CN112558567A - Museum equipment control method based on intelligent home intelligent control system - Google Patents

Abstract

The invention discloses a museum equipment control method based on an intelligent home intelligent control system, which comprises the following steps: the touch panel receives a touch instruction of a user or acquires a voice instruction of the user through a voice acquisition module and sends the voice instruction to the core control main board; the core control main board converts the touch instruction or the voice instruction into a control equipment command; the core control main board obtains a museum interpreter instruction requirement according to the control equipment command, and selects light or equipment in a corresponding area according to the museum interpreter instruction requirement; the core control mainboard searches corresponding equipment or lamps through the WiFi module or the Zigbee module and controls state changes of the relevant equipment or lamps. According to the invention, the intelligent control center equipment identifies the operating instruction of the museum interpreter and controls the light or equipment in the corresponding area to change the state according with the current interpretation scene, so that the interpretation environment of the museum is more attractive to viewers.

Description

Museum equipment control method based on intelligent home intelligent control system

Technical Field

The invention relates to the technical field of equipment control, in particular to a museum equipment control method based on an intelligent home intelligent control system.

Background

The smart home (home automation) is characterized in that a home is used as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and home schedule affairs is constructed, home safety, convenience, comfort and artistry are improved, and an environment-friendly and energy-saving living environment is realized.

However, the function of the control system of the existing intelligent home system presents fragmentation, the control system is composed of a plurality of independent functions, the combined system is difficult to be absorbed by a consumer in a one-time whole disc mode no matter the system is used or experienced, the system is difficult to be directly purchased in a one-time mode through one-time comprehensive understanding, and therefore fragmentation of experience is required to be achieved firstly when the intelligent home system falls to the ground. Therefore, the intelligent home industry needs a control system which can be accepted and understood by consumers better, the system can be expanded on the basis that the habits of the users are not changed as much as possible, the consumers can experience good use experience, and meanwhile, the control system can be used in multiple scenes such as families, hotels, automobiles, meetings, offices, education and the like.

At present, mobile phones, televisions, intelligent sound boxes and the like which can be used as intelligent control centers cannot provide convenient control modes and interaction means well. Meanwhile, the smart home is simplified, fooled, standardized and dining, which is one of the important strategies for popularizing smart homes, so that the smart control center needs to have a simpler interaction mode and a standardized communication protocol. Traditional control centers such as mobile phones and the like have inherent defects such as: privacy, etc., are not suitable for being used as a control center of a family, nor are they suitable for integrating more functions and control centers. Besides the intelligent home scene, various scenes comprise a hotel scene, an office scene, an education scene, a conference scene, an automobile scene and the like, and at present, a control center scheme widely accepted by users does not exist. The solution of the mobile phone and the like as the control center cannot well solve the application of the above scenarios. Users often need to waste a large amount of time to access private mobile phones into public systems, and experience is poor; and is not currently applied to the scenes of museums.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention mainly aims to provide a museum equipment control method based on an intelligent home control system, and aims to solve the problem that the existing intelligent home control mode in the prior art cannot be applied to a museum for auxiliary explanation.

In order to achieve the above object, the present invention provides a museum device control method based on an intelligent home control system, where the intelligent home control system includes a touch panel, a core control motherboard, and a voice acquisition module, the intelligent home control system is disposed in an intelligent control center device, and the museum device control method based on the intelligent home control system includes:

the touch panel receives a touch instruction of a user through an interactive interface or acquires a voice instruction of the user through a voice acquisition module, and the touch panel sends the touch instruction or the voice acquisition module sends the voice instruction to the core control main board;

the core control main board analyzes the touch instruction or the voice instruction and converts the touch instruction or the voice instruction into a control device command;

the core control main board obtains a museum interpreter instruction requirement according to the control equipment command, and selects light or equipment in a corresponding area according to the museum interpreter instruction requirement;

the core control mainboard searches corresponding equipment or lamps through the WiFi module or the Zigbee module and controls state changes of the relevant equipment or lamps.

Optionally, the method for controlling museum equipment based on an intelligent home control system, where the touch panel receives a touch instruction of a user through an interactive interface or collects a voice instruction of the user through a voice collection module, and the touch panel sends the touch instruction or the voice collection module sends the voice instruction to the core control motherboard, and before the method, the method further includes:

the intelligent control center equipment receives an operation instruction of a user, and the intelligent control center equipment is connected with relevant intelligent equipment and lamps in the museum in a binding mode in advance.

Optionally, the method for controlling museum equipment based on the smart home intelligent control system, where the core control motherboard searches for corresponding equipment or lamps through a WiFi module or a Zigbee module, and controls a state change of the relevant equipment or lamps, specifically includes:

the core control mainboard searches corresponding equipment or lamps through a WiFi module or a Zigbee module according to the control equipment command;

and the core control main board controls corresponding equipment or lamps to change brightness or state according to the control equipment command.

Optionally, in the museum device control method based on the smart home intelligent control system, the device or the lamp performs brightness change or state change according to the control device command, and matches with the currently explained object and scene of the museum.

Optionally, in the museum device control method based on the smart home intelligent control system, the lamp is provided with light sources of a plurality of different colors.

Optionally, in the method for controlling museum equipment based on the smart home intelligent control system, a museum explanation APP is installed in the smart control center equipment and is used for receiving an operation instruction of an interpreter and then is started to assist the interpreter in explaining.

Optionally, in the museum device control method based on the smart home intelligent control system, the touch panel includes a touch screen and a touch-controllable protective glass covering the touch screen.

Optionally, in the museum device control method based on the smart home intelligent control system, the touch panel is used for a user to perform touch operation and display interaction; the voice acquisition module is used for acquiring a voice instruction of a user and sending the voice instruction to the core control mainboard; the core control mainboard is used for receiving and sending instructions so as to control each module to execute corresponding functions.

Optionally, in the museum device control method based on the smart home intelligent control system, the core control main board is connected to the touch panel and the voice acquisition module in a wired manner.

Optionally, the museum device control method based on the smart home intelligent control system, wherein the smart control center device includes: the intelligent remote controller comprises control center equipment embodied in the form of a mobile 17-inch touch display flat plate, control center equipment embodied in the form of a wall-mounted 8-inch touch display flat plate and an intelligent remote controller of a 5-inch touch display screen.

The invention discloses a museum equipment control method based on an intelligent home intelligent control system, wherein the intelligent home intelligent control system comprises a touch panel, a core control main board and a voice acquisition module, the intelligent home intelligent control system is arranged in intelligent control center equipment, and the museum equipment control method based on the intelligent home intelligent control system comprises the following steps: the touch panel receives a touch instruction of a user through an interactive interface or acquires a voice instruction of the user through a voice acquisition module, and the touch panel sends the touch instruction or the voice acquisition module sends the voice instruction to the core control main board; the core control main board analyzes the touch instruction or the voice instruction and converts the touch instruction or the voice instruction into a control device command; the core control main board obtains a museum interpreter instruction requirement according to the control equipment command, and selects light or equipment in a corresponding area according to the museum interpreter instruction requirement; the core control mainboard searches corresponding equipment or lamps through the WiFi module or the Zigbee module and controls state changes of the relevant equipment or lamps. According to the invention, the intelligent control center equipment identifies the operating instruction of the museum interpreter and controls the light or equipment in the corresponding area to change the state according with the current interpretation scene, so that the interpretation environment of the museum is more attractive to viewers.

Drawings

FIG. 1 is a schematic diagram of a smart home control system according to a preferred embodiment of the present invention;

FIG. 2 is a flowchart of a museum device control method based on an intelligent home control system according to a preferred embodiment of the present invention;

fig. 3 is a schematic diagram of the whole execution process of the museum device control method based on the smart home smart control system according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

A modern human-living intelligent control system or a home intelligent terminal (control system for short) takes a common home electronic device form as a bearing platform, and applies a plurality of advanced technologies, including: the intelligent control system is compatible with various main flow communication modes, combines mobile control and fixed control, covers multi-scene interaction from a 5-inch display terminal to a 24-inch display terminal, and forms a brand new control mode of an intelligent control center. A modern human-living intelligent control system or a home intelligent terminal constructed based on an independently researched and developed communication protocol standard is a control system for interconnection and intercommunication and intelligent interaction of full-class ecological equipment, and intelligent human-living new experience which is comfortable, convenient, safe, healthy and energy-saving is introduced.

As shown in fig. 1, the intelligent home control system according to the preferred embodiment of the present invention includes:

the core control mainboard is used for receiving and sending instructions so as to control each module to execute corresponding functions; the touch panel is used for a user to perform touch operation and display interaction; the energy consumption management module is used for managing and controlling energy; the voice acquisition module is used for acquiring a voice instruction of a user and sending the voice instruction to the core control mainboard; the cloud server is used for storing and processing the data of the user; the wireless charging module is used for providing electric energy for the wireless charging equipment; the sound module is used for providing voice for a user and playing music; the network communication module is used for accessing the Internet and interacting information with the cloud server; and the infrared communication module is used for controlling the household electrical appliances operated in an infrared control mode.

The intelligent control system of the intelligent home is applied to intelligent control center equipment, and the intelligent control center equipment comprises: the intelligent remote controller is characterized by comprising a control center device which is presented in a tea table shape and is provided with a 24-inch touch display screen, a control center device which is embodied in a movable 17-inch touch display flat plate form, a control center device which is embodied in a wall-mounted 8-inch touch display flat plate form and a 5-inch touch display screen.

Specifically, the core control mainboard is used as a core control component of each terminal product of the modern human-living intelligent control system, is connected with other modules of each terminal product, and is used for communicating with a touch panel, an energy consumption management module, a voice acquisition module, a sound module, a wireless charging module, a network communication module and an infrared communication module which are arranged in the terminal product in a wired mode, so as to interactively communicate commands of the core control mainboard with each module of an intelligent control center and issue the commands; the core control main board can store the input data of the user in a digital storage mode through storage, and simultaneously store the operating systems and the like of all terminal products; meanwhile, the core control mainboard is communicated with a network communication module with a wireless communication function, and is interconnected with the Internet through WiFi or 5G protocols, so that interaction of all modules of all terminal products is realized, network resources are obtained, and meanwhile, the wireless communication function in the core control mainboard can control the intelligent household appliances in a family in a cloud and cloud docking mode through a network.

Further, the core control main board module has high performance, and performance parameters of control center equipment which is presented in a tea table shape and carries a 24-inch touch display screen are not lower than the following requirements: the performance of the core processor is not lower than that of an ARM A7364-bit CPU processor; the performance of the independent GPU is not lower than that of an ARM G51 chip; support full specification HDR display; 4K display is supported; supporting a 60Hz motion compensated display; the HDMI2.0 interface is supported; USB 3.0 and USB 2.0 are supported; supporting a PCI-e interface; supporting a global demodulator; support 4K TCONLESS; supporting video DRM technology; supporting dolby ATMOS technology, etc.

The performance parameters for a control center device embodied in the form of a standalone, movable 17-inch touch display panel and a control center device embodied in the form of a wall-mounted, wirelessly-charged 8-inch touch display panel should not fall below the following requirements: the performance of the core processor is not lower than that of an ARM A5364-bit CPU processor; 4K display is supported; the USB 2.0 and Type-C interfaces are supported; the memory is not less than 2G, and the flash memory is not less than 32 GB.

The performance parameters of the intelligent control center equipment embodied in the form of an intelligent remote controller carrying a 5-inch touch display screen are not lower than the following requirements: the performance of the core processor is not lower than that of an ARM A3564-bit CPU processor; 720P display is supported; the USB 2.0 and Type-C interfaces are supported; the memory is not less than 1G, and the flash memory is not less than 8 GB.

Specifically, the touch panel main body is composed of a touch screen and a piece of touch protection glass covered on the touch screen. The touch panel is communicated with the core control main board in a wired communication mode, can realize user interface interaction and can be pre-installed with an operating system; the intelligent electrical appliances of the family can be controlled through intelligent control software, so that the whole household electrical appliances can be controlled; the core control mainboard can be connected with the Internet to download the required application programs, so that various application programs can be realized on an interactive interface; the family entertainment social center can be realized by installing popular applications such as chess and card games, WeChat buffeting and the like; the family teenagers education center can be realized by installing education programs. The touch-control glass covered on the surface realizes the protection of the screen, and provides a capacitance medium to realize the touch-control interaction of the touch-control panel.

For example, panning, QQ, take journey, APP such as tremble sound, for example tremble sound can sit together and see the large screen family member, and not everyone takes the cell-phone of oneself to see, can smile together family member, promote family member's relation, for example panning can see the large screen together and see the thing of buying by several people in the family, discuss together, saved the trouble of sharing the link, for example take journey, can the family go out when playing and see the large screen together and select the hotel, and touch screen can be convenient mutual moreover.

Further, the performance parameters of the touch panel should not be lower than the following requirements: the size of each product according to self demand selection screen, service temperature: 0 to 40 ℃; storage temperature: -10 to 50 ℃; operating relative humidity: 10% to 90% ° c; contrast ratio: 450: 1; brightness (lumen): 300cd/m 2; display color: 16.7 million colors; reaction time: 12 milliseconds; visual angle horizontal: 160 degrees; and (2) vertically: 160 degrees; resolution ratio: 1920 × 1080/60 HZ; power supply input: AC 220V; power consumption amount: the working mode is less than or equal to 30 watts; safety certification: CCC, FCC, CE; touch point density: 100000 touch points per square inch (15000 touch points per square centimeter) or more; the touch reaction force is as follows: the reaction time is less than 10 ms; the touch force is less than 85 g.

Specifically, the energy consumption management module regulates and controls the overall electric energy of the control center equipment, and is present in all the control center equipment. The energy consumption management module is used for connecting an energy input port (a lighting circuit or a built-in lithium battery) and each module. The energy consumption management module carries out reasonable energy distribution by analyzing the energy consumption requirements of all the modules so as to achieve optimal energy consumption management and realize normal operation of equipment with the lowest energy consumption.

For example, energy consumption management is optimized through a chip and a program algorithm, adaptive electric energy distribution is performed according to functions of each module, for example, deep sleep of background software is set to reduce power consumption, for example, a full-time voice standby state with low power consumption is realized by optimizing a program of a full-time voice acquisition module, for example, full-time voice standby is kept under the condition of screen resting through program design, and interaction with no screen lighting is realized.

Specifically, the voice acquisition module is added to each terminal product of the modern human-living intelligent control system in a modular design, realizes interaction with a user in a voice interaction mode, is connected to the control main board in a wired mode, and acquires and submits user voice to the core control main board.

Furthermore, the voice acquisition module mainly takes pickup as a main part, aiming at a control center device which is presented in a tea table shape and carries a 24-inch touch display screen, the control center device is presented in an independent movable 17-inch touch display flat plate form, and the control center device is presented in a wall-mounted 8-inch touch display flat plate form supporting wireless charging. The performance parameters should not be lower than the following values: array unit, 4 array element microphone; the directivity is full-directional, and sound enhancement is realized at the front angle and the rear angle of 45 degrees; sampling rate, 48 KHz; sampling depth, 16 bits; effective frequency response range, 100Hz-10 KHz; output interface, USB or analog output (AUX); output channel, binaural; voice recognition limited range, within 5 meters; the sensitivity is more than or equal to 50 mV/Pa; the noise level of the machine is less than or equal to 30 dB; the signal-to-noise ratio is more than or equal to 50 dB.

Aiming at the intelligent control center equipment embodied in the form of an intelligent remote controller carrying a 5-inch touch display screen, a single-microphone scheme and a near-field voice scheme are adopted. Sampling rate, 48 KHz; sampling depth, 16 bits; effective frequency response range, 100Hz-10 KHz; output interface, USB or analog output (AUX); the voice recognition is in a limited range, within 1 meter; the sensitivity is more than or equal to 30 mV/Pa; the noise level of the machine is less than or equal to 40 dB; the signal-to-noise ratio is more than or equal to 40 dB.

Specifically, the cloud server analyzes the voice uploaded to the network by the core control mainboard, obtains the meaning of the voice information of the user through analysis of the cloud server, and transmits the analyzed semantics to each module to realize the instruction transfer, so that the language control requirement of the user is met. For example, the television is controlled to be turned on through voice, firstly, a user yells ' small dimension and small dimension ' and turns on the television ', the voice acquisition module acquires user voice, compares the awakening word ' small dimension and small dimension ' on the core control mainboard, uploads a back-segment statement command to the cloud server through the mainboard after the comparison is successful, then the cloud server performs big data analysis and natural language processing, finds a corresponding command and issues the command to the television of an account of the uploaded command, the television control is realized, and the television is turned on.

The voice acquisition module can provide a convenient interaction mode, a user can control the modern people intelligent control system and the intelligent home equipment linked with the modern people intelligent control system through voice without touch control. Simultaneously the high in the clouds server learns and records user information through internet and analysis user's use habit (this is natural language processing technology, through user's application at every turn, gather user's vocal print characteristics such as tone, carry out many times operation with big data technology at the high in the clouds, and record user's vocal print, constantly optimize speech recognition efficiency through machine learning, improve reaction time and speech recognition rate, reach better speech interaction and experience), thereby better provide good use experience for the user, realize intelligent interactive mode.

Further, the cloud server is a main information storage and processing module, and therefore, the cloud server should have a relatively strong computing and processing capability, and the parameter performance of the cloud server should not be lower than the following criteria: the processor supports at least 1 CPU, the CPU type, the core eight generation i7, the CPU frequency 3.6 GHZ; the memory type Non-ECC is characterized in that the number of memory slots is 2, the maximum memory capacity is 32G, and the memory size is 16G/32G; network controller 2 readtek 8111H; the system supports Windows 10/2016 and Linux; the number of internal hard disks is 3, and the size of the hard disks is 1T/2T or M.2 solid-state disks; hard disk type SATA or SSD.

Specifically, the wireless charging module is added to each terminal product of a modern people-living intelligent control system in a modular design, and for control center equipment which is presented in a tea table shape and carries a 24-inch touch display screen, the wireless charging module is used for providing electric energy for mobile equipment such as a mobile phone and the like, is arranged below wood on the surface of the equipment in a hidden mode, is connected to the core control main board in a wired mode and obtains power supply. The wireless module that charges will the electric energy of core control mainboard (the tea table can external 220V family power supply, and wall-hanging can be by supporting socket that charges) with wireless mode transmission place in the equipment of wireless module top that charges contains cell-phone etc. under the condition that does not influence intelligent control center outward appearance, charges to equipment commonly used such as cell-phone, improves the convenient degree of life.

Further, the wireless charging module should possess the ability of charging for intelligent wireless charging equipment such as cell-phone, wrist-watch, its parameter should not be less than: the input voltage DC 5V/2A 9V/1.67A; the output voltage is 10W Max.

For the control center equipment embodied in the form of an 8-inch touch display panel supporting wireless charging on a wall, the wireless charging module comprises a part for supplying power to the display panel (a wireless charger similar to an apple, and the wireless charging module is used for supplying power to the wall-mounted equipment in a wireless charging capacity converted from 220V power supply of a family) and a part for obtaining wireless power transmission, wherein the part for supplying power to the display panel is embedded into a wall-mounted bracket to obtain power from a lighting circuit and supply power to the display panel. The part for obtaining electric energy in a wireless mode is arranged in the display panel, and the electric energy is obtained from the bracket.

Specifically, the sound module mainly plays music for users to enjoy the music, and the built-in sound box adopts a dolby multi-channel system and comprises 2 or more sound channel systems in a hidden built-in manner aiming at a control center device which is presented in a tea table shape and is provided with a 24-inch touch display screen. Control center equipment to portable 17 inches touch-control display dull and stereotyped form embodiment to the control center equipment that 8 inches touch-control display dull and stereotyped forms of wall-hanging support wireless charging embody, carry on the intelligent control center equipment that the intelligent remote controller form of 5 inches touch-control display screen embodies, adopt the configuration of single tone case, built-in stereo set is mutual through wired mode and core control mainboard, the realization is played the audio signal in the core control mainboard for built-in stereo set, realize music instant music function, alarm clock function and radio function.

Furthermore, the sound module mainly plays music for users to enjoy music, and the parameters of the sound module are not lower than the following standards: the output power is not less than 5W, the resistance value of the loudspeaker is less than 4 ohms, and a neodymium iron boron magnetic circuit is used; supporting 5V power supply; the response frequency range is 100 Hz-20 kHz; the signal to noise ratio is higher than 85 dB.

Specifically, the network communication module realizes interaction with the core control main board and the internet through any one of Wi-Fi, Bluetooth, ZigBee and mobile cellular networks (5G, 4G), realizes uploading and downloading of information, and realizes the function that modules such as a touch panel and the like present the internet.

Further, the network communication module is responsible for communication between the core control mainboard and a network, and the parameters of the network communication module are not lower than the following standards: the Bluetooth module has the antenna gain of 5dbi, the frequency range of 2.4GHz/5GHz and supports Win 7/8/10 or android; the WiFi module supports double frequencies, and the speed is not lower than 300M; the Zigbee module has the working frequency range of 2400-2450 MHz, the communication serial port of URAT, the single-hop transmission distance of 100 meters, the maximum hop count of the ad hoc network of 15 hops, the maximum sending rate of 259Kbit/s, the number of times of packet loss retransmission of less than 15 times, the air time delay of less than 10mS, the transmitting power of 4.5dBm, the working current of less than 30mA and the working voltage of 2.5-3.6V.

Specifically, the infrared communication module receives an infrared control command (a touch instruction and voice) acquired by the core control mainboard from the touch panel or the voice acquisition module, converts the infrared control command into an infrared signal, and controls an electric appliance in a household to operate in an infrared control mode; no matter through touch control or voice, the core control mainboard obtains the instruction of the user and analyzes the instruction, if the analysis result is the infrared control device, the core control mainboard converts the instruction into an electric signal and transmits the electric signal to the infrared communication module, and the infrared communication module converts the electric signal into an infrared signal and transmits the infrared signal to the corresponding device.

The infrared control module comprises intelligent control center equipment embodied in the form of an intelligent remote controller carrying a 5-inch touch display screen and control center equipment carrying a 24-inch touch display screen and presented in the form of a tea table. The infrared module head transmitting angle is limited, the controlled device which needs better alignment in use is needed, the tea table has a larger volume, a plurality of infrared module heads pointing to different directions can be installed, full coverage is realized, the intelligent remote controller device of 5 inches is small in volume, the controlled device can be aligned in a handheld mode, and mobile and wall-mounted devices are larger than the intelligent remote controller in volume, but the tea table is not large, a plurality of modules are inconvenient to install, the controlled device is also inconvenient to align in directivity, but related control can be performed through the infrared control module which is additionally provided with a stand-alone type.

Further, the infrared communication module remotely controls other infrared control household appliances of various brands by learning the control code, so that the parameters of the infrared control module have the following standards: the control mode is local control, remote control and infrared learning, the receiving sensitivity is-97 dB, the power consumption is 200mW when the device works, and 1mW when the device does not work.

Further, the control center device which is presented in a tea table shape and carries a 24-inch touch display screen further comprises a built-in refrigerator, and the built-in refrigerator is used for providing low temperature to store food and drinks.

Aiming at control center equipment presented in a tea table shape, an internal refrigerator is used as storage equipment, and common household living room articles such as food, fruits, drinks and the like can be stored in a low-temperature environment; the built-in refrigerator can be used as storage equipment by setting the running mode of the built-in refrigerator, so that common household articles for customers such as tea leaves and the like can be stored in a low-temperature environment; the wine storage device can provide low-temperature and dry environment for storing wines such as red wine and the like by setting the running mode of the built-in refrigerator which is used as storage equipment; the operation mode of the built-in refrigerator can be set, the built-in refrigerator is used as storage equipment, and household common medical supplies such as medicines and the like can be stored in a low-temperature and dry environment.

The main functions of the built-in refrigerator are to provide refrigerated drinks, fruits, tea leaves and the like in a guest-meeting scene, so that the built-in refrigerator at least has the following performance parameters: the using space of the built-in refrigerator is not less than 30L, and the lowest refrigerating temperature of the built-in refrigerator is not higher than 0 ℃. The noise level is below 40 decibels.

According to the invention, the control center equipment which is presented in a tea table shape and carries a 24-inch touch display screen, the control center equipment which is presented in an independent movable 17-inch touch display flat plate form, the control center equipment which is presented in a wall-mounted type 8-inch touch display flat plate form and supports wireless charging, and the intelligent control center equipment which is presented in an intelligent remote controller form and carries a 5-inch touch display screen.

In the invention, the control center equipment which is presented in a tea table shape and is provided with a 24-inch touch display screen comprises: the furniture display screen has the advantages that the furniture display screen is used for displaying, the 24-inch touch display screen is carried, the interactive mode of touch control and voice dual control is realized, and the requirements of various tasks such as education, entertainment, office work, rest and security are met. The control center is displayed in a fixed form, and the system can be applied to places such as families, hotels, office places and the like. According to different requirements and scenes, the control center equipment presented in the form of a tea table can carry a screen range including 32 inches to 18 inches, wherein 24 inches is the best solution.

In the invention, the control center equipment is embodied in the form of an independent movable 17-inch touch display flat plate: the equipment takes movable large-screen display as a starting point, and movable touch control is realized by carrying a 17-inch touch control display screen and a built-in lithium battery, so that the requirement of the existing furniture stock market is met. By operating the open system platform, various application programs can be installed, and the application range comprises office, security, leisure, education, entertainment and the like. Meanwhile, intelligent control over the electric appliance can be achieved through wireless transmission modes such as WiFi or 5G network and the like, and according to different scenes and requirements, the screen range which can be carried by control center equipment embodied by the mobile touch display screen panel comprises 18 inches to 13 inches, wherein 17 inches is the best solution.

In the invention, the control center equipment is embodied in the form of an 8-inch touch display panel supporting wireless charging in a wall-mounted manner: the device takes wall-mounted intelligent control as a design leading idea. By carrying the 8-inch touch display screen, the built-in lithium battery and the wireless charging module, the wireless charging flat panel device with the advanced technology is realized. Meanwhile, the wall-mounted intelligent control device is combined in a life scene, and can replace a traditional switch to realize intelligent control. The device realizes intelligent control of the electric appliance through wireless transmission modes such as WiFi or 5G network and the like. Meanwhile, the system platform which is open to operate can be used for multiple applications such as office, security, leisure, entertainment, education and the like. According to different scenes and requirements, the range of screens which can be carried by the control center device embodied by the wall-mounted touch display panel comprises 13 inches to 7 inches, wherein 8 inches is the best solution.

In the invention, the intelligent control center equipment is embodied in the form of an intelligent remote controller carrying a 5-inch touch display screen: the intelligent remote controller of the equipment is a design leading idea. The intellectualization of the remote controller is realized by carrying a 5-inch touch display screen, a lithium battery and the like. Through wiFi and infrared communication technology, can realize carrying out intelligent control to the different types of electrical apparatus of different brands at home. According to different scenes and requirements, the intelligent control center equipment embodied in an intelligent remote controller mode can be carried with a screen range of 6 inches to 4 inches, wherein 5 inches is an optimal solution.

Further, based on the smart home intelligent control system, the invention further provides a museum device control method based on the smart home intelligent control system, as shown in fig. 2 and 3, the museum device control method based on the smart home intelligent control system includes:

step S10, the touch panel receives a touch instruction of a user through an interactive interface or collects a voice instruction of the user through a voice collection module, and the touch panel sends the touch instruction or the voice collection module sends the voice instruction to the core control motherboard.

As shown in fig. 3, a user may perform a manual touch operation through the touch panel or a voice sent by the user is collected through the voice collection module, that is, the user sends a control instruction in two ways, namely, a touch operation and a voice control; and then the touch panel sends the touch instruction or the voice acquisition module sends the voice instruction to the core control mainboard.

The core control main board is connected with the touch panel and the voice acquisition module respectively in a wired mode.

And step S20, the core control main board analyzes the touch instruction or the voice instruction and converts the touch instruction or the voice instruction into a control device command.

As shown in fig. 3, after the core control motherboard (i.e., the control motherboard in fig. 3) receives the touch instruction sent by the touch panel or the voice instruction sent by the voice acquisition module, the core control motherboard analyzes the touch instruction or the voice instruction, so as to convert the touch instruction or the voice instruction into a control device command.

And S30, the core control main board obtains the instruction requirement of the museum interpreter according to the control equipment command, and selects the light or equipment in the corresponding area according to the instruction requirement of the museum interpreter.

For example, the core control main board selects a lamp or a device corresponding to a booth or a sand table area according to the control device command.

Step S40, the core control motherboard searches for a corresponding device or lamp through the WiFi module or the Zigbee module, and controls a state change of the related device or lamp.

The intelligent control center equipment receives an operation instruction of a user, and is bound and connected with related intelligent equipment and lamps in the museum in advance, so that the intelligent control center equipment can control the related equipment and the lamps conveniently in the follow-up process.

The touch panel is used for a user to perform touch operation and display interaction; the voice acquisition module is used for acquiring a voice instruction of a user and sending the voice instruction to the core control mainboard; the core control mainboard is used for receiving and sending instructions so as to control each module to execute corresponding functions. The core control main board is connected with the touch panel and the voice acquisition module respectively in a wired mode.

The core control mainboard searches corresponding equipment or lamps through a WiFi module or a Zigbee module according to the control equipment command; and the core control main board controls corresponding equipment or lamps to change brightness or state according to the control equipment command. The equipment or the lamp performs brightness change or state change according to the control equipment command to match with the currently explained object and scene of the museum; for example, the lamp is provided with a plurality of light sources with different colors, and the colors of the lights can be adjusted in real time in different explaining scenes; in addition, install museum explanation APP in the intelligent control center equipment for open after receiving the explanation person's operating instruction, supplementary explanation person explains, be convenient for with the more detailed of scenes introduction such as historical relic in current museum.

The intelligent control center equipment is suitable for a control center equipment embodied in a mobile 17-inch touch display flat plate form, a control center equipment embodied in a wall-mounted 8-inch touch display flat plate form and an intelligent remote controller of a 5-inch touch display screen, because the tea table is inconvenient to move and use.

The invention provides a new modern living style, which realizes the control of whole-house household appliances under various scenes and various requirements in a brand-new interactive mode and a brand-new terminal device, wherein the control comprises the functions of controlling the networked intelligent household appliances and controlling the traditional non-intelligent household appliances. Simultaneously to different scene demands, modern people's house intelligence control system can cover multiple occasions such as house, official working, education, hotel, meeting place, can interact through pronunciation and touch-control two kinds of modes, realizes the intelligent control of electrical apparatus, demands such as security protection control, education amusement, life leisure, official working meeting visitor. The whole modern human-living intelligent control system can improve the quality of life in all directions, meet the requirements of users in all aspects and realize intelligent life.

The intelligent human-living control system provided by the invention comprises equipment with touch display modules of various sizes, such as intelligent control center equipment which is displayed in a tea table shape and carries 24 inches, intelligent control center equipment which is displayed in a movable flat plate shape and carries 17 inches of touch display modules, intelligent control center equipment which is displayed in a wall-mounted flat plate shape and carries 8 inches of touch display modules, and intelligent control center equipment which is displayed in a form of an intelligent remote controller and carries 5 inches of display modules. The system realizes the omnibearing coverage of control and interaction in the family through the equipment, and better coverage is realized in all directions no matter the family is met, friends making, entertainment and work, family life and security monitoring, and a brand new life concept is realized.

In summary, the present invention provides a museum device control method based on an intelligent home control system, where the intelligent home control system includes a touch panel, a core control motherboard, and a voice acquisition module, the intelligent home control system is disposed in an intelligent control center device, and the museum device control method based on the intelligent home control system includes: the touch panel receives a touch instruction of a user through an interactive interface or acquires a voice instruction of the user through a voice acquisition module, and the touch panel sends the touch instruction or the voice acquisition module sends the voice instruction to the core control main board; the core control main board analyzes the touch instruction or the voice instruction and converts the touch instruction or the voice instruction into a control device command; the core control main board obtains a museum interpreter instruction requirement according to the control equipment command, and selects light or equipment in a corresponding area according to the museum interpreter instruction requirement; the core control mainboard searches corresponding equipment or lamps through the WiFi module or the Zigbee module and controls state changes of the relevant equipment or lamps. According to the invention, the intelligent control center equipment identifies the operating instruction of the museum interpreter and controls the light or equipment in the corresponding area to change the state according with the current interpretation scene, so that the interpretation environment of the museum is more attractive to viewers.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. The museum equipment control method based on the intelligent home control system is characterized in that the intelligent home control system comprises a touch panel, a core control main board and a voice acquisition module, the intelligent home control system is arranged in intelligent control center equipment, and the museum equipment control method based on the intelligent home control system comprises the following steps:

the touch panel receives a touch instruction of a user through an interactive interface or acquires a voice instruction of the user through a voice acquisition module, and the touch panel sends the touch instruction or the voice acquisition module sends the voice instruction to the core control main board;

the core control main board analyzes the touch instruction or the voice instruction and converts the touch instruction or the voice instruction into a control device command;

the core control main board obtains a museum interpreter instruction requirement according to the control equipment command, and selects light or equipment in a corresponding area according to the museum interpreter instruction requirement;

the core control mainboard searches corresponding equipment or lamps through the WiFi module or the Zigbee module and controls state changes of the relevant equipment or lamps.

2. The museum device control method based on the smart home intelligent control system according to claim 1, wherein the touch panel receives a touch instruction of a user through an interactive interface or collects a voice instruction of the user through a voice collection module, the touch panel sends the touch instruction or the voice collection module sends the voice instruction to the core control main board, and the method further comprises:

the intelligent control center equipment receives an operation instruction of a user, and the intelligent control center equipment is connected with relevant intelligent equipment and lamps in the museum in a binding mode in advance.

3. The museum equipment control method based on the smart home intelligent control system according to claim 1, wherein the core control mainboard searches for corresponding equipment or lamps through a WiFi module or a Zigbee module, and controls state changes of related equipment or lamps, specifically comprising:

the core control mainboard searches corresponding equipment or lamps through a WiFi module or a Zigbee module according to the control equipment command;

and the core control main board controls corresponding equipment or lamps to change brightness or state according to the control equipment command.

4. The museum equipment control method based on the smart home intelligent control system according to claim 3, wherein the equipment or the lamp performs brightness change or state change according to the control equipment command to match with currently explained objects and scenes in the museum.

5. The museum equipment control method based on the smart home intelligent control system according to claim 1, wherein the lamp is provided with light sources of a plurality of different colors.

6. The museum equipment control method based on the intelligent home control system according to claim 1, wherein the museum explanation APP is installed in the intelligent control center equipment and used for receiving an operation instruction of an interpreter and then starting the museum explanation APP to assist the interpreter in explaining.

7. The museum device control method based on the smart home intelligent control system according to claim 1, wherein the touch panel comprises a touch screen and a touch-enabled protective glass covering the touch screen.

8. The museum equipment control method based on the smart home intelligent control system according to claim 1, wherein the touch panel is used for touch operation and display interaction by a user; the voice acquisition module is used for acquiring a voice instruction of a user and sending the voice instruction to the core control mainboard; the core control mainboard is used for receiving and sending instructions so as to control each module to execute corresponding functions.

9. The museum equipment control method based on the intelligent home control system according to claim 1, wherein the core control main board is connected with the touch panel and the voice acquisition module in a wired manner.

10. The museum device control method based on the smart home intelligent control system according to claim 1, wherein the smart control center device comprises: the intelligent remote controller comprises control center equipment embodied in the form of a mobile 17-inch touch display flat plate, control center equipment embodied in the form of a wall-mounted 8-inch touch display flat plate and an intelligent remote controller of a 5-inch touch display screen.

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