CN101572367A - Wireless receiving control socket with self-learning infrared ray transmitting function - Google Patents

Abstract

The invention relates to a wireless receiving control socket with a self-learning infrared emission function, which consists of a micro power consumption + 5V DC regulated power supply, a wireless receiving circuit, an execution control circuit, an infrared scattering remote control emission circuit with a self-learning function, and three poles. Plug, three-pole socket and other components. For household appliances such as air conditioners that cannot be started automatically after a power failure, the infrared remote controller equipped with it can be remotely controlled to turn it on. The wireless receiving control socket with self-learning infrared emission function has self-learning function. When the wireless receiving circuit receives the control signal to turn on the selected electrical appliance, it drives the executive controller to make the household appliance turn on the power and enter the working state. The infrared remote control start signal of the household appliance turns on the household appliance. Set the infrared scattering remote control transmitter circuit, can achieve non-directional reception. It has the characteristics of simple system structure, low cost and strong adaptability.

Description

Wireless receiving control socket with self-learning infrared emission function

1. Technical field

The invention relates to a wireless receiving control device with a self-learning infrared emission function, in particular to a wireless receiving control device for remotely intelligently controlling household appliances by using a telephone set.

2. Background technology

With the development of society and the improvement of people's living standards, more and more household appliances have entered the lives of ordinary people, bringing a lot of convenience and enjoyment to everyone. However, the control of many electrical appliances is not intelligent enough. Humanize. Most urban residents are families of three. Both parents work and children go to school. The lunch break is short, and everyone hopes to have a comfortable environment and a short time to cook Chinese food when they go home at noon. Based on this, the purpose of the present invention is to provide a device for unattended office workers at home to turn on (or turn off) various electrical appliances in the home by phone at any time and anywhere, such as electric cookers, TVs, electric cookers, heaters, refrigerators, etc. , air conditioners, water heaters, water dispensers and so on. An intelligent control system that simulates manual operation. According to actual needs, using this system to turn on household appliances in good time can not only save energy, but also enable office workers to enjoy a comfortable air-conditioned environment, eat delicious meals, save time for housework, and extend the time available for rest and study. time.

There are also some manufacturers that have launched individual products such as smart refrigerators and smart air conditioners that can be remotely controlled. But it seems relatively fragmented. At the same time, no company has proposed a method or model to carry out unified telephone remote control combined with wireless signal transmission technology control for various household appliances in the family.

The existing home appliance remote control technology generally controls the home appliance through the home phone and the home Internet device, or starts and controls a main controller through the home phone, and the main controller then controls the home appliance. The above two remote control devices have the following disadvantages: both devices need to be rewired to the power socket of the household appliances to be controlled, which not only increases extra expenses, but also is inconvenient and unsafe; Another computer needs to be added, and it needs to be turned on for a long time, which wastes electric energy. The power supply of household appliances that need to be controlled can only be turned on and off simply. For household appliances that cannot be started automatically after power failure, such as air conditioners, remote control cannot be realized.

3. Contents of the invention

The technical problem to be solved by the present invention is to provide a system device for remote intelligent control of household appliances by using a telephone set, which can perform unified telephone remote control combined with wireless signal transmission technology control for various household appliances in the family, and does not need to be reset. The incoming electricity wired to the required control cannot activate the power socket of household appliances by itself, which is convenient and energy-saving.

The present invention adopts following technical scheme to realize above-mentioned purpose, and its technical scheme is shown in accompanying drawing 1. The wireless receiving control socket with self-learning infrared emission function of the present invention is composed of 1 micropower consumption + 5V DC stabilized voltage power supply, 2 wireless receiving circuits, 3 execution control circuits, 4 infrared scattering remote control emission circuits with self-learning functions, and 5 three poles Plug, 6 three-pole socket and so on.

The beneficial effect of the present invention is that, using the mature radio communication technology and infrared scattering remote control technology, realize the stoppage. Remote intelligent control of self-starting household appliances such as air conditioners has the characteristics of simple system structure, low cost and strong adaptability.

4. Description of drawings

Accompanying drawing 1 is a kind of schematic structural block diagram of circuit principle of the present invention;

Accompanying drawing 2 is the shell structure front view of the present invention;

Accompanying drawing 3 is the shell structure left view of the present invention;

Accompanying drawing 4 is a top view of the shell structure of the present invention.

5. Specific implementation

The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

Referring to Fig. 1, the wireless receiving control socket with self-learning infrared emission function of the present invention is composed of 1 micro power consumption + 5V DC regulated power supply, 2 wireless receiving circuits, 3 execution control circuits, 4 infrared scattering remote control emission with self-learning function circuit, 5 three-pole plugs, 6 three-pole sockets, etc. The wireless receiving circuit and the executive controller are combined into a plug and socket structure, the executive controller is inserted into the power socket, and the power plug of the household appliance is inserted into the socket of the executive controller. The main controller sends coded wireless control signals to the selected household appliances, and the wireless receiving circuit receives the control signal to turn on the selected appliances, and drives the executive controller to make the household appliances turn on the power and enter the working state.

For household appliances such as air conditioners that cannot be started automatically after a power failure, the infrared remote controller equipped with it can be remotely controlled to turn it on. Before use, align the infrared remote controller equipped with the wireless receiving control socket with the self-learning infrared emission function to transmit the power-on signal. The wireless receiving control socket with the self-learning infrared emission function has a self-learning function, and it records the function signal . When the wireless receiving circuit receives the control signal to turn on the selected electrical appliance, it drives the executive controller so that the household appliance is powered on and enters the working state. At the same time, the infrared scattering remote control transmitting circuit with self-learning function transmits the infrared remote control start signal of the controlled household appliance. Turn on household appliances. The purpose of setting the infrared scattering remote control transmitter circuit is to avoid receiving signals when there is a directional transmission, and can achieve non-directional reception.

Turning on and off the power supply of the household appliance is completed by the contact K-1 of the relay K controlled by the executive control circuit.

Referring to Fig. 2, Fig. 3 and Fig. 4, in the part of receiving circuit and executive controller, the wireless receiving circuit and executive controller are combined into a plug and socket structure. into the receptacle of the device. The main controller sends coded wireless control signals to the selected household appliances, and the wireless receiving circuit receives the control signal to turn on the selected appliances, and drives the executive controller to make the household appliances turn on the power and enter the working state. If the transmitted signal is to close the electric appliance, the controller will cut off the power supply of the electric appliance that is already working and stop working. This combined plug and socket structure is very convenient for users to use, and is also convenient for maintenance and replacement.

Claims (6)

1. A wireless receiving control socket device with self-learning infrared emission function, characterized in that it consists of 1 micropower consumption + 5V DC regulated power supply, 2 wireless receiving circuit, 3 executive control circuit, 4 with self-learning function Infrared scattering remote control transmitter circuit, 5 three-pole plugs, 6 three-pole sockets and other components. 2. The wireless receiving control socket device with self-learning infrared emission function according to claim 1, characterized in that the wireless receiving circuit, the executive controller circuit and the infrared scattering remote control emission circuit with self-learning function are combined into a plug and socket structure , the executive controller is inserted into the power socket, and the power plug of the household appliance is inserted into the socket of the executive controller. 3. The wireless receiving control socket device with self-learning infrared emission function according to claim 1, characterized in that the wireless receiving control socket with self-learning infrared emission function has a self-learning function. 4. The wireless receiving control socket device with self-learning infrared emission function according to claim 1, characterized in that turning on and off the power supply of household appliances is completed by the contact K-1 of the relay K controlled by the executive control circuit . 5. The wireless receiving control socket device with self-learning infrared emission function according to claims 1 and 3, characterized in that the infrared scattering remote control emission circuit is set to prevent directional emission from failing to receive signals, and it can be non-directional take over. 6. The wireless receiving control socket device with self-learning infrared emission function according to claim 1, characterized in that said household appliances include household appliances such as air conditioners that cannot be automatically started after a power failure, and use The infrared remote controller that it is equipped with can be turned on by remote control, and other household appliances include electric cookers, electric cooking utensils, heaters, water heaters, water dispensers, and refrigerators.

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