CN107911919B - Control device and method of remote controller, storage medium, remote controller and equipment - Google Patents

Abstract

The invention discloses a control device, a control method, a storage medium, a remote controller and equipment of the remote controller, comprising the following steps: a sensing assembly (10) and a controller (20); the sensing component (10) is used for acquiring the brightness value of the environment to which the remote controller belongs and acquiring the state change value of the remote controller in the process of being picked up by a user from a static state; the controller (20) is configured to control a backlight (30) of the remote controller to be turned on when the brightness value is less than or equal to a set brightness threshold and the state change value is greater than or equal to a set state threshold. The scheme of the invention can overcome the defects of high misoperation rate, inconvenient use, few functions and the like in the prior art, and has the beneficial effects of low misoperation rate, convenient use and multiple functions.

Description

Control device and method of remote controller, storage medium, remote controller and equipment

Technical Field

The invention belongs to the technical field of remote control, and particularly relates to a control device, a control method, a storage medium, a remote controller and equipment of the remote controller, in particular to a remote controller with humanized design, a control device and a control method of the remote controller, a storage medium in a computer readable form storing instructions of the method and equipment capable of being controlled by the remote controller.

Background

The remote controller is a wireless transmitting device, which is mainly composed of an integrated circuit board and keys for generating different transmitting information. The remote controller commonly used for the air conditioner at present has been available for many years, and is usually operated in a key manner, so that the functions of humanized design are fewer.

For example: the humanized design of the remote controller of the air conditioner has insufficient functions, which at least appear in the following aspects:

the remote controller has the function of backlight. In order to save power, the backlight of the remote controller is not always on, and the remote controller is only on for a period of time when the key of the remote controller is pressed. If the ambient light is darker, the user is hard to see the remote controller keys and the screen, the backlight of the remote controller is only required to be lightened when the user presses one of the remote controller keys, so that misoperation is caused, and the user is inconvenient to use.

The temperature and humidity detection function of the air conditioner is usually on the side of the host, the host is usually far away from the user, and large deviation exists between the host and the temperature and humidity near the user, so that the user can consider that the temperature and the humidity detected by the air conditioner are inaccurate.

The night sleep mode is that if the user needs to use the remote controller to operate the air conditioner in the middle night, the user needs to light or press keys by means of memory, and the use is inconvenient.

In the prior art, the defects of high misoperation rate, inconvenient use, few functions and the like exist.

Disclosure of Invention

The invention aims to overcome the defects, and provides a control device, a control method, a storage medium, a remote controller and equipment of the remote controller, so as to solve the problem that misoperation is easy to occur in order to lighten key operation of a backlight of the remote controller when light rays are dark in the prior art, and achieve the effect of preventing misoperation.

The invention provides a control device of a remote controller, comprising: a sensing assembly and a controller; the sensing component is used for acquiring the brightness value of the environment to which the remote controller belongs and acquiring the state change value of the remote controller in the process of being picked up by a user from a static state; the controller is used for controlling the backlight source of the remote controller to be started under the condition that the brightness value is smaller than or equal to a set brightness threshold value and the state change value is larger than or equal to a set state threshold value.

Optionally, the state change value includes: at least one of the acceleration change value and the angle change value; the setting the state threshold includes: at least one of an acceleration threshold value and an angle threshold value; and, the state change value is greater than or equal to a set state threshold, comprising: the acceleration change value is greater than or equal to the acceleration threshold value, and/or the angle change value is greater than or equal to the angle threshold value.

Optionally, the controller controls the backlight of the remote controller to be turned on, and specifically includes: after the backlight source is started, keeping a first set time length in a lighting state; and/or, in the case that the degree that the brightness value is smaller than the set brightness threshold value belongs to a first set degree threshold value, dimming the brightness of the backlight source; or when the brightness value is smaller than the set brightness threshold value and belongs to a second set brightness threshold value, the brightness of the backlight source is lightened; wherein the first set level threshold is less than the second set level threshold.

Optionally, the controller is further configured to control the backlight to be turned off when the brightness value is greater than the set brightness threshold; and/or the controller is further configured to send a function control instruction to a device to be controlled of the remote controller to implement function control of the device to be controlled when the state change value increases continuously for a first set number of times or decreases continuously for a second set number of times within a second set duration; and/or the sensing component is further used for acquiring at least one environmental parameter of a temperature value, a humidity value, a particulate matter content, a lampblack value and a noise value of the environment; the controller is further configured to display the environmental parameter on a first display interface of the remote controller and/or a second display interface of a device to be controlled of the remote controller; and/or sending the environmental parameter to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameter to a direction conforming to a corresponding set environmental threshold value under the condition that the environmental parameter does not conform to the corresponding set environmental threshold value; or under the condition that the environmental parameters do not accord with the corresponding set environmental thresholds, sending an environmental control instruction to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameters to the direction which accords with the set environmental thresholds; and/or the sensing component is also used for acquiring the sliding information of the set area of the user finger on the shell of the remote controller; the controller is further used for determining a sliding control instruction according to the sliding information and sending the sliding control instruction to equipment to be controlled of the remote controller so that the equipment to be controlled can operate according to the sliding control instruction; and/or the sensing component is also used for acquiring the electric quantity information of the remote controller; the controller is further used for displaying the electric quantity information on a first display interface of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or prompting the message of insufficient electric quantity of the remote controller and/or sending the information of the electric quantity and/or the message of insufficient electric quantity of the remote controller to a user terminal under the condition that the information of the electric quantity is smaller than or equal to a set electric quantity threshold value.

Optionally, when the sensing component is used for acquiring the brightness value, the sensing component includes: a brightness sensor; and/or, when the sensing component is used for obtaining the state change value, the sensing component further comprises: at least one of an acceleration sensor and an angle sensor; and/or, when the sensing component is used to obtain the environmental parameter, the sensing component further comprises: at least one of a temperature sensor, a humidity sensor, a particulate matter sensor, a lampblack sensor and a noise sensor; and/or, when the sensing assembly is further used to obtain the sliding information, the sensing assembly further includes: a touch detection unit; and/or, when the sensing assembly is further used for acquiring the electric quantity information, the sensing assembly further comprises an electric quantity sensor; and/or, the condition that the state change value increases continuously the first set times or decreases continuously the second set times in the second set time length includes: a user shakes the remote controller left and right, or up and down, or tilts; and/or, the function control instruction includes: at least one of a startup instruction, a shutdown instruction and a mute instruction; and/or, the device to be controlled comprises: at least one of an air conditioner, a humidifier, an air purifier, a smoke exhaust ventilator and a noise reducer; and/or, the setting area comprises: a protrusion, a recess, and a structure of other shape than the protrusion and the recess.

Optionally, the brightness sensor includes: a photoresistor; and/or, when the sensing assembly further comprises the acceleration sensor and the angle sensor, the acceleration sensor and the angle sensor are arranged independently or integrally; and/or, when the sensing assembly further comprises the temperature sensor and the humidity sensor, the temperature sensor and the humidity sensor are arranged independently or integrally; and/or, the touch detection unit includes: a touch capacitance; and/or, the protrusion comprises: more than one point of protrusion; and/or, the recess comprises: more than one recessed point; and/or, the sliding information includes: at least one of sliding left, sliding right, sliding up, sliding down; and/or, when the device to be controlled comprises an air conditioner, the sliding control instruction comprises: at least one of a wind speed increasing command, a wind speed decreasing command, a set temperature increasing command, and a set temperature decreasing command.

In accordance with another aspect of the present invention, in response to the foregoing apparatus, a method for controlling a remote controller is provided, including: acquiring a brightness value of an environment to which the remote controller belongs, and acquiring a state change value of the remote controller in the process of being picked up by a user from a static state; and controlling the backlight source of the remote controller to be started under the condition that the brightness value is smaller than or equal to a set brightness threshold value and the state change value is larger than or equal to a set state threshold value.

Optionally, the state change value includes: at least one of the acceleration change value and the angle change value; the setting the state threshold includes: at least one of an acceleration threshold value and an angle threshold value; and, the state change value is greater than or equal to a set state threshold, comprising: the acceleration change value is greater than or equal to the acceleration threshold value, and/or the angle change value is greater than or equal to the angle threshold value.

Optionally, controlling the backlight source of the remote controller to be turned on specifically includes: after the backlight source is started, keeping a first set time length in a lighting state; and/or, in the case that the degree that the brightness value is smaller than the set brightness threshold value belongs to a first set degree threshold value, dimming the brightness of the backlight source; or when the brightness value is smaller than the set brightness threshold value and belongs to a second set brightness threshold value, the brightness of the backlight source is lightened; wherein the first set level threshold is less than the second set level threshold.

Optionally, the method further comprises: controlling the backlight to be turned off under the condition that the brightness value is larger than the set brightness threshold value; and/or sending a function control instruction to the equipment to be controlled of the remote controller under the condition that the state change value is increased in the continuous first set times or decreased in the continuous second set times in the second set time so as to realize the function control of the equipment to be controlled; and/or acquiring at least one environmental parameter of a temperature value, a humidity value, a particulate matter content, a lampblack value and a noise value of the environment; displaying the environmental parameters on a first display interface of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or sending the environmental parameter to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameter to a direction conforming to a corresponding set environmental threshold value under the condition that the environmental parameter does not conform to the corresponding set environmental threshold value; or under the condition that the environmental parameters do not accord with the corresponding set environmental thresholds, sending an environmental control instruction to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameters to the direction which accords with the set environmental thresholds; and/or acquiring sliding information of a set area of a user finger on the shell of the remote controller; determining a sliding control instruction according to the sliding information, and sending the sliding control instruction to equipment to be controlled of the remote controller so that the equipment to be controlled operates according to the sliding control instruction; and/or acquiring electric quantity information of the remote controller; displaying the electric quantity information on a first display interface of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or prompting the message of insufficient electric quantity of the remote controller and/or sending the information of the electric quantity and/or the message of insufficient electric quantity of the remote controller to a user terminal under the condition that the information of the electric quantity is smaller than or equal to a set electric quantity threshold value.

Optionally, the case where the state change value increases continuously the first set number of times or decreases continuously the second set number of times within the second set period of time includes: a user shakes the remote controller left and right, or up and down, or tilts; and/or, the function control instruction includes: at least one of a startup instruction, a shutdown instruction and a mute instruction; and/or, the device to be controlled comprises: at least one of an air conditioner, a humidifier, an air purifier, a smoke exhaust ventilator and a noise reducer; and/or, the setting area comprises: a protrusion, a recess, and a structure of other shape than the protrusion and the recess.

Optionally, the protrusion includes: more than one point of protrusion; and/or, the recess comprises: more than one recessed point; and/or, the sliding information includes: at least one of sliding left, sliding right, sliding up, sliding down; and/or, when the device to be controlled comprises an air conditioner, the sliding control instruction comprises: at least one of a wind speed increasing command, a wind speed decreasing command, a set temperature increasing command, and a set temperature decreasing command.

In accordance with the above method, a further aspect of the present invention provides a storage medium comprising: the storage medium stores a plurality of instructions; the instructions are used for being loaded by the processor and executing the control method of the remote controller.

In accordance with the above apparatus or method, a further aspect of the present invention provides a remote control comprising: the control device of the remote controller; or, a processor for executing a plurality of instructions; a memory for storing a plurality of instructions; the instructions are stored by the memory, and are loaded and executed by the processor, so that the control method of the remote controller is realized.

Optionally, the method further comprises: a key and a touch control identification point; the touch identification points are arranged on the keys and used for identifying the keys so as to realize blind control operation of the remote controller; and/or, further comprising: a clock unit; the clock unit is used for realizing at least one operation of time setting, displaying and timing control of the equipment to be controlled under the control of the controller; and/or, further comprising: a rechargeable battery and a charging interface; the charging interface is used for charging the rechargeable battery; wherein, the interface that charges includes: a USB interface.

In accordance with another aspect of the present invention, there is provided an apparatus comprising: the device is capable of receiving control of the remote control described above.

According to the scheme, the intelligent backlight control of the remote controller is realized by lighting the backlight under the conditions that the environment brightness is dark and the user is judged to pick up the remote controller, so that the problem that misoperation is easy to occur due to key operation for lighting the backlight of the remote controller when light is dark is solved, and misoperation is prevented.

Further, by the scheme, the problem that the backlight is required to be lightened by key operation of the remote controller so that the user is inconvenient to use is solved, and the convenience of use of the remote controller is improved.

Furthermore, according to the scheme, the sensing range of equipment to be controlled (such as an air conditioner) of the remote controller is expanded through the sensor (such as a temperature and humidity sensor) on the remote controller.

Furthermore, according to the scheme of the invention, through the design of the blind control operation of the remote controller, the blind control function of the remote controller is increased, the user group used by the remote controller is enlarged, and the user experience is improved.

Furthermore, according to the scheme, the time control function of the remote controller is increased through clock setting and display of the remote controller, the humanization function of the remote controller is increased, and the convenience of use of a user is improved.

Further, according to the scheme, the remote controller can be charged, so that complicated operation of replacing the dry battery is avoided; the environmental protection performance of the remote controller is also improved, and the battery cost can be saved.

Furthermore, according to the scheme of the invention, the functions and selling points of the remote controller are increased through one or more functions of the remote controller such as blind control operation design, clock setting and displaying, chargeable design and the like.

Therefore, the scheme of the invention can judge that a user takes up the remote controller to light the backlight under the condition of darker environment brightness through the matching arrangement of the acceleration sensor, the angle sensor and the photoresistor so as to realize the backlight control of the remote controller, and solve the problem that misoperation is easy to cause for the key operation of lighting the remote controller backlight when the light is darker in the prior art, thereby overcoming the defects of high misoperation rate, inconvenient use and few functions in the prior art and realizing the beneficial effects of low misoperation rate, convenient use and many functions.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a control device of a remote controller according to the present invention;

FIG. 2 is a flow chart of a control method of a remote controller according to an embodiment of the invention;

FIG. 3 is a flow chart of an embodiment of the environmental parameter detection in the method of the present invention;

FIG. 4 is a flow chart of an embodiment of the sliding operation detection in the method of the present invention;

FIG. 5 is a flow chart of an embodiment of the method of the present invention;

fig. 6 is a schematic structural diagram of a remote controller according to an embodiment of the invention.

In the embodiment of the present invention, reference numerals are as follows, in combination with the accompanying drawings:

10-a sensing assembly; 20-a controller; 30-a backlight; 40-a first display interface; 50-a housing; 60-key; 70-touch recognition points.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

According to an embodiment of the present invention, there is provided a control device for a remote controller, as shown in fig. 1, which is a schematic structural diagram of an embodiment of the device of the present invention. The control device of the remote controller may include: a sensing assembly 10 and a controller 20.

In an alternative example, the sensing component 10 is disposed on the remote controller, and may be configured to obtain a brightness value of an environment to which the remote controller belongs, and obtain a state change value of the remote controller during a process of being lifted by a user from a stationary state.

For example: when the remote controller is lifted by a user from a static state, the remote controller has acceleration or angle change, and the output values of the acceleration and angle sensors change.

For example: when the user picks up the remote controller, the remote controller is in an acceleration process, the value of the acceleration sensor is changed from 0 to a positive value, and at the moment, the remote controller is judged to be picked up.

Optionally, the state change value may include: at least one of the acceleration change value and the angle change value.

Optionally, the setting a state threshold may include: at least one of an acceleration threshold value and an angle threshold value.

For example: the process of the remote controller for realizing intelligent backlight control through the acceleration sensor can comprise the following steps:

When the remote controller is lifted by a user from a static state, the remote controller has acceleration or angle change, and the output values of the acceleration and angle sensors change.

The user picks up the remote controller instantly, the remote controller is in an acceleration process, the value of the acceleration sensor is changed from 0 to a positive value, and at the moment, the remote controller is judged to be picked up.

Therefore, the flexibility and convenience of intelligent backlight control based on the state change values are improved through the state change values in various forms.

Alternatively, when the sensing assembly 10 may be used to obtain the brightness value, the sensing assembly 10 may include: and a brightness sensor.

For example: the remote control may also add a photoresistor. That is, the remote controller can also realize intelligent backlight control of the remote controller by adding a photoresistor.

For example: the remote controller can realize intelligent backlight control through adding a photoresistor singly, and can also realize intelligent backlight control through combining with at least one of an acceleration sensor and an angle sensor.

Therefore, the brightness value of the environment of the remote controller is obtained through the brightness sensor, the obtaining mode is simple and convenient, and the obtaining result is reliable.

More optionally, the luminance sensor may include: a photoresistor.

Therefore, the brightness value of the environment is obtained through the photoresistor, the sensitivity is good, and the accuracy is high.

Optionally, when the sensing component 10 may be used to obtain the state change value, the sensing component 10 may further include: at least one of an acceleration sensor and an angle sensor.

For example: the remote controller can be additionally provided with an acceleration sensor so as to realize intelligent backlight control of the remote controller.

For example: the remote control can also be added with an angle sensor. That is, the remote controller can realize intelligent backlight control of the remote controller by adding an acceleration sensor and an angle sensor.

For example: the angle sensor is used as a supplement to the acceleration sensor and may not be used.

For example: by adding the acceleration sensor, the angle sensor and the photoresistor, intelligent backlight control of the remote controller is realized.

Therefore, the state change value is acquired through the acceleration sensor, the angle sensor and the like, the acquisition mode is flexible, and the acquisition result is reliable.

More optionally, when the sensing assembly 10 may further include the acceleration sensor and the angle sensor, the acceleration sensor and the angle sensor are separately provided or integrally provided.

For example: the acceleration sensor and the angle sensor can be arranged separately or integrally.

For example: the two sensor functions are usually made into one chip, and only the acceleration sensor can be used.

For example: the remote controller is added with acceleration and angle sensors (two sensor functions are usually made into a chip, or only the acceleration sensor can be used) and photoresistors.

From this, through setting up acceleration sensor and angle sensor through multiple mode, can promote installation flexibility and convenience.

In an alternative example, the controller 20, connected to the sensing component 10, may be configured to control the backlight 30 of the remote controller to be turned on when the brightness value is less than or equal to a set brightness threshold value and the state change value is greater than or equal to a set state threshold value.

For example: the remote controller can perform intelligent backlight control.

For example: the process of the remote controller for realizing intelligent backlight control through the acceleration sensor can comprise the following steps: when the user is detected to pick up the remote controller, the backlight can be lightened for a period of time (for example, 1-20 seconds), so that the user can conveniently read the screen content of the remote controller or see the content on the keys clearly.

For example: when the user is detected to pick up the remote controller, the backlight can be lightened for a period of time (for example, 1-20 seconds), so that the user can conveniently read the screen content of the remote controller or see the content on the keys clearly.

Therefore, the backlight source is started when the brightness of the environment where the remote controller belongs is low and the remote controller is judged to be picked up by a user, so that intelligent control of the backlight is realized, the convenience of use of remote control is improved, and the use experience of the user is improved.

Optionally, the state change value is greater than or equal to a set state threshold, which may include: the acceleration change value is greater than or equal to the acceleration threshold value, and/or the angle change value is greater than or equal to the angle threshold value.

For example: the process that the remote controller realizes intelligent backlight control through acceleration sensor and angle sensor can include: when the acceleration value does not change much, but the angle change is large, the user is also considered to have picked up the remote control.

For example: the angle sensor is used as a supplement to the acceleration sensor and may not be used. When the acceleration value does not change much, but the angle change is large, the user is also considered to have picked up the remote control.

In an alternative specific example, the state change value is greater than or equal to a set state threshold, which may specifically include: the acceleration change value is greater than or equal to the acceleration threshold value, and the angle change value is greater than or equal to the angle threshold value.

Or, the state change value is greater than or equal to a set state threshold, which specifically may include: the angle change value is less than the angle threshold value, but the acceleration change value is greater than or equal to the acceleration threshold value.

For example: the sensing component 10 is disposed on the remote controller, and can be used for obtaining a brightness value of an environment to which the remote controller belongs, and obtaining an acceleration change value when the remote controller is picked up by a user from a static state. The controller 20, connected to the sensor assembly 10, may be configured to control the backlight 30 of the remote controller to be turned on when the brightness value is not within a set comfort brightness value and the acceleration variation value exceeds a set acceleration variation value.

Or, the state change value is greater than or equal to a set state threshold, which specifically may include: the acceleration change value is less than the acceleration threshold value, but the angle change value is greater than or equal to the angle threshold value.

For example: the sensor assembly 10 may also be used to obtain a value of the change in angle of the remote control when the remote control is lifted from rest by a user. The controller 20 may be further configured to control the backlight 30 to be turned on when the brightness value is not within the set comfort value, the acceleration change value does not exceed the set acceleration change value, but the angle change value exceeds the set angle change value.

Therefore, the judgment based on various situations is beneficial to improving the flexibility and the reliability of backlight control.

Optionally, the controller 20 controls the backlight 30 of the remote controller to be turned on, which may specifically include: after the backlight source 30 is turned on, the lighting state is maintained for a first set period of time.

Therefore, the backlight source is turned on and kept in the lighted state for a first set period of time, so that the LED backlight source can be used conveniently by a user, is humanized and is beneficial to energy conservation.

Optionally, the controller 20 controls the backlight 30 of the remote controller to be turned on, which specifically may further include: dimming the brightness of the backlight 30 when the brightness value is less than the set brightness threshold value and belongs to a first set brightness threshold value; or, in the case where the brightness value is smaller than the set brightness threshold value and belongs to a second set brightness threshold value, the brightness of the backlight 30 is turned on. Wherein the first set level threshold is less than the second set level threshold.

For example: as with the automatic brightness condition of the mobile phone, the brighter the ambient brightness, the brighter the backlight, and the darker the ambient brightness.

For example: the backlight may be turned on or off using the same set level threshold, or using different set level thresholds (e.g., a first set level threshold, a second set level threshold, etc.).

Therefore, the brightness of the backlight source is adjusted according to the degree that the brightness value is smaller than the set brightness threshold value, so that the backlight brightness is automatically adjusted to be large when the light is too dark, and the backlight brightness is automatically adjusted to be small when the light is not too dark, thereby being beneficial to comfort and convenience of use of users, being humanized and being beneficial to energy conservation.

In an alternative embodiment, the controller 20 may be further configured to control the backlight 30 to be turned off when the brightness value is greater than the set brightness threshold.

For example: the process of the remote controller for realizing intelligent backlight control by adding the photoresistor can comprise the following steps: the remote controller detects the ambient brightness through the photoresistor, and when the ambient brightness value is proper (such as in the daytime), the backlight of the remote controller is not lighted, so that the power is saved.

For example: the remote controller detects the ambient brightness through the photoresistor, and when the ambient brightness value is proper (such as in the daytime), the backlight of the remote controller is not lighted, so that the power is saved.

Therefore, when the brightness of the environment of the remote controller is suitable for a user to check the remote controller, the backlight of the remote controller is not lighted, so that on one hand, energy is saved, and on the other hand, the influence of the lighting of the backlight on the convenience and comfort experience of the user to check when the brightness is suitable is avoided.

In an alternative embodiment, the controller 20 may be further configured to send a function control instruction to a device to be controlled of the remote controller to implement function control of the device to be controlled if the state change value increases continuously for a first set number of times or decreases continuously for a second set number of times within a second set duration.

Wherein, the device to be controlled may include: at least one of an air conditioner, a humidifier, an air purifier, a smoke exhaust ventilator and a noise reducer.

Therefore, the remote controller is suitable for various devices, and control flexibility and convenience for users to use can be improved.

Optionally, the case where the state change value increases continuously the first set number of times or decreases continuously the second set number of times within the second set period of time may include: and (3) the user shakes the remote controller left and right, or shakes the remote controller up and down, or tilts the remote controller.

For example: the remote controller can realize shake detection (namely, the acceleration value has the processes of increasing and decreasing continuously for several times in a period of time) through the acceleration sensor, and specific function settings are changed through shake (such as the functions of starting up, shutting down and the like) without looking at a screen.

For example: when the remote controller is swayed left and right, the remote controller can detect according to the acceleration change value. When the remote controller is rocked up and down, the detection can be performed according to at least one of an acceleration change value and an angle change value.

Therefore, through various gesture operation modes, the gesture operation is more convenient and more reliable.

Optionally, the function control instruction may include: at least one of a start-up instruction, a shutdown instruction and a mute instruction.

Therefore, the control flexibility can be improved and the use convenience of a user can be improved by setting various function control instructions.

In an alternative embodiment, the method may further include: and (5) detecting environmental parameters.

In an alternative example, the sensing assembly 10 may be further configured to obtain at least one environmental parameter of the environment, such as a temperature value, a humidity value, a particulate matter content (e.g., PM 2.5), a soot value, and a noise value.

Optionally, when the sensing assembly 10 may be used to obtain the environmental parameter, the sensing assembly 10 may further include: at least one of a temperature sensor, a humidity sensor, a particulate matter sensor, a lampblack sensor and a noise sensor.

For example: the remote controller is provided with a temperature and humidity sensor, so that temperature and humidity acquisition and display are realized.

For example: the remote controller is provided with a temperature and humidity sensor, so that a temperature and humidity acquisition function is realized.

Therefore, various environmental parameters can be obtained through various sensors, and the environment control diversity and universality are improved.

More optionally, when the sensing assembly 10 may further include the temperature sensor and the humidity sensor, the temperature sensor and the humidity sensor may be separately provided or integrally provided.

For example: the remote controller is added with a temperature and humidity sensor (which can be a chip integrating two functions or a single-function element).

Therefore, the temperature sensor and the humidity sensor which are arranged in various modes can improve the convenience and the flexibility of sensor installation, and are also beneficial to improving the convenience and the reliability of data acquisition.

In an alternative example, the controller 20 may be further configured to cause the environmental parameter to be displayed on the first display interface 40 of the remote controller and/or on the second display interface of the device to be controlled of the remote controller. For example: and sending the environmental parameters to equipment to be controlled of the remote controller, so that the environmental parameters are displayed on a second display interface of the equipment to be controlled.

For example: the remote controller has the function of displaying the temperature and humidity values.

Therefore, the environment parameters are displayed in different forms, so that the display is more flexible and more convenient.

In an alternative example, the controller 20 may be further configured to send the environmental parameter to a device to be controlled of the remote controller, so that the device to be controlled adjusts the environmental parameter in a direction that meets the set environmental threshold if the environmental parameter does not meet the corresponding set environmental threshold.

For example: the remote controller collects the nearby temperature and humidity values and sends the values to a control unit of receiving equipment (such as a remote controller receiving unit of a household appliance); thereby the receiving equipment realizes the wide-range detection of temperature and humidity.

For example: taking an air conditioner as an example, the air conditioner receives the temperature and the humidity acquired by the remote controller, so that environmental parameters near a user are known.

For example: air conditioner sensor capable of detecting only about 0.5m ³ Temperature and humidity values in the range, but the temperature and humidity values acquired by the remote controller can be expanded to 10m due to the portable characteristic of the remote controller ³ 。

From this, through sending environmental parameter to wait to control equipment, make wait to control equipment and control based on this environmental parameter, be favorable to promoting the accuracy and the reliability of waiting to control equipment control, and then can promote user experience.

In an alternative example, the controller 20 may be further configured to send an environmental control instruction to a device to be controlled of the remote controller, where the environmental parameter does not meet the corresponding set environmental threshold, so that the device to be controlled adjusts the environmental parameter in a direction that meets the set environmental threshold.

From this, detect environmental parameter through the sensor on the remote controller to the equipment that waits of messenger's remote controller carries out environmental control according to this environmental parameter, has expanded the sensing scope of equipment that awaits measuring such as air conditioner, has promoted the accuracy and the reliability that wait to control equipment and carry out environmental control, is favorable to promoting user's travelling comfort and experiences.

In an alternative embodiment, the method may further include: and a sliding operation detection process.

In an alternative example, the sensing assembly 10 may also be used to obtain information about the sliding of a user's finger in a set area on the housing 50 of the remote control.

For example: the remote control can realize direct touch control of the shell.

For example: when the finger touches these shapes, the touch detection means detects a change in capacitance value, and determines that the finger is pressed at a specific position.

Wherein, the sliding information may include: at least one of sliding leftward, rightward, upward, and downward.

Therefore, the flexibility and the diversity of sliding operation are improved through various sliding modes.

Optionally, when the sensing assembly 10 may also be used to obtain the sliding information, the sensing assembly 10 may further include: and a touch detection unit.

Therefore, the sliding information is detected through the touch detection unit, the detection flexibility is good, and the reliability is high.

More optionally, the touch detection unit may include: and touching the capacitor.

Thus, the sliding information is detected by the touch capacitance, and the detection sensitivity is high.

Optionally, the setting area may include: a protrusion, a recess, and a structure of other shape than the protrusion and the recess.

Therefore, convenience and flexibility of sliding operation of a user can be guaranteed through the positioning areas in various forms, and universality is high.

More optionally, the protruding portion may include: more than one point of protrusion; and/or, the recess may include: more than one recessed point.

For example: the protruding or recessed points or special shapes can be added on the remote controller shell, so that the finger positioning is facilitated.

Therefore, the sliding is more convenient and the detection is more sensitive through the locating areas arranged in the punctiform mode.

In an alternative example, the controller 20 may be further configured to determine a sliding control instruction according to the sliding information, and send the sliding control instruction to a device to be controlled of the remote controller, so that the device to be controlled operates according to the sliding control instruction.

For example: the gesture control of some characteristic functions of the remote controller can be realized through the acceleration sensor.

For example: when the finger continuously passes through several touch detection units for a period of time, the finger is considered to have performed a sliding operation.

Therefore, by detecting the sliding operation of a user on the remote controller, the special control function is realized by controlling the equipment to be controlled through the gesture operation of the remote controller, and the functions and selling points of the remote controller are increased.

Optionally, when the device to be controlled may include an air conditioner, the sliding control instruction may include: at least one of a wind speed increasing command, a wind speed decreasing command, a set temperature increasing command, and a set temperature decreasing command.

For example: for example, corresponding to an air conditioner remote controller, left sliding can be defined as decreasing wind speed, right sliding can be defined as increasing wind speed; upward sliding is defined as an increase in the set temperature, and downward sliding is defined as a decrease in the set temperature.

Therefore, through gesture control in various forms, the convenience of control and the flexibility of user use can be improved.

In an alternative embodiment, the method may further include: and (5) detecting electric quantity information.

In an alternative example, the sensing component 10 may also be used to obtain power information of the remote control.

Optionally, when the sensing assembly 10 may also be used to obtain the electrical quantity information, the sensing assembly 10 may also include an electrical quantity sensor.

Therefore, the electric quantity information is acquired through the electric quantity sensor, the acquisition mode is simple and convenient, and the acquisition result is reliable.

In an alternative example, the controller 20 may be further configured to cause the power information to be displayed on the first display interface 40 of the remote controller and/or the second display interface of the device to be controlled of the remote controller.

Therefore, the electric quantity is displayed in various modes, and the display flexibility and convenience are good.

In an alternative example, the controller 20 may be further configured to prompt a message of the remote controller that the power is low if the power information is less than or equal to the set power threshold, and/or send the power information and/or the message of the remote controller that the power is low to the user terminal.

Therefore, through detecting the electric quantity information and reminding when the electric quantity is insufficient, normal use of a user can be guaranteed, reliability is high, and humanization is good.

Through a large number of experimental verification, adopt the technical scheme of this embodiment, through the dark, and judge that the user takes up the condition of remote controller in ambient brightness, light up the back light, realize remote controller intelligence back light control, solved when light is dark in order to light the problem that the key operation that the remote controller was shaded leads to the maloperation easily, prevent the maloperation.

According to an embodiment of the present invention, there is also provided a control method of a remote controller corresponding to a control device of the remote controller. See FIG. 2 for a schematic flow chart of an embodiment of the method of the present invention. The control method of the remote controller may include:

At step S110, a brightness value of an environment to which the remote controller belongs is obtained, and a state change value of the remote controller during the process of being picked up by a user from a stationary state is obtained.

For example: when the remote controller is lifted by a user from a static state, the remote controller has acceleration or angle change, and the output values of the acceleration and angle sensors change.

For example: when the user picks up the remote controller, the remote controller is in an acceleration process, the value of the acceleration sensor is changed from 0 to a positive value, and at the moment, the remote controller is judged to be picked up.

Optionally, the state change value may include: at least one of the acceleration change value and the angle change value.

Optionally, the setting a state threshold may include: at least one of an acceleration threshold value and an angle threshold value.

For example: the process of the remote controller for realizing intelligent backlight control through the acceleration sensor can comprise the following steps:

when the remote controller is lifted by a user from a static state, the remote controller has acceleration or angle change, and the output values of the acceleration and angle sensors change.

The user picks up the remote controller instantly, the remote controller is in an acceleration process, the value of the acceleration sensor is changed from 0 to a positive value, and at the moment, the remote controller is judged to be picked up.

Therefore, the flexibility and convenience of intelligent backlight control based on the state change values are improved through the state change values in various forms.

At step S120, when the brightness value is less than or equal to the set brightness threshold value and the state change value is greater than or equal to the set state threshold value, the backlight 30 of the remote controller is controlled to be turned on.

For example: the remote controller can perform intelligent backlight control.

For example: the process of the remote controller for realizing intelligent backlight control through the acceleration sensor can comprise the following steps: when the user is detected to pick up the remote controller, the backlight can be lightened for a period of time (for example, 1-20 seconds), so that the user can conveniently read the screen content of the remote controller or see the content on the keys clearly.

For example: when the user is detected to pick up the remote controller, the backlight can be lightened for a period of time (for example, 1-20 seconds), so that the user can conveniently read the screen content of the remote controller or see the content on the keys clearly.

Therefore, the backlight source is started when the brightness of the environment where the remote controller belongs is low and the remote controller is judged to be picked up by a user, so that intelligent control of the backlight is realized, the convenience of use of remote control is improved, and the use experience of the user is improved.

Optionally, the state change value is greater than or equal to a set state threshold, which may include: the acceleration change value is greater than or equal to the acceleration threshold value, and/or the angle change value is greater than or equal to the angle threshold value.

For example: the process that the remote controller realizes intelligent backlight control through acceleration sensor and angle sensor can include: when the acceleration value does not change much, but the angle change is large, the user is also considered to have picked up the remote control.

For example: the angle sensor is used as a supplement to the acceleration sensor and may not be used. When the acceleration value does not change much, but the angle change is large, the user is also considered to have picked up the remote control.

In an alternative specific example, the state change value is greater than or equal to a set state threshold, which may specifically include: the acceleration change value is greater than or equal to the acceleration threshold value, and the angle change value is greater than or equal to the angle threshold value.

Or, the state change value is greater than or equal to a set state threshold, which specifically may include: the angle change value is less than the angle threshold value, but the acceleration change value is greater than or equal to the acceleration threshold value.

For example: the sensing component 10 is disposed on the remote controller, and can be used for obtaining a brightness value of an environment to which the remote controller belongs, and obtaining an acceleration change value when the remote controller is picked up by a user from a static state. The controller 20, connected to the sensor assembly 10, may be configured to control the backlight 30 of the remote controller to be turned on when the brightness value is not within a set comfort brightness value and the acceleration variation value exceeds a set acceleration variation value.

Or, the state change value is greater than or equal to a set state threshold, which specifically may include: the acceleration change value is less than the acceleration threshold value, but the angle change value is greater than or equal to the angle threshold value.

For example: the sensor assembly 10 may also be used to obtain a value of the change in angle of the remote control when the remote control is lifted from rest by a user. The controller 20 may be further configured to control the backlight 30 to be turned on when the brightness value is not within the set comfort value, the acceleration change value does not exceed the set acceleration change value, but the angle change value exceeds the set angle change value.

Therefore, the judgment based on various situations is beneficial to improving the flexibility and the reliability of backlight control.

Optionally, in step S120, controlling the backlight 30 of the remote controller to be turned on may specifically include: after the backlight source 30 is turned on, the lighting state is maintained for a first set period of time.

Optionally, in step S120, controlling the backlight 30 of the remote controller to be turned on may further include: dimming the brightness of the backlight 30 when the brightness value is less than the set brightness threshold value and belongs to a first set brightness threshold value; or, in the case where the brightness value is smaller than the set brightness threshold value and belongs to a second set brightness threshold value, the brightness of the backlight 30 is turned on.

Wherein the first set level threshold is less than the second set level threshold.

For example: as with the automatic brightness condition of the mobile phone, the brighter the ambient brightness, the brighter the backlight, and the darker the ambient brightness.

For example: the backlight may be turned on or off using the same set level threshold, or using different set level thresholds (e.g., a first set level threshold, a second set level threshold, etc.).

Therefore, the brightness of the backlight source is adjusted according to the degree that the brightness value is smaller than the set brightness threshold value, so that the backlight brightness is automatically adjusted to be large when the light is too dark, and the backlight brightness is automatically adjusted to be small when the light is not too dark, thereby being beneficial to comfort and convenience of use of users, being humanized and being beneficial to energy conservation.

In an alternative embodiment, the method may further include: and controlling the backlight 30 to be turned off when the brightness value is greater than the set brightness threshold.

For example: the process of the remote controller for realizing intelligent backlight control by adding the photoresistor can comprise the following steps: the remote controller detects the ambient brightness through the photoresistor, and when the ambient brightness value is proper (such as in the daytime), the backlight of the remote controller is not lighted, so that the power is saved.

For example: the remote controller detects the ambient brightness through the photoresistor, and when the ambient brightness value is proper (such as in the daytime), the backlight of the remote controller is not lighted, so that the power is saved.

Therefore, when the brightness of the environment of the remote controller is suitable for a user to check the remote controller, the backlight of the remote controller is not lighted, so that on one hand, energy is saved, and on the other hand, the influence of the lighting of the backlight on the convenience and comfort experience of the user to check when the brightness is suitable is avoided.

In an alternative embodiment, the method may further include: and under the condition that the state change value continuously increases the first set times or continuously decreases the second set times within the second set time, sending a function control instruction to equipment to be controlled of the remote controller so as to realize the function control of the equipment to be controlled.

Wherein, the device to be controlled may include: at least one of an air conditioner, a humidifier, an air purifier, a smoke exhaust ventilator and a noise reducer.

Therefore, the remote controller is suitable for various devices, and control flexibility and convenience for users to use can be improved.

Optionally, the case where the state change value increases continuously the first set number of times or decreases continuously the second set number of times within the second set period of time may include: and (3) the user shakes the remote controller left and right, or shakes the remote controller up and down, or tilts the remote controller.

For example: the remote controller can realize shake detection (namely, the acceleration value has the processes of increasing and decreasing continuously for several times in a period of time) through the acceleration sensor, and specific function settings are changed through shake (such as the functions of starting up, shutting down and the like) without looking at a screen.

For example: when the remote controller is swayed left and right, the remote controller can be detected according to the acceleration change value; when the remote controller is rocked up and down, the detection can be performed according to at least one of an acceleration change value and an angle change value.

Therefore, through various gesture operation modes, the gesture operation is more convenient and more reliable.

Optionally, the function control instruction may include: at least one of a start-up instruction, a shutdown instruction and a mute instruction.

Therefore, the control flexibility can be improved and the use convenience of a user can be improved by setting various function control instructions.

In an alternative embodiment, the method may further include: and (5) detecting environmental parameters.

Optionally, the specific process of environmental parameter detection may be further described with reference to the schematic flow chart of an embodiment of environmental parameter detection in the method of the present invention shown in fig. 3.

Step S210, obtaining at least one environmental parameter of the temperature value, the humidity value, the particulate matter content (PM 2.5, for example), the lampblack value and the noise value of the environment.

Step S220, displaying the environmental parameter on the first display interface 40 of the remote controller and/or the second display interface of the device to be controlled of the remote controller. For example: and sending the environmental parameters to equipment to be controlled of the remote controller, so that the environmental parameters are displayed on a second display interface of the equipment to be controlled.

For example: the remote controller has the function of displaying the temperature and humidity values.

Therefore, the environment parameters are displayed in different forms, so that the display is more flexible and more convenient.

And/or step S230, sending the environmental parameter to a device to be controlled of the remote controller, so that the device to be controlled adjusts the environmental parameter in a direction conforming to the set environmental threshold when the environmental parameter does not conform to the corresponding set environmental threshold.

For example: the remote controller collects the nearby temperature and humidity values and sends the values to a control unit of receiving equipment (such as a remote controller receiving unit of a household appliance); thereby the receiving equipment realizes the wide-range detection of temperature and humidity.

For example: taking an air conditioner as an example, the air conditioner receives the temperature and the humidity acquired by the remote controller, so that environmental parameters near a user are known.

For example: air conditioner sensor capable of detecting only about 0.5m ³ Temperature and humidity values in a range, but temperature and humidity acquired through a remote controllerThe detection range of the temperature and humidity value can be expanded to 10m due to the portability of the remote controller ³ 。

From this, through sending environmental parameter to wait to control equipment, make wait to control equipment and control based on this environmental parameter, be favorable to promoting the accuracy and the reliability of waiting to control equipment control, and then can promote user experience.

Or step S240, sending an environmental control instruction to the device to be controlled of the remote controller, so that the device to be controlled adjusts the environmental parameter in a direction conforming to the set environmental threshold value, if the environmental parameter does not conform to the corresponding set environmental threshold value.

From this, detect environmental parameter through the sensor on the remote controller to the equipment that waits of messenger's remote controller carries out environmental control according to this environmental parameter, has expanded the sensing scope of equipment that awaits measuring such as air conditioner, has promoted the accuracy and the reliability that wait to control equipment and carry out environmental control, is favorable to promoting user's travelling comfort and experiences.

In an alternative embodiment, the method may further include: and a sliding operation detection process.

Optionally, the specific process of detecting the sliding operation may be further described with reference to the schematic flow chart of an embodiment of detecting the sliding operation in the method of the present invention shown in fig. 4.

In step S310, sliding information of a user' S finger in a set area on the housing 50 of the remote controller is acquired.

For example: the remote control can realize direct touch control of the shell.

For example: when the finger touches these shapes, the touch detection means detects a change in capacitance value, and determines that the finger is pressed at a specific position.

Optionally, the setting area may include: a protrusion, a recess, and a structure of other shape than the protrusion and the recess.

Therefore, convenience and flexibility of sliding operation of a user can be guaranteed through the positioning areas in various forms, and universality is high.

More optionally, the protruding portion may include: one or more raised points, and/or the recess, may include: more than one recessed point.

For example: the protruding or recessed points or special shapes can be added on the remote controller shell, so that the finger positioning is facilitated.

Therefore, the sliding is more convenient and the detection is more sensitive through the locating areas arranged in the punctiform mode.

Optionally, the sliding information may include: at least one of sliding leftward, rightward, upward, and downward.

Therefore, the flexibility and the diversity of sliding operation are improved through various sliding modes.

Step S320, determining a sliding control instruction according to the sliding information, and sending the sliding control instruction to the equipment to be controlled of the remote controller so that the equipment to be controlled operates according to the sliding control instruction.

For example: the gesture control of some characteristic functions of the remote controller can be realized through the acceleration sensor.

For example: when the finger continuously passes through several touch detection units for a period of time, the finger is considered to have performed a sliding operation.

Therefore, by detecting the sliding operation of a user on the remote controller, the special control function is realized by controlling the equipment to be controlled through the gesture operation of the remote controller, and the functions and selling points of the remote controller are increased.

Optionally, when the device to be controlled may include an air conditioner, the sliding control instruction may include: at least one of a wind speed increasing command, a wind speed decreasing command, a set temperature increasing command, and a set temperature decreasing command.

For example: for example, corresponding to an air conditioner remote controller, left sliding can be defined as decreasing wind speed, right sliding can be defined as increasing wind speed; upward sliding is defined as an increase in the set temperature, and downward sliding is defined as a decrease in the set temperature.

Therefore, through gesture control in various forms, the convenience of control and the flexibility of user use can be improved.

In an alternative embodiment, the method may further include: and (5) detecting electric quantity information.

Optionally, the specific process of detecting the electric quantity may be further described with reference to the schematic flow chart of an embodiment of the electric quantity detection in the method of the present invention shown in fig. 5.

Step S410, acquiring electric quantity information of the remote controller.

Step S420, displaying the electric quantity information on the first display interface 40 of the remote controller and/or the second display interface of the device to be controlled of the remote controller.

Therefore, the electric quantity is displayed in various modes, and the display flexibility and convenience are good.

And/or step S430, where the power information is less than or equal to a set power threshold, the message of the power shortage of the remote controller is prompted, and/or the power information and/or the message of the power shortage of the remote controller are sent to the user terminal.

Therefore, through detecting the electric quantity information and reminding when the electric quantity is insufficient, normal use of a user can be guaranteed, reliability is high, and humanization is good.

Since the processes and functions implemented by the method of the present embodiment substantially correspond to the embodiments, principles and examples of the apparatus shown in fig. 1, the description of the present embodiment is not exhaustive, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.

Through a large number of experiments, the technical scheme of the invention solves the problem that the backlight is required to be lightened by key operation of the remote controller so as to be inconvenient for a user to use, and improves the convenience of use of the remote controller.

According to an embodiment of the present invention, there is also provided a storage medium corresponding to a control method of a remote controller. The storage medium may include: the storage medium stores a plurality of instructions; the plurality of instructions may be used to load and execute the control method of the remote control described above by the processor.

Since the processes and functions implemented by the storage medium of the present embodiment substantially correspond to the embodiments, principles and examples of the methods shown in fig. 2 to 5, the description of the present embodiment is not exhaustive, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.

Through a large number of experiments, the technical scheme of the invention expands the sensing range of the equipment to be controlled (such as an air conditioner) of the remote controller through the sensor (such as a temperature and humidity sensor) on the remote controller.

According to an embodiment of the present invention, there is also provided a remote controller corresponding to the control method of the remote controller. The apparatus may include: the control device of the remote controller. Alternatively, the apparatus may include: a processor operable to execute a plurality of instructions; a memory operable to store a plurality of instructions; the instructions may be stored in the memory, and loaded and executed by the processor, where the method for controlling a remote controller is described above.

In an alternative embodiment, referring to the example shown in fig. 6, it may further include: a key 60 and a touch recognition point 70.

In an alternative example, the touch recognition point 70 is disposed on the key 60 and may be used to recognize the key 60, so as to implement a blind control operation on the remote controller.

For example: and the design of the blind control operation of the remote controller is realized (for example, the touch recognition points are added on the keys of the remote controller).

For example: the remote control also has a blind control (i.e. remote control operation by eye closure) operation design.

For example: the remote controller keys can be increased with touch recognition points so as to realize key recognition through the touch recognition points.

Therefore, the touch control identification points are arranged on the keys of the remote controller, so that blind control operation can be realized, functions are increased, user groups are enlarged, and convenience of use is improved for users.

In an alternative embodiment, the method may further include: and a clock unit.

In an alternative example, the clock unit may be configured to perform at least one of time setting, display, and timing control of the device to be controlled under the control of the controller 20.

For example: and the clock setting and displaying of the remote controller are realized through the clock unit.

For example: the remote controller can also realize clock setting and display. For example: the remote controller has clock setting and display functions and is used for time display and timing function setting of the air conditioner.

Therefore, through the arrangement of the clock unit, the remote controller can realize the functions of time setting, time display, time control of equipment to be controlled and the like, and has better use convenience and humanization.

In an alternative embodiment, the method may further include: a rechargeable battery and a charging interface.

In an alternative example, the rechargeable battery may be used to power the remote control and the charging interface may be used to charge the rechargeable battery.

Wherein, the charging interface may include: a USB interface.

For example: the remote control can be charged (for example, a rechargeable battery is adopted, and charging is carried out through a USB interface).

For example: the remote control also has a rechargeable design. For example: the remote controller can adopt a rechargeable battery and use a USB interface for charging.

Therefore, the rechargeable remote controller is powered by the remote controller, so that complicated operation of a better battery is saved, the cost for replacing the battery is saved, and the environmental pollution caused by waste batteries is avoided.

Since the processes and functions implemented by the apparatus of the present embodiment substantially correspond to the embodiments, principles and examples of the apparatus shown in fig. 1 or the methods shown in fig. 2 to 5, the description of the present embodiment is not exhaustive, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.

Through a great number of experiments, the technical scheme of the invention increases the functions and selling points of the remote controller through one or more functions of the remote controller such as blind control operation design, clock setting and displaying, chargeable design and the like.

According to an embodiment of the present invention, there is also provided an apparatus corresponding to a remote controller. The apparatus may include: the device is capable of receiving control of the remote control described above.

In an alternative implementation manner, the remote controller of this embodiment can perform intelligent backlight control.

In an alternative example, the remote controller may be provided with an acceleration sensor to realize intelligent backlight control of the remote controller.

Wherein, the process that the remote controller realizes intelligent backlight control through acceleration sensor can include:

when the remote controller is lifted by a user from a static state, the remote controller has acceleration or angle change, and the output values of the acceleration and angle sensors change.

The user picks up the remote controller instantly, the remote controller is in an acceleration process, the value of the acceleration sensor is changed from 0 to a positive value, and at the moment, the remote controller is judged to be picked up.

According to the method, when the fact that the user picks up the remote controller is detected, the backlight can be lightened for a period of time (for example, 1-20 seconds), and the user can conveniently read the screen content of the remote controller or see the content of the keys clearly.

In an alternative example, the remote control may also be provided with an angle sensor. That is, the remote controller can realize intelligent backlight control of the remote controller by adding an acceleration sensor and an angle sensor.

Wherein, the process that the remote controller realizes intelligent backlight control through acceleration sensor and angle sensor can include: when the acceleration value does not change much, but the angle change is large, the user is also considered to have picked up the remote control.

Alternatively, the angle sensor may be used in addition to the acceleration sensor. For example: the two sensor functions are usually made into one chip, and only the acceleration sensor can be used.

Alternatively, the acceleration sensor and the angle sensor may be provided separately or may be provided integrally.

In an alternative example, the remote control may also increase the photoresistor. That is, the remote controller can also realize intelligent backlight control of the remote controller by adding a photoresistor.

Wherein, the process that the remote controller realizes intelligent backlight control through increasing the photoresistor can include: the remote controller detects the ambient brightness through the photoresistor, and when the ambient brightness value is proper (such as in the daytime), the backlight of the remote controller is not lighted, so that the power is saved.

Alternatively, the remote controller can realize intelligent backlight control by adding a photoresistor singly, and can also realize intelligent backlight control by combining with at least one of an acceleration sensor and an angle sensor.

In an alternative specific example, the remote controller adds acceleration and angle sensors (two sensor functions, usually made into a chip, or only using the acceleration sensor) and photoresistors, so as to realize the following functions:

1. when the remote controller is lifted by a user from a static state, the remote controller has acceleration or angle change, and the output values of the acceleration and angle sensors change.

When the user picks up the remote controller, the remote controller is in an acceleration process, the value of the acceleration sensor is changed from 0 to a positive value, and at the moment, the remote controller is judged to be picked up.

The angle sensor is used as a supplement to the acceleration sensor and may not be used. When the acceleration value does not change much, but the angle change is large, the user is also considered to have picked up the remote control.

When the user is detected to pick up the remote controller, the backlight can be lightened for a period of time (for example, 1-20 seconds), so that the user can conveniently read the screen content of the remote controller or see the content on the keys clearly.

2. The remote controller detects the ambient brightness through the photoresistor, and when the ambient brightness value is proper (such as in the daytime), the backlight of the remote controller is not lighted, so that the power is saved.

In an alternative embodiment, the remote controller is provided with a temperature and humidity sensor to realize a temperature and humidity acquisition function.

In an alternative example, the remote controller adds a temperature and humidity sensor (which may be a chip with two functions integrated or a single function element) to realize the following functions:

1. the remote controller has the function of displaying the temperature and humidity values.

2. The remote controller collects the nearby temperature and humidity values and sends the values to a control unit of receiving equipment (such as a remote controller receiving unit of a household appliance); thereby the receiving equipment realizes the wide-range detection of temperature and humidity.

For example: taking an air conditioner as an example, the air conditioner receives the temperature and the humidity acquired by the remote controller, so that environmental parameters near a user are known.

For example: air conditioner sensor capable of detecting only about 0.5m ³ Temperature and humidity values in the range, but the temperature and humidity values acquired by the remote controller can be expanded to 10m due to the portable characteristic of the remote controller ³ 。

In an alternative embodiment, the remote control also has a blind (i.e., remote operated by a closed eye) operating design.

In an alternative example, the touch recognition point may be added to the remote controller key to implement key recognition through the touch recognition point.

In an alternative example, gesture control of some characteristic functions of the remote controller can be achieved through an acceleration sensor.

Alternatively, the remote controller shake detection (i.e. the acceleration value has several continuous increases and decreases processes within a period of time) may be implemented through the acceleration sensor, and the specific function setting is changed through shake (such as the functions of turning on and off) without looking at the screen.

In an alternative example, the remote control may implement a housing direct touch manipulation.

Alternatively, raised or recessed points or special shapes may be added to the remote control housing to facilitate finger positioning. When the finger touches these shapes, the touch detection means detects a change in capacitance value, and determines that the finger is pressed at a specific position.

Alternatively, when the finger passes several touch detection units in succession for a period of time, the finger is considered to have performed a sliding operation. For example, corresponding to an air conditioner remote controller, left sliding can be defined as decreasing wind speed, right sliding can be defined as increasing wind speed; upward sliding is defined as an increase in the set temperature, and downward sliding is defined as a decrease in the set temperature.

In an alternative embodiment, the remote control can also implement clock setting and display.

In an alternative example, the remote control has a clock setting and display function for time display and timing function setting of the air conditioner.

In an alternative embodiment, the remote control is also of a rechargeable design.

In an alternative example, the remote control may employ a rechargeable battery that is recharged using a USB interface.

Since the processing and functions implemented by the apparatus of the present embodiment substantially correspond to the foregoing embodiment, principle and example of the remote controller shown in fig. 6, the description of the present embodiment is not exhaustive, and reference may be made to the related description of the foregoing embodiment, which is not repeated herein.

Through a large number of experiments, the technical scheme of the invention expands the sensing range of equipment (such as an air conditioner) and improves the user experience under the control of the remote controller.

In summary, it is readily understood by those skilled in the art that the above-described advantageous ways can be freely combined and superimposed without conflict.

The above description is only an example of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (14)

1. A control device of a remote controller, comprising: a sensing assembly (10) and a controller (20); the controller (20) is connected with the sensing assembly (10); wherein,

the sensing component (10) is used for acquiring the brightness value of the environment to which the remote controller belongs and acquiring the state change value of the remote controller in the process of being picked up by a user from a static state; the state change value includes: acceleration change value, angle change value; setting a status threshold, comprising: acceleration threshold, angle threshold; when the remote controller is swayed left and right, detecting according to the acceleration change value; when the remote controller is rocked up and down, detecting according to at least one of the acceleration change value and the angle change value;

the controller (20) is configured to control a backlight (30) of the remote controller to be turned on when the brightness value is less than or equal to a set brightness threshold and the state change value is greater than or equal to a set state threshold; the state change value is greater than or equal to a set state threshold, including: the acceleration change value is greater than or equal to the acceleration threshold value, and the angle change value is greater than or equal to the angle threshold value;

The controller (20) is further configured to control a backlight (30) of the remote controller to be turned on when the brightness value is not within a set comfort brightness value and the acceleration variation value exceeds a set acceleration variation value;

the controller (20) is further configured to control the backlight (30) to be turned on when the brightness value is not within the set comfort value, the acceleration variation value does not exceed the set acceleration variation value, but the angle variation value exceeds a set angle variation value;

wherein, the controller (20) controls the backlight (30) of the remote controller to be turned on, and specifically comprises:

after the backlight source (30) is started, keeping a first set time length in a lighting state;

dimming the brightness of the backlight (30) when the degree to which the brightness value is smaller than the set brightness threshold belongs to a first set degree threshold; -when the degree to which the luminance value is less than the set luminance threshold value belongs to a second set degree threshold value, turning on the luminance of the backlight (30); wherein the first set degree threshold is less than the second set degree threshold; the remote controller realizes the intelligent backlight control process through the acceleration sensor, and comprises the following steps: when the user is detected to pick up the remote controller, the backlight is lightened for a period of time, so that the user can conveniently read the screen content of the remote controller or see the content on the keys clearly; adjusting the brightness of the backlight source (30) according to the degree that the brightness value is smaller than the set brightness threshold value, so as to automatically adjust the backlight brightness when the light is too dark and automatically adjust the backlight brightness when the light is not too dark;

Wherein,

-the controller (20) is further configured to control the backlight (30) to be turned off if the luminance value is greater than the set luminance threshold;

the controller (20) is further configured to send a function control instruction to a device to be controlled of the remote controller to implement function control of the device to be controlled when the state change value increases continuously for a first set number of times or decreases continuously for a second set number of times within a second set duration;

the sensing assembly (10) is also used for acquiring environmental parameters in a temperature value, a humidity value, a particulate matter content, a lampblack value and a noise value of the environment;

the controller (20) is further configured to cause the environmental parameter to be displayed on a first display interface (40) of the remote controller and a second display interface of a device to be controlled of the remote controller; the environment parameters are sent to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environment parameters to the direction conforming to the set environment threshold under the condition that the environment parameters do not conform to the corresponding set environment threshold; or under the condition that the environmental parameters do not accord with the corresponding set environmental thresholds, sending an environmental control instruction to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameters to the direction which accords with the set environmental thresholds; the remote controller collects nearby temperature and humidity values and sends the values to a control unit of the receiving equipment; thereby the receiving equipment realizes the wide-range detection of temperature and humidity.

2. The apparatus of claim 1, wherein,

the sensing assembly (10) is further used for acquiring sliding information of a user finger in a set area on the shell (50) of the remote controller;

the controller (20) is further configured to determine a sliding control instruction according to the sliding information, and send the sliding control instruction to a device to be controlled of the remote controller, so that the device to be controlled operates according to the sliding control instruction;

and/or the number of the groups of groups,

the sensing component (10) is also used for acquiring electric quantity information of the remote controller;

the controller (20) is further configured to cause the electric quantity information to be displayed on a first display interface (40) of the remote controller and/or a second display interface of a device to be controlled of the remote controller; and/or the number of the groups of groups,

and prompting a message of insufficient electric quantity of the remote controller and/or sending the electric quantity information and/or the message of insufficient electric quantity of the remote controller to a user terminal under the condition that the electric quantity information is smaller than or equal to a set electric quantity threshold value.

3. The apparatus of claim 2, wherein,

when the sensing assembly (10) is used to obtain the luminance value, the sensing assembly (10) comprises: a brightness sensor; and/or the number of the groups of groups,

When the sensing assembly (10) is used for acquiring the state change value, the sensing assembly (10) further comprises: at least one of an acceleration sensor and an angle sensor; and/or the number of the groups of groups,

when the sensing assembly (10) is used for acquiring the environmental parameter, the sensing assembly (10) further comprises: at least one of a temperature sensor, a humidity sensor, a particulate matter sensor, a lampblack sensor and a noise sensor; and/or the number of the groups of groups,

when the sensing assembly (10) is further used for acquiring the sliding information, the sensing assembly (10) further comprises: a touch detection unit; and/or the number of the groups of groups,

when the sensing assembly (10) is further used for acquiring the electric quantity information, the sensing assembly (10) further comprises an electric quantity sensor;

and/or the number of the groups of groups,

the condition that the state change value continuously increases the first set times or continuously decreases the second set times in the second set time length includes: a user shakes the remote controller left and right, or up and down, or tilts; and/or the number of the groups of groups,

the function control instruction includes: at least one of a startup instruction, a shutdown instruction and a mute instruction;

and/or the number of the groups of groups,

the device to be controlled comprises: at least one of an air conditioner, a humidifier, an air purifier, a smoke exhaust ventilator and a noise reducer; and/or the number of the groups of groups,

The setting area includes: a protrusion, a recess, and a structure of other shape than the protrusion and the recess.

4. The apparatus of claim 3, wherein,

the luminance sensor includes: a photoresistor;

and/or the number of the groups of groups,

when the sensing assembly (10) further comprises the acceleration sensor and the angle sensor, the acceleration sensor and the angle sensor are arranged independently or integrally;

and/or the number of the groups of groups,

when the sensing assembly (10) further comprises the temperature sensor and the humidity sensor, the temperature sensor and the humidity sensor are arranged independently or integrally;

and/or the number of the groups of groups,

the touch detection unit includes: a touch capacitance; and/or the number of the groups of groups,

the protrusion includes: more than one point of protrusion; and/or, the recess comprises: more than one recessed point;

and/or the number of the groups of groups,

the sliding information includes: at least one of sliding left, sliding right, sliding up, sliding down; and/or the number of the groups of groups,

when the device to be controlled comprises an air conditioner, the sliding control instruction comprises: at least one of a wind speed increasing command, a wind speed decreasing command, a set temperature increasing command, and a set temperature decreasing command.

5. A control method of a remote controller corresponding to the control device of a remote controller according to any one of claims 1 to 4, comprising:

acquiring a brightness value of an environment to which the remote controller belongs, and acquiring a state change value of the remote controller in the process of being picked up by a user from a static state;

controlling a backlight source (30) of the remote controller to be turned on under the condition that the brightness value is smaller than or equal to a set brightness threshold value and the state change value is larger than or equal to a set state threshold value; controlling a backlight (30) of the remote controller to be turned on when the brightness value is not within a set comfort brightness value and the acceleration variation value exceeds a set acceleration variation value; the controller (20) is further configured to control the backlight (30) to be turned on when the brightness value is not within the set comfort value, the acceleration variation value does not exceed the set acceleration variation value, but the angle variation value exceeds a set angle variation value;

wherein,

the method for controlling the backlight (30) of the remote controller to be started specifically comprises the following steps:

after the backlight source (30) is started, keeping a first set time length in a lighting state;

Dimming the brightness of the backlight (30) when the degree to which the brightness value is smaller than the set brightness threshold belongs to a first set degree threshold; -when the degree to which the luminance value is less than the set luminance threshold value belongs to a second set degree threshold value, turning on the luminance of the backlight (30); wherein the first set level threshold is less than the second set level threshold.

6. The method of claim 5, wherein,

the state change value includes: at least one of the acceleration change value and the angle change value;

the setting the state threshold includes: at least one of an acceleration threshold value and an angle threshold value;

the method comprises the steps of,

the state change value is greater than or equal to a set state threshold, including:

the acceleration change value is greater than or equal to the acceleration threshold value, and/or the angle change value is greater than or equal to the angle threshold value.

7. The method as recited in claim 5, further comprising:

controlling the backlight (30) to be turned off when the brightness value is larger than the set brightness threshold value;

and/or the number of the groups of groups,

under the condition that the state change value is increased in the continuous first set times or decreased in the continuous second set times within the second set time, a function control instruction is sent to equipment to be controlled of the remote controller so as to realize function control of the equipment to be controlled;

And/or the number of the groups of groups,

acquiring at least one environmental parameter of a temperature value, a humidity value, a particulate matter content, a lampblack value and a noise value of the environment;

displaying the environmental parameters on a first display interface (40) of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or the number of the groups of groups,

the environment parameters are sent to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environment parameters to the direction conforming to the set environment threshold under the condition that the environment parameters do not conform to the corresponding set environment threshold; or,

under the condition that the environmental parameters do not accord with the corresponding set environmental thresholds, an environmental control instruction is sent to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameters to the direction which accords with the set environmental thresholds;

and/or the number of the groups of groups,

acquiring sliding information of a set area of a user finger on a shell (50) of the remote controller;

determining a sliding control instruction according to the sliding information, and sending the sliding control instruction to equipment to be controlled of the remote controller so that the equipment to be controlled operates according to the sliding control instruction;

and/or the number of the groups of groups,

Acquiring electric quantity information of the remote controller;

displaying the electric quantity information on a first display interface (40) of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or the number of the groups of groups,

and prompting a message of insufficient electric quantity of the remote controller and/or sending the electric quantity information and/or the message of insufficient electric quantity of the remote controller to a user terminal under the condition that the electric quantity information is smaller than or equal to a set electric quantity threshold value.

8. The method as recited in claim 6, further comprising:

controlling the backlight (30) to be turned off when the brightness value is larger than the set brightness threshold value;

and/or the number of the groups of groups,

under the condition that the state change value is increased in the continuous first set times or decreased in the continuous second set times within the second set time, a function control instruction is sent to equipment to be controlled of the remote controller so as to realize function control of the equipment to be controlled;

and/or the number of the groups of groups,

acquiring at least one environmental parameter of a temperature value, a humidity value, a particulate matter content, a lampblack value and a noise value of the environment;

displaying the environmental parameters on a first display interface (40) of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or the number of the groups of groups,

The environment parameters are sent to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environment parameters to the direction conforming to the set environment threshold under the condition that the environment parameters do not conform to the corresponding set environment threshold; or,

under the condition that the environmental parameters do not accord with the corresponding set environmental thresholds, an environmental control instruction is sent to equipment to be controlled of the remote controller, so that the equipment to be controlled adjusts the environmental parameters to the direction which accords with the set environmental thresholds;

and/or the number of the groups of groups,

acquiring sliding information of a set area of a user finger on a shell (50) of the remote controller;

determining a sliding control instruction according to the sliding information, and sending the sliding control instruction to equipment to be controlled of the remote controller so that the equipment to be controlled operates according to the sliding control instruction;

and/or the number of the groups of groups,

acquiring electric quantity information of the remote controller;

displaying the electric quantity information on a first display interface (40) of the remote controller and/or a second display interface of equipment to be controlled of the remote controller; and/or the number of the groups of groups,

and prompting a message of insufficient electric quantity of the remote controller and/or sending the electric quantity information and/or the message of insufficient electric quantity of the remote controller to a user terminal under the condition that the electric quantity information is smaller than or equal to a set electric quantity threshold value.

9. The method according to claim 7 or 8, wherein,

the condition that the state change value continuously increases the first set times or continuously decreases the second set times in the second set time length includes: a user shakes the remote controller left and right, or up and down, or tilts; and/or the number of the groups of groups,

the function control instruction includes: at least one of a startup instruction, a shutdown instruction and a mute instruction;

and/or the number of the groups of groups,

the device to be controlled comprises: at least one of an air conditioner, a humidifier, an air purifier, a smoke exhaust ventilator and a noise reducer; and/or the number of the groups of groups,

the setting area includes: a protrusion, a recess, and a structure of other shape than the protrusion and the recess.

10. The method of claim 9, wherein the step of determining the position of the probe comprises,

the protrusion includes: more than one point of protrusion; and/or, the recess comprises: more than one recessed point;

and/or the number of the groups of groups,

the sliding information includes: at least one of sliding left, sliding right, sliding up, sliding down; and/or the number of the groups of groups,

when the device to be controlled comprises an air conditioner, the sliding control instruction comprises: at least one of a wind speed increasing command, a wind speed decreasing command, a set temperature increasing command, and a set temperature decreasing command.

11. A storage medium having a plurality of instructions stored therein; the plurality of instructions for loading and executing by a processor a control method of a remote control as claimed in any one of claims 5-10.

12. A remote control, comprising:

the control device of a remote controller according to any one of claims 1 to 4;

or,

a processor for executing a plurality of instructions;

a memory for storing a plurality of instructions;

wherein the plurality of instructions are stored by the memory and loaded by the processor and executed by the processor to control the method of the remote controller according to any one of claims 5-10.

13. The remote control of claim 12, wherein the remote control comprises a remote control unit,

further comprises: a key (60) and a touch recognition point (70); wherein,

the touch control identification point (70) is arranged on the key (60) and is used for identifying the key (60) so as to realize the blind control operation of the remote controller;

and/or the number of the groups of groups,

further comprises: a clock unit;

the clock unit is used for realizing at least one operation of time setting, displaying and timing control of equipment to be controlled under the control of the controller (20);

And/or the number of the groups of groups,

further comprises: a rechargeable battery and a charging interface;

the charging interface is used for charging the rechargeable battery; wherein, the interface that charges includes: a USB interface.

14. A device, characterized in that the device is capable of receiving control of a remote control as claimed in any one of claims 12-13.