CN104281199B - Method for controlling support, support and electronic equipment - Google Patents

Abstract

The invention discloses a method for controlling a bracket, the bracket and electronic equipment, wherein the bracket is used for supporting first electronic equipment, and can receive an instruction sent by the first electronic equipment, detect whether a first instruction sent by the first electronic equipment is received or not and obtain a first detection result; and when the first detection result shows that a first instruction sent by the first electronic device is received, executing the first instruction, wherein the first instruction is used for controlling the state of the bracket to be changed from the first state to the second state.

Description

Method for controlling support, support and electronic equipment

Technical Field

The present invention relates to the field of electronic devices, and in particular, to a method for controlling a cradle, a cradle and an electronic device.

Background

With the rapid development of electronic devices, electronic devices are applied more and more widely in daily life. The existing electronic equipment has gradually enriched functions such as smart phones, PADs and the like, has strong processing capability, and has network access anytime and anywhere, so that the existing electronic equipment is more and more popular. Meanwhile, when the existing electronic device is placed on a static object such as a table, the electronic device is usually fixed by a bracket, so that the electronic device can be obliquely placed on the static object, and the user has a better visual angle and is more convenient to use.

In the process of implementing the technical solution of the embodiment of the present application, the inventor of the present application finds at least the following technical problems in the prior art:

in the prior art, the technical problem that the intelligence is low due to the fact that the state of a support cannot be automatically adjusted by electronic equipment exists, the existing electronic equipment is separated from the support, the support cannot be controlled by the electronic equipment, the support can only be manually operated to fix the electronic equipment, and the state of the support cannot be automatically adjusted by the electronic equipment, so that the use of a user is inconvenient, and the experience is not good.

Disclosure of Invention

The embodiment of the application provides a method for controlling a support, the support and electronic equipment, and aims to solve the technical problem that in the prior art, the state of the support cannot be automatically adjusted by the electronic equipment, so that the intelligence is low.

The embodiment of the application provides a method for controlling a support, which is applied to the support, wherein the support is used for supporting first electronic equipment, and the support can receive an instruction sent by the first electronic equipment, and the method comprises the following steps: detecting whether a first instruction sent by the first electronic equipment is received or not to obtain a first detection result; and when the first detection result shows that a first instruction sent by the first electronic device is received, executing the first instruction, wherein the first instruction is used for controlling the state of the bracket to be changed from the first state to the second state.

Optionally, when the first detection result indicates that the first instruction sent by the first electronic device is received, executing the first instruction specifically includes: when the first detection result shows that the first instruction sent by the first electronic device is received, acquiring that the current state of the bracket is the first state; and executing the first instruction to control the current state of the bracket to be adjusted from the first state to the second state.

Optionally, the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

Optionally, when the current state of the stent is in the deployed state, the method further includes: receiving a second instruction from the first electronic device when the bracket is at the first position, wherein the second instruction is used for adjusting the position of the bracket; and controlling the current position of the bracket to be adjusted from the first position to a second position different from the first position in response to the second instruction.

Optionally, when the current state of the stent is in the deployed state, the method further includes: receiving a third instruction sent by the first electronic device, wherein the third instruction is used for rotating the bracket; and responding to the third instruction, rotating the bracket to adjust the orientation of the display unit from the first direction to a third direction, so that the display unit always faces the operating body.

The embodiment of the application provides a method for controlling a support, which is applied to first electronic equipment, wherein the first electronic equipment can perform data interaction with the support supporting the first electronic equipment, and the method comprises the following steps: receiving a first operation of a user, and generating a first instruction based on the first operation, wherein the first instruction is used for controlling the state of the bracket to be changed from a first state to a second state; sending the first instruction to the stent.

Optionally, the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

Optionally, when the current state of the stent is detected to be in the deployed state, the method further includes: detecting whether the first electronic equipment receives first information from second electronic equipment; generating a second instruction when the first information is detected, wherein the second instruction is used for adjusting the position of the bracket; sending the second instruction to the cradle.

Optionally, when the current state of the stent is detected to be in the deployed state, the method further includes: detecting whether a first direction of a display unit of the first electronic device matches a second direction of an operation body operating the first electronic device; when the first direction is detected not to be matched with the second direction, generating a third instruction, wherein the third instruction is used for rotating the bracket; and sending the third instruction to the bracket so as to rotate the bracket, and adjusting the orientation of the display unit from the first direction to a third direction, so that the display unit always faces the operation body.

An embodiment of the present application provides a stand for supporting the electronic device, the stand including: the bracket body is movably connected with the electronic equipment; and the electrical element is arranged on the bracket body and used for detecting whether a first instruction sent by the electronic equipment is received or not to obtain a first detection result, and when the first detection result shows that the first instruction sent by the electronic equipment is received, the first instruction is executed, wherein the first instruction is used for controlling the state of the bracket to be converted from the first state to the second state.

Optionally, the electrical component includes a first instruction execution unit, and when the first detection result indicates that the first instruction sent by the first electronic device is received, the first instruction execution unit is configured to acquire that the current state of the bracket is the first state, and then execute the first instruction to control the current state of the bracket to be adjusted from the first state to the second state.

Optionally, the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

An embodiment of the present application provides an electronic device, where the electronic device is capable of performing data interaction with a support supporting the first electronic device, and the electronic device includes: a circuit board: the processing chip is arranged on the circuit board and used for receiving a first operation of a user, generating a first instruction based on the first operation, wherein the first instruction is used for controlling the state of the bracket to be converted from a first state to a second state, and sending the first instruction to the bracket.

Optionally, the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

Optionally, the processing chip includes a second instruction sending unit, configured to detect whether the first electronic device receives first information from a second electronic device when it is detected that the current state of the support is in the expanded state, and generate a second instruction when it is detected that the first information is received, where the second instruction is used to adjust a position of the support and send the second instruction to the support.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

firstly, because the bracket is installed in the first electronic device in the embodiment of the application, when the bracket receives a first instruction sent by the first electronic device, the first instruction is executed, and because the first instruction is used for controlling the state of the bracket to be converted from the first state to the second state, the bracket can change the current state of the bracket when executing the first instruction, so that the state of the bracket can be adjusted through the first instruction, thereby solving the technical problem that in the prior art, the state of the bracket cannot be automatically adjusted by the electronic device, the intelligence is low, further realizing the automatic adjustment of the current state of the bracket, leading to higher intelligent technical effect, leading to more convenient use of a user and better experience of the user.

Secondly, because this application embodiment is the expansion state at the support current state, the orientation of obtaining the display element is first direction with the operation body orientation is the second direction, is detecting first direction with when the second direction does not match, generate and send the third instruction for the support is receiving during the third instruction, rotate the support, in order to incite somebody to action the orientation of display element is followed first direction adjustment to the third direction, makes the display element orientation all the time the operation body, further convenience of customers uses for user's experience is better.

Thirdly, because this application embodiment is in the state of expanding at the support current state just when the support is in the first position, detect whether first electronic equipment receives the first information from second electronic equipment, when receiving first information, generate and send the second instruction, with the current position of support follow the first position adjustment is with the second position that the first position is different makes when first electronic equipment receives first information, the automatic adjustment the current position of support to the suggestion user, make user's experience better.

Drawings

FIG. 1 is a flow chart of a first method of controlling a stent in an embodiment of the present application;

fig. 2 is a structural diagram of a stand in an electronic device in an embodiment of the present application in a deployed state;

FIG. 3 is a flow chart of a second method of controlling a stent in an embodiment of the present application;

FIG. 4 is a schematic structural view of a stent in an embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device in an embodiment of the present application.

Detailed Description

The embodiment of the application provides a method for controlling a support, the support and electronic equipment, and aims to solve the technical problem that in the prior art, the state of the support cannot be automatically adjusted by the electronic equipment, so that the intelligence is low.

In order to solve the technical problems, the general idea of the embodiment of the application is as follows:

according to the embodiment of the application, the support is installed in the first electronic device, when the support receives a first instruction sent by the first electronic device, the first instruction is executed, and the first instruction is used for controlling the state of the support to be converted from the first state to the second state, so that the support can change the current state of the support when the first instruction is executed, the state of the support can be adjusted through the first instruction, the technical problem that in the prior art, the state of the support cannot be automatically adjusted by the electronic device, and the intelligence is low is solved, further, the current state of the support can be automatically adjusted, the intelligence is higher, the use of a user is more convenient, and the experience of the user is better.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example one

An embodiment of the present application provides a method for controlling a support, which is applied to a support, where the support is used to support a first electronic device, and the support is capable of receiving an instruction sent by the first electronic device, where the first electronic device is an electronic device such as a tablet computer, a smart phone, and a notebook computer, and the support is a spring support, for example.

The bracket is provided with an electrical element, and the electrical element is an electronic device such as a processing chip and a single chip microcomputer, so that the bracket can receive an instruction sent by the first electronic device.

Referring to fig. 1, the method includes:

step 101: detecting whether a first instruction sent by the first electronic equipment is received or not to obtain a first detection result;

step 102: and when the first detection result shows that a first instruction sent by the first electronic device is received, executing the first instruction, wherein the first instruction is used for controlling the state of the bracket to be changed from the first state to the second state.

In step 101, whether a first instruction sent by the first electronic device is received is detected, and a first detection result is obtained.

In a specific implementation process, the first instruction is used to control the state of the cradle to be changed from a first state to a second state, an electrical component on the cradle detects whether a first instruction sent by the first electronic device is received or not to obtain the first detection result, when the first detection result indicates that the first instruction is received, step 102 is executed, and when the first detection result indicates that the first instruction is not received, the cradle does not perform any processing.

In practical applications, when the first instruction is an electrical signal 01001001, and the electrical component receives the electrical signal, it may be determined that the first detection result indicates that the first instruction is received; when the electrical signal is not received, it may be determined that the first detection result indicates that the first instruction is not received.

When the first detection result indicates that a first instruction sent by the first electronic device is received, step 102 is executed to execute the first instruction, where the first instruction is used to control the state of the bracket to change from the first state to the second state.

In a specific implementation process, when the first detection result indicates that the first instruction sent by the first electronic device is received, acquiring that the current state of the bracket is the first state; and executing the first instruction to control the current state of the bracket to be adjusted from the first state to the second state.

The bracket is mounted in the first electronic device or on a shell of the first electronic device and can be ejected out of the first electronic device, wherein when the bracket is not ejected out of the first electronic device, the current state of the bracket can be determined to be a retracted state; when the stand is ejected from the first electronic device, the stand current state of the stand may be determined to be the deployed state.

Further, the first state may be the deployed state or the stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

Specifically, when the first state is the deployed state, the bracket receives the first instruction, and controls the current state of the bracket to be adjusted from the deployed state to the stowed state; when the first state is the retracted state, the support receives the first instruction, and then the current state of the support is controlled to be adjusted from the retracted state to the deployed state, so that the current state of the support can be automatically adjusted through the first instruction, and further the use of a user is facilitated.

In the practical application process, taking the first electronic device as an example of a smart phone, a spring support is installed inside the smart phone a, the spring support can be popped out from the inside of the smart phone a and is used for supporting the smart phone a, when the spring support is in the retracted state and receives an electric signal 01011010 which is sent by the smart phone a and is sent by the smart phone a, the spring support controls the spring support to pop out from the inside of the smart phone a, and therefore the current state of the spring support is adjusted from the retracted state to the extended state; if the spring support is in the unfolding state, when the first instruction sent by the smart phone A is 01011010 electric signals, the spring support controls the spring support to enter the interior of the smart phone A, and therefore the current state of the spring support is adjusted from the unfolding state to the folding state.

In another embodiment, when the stent current state is in the deployed state, the method further comprises: receiving a second instruction from the first electronic device when the bracket is at the first position, wherein the second instruction is used for adjusting the position of the bracket; and controlling the current position of the bracket to be adjusted from the first position to a second position different from the first position in response to the second instruction.

In a specific implementation process, the second instruction may be generated by the first electronic device receiving a first information example from a second electronic device, where the first information example is information such as a short message, an email, a micro message, and the like, and when receiving the first information, the first electronic device generates the second instruction and sends the second instruction to an electrical component of the cradle, so that the cradle can receive the second instruction, and adjust the current position of the cradle from the first position to the second position in response to the second instruction, so as to prompt a user, so that the user experience is better.

In practical application, as shown in fig. 2, for example, when the tablet pc 20 is placed on the first surface 31 of the table 30 in an inclined manner, the first support 23 and the second support 24 of the tablet pc 20 are unfolded from the back surface 22 of the tablet pc 20, the front surface 21 of the tablet pc 20 is provided with a display screen, and the angle 25 between the back surface 22 of the tablet pc 20 and the first surface 31 of the table 30 is 60 °, so that when the tablet pc 20 receives a mail message, the electrical components on the first support 23 and the second support 24 can receive the second instruction, the first support 23 and the second support 24 execute the second instruction, the length of the outward ejection of the first support 23 and the second support 24 is shortened, the angle 25 between the back surface 22 and the first surface 31 is reduced, for example, the angle may be 45 ° or 40 °, and the like, so as to adjust the respective positions of the first support 23 and the second support 24, used for prompting the user of a new message; when the tablet personal computer 20 receives the short message, the length of the first support 23 and the length of the second support 24 that are extended outward may also be extended, so that the angle between the back 22 and the first surface 31 is increased, for example, the included angle may be 65 ° or 70 °, and the like, so that the respective positions of the first support 23 and the second support 24 are adjusted to prompt the user that a new message is provided, and the user experience is better.

In another embodiment, when the current state of the stent is in the deployed state, the method further comprises: receiving a third instruction sent by the first electronic device, wherein the third instruction is used for rotating the bracket; and responding to the third instruction, rotating the bracket to adjust the orientation of the display unit from the first direction to a third direction, so that the display unit always faces the operating body.

When the first electronic device is in the horizontal placement state, the bracket is normally in the deployed state, but of course, the bracket may be controlled to be in the stowed state by operation; when the first electronic device is in the holding state, the bracket is normally in the retracted state, but the bracket may be controlled to be in the deployed state by operation.

In a specific implementation, the operating body is, for example, a human face, when the current state of the stand is in the unfolded state and the first electronic device is placed on an object with a tilt, the first direction is, for example, righteast, rightsouth, rightwest, rightnorth, 45 ° to south east, 30 ° to north, etc., then the second direction is 45 ° to south, 35 ° to west, etc. is obtained by the camera unit in the first electronic device or connected externally, whether the first direction and the second direction match, that is, whether the display unit is the face of a human is detected, when the display unit is the face of a human, the first direction and the second direction match is indicated, otherwise, the first direction and the second direction do not match, and when the first direction and the second direction do not match, the first electronic device generates and sends the third instruction, so that the stand controls the stand to rotate by executing the third instruction, the orientation of the display unit is adjusted from the first direction to the third direction, so that the display unit always faces the operation body, and the user experience is better.

The image capturing unit is, for example, an electronic device such as a camera or a video camera.

For example, when the first direction is due north and the second direction is not due south, it may be determined that the first direction and the second direction do not match, and only when the second direction is due south, it may be determined that the first direction and the second direction match.

In an actual application process, taking the smart phone a as an example, when the smart phone a is obliquely placed on a desktop, it may be determined that the spring support of the smart phone a is in the unfolded state, and when it is detected that the first direction in which the display unit of the smart phone a faces is rightwest and the second direction in which the face of the user faces is northwest, the smart phone a may generate a third instruction and send the third instruction to the spring support, and the spring support executes the third instruction to adjust the orientation of the display unit from rightwest to south so that the display unit faces the face of the user.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

firstly, because the bracket is installed in the first electronic device in the embodiment of the application, when the bracket receives a first instruction sent by the first electronic device, the first instruction is executed, and because the first instruction is used for controlling the state of the bracket to be converted from the first state to the second state, the bracket can change the current state of the bracket when executing the first instruction, so that the state of the bracket can be adjusted through the first instruction, thereby solving the technical problem that in the prior art, the state of the bracket cannot be automatically adjusted by the electronic device, the intelligence is low, further realizing the automatic adjustment of the current state of the bracket, leading to higher intelligent technical effect, leading to more convenient use of a user and better experience of the user.

Secondly, because this application embodiment is the expansion state at the support current state, the orientation of obtaining the display element is first direction with the operation body orientation is the second direction, is detecting first direction with when the second direction does not match, generate and send the third instruction for the support is receiving during the third instruction, rotate the support, in order to incite somebody to action the orientation of display element is followed first direction adjustment to the third direction, makes the display element orientation all the time the operation body, further convenience of customers uses for user's experience is better.

Thirdly, because this application embodiment is in the state of expanding at the support current state just when the support is in the first position, detect whether first electronic equipment receives the first information from second electronic equipment, when receiving first information, generate and send the second instruction, with the current position of support follow the first position adjustment is with the second position that the first position is different makes when first electronic equipment receives first information, the automatic adjustment the current position of support to the suggestion user, make user's experience better.

Example two

An embodiment of the present application provides a method for controlling a support, which is applied to a first electronic device, where the first electronic device can perform data interaction with a support supporting the first electronic device, the first electronic device is an electronic device such as a tablet computer, a smart phone, and a notebook computer, and the support is a spring support, for example.

The bracket is provided with an electrical element, and the electrical element is an electronic device such as a processing chip and a single chip microcomputer, so that the bracket can perform data interaction with the first electronic device.

Referring to fig. 3, the method includes:

step 301: receiving a first operation of a user, and generating a first instruction based on the first operation, wherein the first instruction is used for controlling the state of the bracket to be changed from a first state to a second state;

step 302: sending the first instruction to the stent.

In step 301, a first operation of a user is received, and a first instruction is generated based on the first operation, where the first instruction is used to control the state of the stent to change from the first state to the second state.

Wherein the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

In a specific implementation process, the first operation may be, for example, an operation of adjusting the first electronic device from a flat state to a held state, or an operation of adjusting the first electronic device from a held state to a flat state, or of course, an operation of setting a support control option for adjusting a current state of a support of the support in the first electronic device, and when the first electronic device receives the first operation, the first electronic device generates the first instruction based on the first operation, where the first instruction is used to control a state of the support to be changed from the first state to the second state.

In an actual application process, taking the first electronic device as an example of a smart phone, a spring support is installed inside the a smart phone, the spring support can be popped out from the inside of the a smart phone to support the a smart phone, when a user places the held a smart phone on an object such as a desktop, the first instruction generated by the a smart phone is, for example, an electric signal 01011010, and because the spring support is in the retracted state when the a smart phone is in the held state, the electric signal 01011010 is used for adjusting the state of the support from the retracted state to the extended state.

Wherein when a user picks up an a smart phone placed on the desktop, the first instruction generated by the a smart phone is, for example, an electrical signal of 01011110, since the spring bracket is in the unfolded state when the a smart phone is in a flat state, such that the electrical signal of 01011110 is used to adjust the state of the bracket from the unfolded state to the stowed state.

In a specific implementation process, a support control option for adjusting a support current state of the support may be set in the first electronic device, where the support control option may include a deployment option and a retraction option, where the deployment option is used to control the support current state of the support to be in the deployed state, the retraction option is used to control the support current state of the support to be in the retracted state, the support control option is operated through an entity key of the first electronic device or a virtual key on a display unit of the first electronic device, and the first instruction is generated when the first electronic device receives the first instruction that is generated when a user operates the support control option through the entity key or the virtual key.

In the practical application process, taking the smart phone A as an example, when the spring support in the smart phone A is in the flat state at a time of 08:15:32 seconds, when a first user operates the support control option through a virtual key on a display unit of the smart phone A, the first instruction can be automatically generated in the smart phone A.

Step 302 is executed next, and the first instruction is sent to the stent. In a specific implementation process, since the first instruction is used for controlling the state of the stent to be adjusted from the first state to the second state, after the first instruction is sent to the stent, the stent controls the state of the stent to be adjusted from the first state to the second state based on the first instruction.

In an actual application process, taking a smart phone a as an example, when a user places the held smart phone a on an object such as a desktop, the first instruction generated by the smart phone a is, for example, an electrical signal of 01011010, and sends the electrical signal of 01011010 to the spring support, so that when the spring support receives the electrical signal of 01011010, the current state of the support of the spring support is controlled to be adjusted from the retracted state to the extended state.

In another embodiment, upon detecting that the current state of the stent is in the deployed state, the method further comprises: detecting whether the first electronic equipment receives first information from second electronic equipment; generating a second instruction when the first information is detected, wherein the second instruction is used for adjusting the position of the bracket; sending the second instruction to the cradle.

In a specific implementation process, the first information is, for example, information such as a short message, an email, a WeChat, and the like, and when the first information is received, the second instruction is generated and sent to the bracket to control the current position of the bracket to be adjusted from the first position to the second position, so that a prompt can be given to a user, and the user experience is better.

In practical applications, as shown in fig. 2, for example, when the tablet pc 20 is placed on the first surface 31 of the table 30 in an inclined manner, the first and second supports 23, 24 of the tablet computer 20 are deployed from the back 22 of the tablet computer 20, the front 21 of the tablet computer 20 is provided with a display screen, and the angle 25 between the back 22 of the tablet computer 20 and the first face 31 of the table 30 is 60 degrees, when the tablet computer 20 receives the mail message, the generated second command is an electrical number of 00000001, and sends an electrical number of 00000001 to the first and second holders 23 and 24, causing the first and second legs 23, 24 to shorten the flared length, results in the back 22 becoming less angled at the angle 25 to the first face 31, which may be, for example, 45 degrees, 40 degrees, etc., the respective positions of the first and second cradles 23 and 24 are thus adjusted for prompting the user for a new message.

When the tablet personal computer 20 receives the short message, the generated second command is an electric signal 00000010, and the electric signal 00000010 is sent to the first bracket 23 and the second bracket 24, so that when the first bracket 23 and the second bracket 24 receive the electric signal 00000010, the first bracket 23 and the second bracket 24 may extend the length of the outward expansion, and an included angle 25 between the back surface 22 and the first surface 31 is increased, for example, an angle of 65 degrees and an angle of 70 degrees, and the like, so that respective positions of the first bracket 23 and the second bracket 24 are adjusted, and the user is prompted to have a new message, and the user experience is better.

In another embodiment, upon detecting that the current state of the stent is in the deployed state, the method further comprises: detecting whether a first direction of a display unit of the first electronic device matches a second direction of an operation body operating the first electronic device; when the first direction is detected not to be matched with the second direction, generating a third instruction, wherein the third instruction is used for rotating the bracket; and sending the third instruction to the bracket so as to rotate the bracket, and adjusting the orientation of the display unit from the first direction to a third direction, so that the display unit always faces the operation body.

When the first electronic device is in the horizontal placement state, the bracket is normally in the deployed state, but of course, the bracket may be controlled to be in the stowed state by operation; when the first electronic device is in the holding state, the bracket is normally in the retracted state, but the bracket may be controlled to be in the deployed state by operation.

In a specific implementation, the operating body is, for example, a human face, when the current state of the stand is in the unfolded state and the first electronic device is placed on an object with a tilt, the first direction is, for example, righteast, rightsouth, rightwest, rightnorth, 45 ° to south east, 30 ° to north, etc., then the second direction is 45 ° to south, 35 ° to west, etc. is obtained by the camera unit in the first electronic device or connected externally, whether the first direction and the second direction match, that is, whether the display unit is the face of a human is detected, when the display unit is the face of a human, the first direction and the second direction match is indicated, otherwise, the first direction and the second direction do not match, and when the first direction and the second direction do not match, the first electronic device generates and sends the third instruction, so that the stand controls the stand to rotate by executing the third instruction, the orientation of the display unit is adjusted from the first direction to the third direction, so that the display unit always faces the operation body, and the user experience is better.

The image capturing unit is, for example, an electronic device such as a camera or a video camera.

For example, when the first direction is due north and the second direction is not due south, it may be determined that the first direction and the second direction do not match, and only when the second direction is due south, it may be determined that the first direction and the second direction match.

In an actual application process, taking the smart phone a as an example, when the smart phone a is obliquely placed on a desktop, it may be determined that the spring support of the smart phone a is in the unfolded state, and when it is detected that the first direction in which the display unit of the smart phone a faces is rightwest and the second direction in which the face of the user faces is northwest, the smart phone a may generate a third instruction and send the third instruction to the spring support, and the spring support executes the third instruction to adjust the orientation of the display unit from rightwest to south so that the display unit faces the face of the user.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

firstly, because the bracket is installed in the first electronic device in the embodiment of the application, when the bracket receives a first instruction sent by the first electronic device, the first instruction is executed, and because the first instruction is used for controlling the state of the bracket to be converted from the first state to the second state, the bracket can change the current state of the bracket when executing the first instruction, so that the state of the bracket can be adjusted through the first instruction, thereby solving the technical problem that in the prior art, the state of the bracket cannot be automatically adjusted by the electronic device, the intelligence is low, further realizing the automatic adjustment of the current state of the bracket, leading to higher intelligent technical effect, leading to more convenient use of a user and better experience of the user.

Secondly, because this application embodiment is the expansion state at the support current state, the orientation of obtaining the display element is first direction with the operation body orientation is the second direction, is detecting first direction with when the second direction does not match, generate and send the third instruction for the support is receiving during the third instruction, rotate the support, in order to incite somebody to action the orientation of display element is followed first direction adjustment to the third direction, makes the display element orientation all the time the operation body, further convenience of customers uses for user's experience is better.

Thirdly, because this application embodiment is in the state of expanding at the support current state just when the support is in the first position, detect whether first electronic equipment receives the first information from second electronic equipment, when receiving first information, generate and send the second instruction, with the current position of support follow the first position adjustment is with the second position that the first position is different makes when first electronic equipment receives first information, the automatic adjustment the current position of support to the suggestion user, make user's experience better.

EXAMPLE III

An embodiment of the present application provides a support, the support is used for supporting the electronic device, and the electronic device is, for example, an electronic device such as a tablet computer, a smart phone, and a notebook computer.

Referring to fig. 4, the stand includes: the support body 401 is movably connected with the electronic equipment; the electrical unit 402 is arranged on the bracket body 401 and configured to detect whether a first instruction sent by the electronic device is received, obtain a first detection result, and execute the first instruction when the first detection result indicates that the first instruction sent by the electronic device is received, where the first instruction is used to control the state of the bracket to change from the first state to the second state.

The bracket body 401 is, for example, a spring bracket or the like, and the electric unit 402 is, for example, an electronic device such as a processing chip or a single chip microcomputer.

Further, the electrical apparatus unit 402 includes a first instruction execution unit, and when the first detection result indicates that the first instruction sent by the electronic device is received, is configured to acquire that the current state of the bracket is the first state, and then execute the first instruction to control the current state of the bracket to be adjusted from the first state to the second state.

Further, the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

Specifically, when the first state is the deployed state, the bracket receives the first instruction, and controls the current state of the bracket to be adjusted from the deployed state to the stowed state; when the first state is the retracted state, the support receives the first instruction, and then the current state of the support is controlled to be adjusted from the retracted state to the deployed state, so that the current state of the support can be automatically adjusted through the first instruction, and further the use of a user is facilitated.

In another embodiment, the electrical unit 402 comprises a second instruction executing unit, configured to receive a second instruction from the electronic device when the stand is in the first position when the stand is in the deployed state, wherein the second instruction is configured to adjust the position of the stand, and in response to the second instruction, control the current position of the stand to be adjusted from the first position to a second position different from the first position.

In another embodiment, the electrical unit 402 includes a third instruction unit, configured to receive a third instruction sent from the electronic device when the current state of the stand is in the deployed state, where the third instruction is used to rotate the stand, and in response to the third instruction, rotate the stand to adjust the orientation of the display unit of the electronic device from the first direction to a third direction, so that the display unit always faces the operating body

The display unit is an electronic device such as a liquid crystal display, L ED touch screen, L CD touch screen, and the like.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

firstly, because the bracket is installed in the first electronic device in the embodiment of the application, when the bracket receives a first instruction sent by the first electronic device, the first instruction is executed, and because the first instruction is used for controlling the state of the bracket to be converted from the first state to the second state, the bracket can change the current state of the bracket when executing the first instruction, so that the state of the bracket can be adjusted through the first instruction, thereby solving the technical problem that in the prior art, the state of the bracket cannot be automatically adjusted by the electronic device, the intelligence is low, further realizing the automatic adjustment of the current state of the bracket, leading to higher intelligent technical effect, leading to more convenient use of a user and better experience of the user.

Secondly, because this application embodiment is the expansion state at the support current state, the orientation of obtaining the display element is first direction with the operation body orientation is the second direction, is detecting first direction with when the second direction does not match, generate and send the third instruction for the support is receiving during the third instruction, rotate the support, in order to incite somebody to action the orientation of display element is followed first direction adjustment to the third direction, makes the display element orientation all the time the operation body, further convenience of customers uses for user's experience is better.

Thirdly, because this application embodiment is in the state of expanding at the support current state just when the support is in the first position, detect whether first electronic equipment receives the first information from second electronic equipment, when receiving first information, generate and send the second instruction, with the current position of support follow the first position adjustment is with the second position that the first position is different makes when first electronic equipment receives first information, the automatic adjustment the current position of support to the suggestion user, make user's experience better.

Example four

An embodiment of the present application further provides an electronic device, where the electronic device can perform data interaction with a support supporting the first electronic device, and the electronic device is, for example, an electronic device such as a tablet computer, a smart phone, and a notebook computer.

Referring to fig. 5, the electronic device includes: circuit board 501: the processing chip 502 is disposed on the circuit board 501, and is configured to receive a first operation of a user, generate a first instruction based on the first operation, where the first instruction is used to control the state of the bracket 503 to change from a first state to a second state, and send the first instruction to the bracket 503.

The circuit board 501 may be a main board of an electronic device, and further, the processing chip 502 may be a separate processing chip or may be integrated in a processor.

Further, the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

In another embodiment, the processing chip 502 includes a second instruction sending unit, configured to detect whether the electronic device receives first information from a second electronic device when detecting that the current state of the support 503 is in the expanded state, and generate a second instruction when detecting the first information, where the second instruction is used to adjust the position of the support 503 and send the second instruction to the support 503.

In another embodiment, the processing chip 502 includes a third instruction sending unit, configured to detect whether a first direction of a display unit of the electronic device matches a second direction of an operation body operating the electronic device when detecting that the current state of the bracket 503 is in the expanded state, and generate a third instruction when detecting that the first direction does not match the second direction, where the third instruction is used to rotate the bracket 503 and send the third instruction to the bracket 503 to rotate the bracket 503 and adjust the orientation of the display unit from the first direction to the third direction, so that the display unit always faces the operation body.

The display unit is an electronic device such as a liquid crystal display, L ED touch screen, L CD touch screen, and the like.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

firstly, because the bracket is installed in the first electronic device in the embodiment of the application, when the bracket receives a first instruction sent by the first electronic device, the first instruction is executed, and because the first instruction is used for controlling the state of the bracket to be converted from the first state to the second state, the bracket can change the current state of the bracket when executing the first instruction, so that the state of the bracket can be adjusted through the first instruction, thereby solving the technical problem that in the prior art, the state of the bracket cannot be automatically adjusted by the electronic device, the intelligence is low, further realizing the automatic adjustment of the current state of the bracket, leading to higher intelligent technical effect, leading to more convenient use of a user and better experience of the user.

Secondly, because this application embodiment is the expansion state at the support current state, the orientation of obtaining the display element is first direction with the operation body orientation is the second direction, is detecting first direction with when the second direction does not match, generate and send the third instruction for the support is receiving during the third instruction, rotate the support, in order to incite somebody to action the orientation of display element is followed first direction adjustment to the third direction, makes the display element orientation all the time the operation body, further convenience of customers uses for user's experience is better.

Thirdly, because this application embodiment is in the state of expanding at the support current state just when the support is in the first position, detect whether first electronic equipment receives the first information from second electronic equipment, when receiving first information, generate and send the second instruction, with the current position of support follow the first position adjustment is with the second position that the first position is different makes when first electronic equipment receives first information, the automatic adjustment the current position of support to the suggestion user, make user's experience better.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (13)

1. A method for controlling a support, applied to a support for supporting a first electronic device, wherein the support at least includes an electrical component, and is arranged on a body of the support, and used for detecting whether a first instruction sent by the first electronic device is received, and the support can receive the instruction sent by the first electronic device, and the method includes:

detecting whether a first instruction sent by the first electronic equipment is received or not to obtain a first detection result;

when the first detection result shows that a first instruction sent by the first electronic device is received, executing the first instruction, wherein the first instruction is used for controlling the state of the support to be changed from a first state to a second state, and the state of the support comprises a deployed state and a stowed state;

when the current state of the bracket is in the unfolding state, receiving a third instruction sent by the first electronic equipment, wherein the third instruction is used for rotating the bracket;

and responding to the third instruction, rotating the support to adjust the orientation of the display unit of the first electronic equipment from the first direction to a third direction, so that the display unit always faces to an operation body.

2. The method of claim 1, wherein when the first detection result indicates that a first instruction sent by the first electronic device is received, executing the first instruction specifically includes:

when the first detection result shows that the first instruction sent by the first electronic device is received, acquiring that the current state of the bracket is the first state;

and executing the first instruction to control the current state of the bracket to be adjusted from the first state to the second state.

3. The method of claim 1 or 2, wherein the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

4. The method of claim 3, wherein when the stent current state is in the deployed state, the method further comprises:

receiving a second instruction from the first electronic device when the bracket is at the first position, wherein the second instruction is used for adjusting the position of the bracket;

and controlling the current position of the bracket to be adjusted from the first position to a second position different from the first position in response to the second instruction.

5. A method for controlling a support is applied to a first electronic device, wherein the first electronic device can perform data interaction with the support supporting the first electronic device, the support at least comprises an electrical element, and the electrical element is arranged on a body of the support and used for detecting whether a first instruction sent by the first electronic device is received or not, and the method comprises the following steps:

receiving a first operation of a user, and generating a first instruction based on the first operation, wherein the first instruction is used for controlling the state of the support to be converted from a first state to a second state, and the state of the support comprises a deployed state and a stowed state;

sending the first instruction to the stent;

detecting whether the orientation of a display unit of the first electronic device is a first direction, and when the orientation of an operation body for operating the first electronic device is a second direction, detecting whether the first direction is matched with the second direction;

when the first direction is detected not to be matched with the second direction, generating a third instruction, wherein the third instruction is used for rotating the bracket;

and sending the third instruction to the bracket so as to rotate the bracket, and adjusting the orientation of the display unit from a first direction to a third direction so that the display unit always faces the operation body, wherein the first direction is different from the third direction.

6. The method of claim 5, wherein the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

7. The method of claim 5, wherein upon detecting that the current state of the stent is in the deployed state, the method further comprises:

detecting whether the first electronic equipment receives first information from second electronic equipment or not, wherein the first electronic equipment and the second electronic equipment are different equipment;

generating a second instruction when the first information is detected, wherein the second instruction is used for adjusting the position of the bracket;

sending the second instruction to the cradle.

8. A stand for supporting a first electronic device, the stand comprising:

the bracket body is movably connected with the first electronic equipment;

the electrical element is arranged on the bracket body and used for detecting whether a first instruction sent by the first electronic equipment is received or not to obtain a first detection result, when the first detection result shows that a first instruction sent by the first electronic equipment is received, executing the first instruction, wherein the first instruction is used for controlling the state of the bracket to be converted from a first state to a second state, the state of the bracket comprises a deployment state and a retraction state, receiving a third instruction sent from the first electronic device when the current state of the bracket is in the unfolded state, the third instructions are for rotating the stent, in response to the third instructions, rotating the stent, the orientation of the display unit of the first electronic device is adjusted from the first direction to the third direction, so that the display unit always faces the operation body.

9. The cradle according to claim 8, wherein the electrical component comprises a first instruction execution unit, and when the first detection result indicates that the first instruction sent by the first electronic device is received, the first instruction execution unit is configured to acquire that the current state of the cradle is the first state, and execute the first instruction to control the current state of the cradle to be adjusted from the first state to the second state.

10. The stand according to claim 8 or 9 wherein the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

11. A first electronic device, the first electronic device can carry out data interaction with a support supporting the first electronic device, wherein the support at least includes an electrical component, is arranged on a body of the support, and is used for detecting whether a first instruction sent by the first electronic device is received, and the electronic device includes:

a circuit board:

a processing chip, disposed on the circuit board, configured to receive a first operation of a user, generate a first instruction based on the first operation, where the first instruction is used to control a state of the bracket to be converted from a first state to a second state, the state of the bracket includes an expanded state and a collapsed state, and send the first instruction to the bracket, detect whether an orientation of a display unit of the first electronic device is a first direction and whether an orientation of an operation body operating the first electronic device is a second direction, detect whether the first direction matches the second direction, generate a third instruction when detecting that the first direction does not match the second direction, where the third instruction is used to rotate the bracket and send the third instruction to the bracket to rotate the bracket, and adjust the orientation of the display unit from the first direction to the third direction, so that the display unit always faces the operation body, wherein the first direction is different from the third direction.

12. The electronic device of claim 11, wherein the first state is a deployed state or a stowed state, wherein if the first state is the deployed state, the second state is the stowed state; and if the first state is the retracted state, the second state is the expanded state.

13. The electronic device of claim 12, wherein the processing chip comprises a second instruction sending unit, configured to detect whether the first electronic device receives first information from a second electronic device when detecting that the current state of the cradle is in the deployed state, and generate a second instruction when detecting the first information, wherein the second instruction is configured to adjust a position of the cradle and send the second instruction to the cradle.

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