CN113793495A - Wireless control method and device - Google Patents

Abstract

The invention relates to a wireless control method and equipment, which are applied to a system comprising a cloud platform infrared code library end, an IOT cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, wherein the method comprises the following steps: acquiring information of equipment selected by a user through the IOT cloud server; pulling the infrared code based on the information to control the equipment; and if the equipment is successfully controlled, sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment so as to control the equipment based on the infrared forwarding equipment. The method and the device realize quick control on the equipment and can be linked with wireless intelligent home gateway scenes such as zigbee and the like.

Description

Wireless control method and device

Technical Field

The invention relates to the technical field of wireless control, in particular to a wireless control method and wireless control equipment.

Background

Most of traditional remote control infrared equipment is communicated with a platform based on WIFI (wireless local area network technology established in IEEE 802.11 standard), and cannot be linked with wireless intelligent home gateway scenes such as zigbee (also called zigbee, which is a wireless internet protocol for low-speed short-distance transmission) and the like; thus, there are some problems with current remote control schemes:

firstly, the code learning process of a user of the traditional remote control infrared device is complicated, the user needs to know a related infrared code library, send a code learning instruction and one sound of the infrared converter drop, then the user presses a corresponding control key by the infrared remote controller close to the infrared conversion device, and the user hears the sound of the infrared converter drop to complete code learning, so that the code learning cost of the user is high. In addition, the user triggers the intelligent home scene mode control, and cannot be linked with wireless intelligent home gateway scenes such as zigbee.

Thus, there is a need for a better solution to the problems of the prior art.

Disclosure of Invention

The invention provides a wireless control method and equipment, which can solve the technical problems in the prior art.

The technical scheme for solving the technical problems is as follows:

the embodiment of the invention provides a wireless control method, which is applied to a system comprising a cloud platform infrared code library end, an IOT cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, and comprises the following steps:

acquiring information of equipment selected by a user through the IOT cloud server;

pulling the infrared code based on the information to control the equipment;

and if the equipment is successfully controlled, sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment so as to control the equipment based on the infrared forwarding equipment.

In a specific embodiment, the method further comprises the following steps:

pulling an infrared code from the cloud platform infrared code library end at regular time through the IOT cloud server;

storing the pulled infrared code in a local database.

In a specific embodiment, the "pulling an infrared code for device control based on the information" includes:

pulling an infrared code of the equipment corresponding to the information from the cloud platform infrared code library end; or

Pulling an infrared code of the equipment corresponding to the information from a local database of the IOT cloud server;

judging whether the model of the equipment corresponding to the infrared code is consistent with that of the equipment to be controlled currently;

if the two are consistent, the equipment is successfully controlled;

if not, the equipment control is unsuccessful.

In a specific embodiment, the information of the device selected by the user is generated by responding to the type, the brand and the model of the device sequentially selected by the user on an applet or a device control page on the APP connected to the IOT cloud server.

In a specific embodiment, the method further comprises the following steps:

and recording an operation instruction of a user and controlling a successful infrared code through an applet or APP.

In a specific embodiment, on the device control page, after the user selects a brand, the models under the selected brand are sorted based on the popularity, and the sorted models are displayed to the user.

In a specific embodiment, the information includes: device type, brand, and device model.

The embodiment of the invention also provides a wireless control device, which is applied to a system comprising a cloud platform infrared code library end, an IOT cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, and comprises:

the acquisition module is used for acquiring information of equipment selected by a user through the IOT cloud server;

the matching module is used for pulling the infrared code based on the information to control the equipment;

and the control module is used for sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment if the equipment is successfully controlled, so as to control the equipment based on the infrared forwarding equipment.

In a specific embodiment, the method further comprises the following steps:

the storage module is used for pulling the infrared codes from the cloud platform infrared code library end at regular time through the IOT cloud server;

storing the pulled infrared code in a local database.

In a specific embodiment, the matching module is configured to:

pulling an infrared code of the equipment corresponding to the information from the cloud platform infrared code library end; or

Pulling an infrared code of the equipment corresponding to the information from a local database of the IOT cloud server;

judging whether the model of the equipment corresponding to the infrared code is consistent with that of the equipment to be controlled currently;

if the two are consistent, the equipment is successfully controlled;

if not, the equipment control is unsuccessful.

The invention has the beneficial effects that: the embodiment of the invention provides a wireless control method and equipment, which are applied to a system comprising a cloud platform infrared code library end, an IOT cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, and the method comprises the following steps: acquiring information of equipment selected by a user through the IOT cloud server; pulling the infrared code based on the information to control the equipment; and if the equipment is successfully controlled, sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment so as to control the equipment based on the infrared forwarding equipment. The method and the device realize quick control on the equipment and can be linked with wireless intelligent home gateway scenes such as zigbee and the like.

Drawings

Fig. 1 is a flowchart illustrating a wireless control method according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a system in which a wireless control method according to an embodiment of the present invention is located;

fig. 3 is a schematic structural diagram of a wireless control device according to an embodiment of the present invention;

fig. 4 is another schematic structural diagram of a wireless control device according to an embodiment of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

Example 1

The wireless control method provided by the embodiment of the invention is applied to a system comprising a cloud platform infrared code library end, an Internet of Things (IOT) cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, and as shown in fig. 1, the method comprises the following steps:

step 101, obtaining information of equipment selected by a user through the IOT cloud server;

specifically, the information of the device selected by the user is generated by responding to the device type, brand and model sequentially selected by the user on an applet or device control page on the APP connected to the IOT cloud server.

Furthermore, on the device control page, after the user selects the brand, the models under the selected brand are sorted based on the popularity, and the sorted models are displayed to the user.

The information includes: device type, brand, and device model.

As shown in fig. 2, a specific implementer/user may select a device type → a brand name, and one or more device models correspond to the brand name, where the device models may be ranked, and specifically, may be ranked by a heat degree, and the specific heat degree is a parameter of the user attention degree.

102, pulling an infrared code based on the information to control equipment;

specifically, the device control page is entered, and the device is controlled by pressing a key (for example, the device can be controlled by a power key/temperature adjustment key). Specifically, the IOT cloud end pulls the full-quantity infrared code library from the infrared code library end of the cloud platform according to the instruction sent by the user key, and if the control is successful, the full-quantity infrared code library is directly sent to the infrared converter (the infrared conversion device wifi module provides an http interface), and the shadow attribute of the IOT cloud local equipment is updated: frequency, infrared code ID, etc., and if the control fails, repeatedly controlling the key until the control succeeds (the device models are sorted according to the hot spot models, so that the device models can be hit after 3 times of trial).

And 103, if the equipment is successfully controlled, sending the infrared code successfully controlled to the infrared forwarding equipment so as to control the equipment based on the infrared forwarding equipment.

For example, when the device corresponding to the model 1 is successfully controlled, the infrared code corresponding to the model 1 is sent to the infrared forwarding device.

In a specific embodiment, the method further comprises:

pulling an infrared code from the cloud platform infrared code library end at regular time through the IOT cloud server;

storing the pulled infrared code in a local database.

Specifically, the pulling the infrared code may include:

the IOT cloud calls a cloud platform infrared code library to obtain an equipment type list;

2, the IOT cloud calls a cloud platform infrared code library to obtain a corresponding equipment brand list (one-to-many);

3, the IOT cloud calls a cloud platform infrared code library to obtain a corresponding equipment model list (one-to-many);

IOT cloud calling cloud platform infrared code library to obtain full universal infrared instruction for WEB matching (for example, matching air conditioner model)

5. And the data are regularly fetched from the cloud platform infrared code library and stored in an IOT cloud local database.

Thus, the "pulling an infrared code for device control based on the information" includes:

pulling an infrared code of the equipment corresponding to the information from the cloud platform infrared code library end; or

Pulling an infrared code of the equipment corresponding to the information from a local database of the IOT cloud server;

judging whether the model of the equipment corresponding to the infrared code is consistent with that of the equipment to be controlled currently;

if the two are consistent, the equipment is successfully controlled;

if not, the equipment control is unsuccessful.

In a specific embodiment, the method further comprises:

and recording an operation instruction of a user and controlling a successful infrared code through an applet or APP.

Specifically, the equipment is controlled and completed for the first time, the applet/APP can remember the last operation instruction of the user and the next time the equipment is controlled, the infrared code library can be hit once, and the user experience is improved

Therefore, in a specific embodiment, the IOT cloud calls a cloud platform infrared code library through http to periodically pull the information of the device type, the brand and the device model to be stored in an IOT cloud database, and the cloud platform infrared code library provides full infrared code data. Prepare basic data, the user binds the equipment type through applet or APP, select the brand, get into equipment control page, control operation probably is unsuccessful for the first time, the operation is waited for equipment control to succeed repeatedly (hot model sequencing, normally click 3 times and can accomplish the matching), the infrared code bank of corresponding equipment model can be issued to infrared conversion equipment (through installing the wifi module additional, directly issue and need not to pass through the gateway), later controlgear is disposable can become, also accessible applet remote control equipment, thereby make the user not have the long-range experience control home equipment of perception. In the scheme, by optimizing the code learning process of the user and a simple UI design, the user can directly select equipment (such as air conditioners) and brands through a small program or an APP, enter an equipment control interface, and click a function key (such as temperature increase) to complete the whole control process, so that the infrared code learning process is not sensed, the last operation of the user can be remembered, the next control can be achieved at one time, and the code searching process does not need to be matched; the home device can be remotely controlled through the applet/APP and the IOT cloud.

Example 2.

For further explanation of the present solution, embodiment 2 of the present invention further discloses a wireless control device, which is applied to a system including a cloud platform infrared code library terminal, an IOT cloud server, and an infrared forwarding device having wifi and zigbee wireless functions, and as shown in fig. 3, the device includes:

an obtaining module 201, configured to obtain, by the IOT cloud server, information of a device selected by a user;

the matching module 202 is used for pulling the infrared code based on the information to control the equipment;

and the control module 203 is configured to, if the device control is successful, send the infrared code successfully performing the device control to the infrared forwarding device, so as to control the device based on the infrared forwarding device.

In a specific embodiment, as shown in fig. 4, the method further includes:

the storage module 204 is configured to pull the infrared code from the cloud platform infrared code library at regular time through the IOT cloud server;

storing the pulled infrared code in a local database.

In a specific embodiment, the matching module is configured to:

pulling an infrared code of the equipment corresponding to the information from the cloud platform infrared code library end; or

Pulling an infrared code of the equipment corresponding to the information from a local database of the IOT cloud server;

judging whether the model of the equipment corresponding to the infrared code is consistent with that of the equipment to be controlled currently;

if the two are consistent, the equipment is successfully controlled;

if not, the equipment control is unsuccessful.

In a specific embodiment, the information of the device selected by the user is generated by responding to the type, the brand and the model of the device sequentially selected by the user on an applet or a device control page on the APP connected to the IOT cloud server.

In a specific embodiment, the method further comprises the following steps: a recording module to: and recording an operation instruction of a user and controlling a successful infrared code through an applet or APP.

In a specific embodiment, on the device control page, after the user selects a brand, the models under the selected brand are sorted based on the popularity, and the sorted models are displayed to the user.

In a specific embodiment, the information includes: device type, brand, and device model.

The embodiment of the invention provides a wireless control method and equipment, which are applied to a system comprising a cloud platform infrared code library end, an IOT cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, and the method comprises the following steps: acquiring information of equipment selected by a user through the IOT cloud server; pulling the infrared code based on the information to control the equipment; and if the equipment is successfully controlled, sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment so as to control the equipment based on the infrared forwarding equipment. The method and the device realize quick control on the equipment and can be linked with wireless intelligent home gateway scenes such as zigbee and the like.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A wireless control method is characterized by being applied to a system comprising a cloud platform infrared code library end, an IOT cloud server and an infrared forwarding device with two wireless functions of wifi and zigbee, and the method comprises the following steps:

acquiring information of equipment selected by a user through the IOT cloud server;

pulling the infrared code based on the information to control the equipment;

and if the equipment is successfully controlled, sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment so as to control the equipment based on the infrared forwarding equipment.

2. The method of claim 1, further comprising:

pulling an infrared code from the cloud platform infrared code library end at regular time through the IOT cloud server;

storing the pulled infrared code in a local database.

3. The method according to claim 1 or 2, wherein said "pulling infrared code based on said information for device control" comprises:

pulling an infrared code of the equipment corresponding to the information from the cloud platform infrared code library end; or

Pulling an infrared code of the equipment corresponding to the information from a local database of the IOT cloud server;

judging whether the model of the equipment corresponding to the infrared code is consistent with that of the equipment to be controlled currently;

if the two are consistent, the equipment is successfully controlled;

if not, the equipment control is unsuccessful.

4. The method of claim 1, wherein the information of the device selected by the user is generated in response to the type, brand, and model of the device selected by the user in turn, on a device control page on an applet or APP connected to the IOT cloud server.

5. The method of claim 4, further comprising:

and recording an operation instruction of a user and controlling a successful infrared code through an applet or APP.

6. The method of claim 4, wherein on the device control page, when a user selects a brand, the models under the selected brand are ranked based on popularity, and the ranked models are presented to the user.

7. The method of claim 1, wherein the information comprises: device type, brand, and device model.

8. The utility model provides a wireless control equipment, its characterized in that is applied to including the infrared code library end of cloud platform, IOT high in the clouds server, have wifi and the infrared system of forwardding equipment of two kinds of wireless functions of zigbee, and this equipment includes:

the acquisition module is used for acquiring information of equipment selected by a user through the IOT cloud server;

the matching module is used for pulling the infrared code based on the information to control the equipment;

and the control module is used for sending the infrared code successfully controlled by the equipment to the infrared forwarding equipment if the equipment is successfully controlled, so as to control the equipment based on the infrared forwarding equipment.

9. The apparatus of claim 8, further comprising:

the storage module is used for pulling the infrared codes from the cloud platform infrared code library end at regular time through the IOT cloud server;

storing the pulled infrared code in a local database.

10. The apparatus of claim 8 or 9, wherein the matching module is to:

pulling an infrared code of the equipment corresponding to the information from the cloud platform infrared code library end; or

Pulling an infrared code of the equipment corresponding to the information from a local database of the IOT cloud server;

judging whether the model of the equipment corresponding to the infrared code is consistent with that of the equipment to be controlled currently;

if the two are consistent, the equipment is successfully controlled;

if not, the equipment control is unsuccessful.

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