CN107390783B - Support and adjusting method thereof - Google Patents

Abstract

The invention discloses a bracket and an adjusting method thereof, wherein the bracket is arranged on a first side surface of electronic equipment, and comprises: a rotating assembly and a stopping assembly; the rotating assembly comprises a support frame, a first driving structure and a first gear structure, wherein the first driving structure and the first gear structure are positioned at the first end of the support frame; the stopping assembly comprises a sliding limiting structure and a second gear structure positioned on the sliding limiting structure; when the electronic equipment obtains a control instruction for adjusting the support, the first driving structure drives the support frame to rotate to a target angle relative to the first side surface of the electronic equipment, the sliding limiting structure moves along a first direction to drive the second gear structure to move to a position where the second gear structure is abutted against the first gear structure, and resistance acting on the first gear structure through the second gear structure maintains the support frame to be fixed at the position corresponding to the target angle.

Description

Support and adjusting method thereof

Technical Field

The present disclosure relates to a bracket for an electronic device, and more particularly, to a bracket and an adjusting method thereof.

Background

Tablets are popular with users for their portability and increasingly greater processing power. In order to increase the use scene of the tablet, a support for supporting the tablet is generally provided on the back of the screen, so that a user can conveniently view and operate the tablet.

However, the current tablet requires manual adjustment of the opening angle of the stand, and when the hands of the user are occupied by other events, the stand cannot be adjusted.

Disclosure of Invention

In order to solve the technical problem, the embodiment of the invention provides a bracket and an adjusting method thereof.

The bracket provided by the embodiment of the invention is arranged on a first side surface of electronic equipment, and comprises: a rotating assembly and a stopping assembly;

the rotating assembly comprises a support frame, a first driving structure and a first gear structure, wherein the first driving structure and the first gear structure are positioned at the first end of the support frame;

the stopping assembly comprises a sliding limiting structure and a second gear structure positioned on the sliding limiting structure;

when the electronic equipment obtains a control instruction for adjusting the support, the first driving structure drives the support frame to rotate to a target angle relative to the first side surface of the electronic equipment, the sliding limiting structure moves along a first direction to drive the second gear structure to move to a position where the second gear structure is abutted against the first gear structure, and resistance acting on the first gear structure through the second gear structure maintains the support frame to be fixed at the position corresponding to the target angle.

In the embodiment of the present invention, the rotating assembly further comprises a supporting roller at the second end of the supporting frame, wherein,

when the supporting frame rotates relative to the first side surface of the electronic device, the supporting roller slides on the bearing surface where the electronic device is located.

In an embodiment of the present invention, the first driving structure and the first gear structure are respectively located at two sides of the first end of the supporting frame, wherein the first driving structure and the gear structure are respectively fixedly connected to the first end of the supporting frame.

In the embodiment of the invention, the sliding limiting structure is provided with a gear strip structure; the stopping assembly further comprises a second driving structure and a third gear structure connected with the second driving structure, and the third gear structure is abutted to the gear rack structure on the sliding limiting structure;

the second driving structure drives the third gear structure to rotate, and the third gear structure acts on the gear rack structure in a rotating mode so as to drive the sliding limiting structure to move along the first direction.

In the embodiment of the invention, the second gear structure is fixedly connected with the torsion structure;

the second gear structure exerts resistance on the first gear structure which is abutted against the second gear structure under the action of the torsion structure, so that the support frame is maintained to be fixed at the position corresponding to the target angle.

In the embodiment of the invention, in the process of rotating the rotating structure, the sliding limiting structure moves along the second direction to drive the second gear structure to move to a position separated from the first gear structure.

In the embodiment of the invention, when the rotating structure stops rotating, the sliding limiting structure moves along a first direction to drive the second gear structure to move to a position where the second gear structure abuts against the first gear structure.

In the embodiment of the invention, the first end of the support frame is further provided with a fixing support, and the fixing support is fixed in the first side face of the electronic equipment.

The adjusting method of the bracket provided by the embodiment of the invention comprises the following steps:

obtaining a first control instruction for adjusting the working mode of the electronic equipment;

generating a second control instruction for adjusting a bracket based on the first control instruction, wherein the bracket is positioned on the first side surface of the electronic equipment;

and sending the second control instruction to the bracket to control the rotating assembly of the bracket to rotate to a position which is at a target angle relative to the first side of the electronic equipment, and maintaining the bracket to be fixed at the position corresponding to the target angle through the stopping assembly of the bracket.

In an embodiment of the present invention, the generating a second control instruction for adjusting a stent based on the first control instruction includes:

if the first control instruction is used for adjusting the electronic equipment to be in a first working mode, generating a second control instruction for adjusting a support, wherein the second control instruction is used for controlling a rotating assembly of the support to rotate to a position which forms a first angle relative to the first side of the electronic equipment, and when the rotating assembly forms the first angle relative to the first side of the electronic equipment, the support is integrally accommodated in a groove of the first side;

and if the first control instruction is used for adjusting the electronic equipment to be in a second working mode, generating a second control instruction for adjusting the support, wherein the second control instruction is used for controlling the rotating assembly of the support to rotate to a position at a second angle relative to the first side of the electronic equipment, and when the rotating assembly is at the second angle relative to the first side of the electronic equipment, the support is in an unfolded state relative to the first side.

In the technical solution of the embodiment of the present invention, a bracket is disposed on a first side surface of an electronic device, and the bracket includes: a rotating assembly and a stopping assembly; the rotating assembly comprises a support frame, a first driving structure and a first gear structure, wherein the first driving structure and the first gear structure are positioned at the first end of the support frame; the stopping assembly comprises a sliding limiting structure and a second gear structure positioned on the sliding limiting structure; when the electronic equipment obtains a control instruction for adjusting the support, the first driving structure drives the support frame to rotate to a target angle relative to the first side surface of the electronic equipment, the sliding limiting structure moves along a first direction to drive the second gear structure to move to a position where the second gear structure is abutted against the first gear structure, and resistance acting on the first gear structure through the second gear structure maintains the support frame to be fixed at the position corresponding to the target angle. By adopting the technical scheme of the embodiment of the invention, the unfolding angle of the bracket can be automatically adjusted according to the control instruction, so that the automatic control of the bracket is realized, the hands of a user are liberated, and the user experience is improved.

Drawings

FIG. 1 is a schematic flow chart of a method of adjusting a stent according to an embodiment of the present invention;

fig. 2 is a schematic view of the lying mode according to the embodiment of the present invention;

FIG. 3 is a diagram illustrating an input mode according to an embodiment of the present invention;

FIG. 4 is a schematic view of a standing mode of an embodiment of the present invention;

FIG. 5 is a first schematic view of a bracket according to an embodiment of the present invention;

FIG. 6 is a schematic structural component diagram II of a bracket according to an embodiment of the present invention;

FIG. 7 is a functional schematic diagram of a cradle according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a second gear structure according to an embodiment of the present invention.

Detailed Description

So that the manner in which the features and aspects of the embodiments of the present invention can be understood in detail, a more particular description of the embodiments of the invention, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings.

Fig. 1 is a schematic flow chart of an adjusting method of a stent according to an embodiment of the present invention, as shown in fig. 1, the adjusting method includes the following steps:

step 101: a first control instruction for adjusting the working mode of the electronic equipment is obtained.

In an embodiment of the present invention, an electronic device, particularly a tablet, has a bracket disposed on a back surface of the tablet, and the bracket is accommodated in a groove on the back surface of the tablet in an initial state. As shown in fig. 2, the operation mode of the flat plate is the lying mode.

In the embodiment of the invention, when a user wants to adjust the working mode of the electronic equipment, a first control instruction for adjusting the working mode of the electronic equipment is sent. Here, the first control instruction may be a voice instruction, a gesture instruction, or the like.

Taking a voice instruction as an example, the electronic device has a voice acquisition module, and when the voice acquisition module is used to acquire the voice sent by the user, the voice is analyzed to obtain semantic content of the voice, for example, "control the electronic device to be in the first working mode", where the opening angle of the support corresponding to the first working mode is 40 degrees.

Taking a finger instruction as an example, the electronic device has a camera, and when the camera is used to collect a gesture made by a user, the gesture image is analyzed to obtain the meaning of the gesture, for example, the five fingers are opened to represent that "the electronic device is controlled to be in the second working mode", where the opening angle of the bracket corresponding to the second working mode is 100 degrees.

Step 102: and generating a second control instruction for adjusting a bracket based on the first control instruction, wherein the bracket is positioned on the first side surface of the electronic equipment.

In the embodiment of the invention, the second control instruction is used for adjusting the bracket, the first control instruction carries the working mode to be adjusted, and the working mode and the angle have a corresponding relation, so that after the working mode to be adjusted is determined, the angle to be adjusted can be determined according to the corresponding relation between the working mode and the angle, and then the second control instruction carrying the angle information is generated.

Step 103: and sending the second control instruction to the bracket to control the rotating assembly of the bracket to rotate to a position which is at a target angle relative to the first side of the electronic equipment, and maintaining the bracket to be fixed at the position corresponding to the target angle through the stopping assembly of the bracket.

In an embodiment of the present invention, a bracket includes: a rotating assembly and a stopping assembly; the rotating assembly comprises a support frame, a first driving structure and a first gear structure, wherein the first driving structure and the first gear structure are positioned at the first end of the support frame; the stopping assembly comprises a sliding limiting structure and a second gear structure positioned on the sliding limiting structure; when the electronic equipment obtains a control instruction for adjusting the support, the first driving structure drives the support frame to rotate to a target angle relative to the first side surface of the electronic equipment, the sliding limiting structure moves along a first direction to drive the second gear structure to move to a position where the second gear structure is abutted against the first gear structure, and resistance acting on the first gear structure through the second gear structure maintains the support frame to be fixed at the position corresponding to the target angle.

In the embodiment of the present invention, the electronic device has two main operation modes, namely, a first operation mode (i.e., lying mode) and a second operation mode (i.e., unfolding mode).

If the first control instruction is used for adjusting the electronic device to be in a first working mode (i.e. lying down mode), generating a second control instruction for adjusting a bracket, where the second control instruction is used for controlling a rotating component of the bracket to rotate to a position at a first angle relative to the first side of the electronic device, where when the rotating component is at the first angle relative to the first side of the electronic device, the bracket is entirely received in a groove of the first side, as shown in fig. 2;

and if the first control instruction is used for adjusting that the electronic equipment is in a second working mode (namely, an unfolding mode), generating a second control instruction for adjusting a support, wherein the second control instruction is used for controlling a rotating assembly of the support to rotate to a position at a second angle relative to the first side of the electronic equipment, and when the rotating assembly is at the second angle relative to the first side of the electronic equipment, the support is in an unfolding state relative to the first side.

In the above scheme, the second operation mode may be further specifically subdivided into more modes, for example: input mode (e.g., stent deployment angle of 40 degrees), as shown in fig. 3; standing mode (e.g., with the stand deployed at 100 degrees), as shown in fig. 4.

According to the technical scheme of the embodiment of the invention, the rotating assembly of the bracket is controlled to automatically rotate to various required working modes through the instruction of the user, and then the bracket is stopped to be in the stable state in the working mode, so that the automatic adjustment of the flat bracket is realized, the complexity of manual adjustment is avoided, and the user experience is improved.

Fig. 5 is a schematic structural assembly diagram of a first bracket according to an embodiment of the present invention, as shown in fig. 5, the bracket is disposed on a first side surface of an electronic device, and the bracket includes: a rotating component 501 and a stopping component 502;

the rotating assembly 501 comprises a support frame 5011, a first driving structure 5012 and a first gear structure 5013 at a first end of the support frame 5011;

the stopping assembly 502 comprises a sliding limit structure 5021 and a second gear structure 5022 positioned on the sliding limit structure 5021;

when the electronic device obtains a control command for adjusting the bracket, the first driving structure 5012 drives the support frame 5011 to rotate to a target angle relative to the first side of the electronic device, the sliding limiting structure 5021 moves along a first direction to drive the second gear structure 5022 to move to a position abutting against the first gear structure 5013, and the support frame 5011 is maintained to be fixed at the position corresponding to the target angle by the resistance of the second gear structure 5022 acting on the first gear structure 5013.

In the embodiment of the present invention, the first side surface of the electronic device refers to a back surface of the electronic device, where the back surface is a front surface of the electronic device, and generally, a display screen is disposed on the front surface of the electronic device.

Fig. 6 is a schematic structural composition diagram of a second bracket according to an embodiment of the present invention, as shown in fig. 6, the bracket is disposed on a first side surface of an electronic device, and the bracket includes: a rotating component 501 and a stopping component 502;

the rotating assembly 501 comprises a support frame 5011, a first driving structure 5012 and a first gear structure 5013 at a first end of the support frame 5011;

the stopping assembly 502 comprises a sliding limit structure 5021 and a second gear structure 5022 positioned on the sliding limit structure 5021;

when the electronic device obtains a control command for adjusting the bracket, the first driving structure 5012 drives the support frame 5011 to rotate to a target angle relative to the first side of the electronic device, the sliding limiting structure 5021 moves along a first direction to drive the second gear structure 5022 to move to a position abutting against the first gear structure 5013, and the support frame 5011 is maintained to be fixed at the position corresponding to the target angle by the resistance of the second gear structure 5022 acting on the first gear structure 5013.

In one embodiment of the present invention, the rotating assembly 501 further comprises a support roller 5014 at a second end of the support frame 5011, wherein,

when the supporting frame 5011 rotates relative to the first side of the electronic device, the supporting rollers 5014 slide on the bearing surface on which the electronic device is located.

In one embodiment of the present invention, the first driving structure 5012 and the first gear structure 5013 are respectively located at two sides of the first end of the supporting frame 5011, wherein the first driving structure 5012 and the gear structure are respectively fixedly connected with the first end of the supporting frame 5011.

In an embodiment of the present invention, the sliding position-limiting structure 5021 has a gear rack structure; the stopping assembly 502 further includes a second driving structure 5023, a third gear structure 5024 connected with the second driving structure 5023, and the third gear structure 5024 abuts against a gear rack structure on the sliding limiting structure 5021;

the second driving structure 5023 drives the third gear structure 5024 to rotate, and the third gear structure 5024 acts on the rack gear structure in a rotating manner to drive the sliding limiting structure 5021 to move along a first direction.

In an embodiment of the present invention, the second gear structure 5022 is fixedly connected with the torsion structure;

wherein, the second gear structure 5022 exerts resistance on the first gear structure 5013 against the torsion of the torsion structure, thereby maintaining the support bracket 5011 fixed at the position corresponding to the target angle.

In an embodiment of the present invention, during the rotation of the rotating structure, the sliding limit structure 5021 moves in a second direction to drive the second gear structure 5022 to move to a position separated from the first gear structure 5013.

In an embodiment of the present invention, when the rotation structure stops rotating, the sliding limit structure 5021 moves along a first direction to drive the second gear structure 5022 to move to a position abutting against the first gear structure 5013.

In one embodiment of the present invention, the first end of the supporting frame 5011 is further provided with a fixing bracket 5015, and the fixing bracket 5015 is fixed in the first side face of the electronic device.

Fig. 7 is a schematic diagram of the operation of the bracket according to the embodiment of the present invention, as shown in fig. 7, (a) in the diagram, the rotating assembly and the stopping assembly of the bracket are separated, and at this time, the rotating assembly can be rotated by the first driving structure. (b) In the figure, the rotating component of the bracket is abutted against the stopping component, and the torsion of the stopping component maintains the rotating component to be in a static state. Specifically, the method comprises the following steps:

(1) after the flat plate receives the control instruction, the first driving structure is driven to drive the support frame to rotate, the support roller rolls on the table top, and the rolling friction force is far smaller than the sliding friction force of the support frame directly pressing on the table top, so that the support frame can be conveniently and freely folded and unfolded when being opened and closed.

(2) After the support frame is opened from the position 1 to the position 2 (namely a target position), the first driving structure stops driving, and the second driving structure drives the sliding limiting structure to move, so that the second gear structure is in contact with the first gear structure, the support frame is prevented from moving (namely the support frame is locked) through torsion, and the stable stop of the flat plate is realized.

(3) If the instruction is given again to adjust the position of the support frame, the second driving structure drives the sliding limiting structure to move, so that the second gear structure leaves the first gear structure (namely, the support frame is unlocked), and then the first driving structure drives the support frame to rotate again.

Fig. 8 is a schematic view of a second gear structure according to an embodiment of the present invention, and as shown in fig. 8, the second gear structure is connected to a torsion structure to form a torsion-stopping gear. The stop torque gear can ensure the stable stop of the flat plate in any working mode through torque force; meanwhile, when a user wants to directly and manually adjust the support, the support frame is directly stirred so as to overcome the torsion of the stop torsion gear and realize the movement of the support frame.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention 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 invention, and all the changes or substitutions should be covered within the scope of the present invention.

Claims (9)

1. A stand, wherein the stand is disposed on a first side of an electronic device, the stand comprising: a rotating assembly and a stopping assembly;

the rotating assembly comprises a support frame, a first driving structure and a first gear structure, wherein the first driving structure and the first gear structure are positioned at the first end of the support frame; the first driving structure and the first gear structure are respectively and fixedly connected with the first end of the support frame;

the stopping assembly comprises a sliding limiting structure and a second gear structure positioned on the sliding limiting structure;

when the electronic equipment obtains a control instruction for adjusting the support, the first driving structure drives the support frame to rotate to form a target angle relative to the first side surface of the electronic equipment, the sliding limiting structure moves along a first direction to drive the second gear structure to move to a position abutting against the first gear structure, and the support frame is maintained to be fixed at the position corresponding to the target angle through resistance acting on the first gear structure by the second gear structure; the second gear structure is fixedly connected with the torsion structure; and the second gear structure exerts resistance on the first gear structure which is abutted against the second gear structure under the action of the torsion structure, so that the support frame is maintained to be fixed at the position corresponding to the target angle.

2. The stand of claim 1, wherein the swivel assembly further comprises a support roller at the second end of the support bracket, wherein,

when the supporting frame rotates relative to the first side surface of the electronic device, the supporting roller slides on the bearing surface where the electronic device is located.

3. The carrier in accordance with claim 1, wherein said first drive structure and said first gear structure are located on opposite sides of said first end of said support frame.

4. The holder of claim 1, wherein the slide stop structure has a rack and pinion structure thereon; the stopping assembly further comprises a second driving structure and a third gear structure connected with the second driving structure, and the third gear structure is abutted to the gear rack structure on the sliding limiting structure;

the second driving structure drives the third gear structure to rotate, and the third gear structure acts on the gear rack structure in a rotating mode so as to drive the sliding limiting structure to move along the first direction.

5. The bracket of claim 1, wherein during rotation of the rotational structure, the sliding stop structure moves in a second direction to move the second gear structure to a position spaced apart from the first gear structure.

6. The bracket of claim 5, wherein when the rotating structure stops rotating, the sliding limiting structure moves in a first direction to drive the second gear structure to move to a position against the first gear structure.

7. The stand of any one of claims 1 to 6, wherein the first end of the support frame is further provided with a fixing bracket, and the fixing bracket is fixed in the first side face of the electronic device.

8. A method of adjusting a stent, the method comprising:

obtaining a first control instruction for adjusting the working mode of the electronic equipment;

generating a second control instruction for adjusting a bracket based on the first control instruction, wherein the bracket is positioned on the first side surface of the electronic equipment;

sending the second control instruction to the bracket to control the rotating assembly of the bracket to rotate to a position which is at a target angle relative to the first side of the electronic equipment, and maintaining the bracket to be fixed at the position corresponding to the target angle through the stopping assembly of the bracket;

wherein, the support includes: a rotating assembly and a stopping assembly; the rotating assembly comprises a support frame, a first driving structure and a first gear structure, wherein the first driving structure and the first gear structure are positioned at the first end of the support frame; the first driving structure and the gear structure are respectively and fixedly connected with the first end of the support frame; the stopping assembly comprises a sliding limiting structure and a second gear structure positioned on the sliding limiting structure; the second gear structure is fixedly connected with the torsion structure;

the controlling the rotating assembly of the bracket to rotate to a position at a target angle relative to the first side of the electronic device includes:

driving the support frame to rotate to a target angle relative to the first side of the electronic equipment by using the first driving structure;

the maintaining the bracket fixed at the position corresponding to the target angle by the stopping component of the bracket comprises: and the second gear structure of the stopping component exerts resistance on the first gear structure of the rotating component which is abutted against the second gear structure of the stopping component under the action of the torsion structure, so that the bracket is maintained to be fixed at the position corresponding to the target angle.

9. The stent adjustment method of claim 8, wherein generating a second control command for adjusting a stent based on the first control command comprises:

if the first control instruction is used for adjusting the electronic equipment to be in a first working mode, generating a second control instruction for adjusting a support, wherein the second control instruction is used for controlling a rotating assembly of the support to rotate to a position which forms a first angle relative to the first side of the electronic equipment, and when the rotating assembly forms the first angle relative to the first side of the electronic equipment, the support is integrally accommodated in a groove of the first side;

and if the first control instruction is used for adjusting the electronic equipment to be in a second working mode, generating a second control instruction for adjusting the support, wherein the second control instruction is used for controlling the rotating assembly of the support to rotate to a position at a second angle relative to the first side of the electronic equipment, and when the rotating assembly is at the second angle relative to the first side of the electronic equipment, the support is in an unfolded state relative to the first side.

Images