposed in the outer frame, the outer frame has an opening, and the gear portion is coupled to the screw through the opening . The curved display of claim 8, wherein the curvature of the flexible display panel is smaller than the curvature of the flexible display panel when the hinge portion is located inside the opening. The curved display of claim 7, wherein the number of the at least one adjustment mechanism is plural, and the adjustment mechanisms are individually operated independently, thereby changing the curvature of the flexible display panel. The curved display of claim 7, wherein the number of the at least one adjusting mechanism is plural, and the adjusting mechanisms are respectively disposed at corners of the backboard, and the curved display further comprises two connecting rods respectively connected to the backboard The shaft portions on both sides. The curved display of claim 11, wherein the smaller the distance between the two connecting rods, the greater the curvature of the flexible display panel. The curved display of claim 7, wherein the flexible block is located between the rigid blocks.