CN115277277A - Infrared remote control system for hall - Google Patents

Abstract

The invention discloses an infrared remote control system for a hall, belongs to the technical field of infrared remote control, and aims to solve the technical problem of performing infrared remote control on electrical appliances in the hall. The method comprises the following steps: the emitter is used for sending infrared digital signals to the electrical equipment; the collector is used for converting the received infrared analog signals into infrared digital signals and outputting the infrared digital signals in a wireless communication mode; the terminal equipment is used for adding electrical equipment, binding the collector with the remote controller and the emitter corresponding to the electrical equipment, establishing a mapping relation between the remote controller and the emitter through the collector, and adding configuration operation items to the electrical equipment and forming operation buttons; and the server is used for storing and managing the configured operation items through the terminal equipment management system, storing the binding relationship between the remote controller and the emitter corresponding to the electrical equipment, and sending the received infrared digital signals to the corresponding emitter based on the binding relationship.

Description

Infrared remote control system for hall

Technical Field

The invention relates to the technical field of infrared remote control, in particular to an infrared remote control system for a hall.

Background

Along with the increasing degree of intellectualization of the hall, the requirements on the intelligent management and control of the electrical equipment are increased. Most household appliances are provided with different remote controllers, people often find the corresponding remote controller for controlling a certain appliance, so that much inconvenience is brought to the life of people, and the existing multifunctional remote controller also needs people to operate the remote controller.

Along with the popularization of the Internet of things in the household environment, a television, an electric lamp, an air conditioner, a curtain and even a fish tank in a household can be remotely controlled. Can be seen in various patterns. The hall is used as a public environment with higher intelligent requirements, and a schedule is provided for constructing the requirement of the internet of things belonging to the hall.

However, in the existing household internet of things, although controllable devices are full of precious and various in control method, accurate and general control mode is realized, and infrared remote control mode is still adopted, after all, all electric appliances support Bluetooth or wifi, but almost all electric appliances support infrared remote control; and under the conditions of shutdown and standby of the electric appliance, only the infrared remote control can start and wake up the electric appliance.

How to carry out infrared remote control on hall electric appliances is a technical problem to be solved.

Disclosure of Invention

The technical task of the invention is to provide an infrared remote control system for a hall to solve the problem of how to carry out infrared remote control on electrical appliances in the hall, aiming at the defects.

The invention relates to an infrared remote control system for a hall, which acts on electrical equipment regulated and controlled by an infrared remote controller, and comprises:

the transmitters correspond to the electrical equipment one to one and are used for sending infrared digital signals to the electrical equipment;

the acquisition device is used for receiving the infrared analog signals sent by the remote controller, converting the received infrared analog signals into infrared digital signals and outputting the infrared digital signals in a wireless communication mode;

the terminal equipment is connected with the collector and is configured with an equipment management APP, the equipment management APP interacts with the outside through an equipment management interface and is used for adding electrical equipment, the added electrical equipment is used for binding the collector with a remote controller and a transmitter corresponding to the electrical equipment, a mapping relation between the remote controller and the transmitter is established through the collector and is used for adding configuration operation items to the electrical equipment and forming operation buttons;

the server is connected with the collector and the terminal equipment in a wireless communication mode, a terminal equipment management system is configured on the server, for each added electric equipment, the server is used for storing and managing the configured operation items through the terminal equipment management system, storing the binding relationship between the remote controller and the transmitter corresponding to the electric equipment, and sending the received infrared digital signals to the corresponding transmitter based on the binding relationship.

Preferably, the collector includes:

the infrared emission head is used for transmitting an infrared analog signal;

the infrared receiving head is used for receiving an infrared analog signal sent by the remote controller;

the level conversion module is used for converting infrared analog signals sent by the infrared transmitting head and infrared analog signals received by the infrared receiving head into infrared digital signals;

and the information transmission module is used for being connected with the electronic terminal in a data line mode and is connected with the server in a wireless communication mode.

Preferably, the collector further comprises an infrared head extension, and the infrared head extension is used for extending the plurality of external infrared emission heads so as to increase the coverage area of the infrared signals.

Preferably, the information transmission module includes:

the wired communication module is used for being connected with the terminal equipment through a data line;

a wireless communication module, which is an ESP8266 module.

Preferably, the wired communication module is a USB interface or a Type-C interface.

Preferably, the emitter is arranged in a preset distance of the corresponding electrical equipment through the external application support, and the infrared emitting head of the emitter is opposite to the infrared receiving head of the electrical equipment.

Preferably, the device management APP includes:

the equipment management interface is used for external interaction;

the equipment management unit is matched with the equipment management interface and used for creating an equipment list and adding, deleting and modifying electric equipment;

the information binding unit is matched with the equipment management interface, and is used for binding the remote controller and the emitter corresponding to the collector and the electrical equipment for the electrical equipment added to the equipment list, establishing a mapping relation between the remote controller and the emitter, and adding configuration operation items to the electrical equipment and forming an operation button;

the timing management unit is matched with the equipment management interface and used for creating a timing task list and adding, deleting and modifying timing tasks;

and the state monitoring unit is matched with the equipment management interface and is used for monitoring the state of the added electrical equipment and forming state monitoring information, and the state monitoring information is displayed through the equipment management interface.

Preferably, the operation items include:

infrared binding, wherein the infrared binding is used for binding the collector with a remote controller corresponding to the electrical equipment;

starting up the electrical equipment, wherein the starting up is to turn on the electrical equipment, and the corresponding operation button is a starting up button;

standby, wherein the standby state is the state of regulating and controlling the electrical equipment, and the corresponding operating button is a standby button;

the power-off is carried out, the joint is used for turning off the electrical equipment, and the corresponding operation button is a joint button;

and testing whether the remote controller, the collector and the emitter are bound or not, wherein the corresponding operating button is a testing button.

Preferably, the configuration process of the system comprises:

connecting a collector with the terminal equipment through a data line;

selecting a device list on a device management APP, adding a hall and filling in a name, and adding a server address;

returning to an equipment list on the equipment management APP, adding electrical equipment, configuring operation items and adding operation buttons for the added electrical equipment;

returning to an equipment list on the equipment management APP, clicking an infrared binding button, and pressing a starting button for a preset time just over the collector by using a remote controller so as to realize the binding of the collector and the remote controller;

returning to an equipment list on the equipment management APP, selecting the added electrical equipment, enabling the corresponding transmitter to be opposite to the electrical equipment, clicking a test button, then selecting a starting button, if the electrical equipment is started, enabling the test to pass, and establishing a mapping relation between a remote controller and a transmitter through a collector;

installing a transmitter at a preset distance corresponding to the electrical equipment, wherein an infrared transmitting head of the transmitter is opposite to an infrared receiving head of the electrical equipment;

returning to the equipment management APP, selecting the hall, selecting the electrical equipment, selecting a starting button, and if the electrical equipment is started, successfully configuring the infrared remote control system.

The infrared remote control system for the hall has the following advantages:

1. the remote control of a plurality of electrical equipment in the hall can be realized;

2. the infrared acquisition and the infrared control classification enable the infrared acquisition device to be repeatedly utilized and not to be calculated in the networking cost, thereby greatly reducing the networking cost.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a block diagram of components of an infrared remote control system for a lobby.

Detailed Description

The present invention is further described in the following with reference to the drawings and the specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention, and the embodiments and the technical features of the embodiments can be combined with each other without conflict.

The embodiment of the invention provides an infrared remote control system for a hall, which is used for solving the technical problem of how to carry out infrared remote control on electrical appliances in the hall.

Example 1:

the invention relates to an infrared remote control system for a hall, which acts on electrical equipment regulated and controlled by an infrared remote controller.

The emitters correspond to the electrical equipment one to one and are used for sending infrared digital signals to the electrical equipment.

The emitter is an infrared emitter, and the distance between the emitter and the electrical equipment is kept in an absolute effective range of 0-10M. The emitting head of the emitter positively impacts the infrared receiving head of the electrical equipment.

As a specific structure, the emitter comprises an emitter shell, a wireless communication module and an infrared emitting head, wherein the wireless communication module and the infrared emitting head are packaged in the shell, the wireless communication module is in wireless connection with the server and used for receiving infrared wireless signals, and the infrared emitting head is over against an infrared receiving head of the corresponding electrical equipment. The emitter is arranged at a preset position corresponding to the electrical equipment through an external application bracket. The externally applied support may be mounted on the top, side or bottom of the emitter. The emitter is fixed on the wall and the table top.

The collector is used for receiving the infrared analog signals sent by the remote controller, converting the received infrared analog signals into infrared digital signals and outputting the infrared digital signals in a wireless communication mode; terminal equipment with the collector is connected to dispose equipment management APP, equipment management APP passes through the external interaction of equipment management interface for add electrical equipment, to the electrical equipment who adds, be used for with the collector with the remote controller and the transmitter that electrical equipment corresponds bind, and establish the mapping relation between remote controller and the transmitter through the collector, be used for to electrical equipment add configuration operation item and form operating button.

The collector comprises an infrared transmitting head, an infrared receiving head, a level conversion module and an information transmission module, wherein the infrared transmitting head is used for transmitting infrared analog signals, the infrared receiving head is used for receiving the infrared analog signals transmitted by the remote controller, the level conversion module is used for converting the infrared analog signals transmitted by the infrared transmitting head and the infrared analog signals received by the infrared receiving head into infrared digital signals, and the information transmission module is used for being connected with the electronic terminal in a data line mode and connected with the server in a wireless communication mode.

In this embodiment, the information transmission module includes a wired communication module and a wireless communication module, and the wired communication module is connected with the terminal device through a data line; the wireless communication module is an ESP8266 module. Wherein, wired communication module can support multiple data line lines such as USB, type-C.

As the improvement, the collector also comprises an infrared head extension, wherein the infrared head extension is used for extending 2 external infrared emission heads, and the external infrared emission heads can effectively increase the coverage area of infrared signals.

For the collector, the infrared transmitting head, the infrared receiving head, the level conversion module and the information transmission module are all packaged in the collector shell.

The server is connected with the collector and the terminal equipment in a wireless communication mode, a terminal equipment management system is configured on the server, and for each added electric equipment, the server is used for storing and managing the configured operation items through the terminal equipment management system, storing the binding relationship between the remote controller and the emitter corresponding to the electric equipment and sending the received infrared digital signals to the corresponding emitter based on the binding relationship.

The system can be applied to a hall for remotely controlling electrical equipment configured in the hall through an infrared remote controller. The implementation process of the invention in building the lobby internet of things is explained by taking the implementation of one television in the lobby as an example.

(1) And finding an integrated server in the internet of a hall, and installing a hall terminal equipment management system. Installing a hall terminal device management APP on a mobile phone;

(2) Inserting a collector into a mobile phone through a Type-C interface, opening a device management APP on the mobile phone, selecting a device list on the APP, adding a hall, filling a XXXXXXX service hall in a hall name and filling XXX.XXX.XXX in a server address, and then storing; after returning to the equipment list and selecting a 'XXXXX service hall', clicking an adding equipment, filling an east-wall corner television with an equipment name, then clicking an adding button, filling a 'starting up' with a button name, taking a remote controller of the television, clicking an APP infrared code binding button, pressing the starting-up button by the remote controller for 5s, releasing the hands, and automatically storing the APP after waiting for 10 s;

(3) Returning to equipment management, point "XXXXXX service hall", then point "east corner television", face transmitter to television, click test button, and then select power on button. When the television is turned on, the test is passed;

(4) And installing an emitter, installing the emitter at a position about 3m from the top of the television, and adjusting the external application support to ensure that an emitting head of the emitter is opposite to the television.

(5) Opening an equipment management APP on the mobile phone, clicking the equipment management, clicking a XXXXXXX service hall, then clicking a wall corner television, directly facing the transmitter to the television, and clicking a start button. And when the television is started, the building of the internet of things in the hall is successful.

The working principle of the system is as follows:

the collector is used for singly collecting infrared analog signals sent by the infrared remote controller, the function is to assist in collecting the infrared analog signals sent by the infrared remote controller, the collection is to store digital signals converted by the infrared analog signals into an equipment management system instead of the collector, the difference is different from the existing infrared remote controller, then the collector converts the collected infrared analog signals into digital signals through a data line and transmits the digital signals to intelligent equipment such as a mobile phone, a PC (personal computer), a PAD (PAD) and the like, equipment management APPs (APP for short after) can be installed in the mobile phone, the PC and the PAD, and the APPs are used for packaging the collected infrared signal data and further perfecting additional information such as the name, the position and the number of the equipment, the function of a button and the like;

then, the electric equipment information bound with the infrared digital signals from the APP is sent to a hall terminal equipment management system (hereinafter referred to as a management system) on a server through the Internet;

then, infrared signal transmitters (hereinafter referred to as "transmitters") are installed above, below or laterally of the appliance. The distance between the emitter and the electric appliance is kept in an absolute effective range of 0-10M. The transmitting head of the transmitter positively impacts an infrared receiving probe of the electric appliance;

finally, a user can manually click one device in the management system to carry out operations such as starting, shutting down, standby and the like which are stored in the management system; the management system sends the bound infrared digital signals to the bound emitters of the equipment; the emitter emits the received infrared digital signal, and the electrical appliance receives the infrared signal from the emitter and performs specified operations such as starting, shutting down, standby and the like.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims (9)

1. An infrared remote control system for a lobby, characterized by acting on electrical appliances regulated by an infrared remote control, comprising:

the transmitters correspond to the electrical equipment one to one and are used for sending infrared digital signals to the electrical equipment;

the collector is used for receiving the infrared analog signals sent by the remote controller, converting the received infrared analog signals into infrared digital signals and outputting the infrared digital signals in a wireless communication mode;

the terminal equipment is connected with the collector and is configured with an equipment management APP, the equipment management APP interacts with the outside through an equipment management interface and is used for adding electrical equipment, the added electrical equipment is used for binding the collector with a remote controller and a transmitter corresponding to the electrical equipment, a mapping relation between the remote controller and the transmitter is established through the collector and is used for adding configuration operation items to the electrical equipment and forming operation buttons;

the server is connected with the collector and the terminal equipment in a wireless communication mode, a terminal equipment management system is configured on the server, for each added electric equipment, the server is used for storing and managing the configured operation items through the terminal equipment management system, storing the binding relationship between the remote controller and the transmitter corresponding to the electric equipment, and sending the received infrared digital signals to the corresponding transmitter based on the binding relationship.

2. An infrared remote control system for a lobby according to claim 1, wherein the collector comprises:

the infrared emission head is used for sending an infrared analog signal;

the infrared receiving head is used for receiving an infrared analog signal sent by the remote controller;

the level conversion module is used for converting infrared analog signals sent by the infrared transmitting head and infrared analog signals received by the infrared receiving head into infrared digital signals;

and the information transmission module is used for being connected with the electronic terminal in a data line mode and is connected with the server in a wireless communication mode.

3. An infrared remote control system for a lobby according to claim 2 wherein the collector further comprises an infrared head extension for extending the plurality of external infrared emitting heads to increase the coverage area of the infrared signal.

4. An infrared remote control system for a lobby as claimed in claim 2, wherein the information transmission module comprises:

the wired communication module is used for being connected with the terminal equipment through a data line;

a wireless communication module, which is an ESP8266 module.

5. An infrared remote control system for a lobby according to claim 4 wherein the wired communication module is a USB interface or a Type-C interface.

6. An infrared remote control system for a hall as claimed in claim 1, wherein said transmitter is disposed within a predetermined distance of the corresponding electrical appliance through an external application bracket, and an infrared transmitting head of said transmitter faces an infrared receiving head of said electrical appliance.

7. Infrared remote control system for halls, as claimed in any one of claims 1 to 6, characterised in that said device management APP comprises:

the device management interface is used for external interaction;

the equipment management unit is matched with the equipment management interface and used for creating an equipment list and adding, deleting and modifying electric equipment;

the information binding unit is matched with the equipment management interface, and is used for binding the remote controller and the emitter corresponding to the collector and the electrical equipment for the electrical equipment added to the equipment list, establishing a mapping relation between the remote controller and the emitter, and adding configuration operation items to the electrical equipment and forming an operation button;

the timing management unit is matched with the equipment management interface and used for creating a timing task list and adding, deleting and modifying timing tasks;

and the state monitoring unit is matched with the equipment management interface and is used for monitoring the state of the added electrical equipment and forming state monitoring information, and the state monitoring information is displayed through the equipment management interface.

8. An infrared remote control system for a lobby as claimed in claim 7, wherein the operation item comprises:

infrared binding, wherein the infrared binding is used for binding the collector with a remote controller corresponding to the electrical equipment;

starting up the electrical equipment, wherein the starting up is to turn on the electrical equipment, and the corresponding operation button is a starting up button;

standby, wherein the standby state is that the electrical equipment is regulated and controlled to be in a standby state, and the corresponding operation button is a standby button;

the power-off is carried out, the joint is used for turning off the electrical equipment, and the corresponding operation button is a joint button;

and testing whether the remote controller, the collector and the emitter are bound or not, wherein the corresponding operating button is a testing button.

9. An infrared remote control system for a lobby according to claim 8, wherein the system is configured by:

connecting a collector with the terminal equipment through a data line;

selecting a device list on a device management APP, adding a hall and filling in a name, and adding a server address;

returning to an equipment list on the equipment management APP, adding electrical equipment, configuring operation items and adding operation buttons for the added electrical equipment;

returning to an equipment list on the equipment management APP, clicking an infrared binding button, and pressing a starting button for a preset time just over the collector by using a remote controller so as to realize the binding of the collector and the remote controller;

returning to an equipment list on the equipment management APP, selecting the added electrical equipment, enabling the corresponding transmitter to be opposite to the electrical equipment, clicking a test button, then selecting a starting button, if the electrical equipment is started, enabling the test to pass, and establishing a mapping relation between a remote controller and a transmitter through a collector;

installing a transmitter at a preset distance corresponding to the electrical equipment, wherein an infrared transmitting head of the transmitter is opposite to an infrared receiving head of the electrical equipment;

returning to the device management APP, selecting the hall, selecting the electrical equipment, selecting a starting button, and if the electrical equipment is started, successfully configuring the infrared remote control system.

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