CN113108195B - Electronic device - Google Patents

Abstract

The embodiment of the application discloses electronic equipment, electronic equipment includes: the supporting device is connected with the body, can rotate and move relative to the body and is used for supporting the body to present a display pose and a supporting pose; in the display attitude, the support device is supported on a first area of the body, the body is rotatable relative to the support device under an external force, at least part of the support device is movable relative to the body as the body rotates, and the body is rotatable relative to the support device from the display attitude to the support attitude; in the supporting posture, the supporting device is supported on the second area of the body; wherein the area of the second region is larger than the area of the first region.

Description

Electronic device

Technical Field

The present application relates to an electronic device.

Background

Electronic devices are devices that people often use. However, the current electronic equipment is single in use state and poor in adaptability.

Disclosure of Invention

In view of the above, embodiments of the present application are directed to providing an electronic device.

In order to achieve the purpose, the technical scheme of the application is realized as follows:

an embodiment of the present application provides an electronic device, which includes:

the body is provided with a plurality of grooves,

the supporting device is connected with the body, can rotate and move relative to the body and is used for supporting the body to present a display pose and a supporting pose;

in the display attitude, the support device is supported on a first area of the body, the body is rotatable relative to the support device under an external force, at least part of the support device is movable relative to the body as the body rotates, and the body is rotatable relative to the support device from the display attitude to the support attitude; in the supporting pose, the supporting device is supported on a second area of the body; wherein the area of the second region is larger than the area of the first region.

In some alternative implementations, a first end of the support device is rotatably connected to the body, a second end of the support device is movably connected to the body, and the second end of the support device is rotatable relative to the first end of the support device;

in the display pose, a first end of the supporting device is supported on a first area of the body, the body can rotate relative to the supporting device under the action of external force, the first end of the supporting device can rotate along with the rotation of the body, and a second end of the supporting device can move relative to the body along with the rotation of the first end of the supporting device; the body rotates relative to the supporting device from the display pose to the supporting pose, and the second end of the supporting device supports the third area of the body; wherein the second region is formed between the third region and the first region.

In some optional implementations, the support device includes:

the supporting assembly is used for abutting against the bearing surface;

the sliding part is at least partially clamped in the first sliding groove of the body, movably connected with the body and rotatably connected with the supporting component;

the first end of the first connecting piece is rotatably connected with the first position of the body, and the second end of the first connecting piece is rotatably connected with the first end of the sliding piece;

the first end of the second connecting piece is rotatably connected with the second position of the body, and the second end of the second connecting piece is rotatably connected with the second end of the sliding piece; a first distance is formed between the second position and the first position; the second location and the first location form the first region therebetween;

the elastic piece is respectively connected with the first connecting piece and the second connecting piece, is in a tensioned state and is used for pulling the second connecting piece to move relative to the first connecting piece;

under the display pose, the body rotates in a first direction under the action of an external force to drive the first connecting piece and the second connecting piece to rotate in a second direction, and the first connecting piece and the second connecting piece drive the sliding piece to rotate in the first direction relative to the body and slide from a third position to a fourth position in the first sliding groove; when the slider slides to the fourth position, the slider supports the third region of the body, and the body is in the support attitude;

wherein the second direction is opposite to the first direction.

In some optional implementations, the support assembly includes:

the first supporting piece is used for abutting against the bearing surface, is rotatably connected with the sliding piece, and supports the height of the body to be adjustable;

and the second supporting piece is abutted to the bearing surface and is rotatably connected with the sliding piece, so that the height of the body can be adjusted.

In some optional implementations, the first support comprises:

the first support part is used for abutting against the bearing surface;

the first supporting part is rotatably connected with the first support part and is rotatably connected with the sliding part;

the second support member includes:

the second support part is used for abutting against the bearing surface;

the second supporting part is rotatably connected with the second support part and is rotatably connected with the sliding part;

in the support posture, the first support part is rotatable with respect to the first seating part to support the body in a longitudinal direction of the first support part; the second support part can rotate relative to the second support part to support the body in the length direction of the second support part;

wherein the first and second seat portions are located on opposite sides of the slider.

In some alternative implementations, the support assembly includes:

the fixing part is used for abutting against the bearing surface;

a movable part movably connected with the fixed part, capable of moving relative to the fixed part and rotatably connected with the sliding part;

in the case where the movable portion moves relative to the fixed portion, the distance between the body and the fixed portion changes;

and the driving piece is respectively connected with the fixed part and the movable part and is used for driving the movable part to move relative to the fixed part.

In some optional implementations, the supporting device includes at least two supporting members, and first ends of the at least two supporting members are rotatably disposed in the second sliding groove of the body;

in the display pose, the first areas are formed between the first ends of the at least two supporting pieces, and when the body rotates relative to the at least two supporting pieces to the supporting pose under the action of external force, the first ends of the at least two supporting pieces can move in the second sliding chute, so that the distance between the adjacent supporting pieces is increased, and the second areas are formed between the first ends of the at least two supporting pieces.

In some alternative implementations, the support device includes:

a third supporting piece, a first end of which is rotatably arranged in the first sub-second sliding groove of the body and can be maintained at a fifth position relative to the body;

a fourth supporting member, a first end of which is rotatably arranged in the second sub-second sliding groove of the body, is arranged opposite to the third supporting member, and can be maintained at a sixth position relative to the body;

a fifth supporting piece, a first end of which is rotatably arranged in the third sub-second sliding chute of the body and can be maintained at a seventh position relative to the body;

a sixth supporting member, a first end of which is rotatably arranged in the fourth sub-second sliding groove of the body, is arranged opposite to the fifth supporting member, and can be maintained at an eighth position relative to the body;

a locking member provided to the body and capable of being connected to and disconnected from the third support member, the fourth support member, the fifth support member, and the sixth support member, respectively;

in the display posture, the locking member is connected with a third support member, the fourth support member, the fifth support member and a sixth support member, which are supported on the first region of the body; under the action of external force, the body rotates to a supporting pose, the locking piece rotates to be disconnected with the third supporting piece, the fourth supporting piece, the fifth supporting piece and the sixth supporting piece along with the body, the third supporting piece moves to the fifth position, the fourth supporting piece moves to the sixth position, the fifth supporting piece moves to the seventh position, the sixth supporting piece moves to the eighth position, and the third supporting piece, the fourth supporting piece, the fifth supporting piece and the sixth supporting piece are supported in the second area of the body.

In some optional implementations, the electronic device further includes:

the first detection assembly is used for detecting the height of an operator;

the second detection assembly is used for detecting the pose of the body;

a processor for controlling a support height of the support device based on the height of the operator detected by the first detection assembly; the electronic device is used for controlling the working mode of the electronic device based on the pose of the body detected by the second detection component;

wherein, in the display pose, the processor is used for controlling the electronic equipment to be in a writing mode; in the support pose, the processor is used for controlling the electronic equipment to be in a desktop interaction mode.

In some optional implementations, the electronics further include:

the display device is arranged on the first surface of the body;

the supporting device is connected with the second surface of the body; wherein the second surface and the first surface are disposed opposite one another.

The electronic device in the embodiment of the application includes: the supporting device is connected with the body, can rotate and move relative to the body and is used for supporting the body to present a display pose and a supporting pose; in the display attitude, the support device is supported on a first area of the body, the body is rotatable relative to the support device under an external force, at least part of the support device is movable relative to the body as the body rotates, and the body is rotatable relative to the support device from the display attitude to the support attitude; in the supporting pose, the supporting device is supported on a second area of the body; the area of the second area is larger than that of the first area, the electronic equipment has a display pose and a support pose, the use state of the electronic equipment is increased, and the adaptability of the electronic equipment is improved.

Drawings

Fig. 1 is an alternative structural schematic diagram of an electronic device according to an embodiment of the present application;

fig. 2 is an alternative structural schematic diagram of an electronic device provided in an embodiment of the present application;

fig. 3 is an alternative partial structural schematic diagram of an electronic device according to an embodiment of the present application;

fig. 4 is a schematic partial structural diagram of an alternative supporting device of an electronic device according to an embodiment of the present application;

fig. 5 is an alternative partial structural schematic diagram of an electronic device according to an embodiment of the present application;

fig. 6 is a schematic partial structural diagram of an alternative supporting device of an electronic device according to an embodiment of the present application;

fig. 7 is an alternative partial structural schematic diagram of an electronic device according to an embodiment of the present application;

fig. 8 is a schematic partial structural diagram of an alternative supporting device of an electronic device according to an embodiment of the present application;

fig. 9 is an alternative structural schematic diagram of a driving member of an electronic device according to an embodiment of the present application;

fig. 10 is an alternative structural diagram of an electronic device according to an embodiment of the present application;

fig. 11 is an alternative structural diagram of an electronic device according to an embodiment of the present application;

fig. 12 is an alternative structural schematic diagram of an electronic device provided in an embodiment of the present application;

fig. 13 is an alternative structural schematic diagram of an electronic device provided in an embodiment of the present application;

fig. 14 is an alternative structural diagram of an electronic device according to an embodiment of the present application;

fig. 15 is an alternative structural diagram of an electronic device according to an embodiment of the present application;

fig. 16 is an alternative structural diagram of an electronic device according to an embodiment of the present application;

fig. 17 is an alternative structural diagram of an electronic device according to an embodiment of the present application;

fig. 18 is an alternative partial structural schematic diagram of an electronic device according to an embodiment of the present application;

fig. 19 is an alternative partial structural schematic diagram of an electronic device according to an embodiment of the present application.

Reference numerals are as follows: 100. a body; 101. a first chute; 110. a fixing member; 121. a first sub-second chute; 122. a second sub-second chute; 123. a third sub-second chute; 124. a fourth sub-second chute; 131. a first deforming member; 132. a second deforming member; 133. a third deforming member; 134. a fourth deforming member; 200. a support device; 201. a support assembly; 210. a first connecting member; 220. a second connecting member; 230. a slider; 240. an elastic member; 250. a drive member; 251. an upper end fixing shaft; 252. an upper end telescopic sleeve; 253. a pressure sensor; 254. an oil pressure regulating valve; 255. a cylinder body; 256. a lower end telescopic sleeve; 257. a lower end fixing shaft; 258. an outer ring confining valve; 259. an inner ring fastening opening; 310. a first support; 311. a first mount section; 312. a first support section; 320. a second support member; 321. a second support part; 322. a second support portion; 330. a third support member; 340. a fourth support member; 350. a fifth support member; 360. a sixth support member; 370. a locking member; 381. a first connecting rod; 382. a second connecting rod.

Detailed Description

Various combinations of the specific features in the embodiments described in the detailed description may be made without contradiction, for example, different embodiments may be formed by different combinations of the specific features, and in order to avoid unnecessary repetition, various possible combinations of the specific features in the present application will not be described separately.

In the description of the embodiments of the present application, it should be noted that, unless otherwise specified and limited, the term "connected" should be understood broadly, for example, an electrical connection may be made, a communication may be made between two elements, a direct connection may be made, and an indirect connection may be made through an intermediate medium.

It should be noted that the terms "first \ second \ third" referred to in the embodiments of the present application are only used for distinguishing similar objects, and do not represent a specific ordering for the objects, and it should be understood that "first \ second \ third" may exchange a specific order or sequence order if allowed. It should be understood that the terms first, second, third, etc. used herein are interchangeable under appropriate circumstances such that the embodiments of the application described herein can be practiced in other sequences than those illustrated or described herein.

The electronic device includes: a body 100 and a support device 200. The supporting device 200 is connected with the body 100, the supporting device 200 can rotate and move relative to the body 100, and the supporting device 200 is used for supporting the body 100 in a display posture and a supporting posture; in the display pose, the supporting device 200 is supported on a first area of the body 100, the body 100 can rotate relative to the supporting device 200 under the action of external force, at least part of the supporting device 200 can move relative to the body 100 along with the rotation of the body 100, and the body 100 can rotate relative to the supporting device 200 from the display pose to the supporting pose; in the support attitude, the support device 200 is supported at a second region of the body 100; wherein the area of the second region is greater than the area of the first region; the supporting device 200 can enable the body 100 to have two states of a display pose and a support pose, so that the using state of the electronic equipment is increased, and the adaptability of the electronic equipment is improved.

In the embodiments of the present application, the structure of the electronic device is not limited. For example, the electronic device may be a display, a television, or a personal computer.

In the embodiment of the present application, the structure of the body 100 is not limited. For example, the body 100 may have a rectangular parallelepiped structure.

In the embodiment of the present application, the supporting device 200 is used to support the body 100 in the display attitude and the supporting attitude.

Here, the supporting device 200 is rotatable relative to the body 100, so that the body 100 is rotationally switchable between the display attitude and the supporting attitude relative to the supporting device 200.

Here, the movement of the supporting device 200 with respect to the body 100 may be a movement of the supporting device 200 as a whole with respect to the body 100, or a movement of a part of the supporting device 200 with respect to the body 100.

Here, the position where the supporting device 200 is coupled to the body 100 is not limited. As an example, the electronics may further include: a display device. The display device is disposed on the first surface of the body 100; the supporting device 200 is connected with a second surface of the body 100; wherein the second surface and the first surface are disposed oppositely; so that the body 100 is displayed through the first surface and the body 100 is supported based on the second surface.

In the present embodiment, in the display position, the supporting device 200 is supported on the first region of the body 100, the body 100 is rotatable relative to the supporting device 200 under an external force, at least a part of the supporting device 200 is movable relative to the body 100 as the body 100 rotates, and the body 100 is rotatable relative to the supporting device 200 from the display position to the supporting position; in the support attitude, the support device 200 is supported at a second region of the body 100; wherein the area of the second region is greater than the area of the first region; so that the body 100 is supported by the second region having a larger area in a supporting state, and the supporting strength of the body 100 in the supporting state is improved.

Here, the state in which the body 100 is in the display attitude is not limited.

For example, the body 100 is in a state of displaying the attitude, and the body 100 is vertical.

For another example, the body 100 is in the display posture, and the angle between the body 100 and the vertical plane is less than 30 degrees, as shown in fig. 1, so that the display device on the body 100 is in a better display state. As an example, the display device has a writing mode, and the display device may be in a whiteboard shape to facilitate a user writing on the display device.

Here, the state in which the body 100 is in the support attitude is not limited.

For example, as shown in fig. 2, in a state where the body 100 is in the support posture, the body 100 is horizontal or substantially horizontal; so that the operator clicks the display device on the body 100. For example, an electronic device has a desktop interaction mode. As an example, the display device can recognize the attribute of an object placed on its surface, and the surface recognition of the object where the display device is placed can be performed with the body 100 in the support posture. As yet another example, the electronic device can be electrically connected to a first device placed on a first surface thereof, and with the body 100 in the support posture, the first device can be placed on the first surface of the body 100 to enable the first device and the electronic device to interact with each other, so that information can be exchanged between the first device and the electronic device. In one application, the electronic device is a computer all-in-one machine, and the first device is a mobile phone.

For another example, in the state where the body 100 is in the support posture, the angle between the body 100 and the horizontal plane is less than 30 degrees, so that the first surface of the body 100 is convenient for carrying the object.

In some optional implementations of the embodiments of the present application, a first end of the supporting device 200 is rotatably connected to the body 100, a second end of the supporting device 200 is movably connected to the body 100, and the second end of the supporting device 200 is rotatable with respect to the first end of the supporting device 200; in the display pose, a first end of the supporting device 200 is supported on a first area of the body 100, the body 100 can rotate relative to the supporting device 200 under the action of external force, a first end of the supporting device 200 can rotate along with the rotation of the body 100, and a second end of the supporting device 200 can move relative to the body 100 along with the rotation of the first end of the supporting device 200; the body 100 is rotated relative to the supporting device 200 from the display attitude to the supporting attitude, and the second end of the supporting device 200 supports the third region of the body 100; wherein the second region is formed between the third region and the first region; so that the supporting device 200 can more stably support the body 100 in the supporting attitude.

In this implementation, the structure of the supporting device 200 is not limited. For example, the supporting device 200 may have a strip structure. As an example, the support device 200 may include a support bar. As another example, the support device 200 may include a four bar linkage structure.

Here, the first end of the supporting device 200 is not limited to be rotatably connected to the body 100. For example, the first end of the supporting device 200 may be hinged to the body 100 through a hinge structure.

Here, the implementation manner of the movable connection of the second end of the supporting device 200 and the body 100 is not limited. For example, the second end of the supporting device 200 may be movably connected to the body 100 through a sliding groove structure.

In one example, the supporting device 200 may include: a slider 230, a first link 210, and a second link 220. At least part of the sliding member 230 is clamped in the first sliding slot 101 of the body 100 and movably connected with the body 100; a first end of the first connecting member 210 is rotatably connected to a first position of the body 100, and a second end of the first connecting member 210 is rotatably connected to a first end of the sliding member 230; a first end of the second link 220 is rotatably connected to a second position of the body 100, and a second end of the second link 220 is rotatably connected to a second end of the slider 230; a first distance is formed between the second position and the first position; so that the body 100, the first link, the second link 220 and the slider 230 form a four-bar linkage structure.

In example one, the structure of the slider 230 is not limited. For example, the slider 230 may be a block structure.

Here, at least a portion of the sliding member 230 is engaged with the first sliding groove 101 and movably connected with the body 100, and a portion of the sliding member 230 is engaged with the first sliding groove 101 and movably connected with the body 100, as shown in fig. 3. Of course, the whole sliding member 230 can also be clamped in the first sliding slot 101 and movably connected to the main body 100.

In the first example, the structure of the first connecting member 210 is not limited. For example, the first connector 210 may be a rod-shaped structure.

Here, the first end of the first connecting element 210 and the first position of the body 100 can be rotatably connected through a rotating shaft structure; the second end of the first connecting member 210 and the first end of the sliding member 230 may be rotatably connected through a rotating shaft structure.

In example one, the structure of the second connector 220 is not limited. For example, the second connector 220 may be a rod-like structure.

Here, the first end of the second link 220 may be rotatably connected to the second position of the body 100 through a rotating shaft structure; the second end of the second link 220 and the second end of the sliding member 230 can be rotatably connected through a hinge structure.

Here, during the rotation of the body 100 from the display attitude to the support attitude, the distance between the second link 220 and the first link 210 may be increased and then decreased; as shown in fig. 4, 6 and 8, the distance between the second link 220 and the first link 210 increases from a to B and decreases from B to D.

Here, a first distance is formed between the second position and the first position, and the value of the first distance is greater than zero, so that the body 100, the first link 210, the second link 220, and the slider 230 form a four-bar linkage.

Here, the first region is formed between the second position and the first position; at this time, in the display attitude, the supporting device 200 supports the first region of the body 100 through the first link 210 and the second link 220.

In an example one, the electronic device may further include: the elastic member 240 is connected with the first connecting member 210 and the second connecting member 220, the elastic member 240 is under tension, and the elastic member 240 is used for pulling the second connecting member 220 to move relative to the first connecting member 210, so that the second connecting member 220 and the first connecting member 210 can move synchronously, and one of the second connecting member 220 and the first connecting member 210 is prevented from being locked and not moved.

In an example one, as shown in fig. 3 and 4, in the display position, the body 100 rotates in a first direction under an external force to drive the first connecting element 210 and the second connecting element 220 to rotate in the second direction, and the first connecting element 210 and the second connecting element 220 drive the sliding element 230 to rotate in the first direction relative to the body 100 and slide in the first sliding groove from the third position to the fourth position, as shown in fig. 5 and 6; with the slide member 230 slid to the fourth position, the slide member 230 supports the third area of the body 100, and the body 100 is in the support attitude, as shown in fig. 7 and 8.

Here, the external force may be a force applied to the body 100 by an operator.

Here, the first direction and the second direction are not limited as long as the second direction is opposite to the first direction. For example, the first direction may be a clockwise direction and the second direction may be a counterclockwise direction. As an example, arrow a in fig. 3 and 5 is the first direction.

Here, the third position may be the first end of the first chute, or may be a position near the first end of the first chute.

Here, the fourth position may be the second end of the first sliding chute, and may also be the second end close to the first sliding chute.

It is noted that the slider 230 supports the third area of the body 100 in abutment with the inner wall of the first runner in the fourth position.

Here, the third region is a region where the slider 230 abuts against the body 100; so that the second region formed between the first region and the third region is supported by the slider 230, the first link 210 and the second link 220, the area of the supporting body 100 supported by the supporting device 200 is increased, and the supporting stability of the supporting device 200 is improved.

In an example one, the first connector 210 and the second connector 220 may be directly connected to the body 100, or may be connected to a structural member on the body 100. For example, as shown in fig. 4, 6 and 8, the first and second connectors 210 and 220 are connected to the fixing member 110 fixed to the body 100.

In an example one, the slider 230, the first link 210, and the second link 220 may be disposed inside the body 100.

It should be noted that the dotted line frame in fig. 3, 5 and 7 only shows the portion of the body 100 connected to the supporting device 200, and does not show the whole body 100.

Of course, in the case that the supporting device 200 includes a supporting rod, a first end of the supporting rod may be rotatably connected with the body 100, and a second end of the supporting rod may be rotatably connected with the sliding member 230; the support device 200 formed by the body 100, the support rods, and the slide 230 brings the body 100 into the display attitude and the support attitude.

In an example one, the electronic device may further include: the supporting assembly 201, the supporting assembly 201 is used for abutting against the bearing surface; the supporting member 201 is rotatably connected with the sliding member 230 so as to support the electronic device on the bearing surface through the supporting member 201, and the body 100 can assume the display posture and the supporting posture through the sliding member 230, the first connecting member 210 and the second connecting member 220.

Here, the supporting surface refers to a surface for supporting the electronic device, for example, the supporting surface may be a ground surface or a desktop surface.

Here, the supporting member 201 and the sliding member 230 may be rotatably connected by a hinge structure.

Here, the structure of the support member 201 is not limited. For example, the support assembly 201 may be a stent structure.

For another example, the support assembly 201 may include: a fixed part and a movable part. The fixing part is used for abutting against the bearing surface; a movable portion movably connected to the fixed portion, the movable portion being movable relative to the fixed portion, the movable portion being rotatably connected to the slider 230; in the case where the movable portion moves relative to the fixed portion, the distance between the body 100 and the fixed portion changes; so that the supporting height of the body 100 is changed by the movable portion moving relative to the fixed portion.

In this example, the structure of the fixing portion is not limited. For example, the fixing portion may be a cylindrical structure.

In this example, the structure of the movable portion is not limited. For example, the movable portion may be a columnar structure.

Here, the movable portion and the slider 230 may be rotatably connected by a rotation shaft structure.

Here, the movable portion is movably connected to the fixed portion, and the movable portion is movable with respect to the fixed portion in an implementation manner without limitation. For example, the fixed portion is a cylindrical structure, and the movable portion is movably inserted into a cavity of the fixed portion. Here, the motive force for moving the movable portion is not limited. For example, the movable part may be moved relative to the fixed part by an external force. For another example, the supporting assembly 201 may further include a driving member 250, the driving member 250 is connected to the fixed portion and the movable portion, respectively, and the driving member 250 is used for driving the movable portion to move relative to the fixed portion. The structure of the driving member 250 is not limited. As an example, the driving member 250 may include a motor. As yet another example, as shown in fig. 9, the driving member 250 may include: a cylinder body 255, an upper end fixing shaft 251 and a lower end fixing shaft 257; the upper end fixing shaft 251 is inserted into a cylinder cavity at a first end of the cylinder body 255, and the lower end fixing shaft 257 is inserted into a cylinder cavity at a second end of the cylinder body 255; the cylinder cavity is filled with liquid, the upper end fixing shaft 251 can move relative to the cylinder body 255 through the pressure of the liquid, and the lower end fixing shaft 257 can move relative to the cylinder body 255 through the pressure of the liquid; here, the fixed part may be fixedly coupled with the upper end fixing shaft 251, and the movable part may be fixedly coupled with the lower end fixing shaft 257; so that the movable part is moved relative to the fixed part by the upper end fixing shaft 251 and the lower end fixing shaft 257. Here, the driving member 250 may further include: an upper end telescopic sleeve 252, a pressure sensor 253, an oil pressure regulating valve 254, a lower end telescopic sleeve 256, an outer ring closing valve 258 and an inner ring closing port 259; so that the driving member 250 stably provides driving power by the pressure of the liquid. The driving member 250 is connected with the fixed part and the movable part through the inner ring closing opening 259 respectively, and the force of the outer ring closing valve 258 and the angle between the upper end fixing shaft 251 and the lower end fixing shaft 257 can ensure that the fixed part is tightly matched with the driving member 250. The initial friction force and the stretching smoothness of the hydraulic telescopic rod are adjusted by the oil pressure adjusting valve 254, the upper end telescopic sleeve 252 and the lower end telescopic sleeve 256, and the driving member 250 can be ensured to provide enough supporting force in the initial state, so that the whole supporting device 200 can bear the gravity of the body 100. The pressure sensor 253 may monitor the pressure of the hydraulic structure in real time, and the pressure sensor 253 is connected to the processor so that the processor controls the distance that the movable portion moves relative to the fixed portion based on the pressure of the pressure sensor 253.

For another example, as shown in fig. 10, the support assembly 201 may include: a first support 310 and a second support 320. The first supporting member 310 is used for abutting against the carrying surface, and the first supporting member 310 is rotatably connected with the sliding member 230; the second supporting member 320 is used for abutting against the bearing surface, and the second supporting member 320 is rotatably connected with the slider 230; so that the body 100 is supported by the first support 310 and the second support 320 together through the slider 230.

In this example, the structure of the first support 310 is not limited. For example, the first support 310 may be a rod-like structure.

Here, the first support member 310 and the sliding member 230 may be rotatably connected by a rotation shaft structure.

In this example, the structure of the second supporter 320 is not limited. For example, the second support 320 may be a rod-shaped structure.

Here, the second supporting member 320 and the slider 230 may be rotatably connected by a rotating shaft structure.

In this example, the second support 320 and the first support 310 may be connected to the same position of the slider 230, or may be connected to different positions of the slider 230.

In this example, the height at which the first support 310 supports the body 100 is adjustable; the height of the second support 320 supporting the body 100 can be adjusted; so that the supporting height of the body 100 can be changed by the first and second supports 310 and 320.

Here, the implementation manner in which the height of the body 100 supported by the first support 310 is adjustable and the height of the body 100 supported by the second support 320 is adjustable is not limited. For example, the first support 310 may include; the first fixed part is used for abutting against the bearing surface; a first movable portion movably connected to said first fixed portion, the first movable portion being movable relative to said first fixed portion, the first movable portion being rotatably connected to said slider 230; the second supporter 320 may include; the second fixed part is used for abutting against the bearing surface; a second movable portion is movably connected to the second fixed portion, the second movable portion being movable relative to the second fixed portion, the second movable portion being rotatably connected to the slider 230. Here, the manner of movably connecting the first movable portion and the first fixed portion, and the manner of movably connecting the second movable portion and the second fixed portion are similar to the above-mentioned manner of movably connecting the movable portion and the fixed portion, and are not described herein again.

In this example, as shown in fig. 11, the first support 310 may include: a first support part 311 and a first support part 312. The first mount portion 311 is used for abutting against the bearing surface; the first support portion 312 is rotatably connected to the first support portion 311, and the first support portion 312 is rotatably connected to the slider 230. The second supporter 320 may include: a second seat portion 321 and a second support portion 322. The second seat portion 321 is used for abutting against the bearing surface; the second supporting portion 322 is rotatably connected to the second supporting portion 321, and the second supporting portion 322 is rotatably connected to the sliding member 230; in the support posture, the first support part 312 is rotatable with respect to the first pedestal part 311 to support the body 100 in the longitudinal direction of the first support part 312; the second supporting portion 322 can rotate relative to the second seating portion 321 to support the body 100 in a longitudinal direction of the second supporting portion 322, as shown in fig. 12; so as to increase the area of the body 100 supported by the supporting member 201 and improve the stability of the support of the supporting member 201.

Here, the structure of the first holder portion 311 is not limited. For example, the first seat portion 311 may have a rod-shaped structure.

Here, the structure of the first support 312 is not limited. For example, the first support part 312 may have a rod-shaped structure.

Here, the first supporting portion 312 and the first supporting portion 311 may be rotatably connected by a rotating shaft structure, and the first supporting portion 312 and the slider 230 may be rotatably connected by a rotating shaft structure.

Here, the structure of the second seat portion 321 is not limited. For example, the second support portion 321 may have a rod-shaped structure.

Here, the structure of the second support portion 322 is not limited. For example, the second support 322 may be a rod-shaped structure.

Here, the second supporting portion 322 and the second supporting portion 321 may be rotatably connected by a rotating shaft structure, and the second supporting portion 322 and the sliding member 230 may be rotatably connected by a rotating shaft structure.

Here, the first seating part 311 and the second seating part 321 may be located at opposite sides of the slider 230. At this time, in the supporting posture, the direction in which the first supporting portion 312 rotates relative to the first supporting seat is opposite to the direction in which the second supporting portion 322 rotates relative to the second supporting seat, so that the first supporting portion 312 and the second supporting portion 322 symmetrically support the body 100.

As an example, the height of the first seating portion 311 can be adjusted, and the height of the second seating portion 321 can be adjusted so that the first and second supporters 310 and 320 can change both the height of the support body 100 and the area of the support body 100. Here, the height adjustment of the first supporting member 311 is implemented in a manner similar to that of the first supporting member 310, and the height adjustment of the second supporting member 321 is implemented in a manner similar to that of the second supporting member 320, and thus, the detailed description thereof is omitted.

In some optional implementations of the embodiments of the present application, the supporting device 200 may include at least two supporting members, a first end of the at least two supporting members being rotatably disposed in the second sliding slot of the body 100; as shown in fig. 13, in the display attitude, the first areas are formed between the first ends of the at least two support members, and in the case where the body 100 is rotated relative to the at least two support members to the support attitude by an external force, as shown in fig. 15, the first ends of the at least two support members are movable within the second chute such that the distance between the adjacent support members increases, and the second areas are formed between the first ends of the at least two support members; so that the support device 200 can more stably support the body 100 in the support attitude.

In this implementation, the structure of the support member is not limited. For example, the support may be a rod-like structure. As an example, the support may also include: a fixed part and a movable part. The fixing part is used for abutting against the bearing surface; the movable part is movably connected with the fixed part, the movable part can move relative to the fixed part, and the first end of the movable part is rotatably arranged in the second sliding groove of the body 100; in the case where the movable portion moves relative to the fixed portion, the distance between the body 100 and the fixed portion varies; so that the supporting height of the body 100 is changed by the movable portion moving relative to the fixed portion.

Here, the first ends of the at least two supporting members may be rotatably disposed in the second sliding groove of the body 100 by a rotating shaft structure. Of course, the first ends of the at least two supporting members may be rotatably disposed in the second sliding slot of the body 100 through a ball head structure.

Here, the number of the supporting members is not limited. For example, as shown in fig. 13 and 14, the number of the supporting members is two. For another example, as shown in fig. 16 and 17, the number of the supporting members is four.

In this implementation, the implementation that the first ends of the at least two supporting members can move in the second sliding chute to increase the distance between the adjacent supporting members is not limited.

For example, as shown in fig. 16 and 17, the supporting device 200 includes: a third support 330, a fourth support 340, a fifth support 350, a sixth support 360, and a locking member 370. A first end of the third supporting member 330 is rotatably disposed in the first sub-second sliding slot 121 of the body 100, and the third supporting member 330 can be maintained at a fifth position relative to the body 100; a first end of the fourth supporting member 340 is rotatably disposed in the second sub-second sliding slot 122 of the body 100, the fourth supporting member 340 is disposed opposite to the third supporting member 330, and the fourth supporting member 340 can be maintained at a sixth position relative to the body 100; a first end of the fifth supporting member 350 is rotatably disposed in the third sub-second sliding slot 123 of the main body 100, and the fifth supporting member 350 can be maintained at a seventh position relative to the main body 100; a first end of a sixth supporting member 360 is rotatably disposed in the fourth sub-second sliding slot 124 of the main body 100, the sixth supporting member 360 is disposed opposite to the fifth supporting member 350, and the sixth supporting member 360 can be maintained at an eighth position relative to the main body 100; a locking member 370 is disposed on the body 100, and the locking member 370 can be connected to and disconnected from the third support 330, the fourth support 340, the fifth support 350, and the sixth support 360, respectively; in the display position, the locking members 370 are respectively connected to the third support 330, the fourth support 340, the fifth support 350, and the sixth support 360, and the third support 330, the fourth support 340, the fifth support 350, and the sixth support 360 are supported on the first region of the body 100, as shown in fig. 16; under the action of external force, the body 100 rotates to a supporting posture, the locking member 370 rotates along with the body 100 to be disconnected from the third support member 330, the fourth support member 340, the fifth support member 350 and the sixth support member 360, the third support member 330 moves to the fifth position, the fourth support member 340 moves to the sixth position, the fifth support member 350 moves to the seventh position, the sixth support member 360 moves to the eighth position, and the third support member 330, the fourth support member 340, the fifth support member 350 and the sixth support member 360 are supported in the second area of the body 100.

In this example, the structure of the third support 330, the structure of the fourth support 340, the structure of the fifth support 350, and the structure of the sixth support 360 are not limited. For example, the third support 330, the fourth support 340, the fifth support 350, and the sixth support 360 may be rod-shaped structures or cylindrical structures.

In this example, the first end of the third supporting member 330 may be rotatably disposed in the first sub-second sliding slot 121 of the body 100 through a rotating shaft structure or a ball head structure, so that the body 100 can rotate relative to the third supporting member 330, and the third supporting member 330 can move in the first sub-second sliding slot 121 relative to the body 100.

Here, the implementation manner in which the third support 330 can be maintained at the fifth position with respect to the body 100 is not limited. For example, as shown in fig. 17, the electronic device may further include: the first deforming member 131 and the first deforming member 131 are respectively connected to the third supporting member 330 and the body 100, and the first deforming member 131 enables the third supporting member 330 to be maintained at a fifth position relative to the body 100 by a deforming force. Here, the structure of the first transformation member 131 is not limited. For example, the first deforming member 131 may be a spring.

In this example, the first end of the fourth supporting member 340 may be rotatably disposed in the second sub-second sliding slot 122 of the body 100 through a rotating shaft structure or a ball head structure, so that the body 100 can rotate relative to the fourth supporting member 340, and the fourth supporting member 340 can move in the second sub-second sliding slot 122 relative to the body 100.

Here, the implementation manner in which the fourth supporter 340 can be maintained at the sixth position with respect to the body 100 is not limited. For example, as shown in fig. 17, the electronic device may further include: the second deforming member 132 and the second deforming member 132 are respectively connected to the fourth supporting member 340 and the body 100, and the second deforming member 132 enables the fourth supporting member 340 to be maintained at a sixth position relative to the body 100 through a deforming force. Here, the structure of the second transformation member 132 is not limited. For example, the second deforming member 132 may be a spring.

In this example, a first end of the fifth supporting member 350 may be rotatably disposed in the third sub-second sliding slot 123 of the body 100 through a rotating shaft structure or a ball head structure, so that the body 100 can rotate relative to the fifth supporting member 350, and the fifth supporting member 350 can move relative to the body 100 in the third sub-second sliding slot 123.

Here, the implementation manner in which the fifth supporter 350 can be maintained at the seventh position with respect to the body 100 is not limited. For example, as shown in fig. 17, the electronic device may further include: the third deforming member 133 and the third deforming member 133 are respectively connected to the fifth supporting member 350 and the body 100, and the third deforming member 133 enables the fifth supporting member 350 to be maintained at a seventh position with respect to the body 100 by a deforming force. Here, the structure of the third transformation member 133 is not limited. For example, the third transformation member 133 may be a spring.

In this example, a first end of the fifth supporting member 350 may be rotatably disposed in the fourth sub-second sliding slot 124 of the body 100 through a rotating shaft structure or a ball head structure, so that the body 100 can rotate relative to the fifth supporting member 350, and the fifth supporting member 350 can move relative to the body 100 in the fourth sub-second sliding slot 124.

Here, the implementation manner in which the fifth supporter 350 can be maintained at the eighth position with respect to the body 100 is not limited. For example, as shown in fig. 17, the electronic device may further include: the fourth deforming member 134 and the fourth deforming member 134 are respectively connected to the fifth supporting member 350 and the body 100, and the fourth deforming member 134 enables the fifth supporting member 350 to be maintained at the eighth position relative to the body 100 by a deforming force. Here, the structure of the fourth transformation member 134 is not limited. For example, the fourth deforming member 134 may be a spring.

In this example, the structure of the locker 370 is not limited. For example, the locking member 370 may have a rod-shaped structure or a plate-shaped structure.

Here, the locker 370 may be fixed to the body 100 so that the body 100 can be rotated together with the locker. Of course, the locking member 370 may be coupled to the body 100 by a screw structure; so that the body 100 and the belt lock rotate in the same or different directions.

Here, the implementation manner in which the locker 370 can be connected and disconnected to and from the third support 330, the fourth support 340, the fifth support 350, and the sixth support 360, respectively, is not limited. For example, the lock member 370 may be a threaded connector, and in the display attitude, the lock member 370 is threadedly connected to the third support 330, the fourth support 340, the fifth support 350, and the sixth support 360, respectively; under the action of external force, the body 100 rotates to the support posture, and the locking member 370 is respectively disconnected from the third support member 330, the fourth support member 340, the fifth support member 350 and the sixth support member 360 in a threaded manner.

As an example, as shown in fig. 17, the supporting device 200 may further include: a first connecting rod 381 and a second connecting rod 382, wherein both ends of the first connecting rod 381 are respectively connected with the third supporting member 330 and the fifth supporting member 350, and the middle part of the first connecting rod 381 can be connected or disconnected with the locker 370 through threads; two ends of the second connecting rod 382 are respectively connected with the fourth supporting part 340 and the sixth supporting part 360, and the middle part of the second connecting rod 382 can be connected or disconnected with the locking part 370 through threads; as shown in fig. 16 and 18, in the display attitude, the lock member 370 is connected to the third support member 330 and the fifth support member 350 via the first connecting rod 381, and the lock member 370 is connected to the fourth support member 340 and the sixth support member 360 via the second connecting rod 382, respectively; the third, fourth, fifth and sixth supporters 330, 340, 350 and 360 are supported at a first region of the body 100; under the action of external force, the body 100 rotates to the support posture, as shown in fig. 17 and 19, as the body 100 rotates to disconnect from the first connecting rod 381 and the second connecting rod 382, the locking member 370 moves to the fifth position, the fourth support 340 moves to the sixth position, the fifth support 350 moves to the seventh position, the sixth support 360 moves to the eighth position, and the third support 330, the fourth support 340, the fifth support 350 and the sixth support 360 are supported at the second region of the body 100.

In some optional implementations of embodiments of the present application, the electronic device may further include: the device comprises a first detection component, a second detection component and a processor. The first detection assembly is used for detecting the height of an operator; the second detection assembly is used for detecting the pose of the body 100; the processor is used for controlling the supporting height of the supporting device 200 based on the height of the operator detected by the first detection component; the processor is used for controlling the working mode of the electronic equipment based on the pose of the body 100 detected by the second detection component; the electronic equipment can automatically adjust the height and the working mode, and the adaptability of the electronic equipment is improved.

In this embodiment, the first detection unit is not limited in structure as long as the height of the operator can be detected. For example, the first detection assembly may include an ultrasonic detection device.

In the present implementation, the structure of the second detection assembly is not limited as long as the posture of the body 100 can be detected. For example, the second detection assembly may include an angle sensor by which the posture of the body 100 is determined by detecting the angle at which the body 100 is rotated relative to the support device 200. For another example, the second detection assembly may include a gyroscope by which the posture of the body 100 is detected.

In this implementation, the processor controlling the support height of the support device 200 based on the height of the operator detected by the first detection assembly may include: the processor controls the drive member 250 to drive the movable part to move relative to the fixed part based on the height of the operator detected by the first detection assembly.

In this implementation, the processor controlling the operating mode of the electronic device based on the pose of the body 100 detected by the second detection assembly may include: a processor for controlling the electronic device in a writing mode based on the second detection component detecting that the body 100 is in the display pose; a processor is configured to control the electronic device to be in a desktop interaction mode based on the second detection component detecting that the body 100 is in the support pose.

According to the electronic device of the embodiment of the application, the supporting device 200 can enable the body 100 to have two states of displaying pose and supporting pose, so that the using state of the electronic device is increased, and the adaptability of the electronic device is improved

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. An electronic device, the electronic device comprising:

the body is provided with a plurality of grooves,

the supporting device is connected with the body, can rotate and move relative to the body and is used for supporting the body to present a display pose and a supporting pose;

in the display attitude, the support device is supported on a first area of the body, the body is rotatable relative to the support device under an external force, at least part of the support device is movable relative to the body as the body rotates, and the body is rotatable relative to the support device from the display attitude to the support attitude; in the supporting posture, the supporting device is supported on the second area of the body; wherein the area of the second region is greater than the area of the first region;

the first end of the supporting device is rotatably connected with the body, the second end of the supporting device is movably connected with the body, and the second end of the supporting device can rotate relative to the first end of the supporting device;

in the display pose, a first end of the supporting device is supported on a first area of the body, the body can rotate relative to the supporting device under the action of external force, the first end of the supporting device can rotate along with the rotation of the body, and a second end of the supporting device can move relative to the body along with the rotation of the first end of the supporting device; the body rotates relative to the supporting device from the display pose to the supporting pose, and the second end of the supporting device supports the third area of the body; wherein the second region is formed between the third region and the first region.

2. The electronic device of claim 1, the support apparatus comprising:

the supporting assembly is used for abutting against the bearing surface;

the sliding part is at least partially clamped in the first sliding groove of the body, movably connected with the body and rotatably connected with the supporting component;

the first end of the first connecting piece is rotatably connected with the first position of the body, and the second end of the first connecting piece is rotatably connected with the first end of the sliding piece;

the first end of the second connecting piece is rotatably connected with the second position of the body, and the second end of the second connecting piece is rotatably connected with the second end of the sliding piece; a first distance is formed between the second position and the first position; the second location and the first location form the first region therebetween;

the elastic piece is respectively connected with the first connecting piece and the second connecting piece, is in a tensioned state and is used for pulling the second connecting piece to move relative to the first connecting piece;

under the display pose, the body rotates in a first direction under the action of an external force to drive the first connecting piece and the second connecting piece to rotate in a second direction, and the first connecting piece and the second connecting piece drive the sliding piece to rotate in the first direction relative to the body and slide from a third position to a fourth position in the first sliding groove; when the slider slides to the fourth position, the slider supports the third region of the body, and the body is in the support attitude;

wherein the second direction is opposite to the first direction.

3. The electronic device of claim 2, the support assembly comprising:

the first supporting piece is used for abutting against the bearing surface, is rotatably connected with the sliding piece, and supports the height of the body to be adjustable;

and the second supporting piece is abutted to the bearing surface and is rotatably connected with the sliding piece, so that the height of the body can be adjusted.

4. The electronic device of claim 3, the first support comprising:

the first support part is used for abutting against the bearing surface;

the first supporting part is rotatably connected with the first support part and is rotatably connected with the sliding part;

the second support member includes:

the second support part is used for abutting against the bearing surface;

the second supporting part is rotatably connected with the second support part and is rotatably connected with the sliding part;

in the support posture, the first support part is rotatable relative to the first seating part to support the body in a longitudinal direction of the first support part; the second support part can rotate relative to the second support part to support the body in the length direction of the second support part;

wherein the first and second seat portions are located on opposite sides of the slider.

5. The electronic device of claim 2, the support assembly comprising:

the fixing part is used for abutting against the bearing surface;

a movable part movably connected with the fixed part, capable of moving relative to the fixed part and rotatably connected with the sliding part;

in the case where the movable portion moves relative to the fixed portion, the distance between the body and the fixed portion changes;

and the driving piece is respectively connected with the fixed part and the movable part and is used for driving the movable part to move relative to the fixed part.

6. The electronic device of claim 1, wherein a second sliding slot is provided on the body, the supporting device comprises at least two supporting members, and first ends of the at least two supporting members are rotatably disposed in the second sliding slot of the body;

the first end of one of the supporting parts is the first end of the supporting device, and the first end of the other supporting part is the second end of the supporting device;

in the display position, the first areas are formed between the first ends of the at least two support members, and when the body rotates relative to the at least two support members to the support position under the action of external force, the distance from the first ends of the at least two support members to the position between the adjacent support members in the second sliding chute is increased, and the second areas are formed between the first ends of the at least two support members.

7. The electronic device of claim 6, the support apparatus comprising:

a third supporting piece, a first end of which is rotatably arranged in the first sub-second sliding groove of the body and can be maintained at a fifth position relative to the body;

a fourth supporting member, a first end of which is rotatably arranged in the second sub-second sliding groove of the body, is arranged opposite to the third supporting member, and can be maintained at a sixth position relative to the body;

a fifth supporting piece, a first end of which is rotatably arranged in the third sub-second sliding groove of the body and can be maintained at a seventh position relative to the body;

a sixth supporting member, a first end of which is rotatably disposed in the fourth sub-second sliding slot of the body, is disposed opposite to the fifth supporting member, and can be maintained at an eighth position relative to the body;

the locking piece is arranged on the body and can be connected with and disconnected from the third support piece, the fourth support piece, the fifth support piece and the sixth support piece respectively;

in the display posture, the locking member is connected with a third support member, the fourth support member, the fifth support member and a sixth support member, which are supported on the first region of the body; under the action of external force, the body rotates to a supporting pose, the locking piece rotates to be disconnected with the third supporting piece, the fourth supporting piece, the fifth supporting piece and the sixth supporting piece along with the body, the third supporting piece moves to the fifth position, the fourth supporting piece moves to the sixth position, the fifth supporting piece moves to the seventh position, the sixth supporting piece moves to the eighth position, and the third supporting piece, the fourth supporting piece, the fifth supporting piece and the sixth supporting piece are supported in the second area of the body.

8. The electronic device of claim 1, further comprising:

the first detection assembly is used for detecting the height of an operator;

the second detection assembly is used for detecting the pose of the body;

a processor for controlling the support height of the support device based on the height of the operator detected by the first detection assembly; the electronic device is used for controlling the working mode of the electronic device based on the pose of the body detected by the second detection component;

wherein, in the display pose, the processor is used for controlling the electronic equipment to be in a writing mode; in the support pose, the processor is used for controlling the electronic equipment to be in a desktop interaction mode.

9. The electronic device of any of claims 1-8, the electronics further comprising:

the display device is arranged on the first surface of the body;

the supporting device is connected with the second surface of the body; wherein the second surface and the first surface are disposed oppositely.

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