TWI494045B - Display device with height adjustable design - Google Patents

Description

Display device with adjustable height design

The present invention relates to a display device; in particular, the present invention relates to a height-adjustable display device.

Due to the advancement of the touch interface, it is easy to use and easy to learn, and the touch technology is widely used in mobile communication and various home electronic products. Taking a touch display device as an example, the current touch display device can be mainly divided into a frame structure and a double hinge structure. FIG. 1A is a schematic diagram of a touch display device of a photo frame structure. As shown in FIG. 1A, the touch display device of the frame type structure mainly includes the display panel 10 and the bracket 20. When the touch function is used, the bracket 20 needs to be opened backward, and the display panel 10 is also tilted backward and enlarged. The distance between the users, in other words, the user must extend the hand when using the touch function. If the distance is to be shortened, the entire display device must be moved after the bracket 20 is opened, which is inconvenient to use. In addition, in order to prevent the mouse or the keyboard from blocking the line of sight, a device with a high height is usually added to the bottom of the display panel 10 of the photo frame structure. However, when switching to the touch mode, the display panel 10 is tilted backward and the bottom of the display panel 10 is displayed. The height of the display panel 10 is such that the display panel 10 is farther away from the user.

FIG. 1B and FIG. 1C are schematic diagrams of a touch display device with a dual-axis structure. As shown in FIG. 1B , the touch display device with dual-axis structure mainly includes a display panel 10 , a cantilever 21 and a base 22 . Further, the display panel 10 and the base 22 are connected to the both ends of the cantilever 21 by the rotating shafts 30 and 31, respectively. When the touch function is used, the cantilever 21 can rotate relative to the base 22 to drive the display panel 10 In the near-user, the touch display device using the double-rotor structure as shown in FIG. 1B only supports the display panel 10 with the inclined cantilever 21, which causes the display panel 10 to be easily shaken when it is touched. In other words, although this structure can improve the situation that the display panel 10 is far away from the user, the problem that the display panel 10 is insufficiently supported is also derived.

FIG. 1C is a schematic diagram of another touch display device with a double-axis structure. As shown in FIG. 1C , the touch display device of the dual-axis structure mainly includes a display panel 10 , a cantilever 21 , a fixed arm 23 , and a base 22 . Further, the display panel 10 and the fixed arm 23 are connected to the both ends of the cantilever 21 by the rotating shafts 30 and 31, respectively. When the touch function is used, the structure of FIG. 1C can only slightly change the distance between the display panel 10 and the user by the rotation of the cantilever 21 relative to the fixed arm 23, compared with the touch display device of FIG. 1B. The distance of the display panel 10 is not significantly reduced, and the display panel 10 is still substantially in an upright state, which is disadvantageous for the user to view. In addition, in the manner in which the fixed arm 23 is elevated, the user has to raise the arm to touch the display panel 10, and the difficulty in controlling the display panel 10 is more serious. Therefore, how to solve the problem that the distance between the display panel and the user is too far, while maintaining the structural stability when the touch is used, has become a problem to be solved at present.

One of the objects of the present invention is to provide a display device that can improve stability when used in touch.

Another object of the present invention is to provide a display device that adjusts the height and draws the distance of the display panel from the user.

The display device includes a display panel, a first bracket and a second bracket. The first bracket has a first end hinged to the back of the display panel. The second bracket has a second end hinged to a position of the first bracket facing the first end of the display panel at a predetermined length from the first end. Additionally, the second bracket is slidably coupled to the bottom edge of the display panel. When the second bracket rotates away from the first bracket When the bottom edge of the display panel approaches the bottom of the second bracket. When the user switches to the touch operation, the second bracket can drive the display panel to be close to the user, which is convenient for touch use. In addition, the first bracket and the second bracket can jointly support the display panel to improve the stability of the structure.

100‧‧‧ display device

102‧‧‧ display panel

104‧‧‧Back

106‧‧‧First bracket

107‧‧‧ bottom

108‧‧‧ first end

110‧‧‧second bracket

111‧‧‧ bottom

112‧‧‧ second end

114‧‧‧ bottom edge

116‧‧‧First shaft joint

117‧‧‧ connection surface

118‧‧‧Second shaft joint

120‧‧‧Chute

122‧‧‧Sliding parts

124‧‧‧First contact end

126‧‧‧second contact end

128‧‧‧arc structure

130‧‧‧ notch

132‧‧‧Base

134‧‧‧Slip-stop

D‧‧‧Preset length

1A to 1C are schematic views of a conventional touch display device; FIG. 2A is a side view of an embodiment of a display device of the present invention; FIG. 2B is a rear view of an embodiment of the display device of the present invention; FIG. 3 is a schematic view showing the operation of the display device of the present invention; and FIG. 4 is a side view of another embodiment of the display device of the present invention.

The present invention provides a display device, preferably for use with an electronic device having a touch function. In addition, the display device of the present invention can also be used for non-touch electronic devices to adjust the angle of viewing. The display device is composed of a double bracket combined with a display panel, wherein the brackets are preferably respectively coupled to the back and bottom edges of the display panel, and can simultaneously support the display panel. In addition, the display panel and the bracket connecting the bottom edge thereof can slide relative to each other, thereby changing the height of the display panel and the distance between the display panel and the user.

2A is a side view of an embodiment of a display device 100 of the present invention. As shown in FIG. 2A, the display device 100 includes a display panel 102, a first bracket 106, and a second bracket 110. The first bracket 106 has a first end 108 hinged to the back side 104 of the display panel 102. The second bracket 110 has a second end 112 hinged to the first bracket 106 at a predetermined length d from the first end 108. The second bracket 110 is preferably disposed on a side of the first bracket 106 facing the back surface 104 of the display panel 102 , that is, the second bracket 110 is sandwiched between the first bracket 106 and the back surface 104 of the display panel 102 . Further, the second bracket 110 is slidably coupled to the bottom edge 114 of the display panel 102. As shown in FIG. 2A, the display panel 102 and the first end 108 are hinged by the first shaft portion 116, and the first bracket 106 and the second end 112 are hinged by the second shaft portion 118. When the second bracket 110 is rotated away from the first bracket 106, the bottom edge 114 of the display panel 102 approaches the bottom 111 of the second bracket 110.

Specifically, the first bracket 106 and the second bracket 110 are different axes, and the positions of the second bracket 110 and the second shaft joint 118 can be adjusted according to the use environment, that is, the setting position can be adapted to the application property of the product. Set at the time of production. For example, for a large working space, the installation position may be designed such that the second bracket 110 and the second shaft joint portion 118 are disposed on the first bracket 106 closer to the first end 108 to provide a larger display panel 102. Moving distance. The preset length d is preferably smaller than the distance from the first end 108 to the bottom edge 114 of the display panel 102 to provide more display panel 102 placement angle selection and ensure that the display panel 102 can be placed closer to the touch surface during the touch operation. To improve the convenience of touch.

2B is a rear elevational view of an embodiment of the display device 100 of the present invention. As shown in FIG. 2B, the first bracket 106 is a plate body and the second bracket 110 is also a plate body, but is not limited thereto. For example, when the display panel 102 is small in size, the first bracket 106 may be a plate body, and the second bracket 110 is changed to a support device in the form of a lever; and vice versa. In addition, when the first bracket 106 is a board structure, if the display device 100 is a product (AIO, all in one) in the display device, the system (not shown) of the computer of the display device 100 may be disposed on the board. Within the body structure, the weight of the entire display device 100 can be evenly distributed. In other embodiments, the computer system can also be disposed directly inside the display panel 102. In addition, as shown in FIG. 2B, the display device 100 has a base 132 that is disposed in a pivotal manner on the bottom 107 of the first bracket 106. When the second bracket 110 is opened, the bottom The angle between the seat 132 and the first bracket 106 becomes smaller, and when the second bracket 110 is retracted, the angle between the base 132 and the first bracket 106 becomes larger. In terms of function, the base 132 can increase the contact area of the bottom portion 107 of the first bracket 106 with the placement surface, so that the display device 100 is relatively stable when placed, and the direct wear facing the first bracket 106 can be reduced. In addition, as shown in FIG. 2B, the first shaft portion 116 has a connecting surface 117 adhered to the back surface 104 of the display panel 102, but is not limited thereto. In other embodiments, the first shaft portion 116 can also be attached to the metal bracket in the back cover of the display panel 102 to form a detachable design; or an integrated design to simplify the parts and assembly time.

2C is a front elevational view of an embodiment of a display device 100 of the present invention. As shown in FIG. 2C, the display device 100 has a chute 120 and a slider 122 (please refer to FIG. 2A at the same time). The chute 120 is formed on the second bracket 110 and extends toward the bottom 111 of the second bracket 110. The slider 122 is disposed on the bottom edge 114 of the display panel 102 and is engaged with the sliding slot 120 , that is, the slider 122 is mounted on the back surface of the second bracket 110 relative to the display panel 102 . Therefore, the display panel 102 can be moved on the second bracket 110 by the sliding member 122, and the moving direction of the sliding member 122 is restricted by the sliding slot 120. In addition, the sliding slot 120 has a first contact end 124 and a second contact end 126 , and the first contact end 124 is located higher than the second contact end 126 , so the slider 122 is from the first contact end 124 toward the second contact end 126 . When moving, the display panel 102 can be driven to move toward the second contact end 126 at the same time. In addition, the bottom portion 111 of the second bracket 110 extends to form a curved structure 128, wherein the notch 130 of the curved structure 128 faces the bottom edge 114 of the display panel 102, thereby being designed to facilitate the user to pull the second bracket 110 . In addition to the above-described manner of the sliding slot and the sliding member, in other embodiments, the second bracket 110 and the bottom edge 114 of the display panel 102 can also be in contact with the sliding manner, that is, without a separate guiding slot or guiding structure, The surface of the second bracket 110 contacts the bottom edge 114 of the display panel 102.

FIG. 3 is a schematic diagram of the operation of the display device 100 of the present invention. As described above, when the slider 122 abuts the first contact end 124, the display panel 102 is in an upright state (as shown in the left display device of FIG. 3). When the slider 122 moves toward the bottom 111 of the second bracket 110 to resist the second contact At the end 126, the display panel 102 is in an inclined state (as shown in the right display device of FIG. 3). In other words, when the second bracket 110 is rotated away from the first bracket 106, the sliding slot 120 limits the moving direction of the sliding member 122 and the display panel 102 is moved toward the bottom 111 of the second bracket 110 by the sliding member 122. A bracket 106 also approaches the base 132 with the direction of movement of the second bracket 110. In detail, when the user wants to turn the display panel 102 in an upright state into a tilted state, the second bracket 110 can be pulled, and the second shaft connecting portion 118 can drive the second bracket 110 to rotate away from the first bracket 106. At this time, the angle between the second bracket 110 and the first bracket 106 is gradually increased. Since the bottom edge 114 of the display panel 102 is movably fixed to the second bracket 110 by the sliding member 122, the display panel 102 is apart from the second bracket 110 when the second bracket 110 is rotated away from the first bracket 106. The bottom portion 111 moves to lower the height, and the display panel 102 also rotates relative to the first bracket 106 by the first shaft portion 116, so that the angle between the display panel 102 and the first bracket 106 is gradually increased, and the display panel 102 is gradually erected. Turn to the tilted state.

On the other hand, in the embodiment of FIG. 3, the first shaft portion 116 of the display device 100 is preferably a damper bearing. When the user wants to perform the touch operation to pull the second bracket 110, the damper bearing will be generated. The resistance of the one of the shaft portion 116 and the second shaft portion 118 in the opposite direction of rotation reduces the speed at which the height of the display panel 102 decreases. That is, when the second bracket 110 is rotated away from the first bracket 106, the first shaft portion 116 generates a resistance to slow the second bracket 110 away from the speed. By virtue of the design of the damper bearing, when the load on the bracket is heavy, the height of the display panel 102 is suddenly dropped to cause an impact to damage the bracket or the display panel 102 itself, or the display device 100 is overturned. In other embodiments, the second shaft portion 118 can also be a damper bearing that can cooperate with the first shaft portion 116 to collectively slow down the speed at which the display panel 102 descends. In addition, by the frictional force of the damper bearing, the first bracket 106 and the second bracket 110 can be relatively positioned under the condition of each angle (such as the display device 100 in FIG. 3), so that the display device 100 can be positioned at different positions. Tilt angle and height. In different embodiments, for example, the first shaft portion 116 and the second shaft portion 118 are non-damped bearings, and may also be borrowed The height change of the display panel is adjusted by changing the structure of the slider 122 and the chute 120 of FIG. 2C. For example, the inner wall of the chute 120 is provided with a plurality of grooves at different intervals along different heights, and the outer structure of the sliding member 122 is designed to be engaged in the groove, so that the sliding members 122 can be positioned at different heights. Thus, when there is no damper bearing design, the opening angle between the first bracket and the second bracket can also be located.

4 is a side elevational view of another embodiment of a display device 100 of the present invention. Compared with the previous embodiment, the display device 100 of FIG. 4 is provided with the anti-slip portion 134 disposed at the bottom portion 107 of the first bracket 106, thereby improving the friction between the first bracket 106 and the placement surface, so that the first bracket 106 is provided. It does not slide easily with the display panel 102 moving, and the direct wear facing the first bracket 106 can also be reduced. With the display device 100, the user can zoom in on the distance between the display panel 102 and the user during operation, without further effort to adjust the position of the display device 100. In addition, the first bracket 106 and the second bracket 110 can simultaneously support the display panel 102, thereby improving the stability of the overall structure to avoid the situation that the display panel 102 is shaken during the touch operation.

The present invention has been described by the above-described related embodiments, but the above embodiments are merely examples for implementing the present invention. It must be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, modifications and equivalents of the spirit and scope of the invention are included in the scope of the invention.

100‧‧‧ display device

102‧‧‧ display panel

104‧‧‧Back

106‧‧‧First bracket

107‧‧‧ bottom

108‧‧‧ first end

110‧‧‧second bracket

111‧‧‧ bottom

112‧‧‧ second end

114‧‧‧ bottom edge

116‧‧‧First shaft joint

118‧‧‧Second shaft joint

122‧‧‧Sliding parts

128‧‧‧arc structure

130‧‧‧ notch

132‧‧‧Base

D‧‧‧Preset length

Claims (12)

A display device comprising: a display panel having a back surface; a first bracket having a first end, the first end hinged to a back side of the display panel; and a second bracket having a second end, the second bracket The second end is hinged to a position of the first bracket facing the first end of the display panel at a predetermined length, and the second bracket is slidably coupled to the bottom edge of the display panel; When the second bracket rotates away from the first bracket, the bottom edge of the display panel approaches the bottom of the second bracket. The display device of claim 1, further comprising a first shaft portion disposed between the display panel and the first end. The display device of claim 2, wherein the first shaft portion is a damper bearing, and the first shaft portion generates a resistance when the second bracket rotates away from the first bracket. The second bracket is slowed away from the speed. The display device of claim 1, further comprising a second shaft portion disposed between the first bracket and the second end. The display device of claim 4, wherein the second shaft portion is a damper bearing. The display device of claim 1, wherein the predetermined length is smaller than a distance from the first end to a bottom edge of the display panel. The display device of claim 1, further comprising a sliding slot and a sliding member formed on the second bracket and extending toward the bottom of the second bracket; the sliding member is disposed on the display The bottom edge of the panel is engaged in the sliding slot. When the second bracket rotates away from the first bracket, the sliding slot limits the movement of the sliding member and the sliding member drives the display panel toward The bottom of the second bracket is close. The display device of claim 7, wherein the sliding slot has a first contact end and a second contact end, and the first contact end is located higher than the second contact end when the sliding member When the first contact end is in contact with the first contact end, the display panel is in an upright state; when the slider is in contact with the second contact end, the display panel is in an inclined state. The display device of claim 1, wherein the bottom of the second bracket extends to form an arc-shaped structure, and the recess of the curved structure faces the bottom edge of the display panel. The display device of claim 1, further comprising a base disposed in a pivotal manner on the bottom of the first bracket; and the first bracket is rotated in a direction away from the first bracket Approach the base. The display device of claim 1, further comprising a non-slip portion disposed at the bottom of the first bracket. The display device of claim 1, wherein the first bracket forms a plate body, and the display device further comprises a display system disposed in the plate body.