CN116311855A

CN116311855A - Remote control system based on location

Info

Publication number: CN116311855A
Application number: CN202310056002.1A
Authority: CN
Inventors: 张珣; 洪伟伟; 李海群
Original assignee: Zhejiang Morgan Group Co ltd
Current assignee: Zhejiang Morgan Group Co ltd
Priority date: 2023-01-16
Filing date: 2023-01-16
Publication date: 2023-06-23

Abstract

The invention discloses a remote control system based on positioning, which comprises a remote controller, and infrared detectors and control terminals distributed in each room. The remote control may communicate with the control terminal in at least one way, preferably by WiFi. The control terminal of each room can control all remotely controllable devices in that room. The infrared detector is used for detecting whether a person exists in the room or not, and is connected with a control terminal in the room. When a person walks into a room with the remote controller, the infrared detector detects signals, the infrared detector transmits the signals to the control terminal in the room, the control terminal sends signals to the remote controller, and when a remote control interface is opened, names of all devices which can be remotely controlled in the room are displayed. And clicking the corresponding equipment icon to display a control interface of the equipment, transmitting signals to the control terminal by the remote controller, and converting the signals transmitted by the remote controller into instructions capable of controlling the equipment by the control terminal.

Description

Remote control system based on location

Technical Field

The present invention relates to a remote control system.

Background

As more and more household appliances are available, so are appliances that can be remotely controlled. Nowadays, in addition to traditional air conditioners, fans, televisions and the like, more and more devices such as intelligent desk lamps, set top boxes, electric curtains and the like are also added to the remotely controllable rows and columns. The control signals of various remote-controllable devices are different, some are controlled by infrared, some are controlled by wifi, and some are controlled by Bluetooth, so that the management is very inconvenient if a remote controller is arranged for each remote-controllable device.

The existing mode is that the mobile phone is controlled in a centralized way, bluetooth, wiFi and infrared settings are often arranged on the high-end mobile phone, and different devices can be controlled through programs. However, this approach has significant drawbacks. When controlling, the software is opened first, the name of the device is selected in the software, and then the connection is realized. For some households, the number of connectable devices is relatively large, which is very cumbersome. For example, a three-room one-hall house has a television in each room, but we are now in the living room, and in general, people are in the living room, and it is impossible to open the television in the bedroom, but in software, we need to choose, find the brand of the television in the living room, and then control, so that it is very inconvenient, and therefore, improvement is necessary.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a remote control system based on positioning, which can automatically display controllable equipment in the area on a remote controller according to the positioning of people.

The technical scheme adopted for solving the technical problems is as follows: a remote control system based on positioning comprises a remote controller, infrared detectors distributed in each room and a control terminal. The remote control may communicate with the control terminal in at least one way, preferably by WiFi. The control terminal of each room can control all remotely controllable devices in that room. The infrared detector is used for detecting whether a person exists in the room or not, and is connected with a control terminal in the room. When a person walks into a room with the remote controller, the infrared detector detects signals, the infrared detector transmits the signals to the control terminal in the room, the control terminal sends signals to the remote controller, and when a remote control interface is opened, names of all devices which can be remotely controlled in the room are displayed. And clicking the corresponding equipment icon to display a control interface of the equipment, transmitting signals to the control terminal by the remote controller, and converting the signals transmitted by the remote controller into instructions capable of controlling the equipment by the control terminal. Compared with a common remote control system, the invention can control all devices by using one remote control, and can save the trouble of selecting the devices.

In the above technical solution, preferably, the remote controller is connected with the control terminal through WiFi. WiFi is a relatively common wireless connection.

In the above technical solution, preferably, the remote controller is a mobile phone.

In the above technical solution, preferably, when the camera on the mobile phone is aligned to the device to be controlled, an operation interface corresponding to the device is displayed on the interface. By the operation of the preamble, we do not need to select which room is the appliance, and with the aid of the camera, we do not need to select a specific controlled device from each room.

In the above technical solution, preferably, the control terminal includes a WiFi module, a bluetooth module, and an infrared module. By the arrangement, various different devices can be conveniently controlled.

In the above technical scheme, preferably, the control terminal comprises a housing, the WiFi module, the bluetooth module and the infrared module are arranged in the housing, and the housing is adsorbed on the roof through double faced adhesive tape. Thus, the wireless signal is not easy to be blocked.

In the above technical solution, preferably, the infrared module includes four infrared heads, one ends of the four infrared heads extend out of the housing, and the infrared heads are uniformly distributed along a circumferential direction of the housing. The infrared control has certain directivity, sets up four infrared heads and evenly distributed towards circumference respectively, lets control signal do not have the dead angle.

The beneficial effects of the invention are as follows: when a person walks into a room with the remote controller, the infrared detector detects signals, the infrared detector transmits the signals to the control terminal in the room, the control terminal sends signals to the remote controller, and when a remote control interface is opened, names of all devices which can be remotely controlled in the room are displayed, so that the time for selecting a control object is saved.

Drawings

Fig. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic diagram of a control terminal.

Fig. 3 is a schematic diagram of a remote control.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description:

fig. 1 to 3 show a remote control system based on positioning, comprising a remote control, and an infrared detector 3 and a control terminal 2 distributed in each room, the entrance of each room being provided with a wireless signal detector 4.

In this embodiment, the remote controller is a mobile phone 1. The mobile phone 1 can at least communicate with the control terminal in one way, and the mobile phone 1 communicates with the control terminal 2 through WiFi. The control terminal 2 of each room is able to control all remotely controllable devices in the room. In order to control all the devices, a WiFi module 21, a bluetooth module 22 and an infrared module 23 are arranged in the control terminal 2. By the arrangement, various different devices can be conveniently controlled.

The control terminal 2 comprises a shell 24, the WiFi module 21, the Bluetooth module 22 and the infrared module 23 are arranged in the shell 24, and the shell 24 is adsorbed on the roof of a house through double faced adhesive tape.

The infrared module 23 includes four infrared heads 231, one ends of the four infrared heads 231 extend out of the housing 24, and the infrared heads 231 are uniformly distributed along the circumferential direction of the housing 24. The infrared control has certain directivity, sets up four infrared heads and evenly distributed towards circumference respectively, lets control signal do not have the dead angle.

The wireless signal detector 4 is used for detecting whether the mobile phone 1 enters a room or not, and because the mobile phone 1 emits electromagnetic waves in the using process, the wireless signal detector can judge whether the mobile phone is in the room or not according to the detected radio waves. If the mobile phone is detected to be in the room, the infrared detector 3 in the room is started, the infrared detector 3 is used for detecting whether a person is in the room, and the infrared detector 3 is connected with the control terminal 2 in the room.

When a person walks into a room with the mobile phone 1, the infrared detector 3 detects signals, the infrared detector 3 transmits the signals to the control terminal 2 in the room, the control terminal 2 sends signals to the mobile phone 1, and when a remote control interface is opened, the names of all devices which can be remotely controlled in the room are displayed. Clicking the corresponding device icon to display the control interface of the device. Or the mobile phone can judge the name of the equipment, such as a television, under the effect of intelligent identification by using the camera of the mobile phone to shoot the equipment to be controlled, the equipment can be identified into the television according to the prior technology, then the television in which room is controlled can be known according to the room where the person is located, and the control interface of the television is called. The mobile phone transmits signals to the control terminal, and then the control terminal converts the signals transmitted by the remote controller into instructions capable of controlling the equipment. And then the instruction is transmitted to the controlled equipment through the WiFi module or the infrared module or the Bluetooth module.

When the device is operated on the control interface of the remote controller, whether the device is in infrared remote control or WiFi control or Bluetooth connection, the remote controller transmits WiFi signals to the control terminal, and the control terminal converts the WiFi signals transmitted by the remote controller into instructions capable of controlling the device. For example, the equipment to be controlled is an infrared signal, the control command is transmitted to the control terminal through a WiFi signal, and the control terminal transmits the infrared signal to control the air conditioner to work according to the received control command. The infrared remote controller has the advantages that the infrared remote controller can control the equipment only, and the equipment can be controlled without being opposite to the equipment in the control mode, so that the control is more free. And to that room, the controllable devices in that room are displayed, the time the user spends selecting a device is greatly reduced.

When adding a remotely controllable device, after the added device is placed in a room, the control instruction set of the device is sent to a control terminal in the room through a remote controller, and the control terminal has one more control instruction set of the device. Regarding how the remote controller obtains the control instruction set of the equipment, most of the instruction sets of the equipment are arranged on the control software of many mobile phones at present, and the addition of the instruction set can be realized only by selecting the model corresponding to the equipment. Each time a device is added, a device icon is added to the control interface in the room in which the device is located.

Claims

1. A location-based remote control system, characterized by: the remote control system comprises a remote controller, infrared detectors and control terminals, wherein the infrared detectors and the control terminals are distributed in each room, the remote controller is communicated with the control terminals, the control terminals in each room can control all remote-controllable devices in the room, the infrared detectors are used for detecting whether people exist in the room or not, the infrared detectors are connected with the control terminals in the room, when people walk into one room with the remote controller, the infrared detectors detect signals of the people, the infrared detectors transmit the signals to the control terminals in the room, the control terminals send signals to the remote controller, and when an interface of the remote controller is opened, the interface displays icons of all remote-controllable devices in the room.

2. The location-based remote control system of claim 1, wherein: a wireless signal detector is arranged at the entrance of each room, and when the wireless signal detector detects a signal, the infrared detector is started.

3. The location-based remote control system of claim 1, wherein: the remote controller is connected with the control terminal through WiFi.

4. The location-based remote control system of claim 1, wherein: the remote controller is a mobile phone.

5. A location-based remote control system as defined in claim 3, wherein: when the camera on the mobile phone is aligned with equipment to be controlled, an operation interface corresponding to the equipment is displayed on the interface.

6. The location-based remote control system of claim 1, wherein: the control terminal comprises a WiFi module, a Bluetooth module and an infrared module.

7. The location-based remote control system of claim 6, wherein: the control terminal comprises a shell, wherein the WiFi module, the Bluetooth module and the infrared module are arranged in the shell, and the shell is adsorbed on the roof through double faced adhesive tape.

8. The location-based remote control system of claim 6, wherein: the infrared module comprises four infrared heads, one ends of the four infrared heads extend out of the shell, and the infrared heads are uniformly distributed along the circumference of the shell.