CN106922057B - Short-distance control method and system for illuminating lamp - Google Patents

Abstract

The invention provides a short-distance control method and a short-distance control system for an illuminating lamp, wherein the method comprises the following steps: the method comprises the steps that the mobile terminal obtains illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier; the mobile terminal sends the lighting information to an NFC label on the mobile terminal; an NFC reader-writer connected with the light controller reads the illumination information in the NFC label; and after the lighting controller reads the lighting information in the NFC reader-writer, the lighting lamps corresponding to the lighting lamp identifications are turned on. The lighting information of each light that realizes mobile terminal will need to open is sent for light controller through NFC closely-transmitted's mode, and light controller can open a plurality of lights that need open to be convenient for the user and open the light, avoid appearing the switch that the user looked for the light in the dark and the condition that the bruise appears.

Description

Short-distance control method and system for illuminating lamp

Technical Field

The invention relates to an intelligent home technology, in particular to a short-distance control method and a short-distance control system for an illuminating lamp.

Background

The illuminating lamp is an essential illuminating tool in life. At present, when a user enters a residence or a workplace, a switch of an illuminating lamp needs to be manually closed so as to turn on the illuminating lamp.

However, a plurality of illuminating lamps located at different positions are arranged in the residence and the workplace, the switch of each illuminating lamp is also located at different positions, and the user can light the illuminating lamps through the switch of the closed illuminating lamps only when arriving at the switch position of each illuminating lamp, so that the user is not convenient for lighting and lighting, and the user can find the switch of the illuminating lamps in the dark and the situation of bruise occurs.

Disclosure of Invention

The invention provides a short-distance control method and a short-distance control system for an illuminating lamp, which are used for solving the problems that lighting and lighting of a user are inconvenient and the user can find a switch of the illuminating lamp in the dark to be damaged in the prior art.

One aspect of the present invention provides a method for controlling a short distance of an illumination lamp, including:

the method comprises the steps that a mobile terminal obtains illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier;

the mobile terminal sends the illumination information to a Near Field Communication (NFC) tag on the mobile terminal;

an NFC reader-writer connected with the light controller reads the illumination information in the NFC label;

and after the lighting controller reads the lighting information in the NFC reader-writer, the lighting lamps corresponding to the lighting lamp identifications are turned on.

In the method, the acquiring, by the mobile terminal, the lighting information of the lighting lamp includes:

the mobile terminal receives lighting information input by a user;

or,

the mobile terminal receives the opening times of the illuminating lamps, corresponding to the illuminating lamp identifiers, sent by the NFC reader-writer through the NFC label, and determines the illuminating lamp identifiers with the opening times larger than the preset times so as to determine the illumination information, wherein the opening times of the illuminating lamps corresponding to the illuminating lamp identifiers are sent to the NFC reader-writer by the light controller;

or,

and the mobile terminal receives the lighting lamp turn-on time which is sent by the NFC reader and corresponds to each lighting lamp identification through the NFC label, and determines the lighting lamp identification of which the lighting lamp turn-on time is within a preset time range so as to determine lighting information, wherein the lighting lamp turn-on time corresponding to each lighting lamp identification is sent to the NFC reader by the lighting controller.

In the above method, after the lighting controller reads the lighting information in the NFC reader-writer, and after the lighting lamps corresponding to the lighting lamp identifiers are turned on, the method further includes:

the mobile terminal acquires illumination lamp adjustment information, wherein the illumination lamp adjustment information comprises illumination lamp brightness information and/or illumination time information, the illumination lamp brightness information comprises an illumination lamp brightness value corresponding to an illumination lamp identifier, and the illumination time information comprises illumination time corresponding to the illumination lamp identifier;

the mobile terminal sends the illumination lamp adjusting information to the NFC label;

the NFC reader reads the illumination lamp adjusting information in the NFC label;

and after reading the illumination lamp adjusting information in the NFC reader-writer, the light controller adjusts illumination lamps corresponding to the illumination lamp identifiers.

In the method, the acquiring, by the mobile terminal, the luminance information of the illumination lamp includes:

the mobile terminal receives the brightness information of the illuminating lamp input by the user;

or,

the mobile terminal determines the brightness information of the illuminating lamp according to a preset voltage value;

or,

the mobile terminal obtains current environment light brightness information through an optical sensor arranged on the mobile terminal, and determines illumination lamp brightness information according to the current environment light brightness information.

In the method, the obtaining, by the mobile terminal, the illumination time information includes:

the mobile terminal receives the illumination time information input by the user;

or,

the mobile terminal receives the opening time period length of at least one illuminating lamp corresponding to each illuminating lamp identification sent by the NFC reader-writer through the NFC label, determines the average value of the opening time period lengths of the at least one illuminating lamp in a preset time to determine illumination time information, wherein the opening time period length of the at least one illuminating lamp corresponding to each illuminating lamp identification is sent to the NFC reader-writer by the light controller.

Another aspect of the present invention is to provide a proximity control system of an illumination lamp, including:

the mobile terminal is provided with an NFC label, an NFC reader-writer and a light controller;

the light controller is connected with the NFC reader-writer;

the mobile terminal comprises a first acquisition module and a sending module;

the first acquisition module is used for acquiring illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier;

the sending module is used for sending the illumination information to the NFC tag;

the NFC reader-writer is used for reading the illumination information in the NFC label;

and the light controller is used for turning on the illuminating lamps corresponding to the illuminating lamp identifications after reading the illuminating information in the NFC reader-writer.

In the above system, the first obtaining module is specifically configured to:

receiving lighting information input by a user;

or,

receiving the opening times of the illuminating lamps corresponding to the illuminating lamp identifications sent by the NFC reader-writer through the NFC label, and determining the illuminating lamp identifications with the opening times larger than the preset times so as to determine illumination information, wherein the opening times of the illuminating lamps corresponding to the illuminating lamp identifications are sent to the NFC reader-writer by the light controller;

or,

and receiving the lighting lamp turn-on time which is sent by the NFC reader and corresponds to each lighting lamp identification through the NFC label, and determining the lighting lamp identification of which the lighting lamp turn-on time is within a preset time range so as to determine lighting information, wherein the lighting lamp turn-on time which corresponds to each lighting lamp identification is sent to the NFC reader by the lighting controller.

In the above system, the mobile terminal further includes: a second acquisition module;

the second obtaining module is configured to obtain lighting lamp adjustment information and send the lighting lamp adjustment information to the NFC tag after the lighting controller turns on a lighting lamp corresponding to each lighting lamp identifier, where the lighting lamp adjustment information includes lighting lamp luminance information and/or lighting time information, where the lighting lamp luminance information includes a lighting lamp luminance value corresponding to a lighting lamp identifier, and the lighting time information includes lighting time corresponding to a lighting lamp identifier;

correspondingly, the NFC reader is further configured to: reading the illumination lamp adjustment information in the NFC tag;

and the light controller is also used for adjusting the lighting lamps corresponding to the lighting lamp identifications after reading the lighting lamp adjusting information in the NFC reader-writer.

In the system as described above, the second obtaining module includes: a first obtaining submodule;

the first obtaining sub-module is configured to:

receiving illumination lamp brightness information input by the user;

or,

determining the brightness information of the illuminating lamp according to a preset voltage value;

or,

the method comprises the steps of obtaining current environment light brightness information through an optical sensor arranged on the mobile terminal, and determining illumination lamp brightness information according to the current environment light brightness information.

In the system as described above, the second obtaining module includes: a second obtaining submodule;

the second obtaining sub-module is configured to:

receiving lighting time information input by the user;

or,

and receiving the opening time period length of at least one illuminating lamp corresponding to each illuminating lamp identification sent by the NFC reader-writer through the NFC label, and determining the average value of the opening time period lengths of the at least one illuminating lamp in a preset time so as to determine illumination time information, wherein the opening time period length of the at least one illuminating lamp corresponding to each illuminating lamp identification is sent to the NFC reader-writer by the light controller.

The method comprises the steps that illumination information of an illumination lamp is obtained through a mobile terminal, wherein the illumination information comprises at least one illumination lamp identifier; the mobile terminal sends the lighting information to an NFC label on the mobile terminal; an NFC reader-writer connected with the light controller reads the illumination information in the NFC label; and after the lighting controller reads the lighting information in the NFC reader-writer, the lighting lamps corresponding to the lighting lamp identifications are turned on. The lighting information of each light that can realize mobile terminal will need to open, the mode that leads to NFC closely transmits sends for light controller, and light controller can open a plurality of lights that need open to be convenient for the user and open the light, avoid appearing the switch that the user looked for the light in the dark and the condition that the bruise appears.

Drawings

Fig. 1 is a flowchart of a short-distance control method for an illumination lamp according to an embodiment of the present invention;

fig. 2 is a flowchart of a short-distance control method for an illumination lamp according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a short-distance control system of an illumination lamp according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a short-distance control system of an illumination lamp according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a flowchart of a short-distance control method for an illumination lamp according to an embodiment of the present invention, as shown in fig. 1, the method of the embodiment includes:

step 101, the mobile terminal acquires illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier.

In this embodiment, specifically, the mobile terminal may acquire lighting information of a lighting lamp, where the lighting information carries at least one lighting lamp identifier.

And 102, the mobile terminal sends the lighting information to the NFC label on the mobile terminal.

In this embodiment, specifically, an NFC tag is integrated in the mobile terminal, and the mobile terminal sends the illumination information to the NFC tag, so that the NFC tag temporarily stores the illumination information.

And 103, reading the lighting information in the NFC label by the NFC reader-writer connected with the light controller.

In this embodiment, specifically, a light controller is provided, the light controller is connected with each lighting lamp, and the light controller is connected with the NFC reader-writer. And when the mobile terminal approaches the NFC reader-writer, the NFC reader-writer reads the illumination information in the NFC label.

And step 104, after the lighting controller reads the lighting information in the NFC reader-writer, the lighting lamps corresponding to the lighting lamp identifications are turned on.

In this embodiment, it is concrete, the lighting controller can get to read the lighting information in the NFC reader-writer, then, the lighting controller opens the light that corresponds with each light sign according to lighting information to a plurality of lights can be opened simultaneously to the lighting controller.

In the embodiment, the light controller is provided by integrating the NFC tag in the mobile terminal, the light controller is connected with each illuminating lamp, and the light controller is connected with the NFC reader-writer; the method comprises the steps that the mobile terminal obtains illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier; the NFC reader-writer obtains the illumination information sent by the mobile terminal through the NFC label, the lighting controller reads the illumination information in the NFC reader-writer, and then the lighting controller turns on the lighting lamps corresponding to the lighting lamp identifications according to the illumination information. The lighting information of each light that can realize mobile terminal will need to open, the mode that leads to NFC closely transmits sends for light controller, and light controller can open a plurality of lights that need open to be convenient for the user and open the light, avoid appearing the switch that the user looked for the light in the dark and the condition that the bruise appears.

Fig. 2 is a flowchart of a short-distance control method for an illumination lamp according to a second embodiment of the present invention, and based on the first embodiment, as shown in fig. 2, after step 104, the method of this embodiment further includes:

step 201, the mobile terminal acquires illumination lamp adjustment information, where the illumination lamp adjustment information includes illumination lamp brightness information and/or illumination time information, where the illumination lamp brightness information includes an illumination lamp brightness value corresponding to an illumination lamp identifier, and the illumination time information includes an illumination time corresponding to the illumination lamp identifier.

In this embodiment, specifically, the mobile terminal may acquire lighting lamp adjustment information of each lighting lamp, where the lighting lamp adjustment information is any one of or a combination of two of the following information: illumination lamp brightness information, illumination time information. And, the illumination lamp brightness information includes an illumination lamp brightness value corresponding to the illumination lamp identification, and the illumination time information includes an illumination time period corresponding to the illumination lamp identification.

Step 202, the mobile terminal sends the lighting lamp adjusting information to the NFC label.

In this embodiment, specifically, the mobile terminal first sends the lighting lamp adjustment information in step 201 to the NFC tag, so that the NFC tag temporarily stores the lighting lamp adjustment information.

And step 203, reading the lighting lamp adjusting information in the NFC label by the NFC reader.

In this embodiment, specifically, the NFC reader reads the illumination lamp adjustment information cached in the NFC tag.

And step 204, after the lighting lamp controller reads the lighting lamp adjusting information in the NFC reader-writer, adjusting the lighting lamps corresponding to the lighting lamp identifications.

In this embodiment, specifically, the lighting controller reads lighting lamp adjustment information in the NFC reader, and the lighting controller adjusts the brightness and/or the closing of the lighting lamps corresponding to the lighting lamp identifiers according to the lighting lamp adjustment information. If the lighting lamp adjusting information comprises lighting lamp brightness information, the lighting controller adjusts the brightness of the lighting lamp corresponding to each lighting lamp identifier; if the lighting lamp adjustment information includes lighting time information, the lighting controller determines whether the lighting lamps corresponding to the lighting lamp identifiers are closed.

This embodiment obtains light regulation information through mobile terminal, and light regulation information includes light luminance information and/or illumination time information, and the NFC read write line passes through the light regulation information of NFC label acquisition mobile terminal in, and the light controller reads the light regulation information in the NFC read write line to the light controller adjusts the light that corresponds with each light sign according to light regulation information. The purpose of adjusting the brightness and whether the illuminating lamps are closed or not is achieved. The lighting information of each light that can realize mobile terminal will need to open, the mode that leads to NFC closely transmits sends for light controller, and light controller can open a plurality of lights that need open to be convenient for the user and open the light, avoid appearing the switch that the user looked for the light in the dark and the condition that the bruise appears.

Further, on the basis of the foregoing embodiment, the specific implementation manner of step 101 includes:

the mobile terminal receives lighting information input by a user;

or,

the mobile terminal receives the opening times of the illuminating lamps, corresponding to the illuminating lamp identifications, sent by the NFC reader-writer through the NFC label, and determines the illuminating lamp identifications with the opening times larger than the preset times so as to determine the illuminating information, wherein the opening times of the illuminating lamps corresponding to the illuminating lamp identifications are sent to the NFC reader-writer by the lamp controller;

or,

the mobile terminal receives the lighting lamp opening time which is sent by the NFC reader and corresponds to each lighting lamp identification through the NFC label, and determines the lighting lamp identification of the lighting lamp opening time within a preset time range so as to determine lighting information, wherein the lighting lamp opening time corresponding to each lighting lamp identification is sent to the NFC reader for the lighting controller.

In this embodiment, specifically, a user may input illumination information in the mobile terminal, where the illumination information is one or more illumination lamp identifiers, and thus the mobile terminal may receive the illumination information input by the user; thereby mobile terminal can be according to user's demand, sends the light sign of the light that needs to open for light controller through the NFC mode, and light controller opens at least one light that the user needs opened.

Or the lighting controller acquires the lighting lamp opening times corresponding to the lighting lamp identifiers and sends the lighting lamp opening times corresponding to the lighting lamp identifiers to the NFC reader-writer; the NFC reader-writer sends the opening times of the illuminating lamps corresponding to the illuminating lamp identifications to the NFC label on the mobile terminal, so that the NFC label is cached; then, the mobile terminal reads the lighting lamp opening times corresponding to the lighting lamp identifications cached in the NFC tag, and determines the lighting lamp identifications with the lighting lamp opening times larger than the preset times according to the lighting lamp opening times corresponding to the lighting lamp identifications, so that lighting information can be determined in the mobile terminal; thereby mobile terminal can open the number of times according to the light of each light, determines the light that needs to open to send the light sign of the light that needs to open for light controller through the NFC mode, light controller opens the light that opens the number of times more.

Or the lighting controller acquires the lighting lamp turn-on time corresponding to each lighting lamp identifier and sends the lighting lamp turn-on time corresponding to each lighting lamp identifier to the NFC reader-writer; the NFC reader sends the lighting lamp opening time corresponding to each lighting lamp identification to the NFC label on the mobile terminal, so that the NFC label is cached; then, the mobile terminal reads the lighting lamp turn-on time corresponding to each lighting lamp identification cached in the NFC tag, and the mobile terminal determines the lighting lamp identification of the lighting lamp with the lighting lamp turn-on time within a preset time range according to the lighting lamp turn-on time corresponding to each lighting lamp identification, so that lighting information can be determined in the mobile terminal; thereby mobile terminal can be according to the light opening time of each light, determines the light that the current time needs to be opened to send the light sign of the light that will need to be opened for light controller through the NFC mode, light that the current time needs to be opened is opened to light controller.

Further, on the basis of the foregoing embodiment, the specific implementation manner of the mobile terminal acquiring the luminance information of the illumination lamp in step 201 includes:

the mobile terminal receives illumination lamp brightness information input by a user;

or,

the mobile terminal determines the brightness information of the illuminating lamp according to a preset voltage value;

or,

the mobile terminal obtains the current environment brightness information through an optical sensor arranged on the mobile terminal, and determines the illumination lamp brightness information according to the current environment brightness information.

In this embodiment, specifically, the mobile terminal may obtain the brightness information of the illumination lamp in various ways. The mobile terminal receives the illumination lamp brightness information input by the user, wherein the illumination lamp brightness information represents the brightness of an illumination lamp needing to be adjusted; therefore, after the mobile terminal sends the brightness information of the illuminating lamp to the controller in an NFC mode, the brightness of the illuminating lamp can be adjusted by the lamp light controller according to the brightness of the illuminating lamp required by a user.

The mobile terminal determines the illumination lamp brightness information of each illumination lamp according to a preset voltage value; therefore, after the mobile terminal sends the brightness information of the illuminating lamp to the controller in an NFC mode, the light controller adjusts the brightness of the illuminating lamp according to the voltage condition.

The mobile terminal is provided with an optical sensor, the optical sensor can automatically detect the current environment brightness information, the mobile terminal obtains the current environment brightness information detected by the optical sensor, and the mobile terminal calculates the illumination lamp brightness information of the illumination lamp according to the current environment brightness information; therefore, after the mobile terminal sends the brightness information of the illuminating lamp to the controller in an NFC mode, the brightness of the illuminating lamp is adjusted by the light controller according to the current ambient light condition.

The mobile terminal sends the illumination lamp brightness information acquired in one mode to the NFC label; after the mobile terminal is close to the NFC reader-writer, the NFC reader-writer can read the illumination lamp brightness information in the NFC label, then the light controller can read the illumination lamp brightness information in the NFC reader-writer, and the light controller can adjust the brightness of illumination lamps corresponding to the illumination lamp identifications according to the illumination lamp brightness information.

Further, on the basis of the foregoing embodiment, a specific implementation manner of the mobile terminal acquiring the illumination time information in step 201 includes:

the mobile terminal receives illumination time information input by a user;

or,

the mobile terminal receives the opening time period length of at least one illuminating lamp corresponding to each illuminating lamp identification sent by the NFC reader-writer through the NFC label, determines the average value of the opening time period length of the at least one illuminating lamp in the preset time to determine illumination time information, wherein the opening time period length of the at least one illuminating lamp corresponding to each illuminating lamp identification is sent to the NFC reader-writer by the light controller.

In this embodiment, specifically, there are various ways for the mobile terminal to acquire the illumination time information. One is that, a user inputs illumination time information of an illumination lamp in a mobile terminal, the illumination time information includes illumination time corresponding to an illumination lamp identifier, the illumination time information represents the illumination time of the illumination lamp, and then the mobile terminal can receive the illumination time information input by the user; therefore, after the mobile terminal sends the illumination time information to the controller in an NFC mode, the light controller closes the illumination lamp with the time difference larger than the illumination time according to the time difference between the current time and the opening time of the illumination lamp, and the purpose of closing the illumination lamp according to the requirements of users is achieved.

The lighting controller sends at least one lighting lamp corresponding to each lighting lamp identifier to the NFC reader-writer for a long time period; the mobile terminal is close to the NFC reader-writer, and the NFC reader-writer sends at least one illuminating lamp corresponding to each illuminating lamp identification to the NFC label on the mobile terminal for a long time; the mobile terminal reads the opening time length of at least one illuminating lamp corresponding to each illuminating lamp identification cached in the NFC label, and then the mobile terminal determines the average value of the opening time lengths of the at least one illuminating lamp within a preset time, so that the illumination time information is determined; therefore, after the mobile terminal sends the illumination time information to the controller in an NFC mode, the light controller closes the illumination lamp with the time difference larger than the illumination time according to the time difference between the current time and the opening time of the illumination lamp, and the purpose of closing the illumination lamp according to the requirements of users is achieved.

The mobile terminal can send the illumination time information acquired by any one of the above modes to the NFC label; the mobile terminal is close to the NFC reader-writer, and the NFC reader-writer reads the illumination time information cached in the NFC label; and then, the lighting controller reads the lighting time information in the NFC reader-writer, determines whether the current time exceeds the lighting time according to the prestored lighting lamp opening time, and once the current time exceeds the lighting time, the lighting controller closes the lighting lamp exceeding the lighting time.

Fig. 3 is a schematic structural diagram of a short-distance control system of an illumination lamp according to a third embodiment of the present invention, and as shown in fig. 3, the short-distance control system of the illumination lamp according to the third embodiment includes:

a mobile terminal 32 provided with an NFC tag 31, an NFC reader 33, and a light controller 34;

the light controller 34 is connected with the NFC reader 33;

the mobile terminal 32 includes a first obtaining module 321 and a sending module 322;

a first obtaining module 321, configured to obtain lighting information of a lighting lamp, where the lighting information includes at least one lighting lamp identifier;

a sending module 322, configured to send the illumination information to the NFC tag 31;

an NFC reader 33 configured to read the illumination information in the NFC tag 31;

and the light controller 34 is configured to turn on the illumination lamps corresponding to the illumination lamp identifiers after reading the illumination information in the NFC reader 33.

The first obtaining module 321 is specifically configured to:

receiving lighting information input by a user;

or,

receiving the lighting lamp turn-on times corresponding to the lighting lamp identifiers sent by the NFC reader-writer 33 through the NFC tag 31, and determining the lighting lamp identifiers with the lighting lamp turn-on times greater than a preset number of times to determine lighting information, wherein the lighting lamp turn-on times corresponding to the lighting lamp identifiers are sent to the NFC reader-writer 33 by the lighting controller 34;

or,

the lighting lamp turn-on time corresponding to each lighting lamp identification sent by the NFC reader-writer 33 is received through the NFC tag 31, and the lighting lamp identification of which the lighting lamp turn-on time is within a preset time range is determined, so as to determine lighting information, wherein the lighting lamp turn-on time corresponding to each lighting lamp identification is sent to the NFC reader-writer 33 by the lighting controller 34.

The short-distance control system of the illumination lamp in this embodiment can execute the short-distance control method of the illumination lamp provided in the first embodiment of the present invention and the above embodiments, and the implementation principles are similar, and will not be described herein again.

In the embodiment, the NFC tag 31 is integrated in the mobile terminal 32, and the light controller 34 is provided, the light controller 34 is connected to each lighting lamp, and the light controller 34 is connected to the NFC reader 33; the mobile terminal 32 acquires illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier; the NFC reader 33 obtains the illumination information sent by the mobile terminal 32 through the NFC tag 31, the lighting controller 34 reads the illumination information in the NFC reader 33, and then the lighting controller 34 turns on the illumination lamps corresponding to the illumination lamp identifiers according to the illumination information. Can realize that mobile terminal 32 will need the illumination information of each light of opening, send for light controller 34 through NFC closely transmission's mode, light controller 34 can open a plurality of lights that need open to be convenient for the user opens the light, avoid appearing the user and look for the switch of light and the condition that appears damaging in the dark.

Fig. 4 is a schematic structural diagram of a short-distance control system of an illumination lamp according to a fourth embodiment of the present invention, and based on the third embodiment, as shown in fig. 4, in the short-distance control system of an illumination lamp according to the present embodiment, the mobile terminal 32 further includes: a second acquisition module 323;

a second obtaining module 323, configured to obtain lighting lamp adjustment information and send the lighting lamp adjustment information to the NFC tag 31 after the lighting controller 34 turns on the lighting lamps corresponding to the lighting lamp identifiers, where the lighting lamp adjustment information includes lighting lamp luminance information and/or lighting time information, where the lighting lamp luminance information includes a lighting lamp luminance value corresponding to the lighting lamp identifier, and the lighting time information includes a lighting duration corresponding to the lighting lamp identifier;

correspondingly, the NFC reader 33 is further configured to: reading the illumination lamp adjustment information in the NFC tag 31;

the light controller 34 is further configured to adjust the lighting lamps corresponding to the lighting lamp identifiers after reading the lighting lamp adjustment information in the NFC reader 33.

A second obtaining module 323, comprising: a first fetch submodule 3231 and/or a second fetch submodule 3232;

a first obtaining submodule 3231, configured to:

receiving illumination lamp brightness information input by a user;

or,

determining the brightness information of the illuminating lamp according to a preset voltage value;

or,

the current ambient light brightness information is obtained through an optical sensor disposed on the mobile terminal 32, and the illumination lamp brightness information is determined according to the current ambient light brightness information.

A second obtaining submodule 3232, configured to:

receiving lighting time information input by a user;

or,

the lighting lamp opening time period corresponding to each lighting lamp identification sent by the NFC reader-writer 33 is received through the NFC tag 31, and the mean value of the lighting lamp opening time period in the preset time is determined to determine the lighting time information, wherein the lighting lamp opening time period corresponding to each lighting lamp identification is sent to the NFC reader-writer 33 by the lighting controller 34.

The short-distance control system of the illumination lamp in this embodiment can execute the short-distance control method of the illumination lamp provided in the second and the above embodiments of the present invention, and the implementation principles are similar, and will not be described herein again.

In this embodiment, the lighting lamp adjustment information is acquired through the mobile terminal 32, the lighting lamp adjustment information includes lighting lamp brightness information and/or lighting time information, the NFC reader 33 acquires the lighting lamp adjustment information in the mobile terminal 32 through the NFC tag 31, and the lighting lamp controller 34 reads the lighting lamp adjustment information in the NFC reader 33, so that the lighting lamp controller 34 adjusts the lighting lamps corresponding to the lighting lamp identifiers according to the lighting lamp adjustment information. The purpose of adjusting the brightness and whether the illuminating lamps are closed or not is achieved. Can realize that mobile terminal 32 will need the illumination information of each light of opening, send for light controller 34 through NFC closely transmission's mode, light controller 34 can open a plurality of lights that need open to be convenient for the user opens the light, avoid appearing the user and look for the switch of light and the condition that appears damaging in the dark.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (4)

1. A method for controlling a lighting lamp in a short distance, comprising:

the method comprises the steps that a mobile terminal obtains illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier;

the mobile terminal sends the illumination information to a Near Field Communication (NFC) tag on the mobile terminal;

an NFC reader-writer connected with the light controller reads the illumination information in the NFC label;

after the lighting controller reads the lighting information in the NFC reader-writer, the lighting lamps corresponding to the lighting lamp identifiers are turned on;

wherein, the mobile terminal acquires the illumination information of the illumination lamp, including:

the mobile terminal receives the opening times of the illuminating lamps, corresponding to the illuminating lamp identifiers, sent by the NFC reader-writer through the NFC label, and determines the illuminating lamp identifiers with the opening times larger than the preset times so as to determine the illumination information, wherein the opening times of the illuminating lamps corresponding to the illuminating lamp identifiers are sent to the NFC reader-writer by the light controller;

or,

the mobile terminal receives the lighting lamp turn-on time which is sent by the NFC reader and corresponds to each lighting lamp identification through the NFC label, and determines the lighting lamp identification of which the lighting lamp turn-on time is within a preset time range so as to determine lighting information, wherein the lighting lamp turn-on time corresponding to each lighting lamp identification is sent to the NFC reader by the lighting controller;

and after the lighting controller reads the lighting information in the NFC reader-writer, after the lighting lamps corresponding to the lighting lamp identifiers are turned on, the method further includes: the mobile terminal acquires illumination lamp adjustment information, wherein the illumination lamp adjustment information comprises illumination lamp brightness information and/or illumination time information, the illumination lamp brightness information comprises an illumination lamp brightness value corresponding to an illumination lamp identifier, and the illumination time information comprises illumination time corresponding to the illumination lamp identifier;

the mobile terminal sends the illumination lamp adjusting information to the NFC label;

the NFC reader reads the illumination lamp adjusting information in the NFC label;

after the lighting lamp controller reads the lighting lamp adjusting information in the NFC reader-writer, adjusting the lighting lamps corresponding to the lighting lamp identifiers;

the mobile terminal acquires brightness information of the illuminating lamp, and the method comprises the following steps:

and the mobile terminal determines the brightness information of the illuminating lamp according to a preset voltage value.

2. The method of claim 1, wherein the mobile terminal obtains illumination time information, comprising:

the mobile terminal receives illumination time information input by a user;

or,

the mobile terminal receives the opening time period length of at least one illuminating lamp corresponding to each illuminating lamp identification sent by the NFC reader-writer through the NFC label, determines the average value of the opening time period lengths of the at least one illuminating lamp in a preset time to determine illumination time information, wherein the opening time period length of the at least one illuminating lamp corresponding to each illuminating lamp identification is sent to the NFC reader-writer by the light controller.

3. A proximity control system for an illumination lamp, comprising:

the mobile terminal is provided with an NFC label, an NFC reader-writer and a light controller;

the light controller is connected with the NFC reader-writer;

the mobile terminal comprises a first acquisition module and a sending module;

the first acquisition module is used for acquiring illumination information of an illumination lamp, wherein the illumination information comprises at least one illumination lamp identifier;

the sending module is used for sending the illumination information to the NFC tag;

the NFC reader-writer is used for reading the illumination information in the NFC label;

the light controller is used for turning on the illuminating lamps corresponding to the illuminating lamp identifications after reading the illuminating information in the NFC reader-writer;

receiving the opening times of the illuminating lamps corresponding to the illuminating lamp identifications sent by the NFC reader-writer through the NFC label, and determining the illuminating lamp identifications with the opening times larger than the preset times so as to determine illumination information, wherein the opening times of the illuminating lamps corresponding to the illuminating lamp identifications are sent to the NFC reader-writer by the light controller;

or,

receiving the lighting lamp turn-on time corresponding to each lighting lamp identification sent by the NFC reader-writer through the NFC label, and determining the lighting lamp identification with the lighting lamp turn-on time within a preset time range so as to determine lighting information, wherein the lighting lamp turn-on time corresponding to each lighting lamp identification is sent to the NFC reader-writer by the lighting controller;

the mobile terminal also comprises a second acquisition module;

the second obtaining module is configured to obtain lighting lamp adjustment information and send the lighting lamp adjustment information to the NFC tag after the lighting controller turns on a lighting lamp corresponding to each lighting lamp identifier, where the lighting lamp adjustment information includes lighting lamp luminance information and/or lighting time information, where the lighting lamp luminance information includes a lighting lamp luminance value corresponding to a lighting lamp identifier, and the lighting time information includes lighting time corresponding to a lighting lamp identifier;

correspondingly, the NFC reader is further configured to: reading the illumination lamp adjustment information in the NFC tag;

the light controller is further used for adjusting the lighting lamps corresponding to the lighting lamp identifiers after reading the lighting lamp adjusting information in the NFC reader-writer;

the second obtaining module includes: a first obtaining submodule;

the first obtaining sub-module is configured to:

and determining the brightness information of the illuminating lamp according to the preset voltage value.

4. The system of claim 3, wherein the second obtaining module comprises: a second obtaining submodule;

the second obtaining sub-module is configured to:

receiving lighting time information input by a user;

or,

and receiving the opening time period length of at least one illuminating lamp corresponding to each illuminating lamp identification sent by the NFC reader-writer through the NFC label, and determining the average value of the opening time period lengths of the at least one illuminating lamp in a preset time so as to determine illumination time information, wherein the opening time period length of the at least one illuminating lamp corresponding to each illuminating lamp identification is sent to the NFC reader-writer by the light controller.

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