CN112443116A - Floor adjusting system based on Internet of things - Google Patents

Abstract

The invention discloses a floor adjusting system based on the Internet of things, belongs to the field of intelligent floors, relates to a floor adjusting technology, and is used for solving the problem of intelligent interaction between a heating floor and indoor Internet of things equipment; be used for acquireing the real-time temperature value of floor through adjusting module, and generate the dry heat mode signal according to the real-time temperature value of floor, warm mode signal, comfortable mode signal and cold mode signal, and through above-mentioned information and then change indoor thing networking electric light, the thing networking audio amplifier, the operating parameter of thing networking window and thing networking humidifier, and then with indoor thing networking electric light, the thing networking audio amplifier, thing networking window and thing networking humidifier carry out intelligent interaction, promote user's quality at home, also can come perception temperature variation according to light variation simultaneously, and then select the most comfortable temperature, promote the quality of life.

Description

Floor adjusting system based on Internet of things

Technical Field

The invention belongs to the field of intelligent floors; relates to the floor adjusting technology; in particular to a floor adjusting system based on the Internet of things.

Background

A floor, i.e. the surface layer of a house floor or floor, is one of the building materials. Made of wood or other material. The floor is developed greatly in the building industry and the indoor decoration industry, the floor is developed as one of important materials for indoor decoration, the functions and requirements of people on the floor are higher and higher, meanwhile, the existing floor also has a heating function, but the floor is not intelligent due to the lack of the function of linkage with equipment of the Internet of things.

Disclosure of Invention

The invention aims to provide a floor adjusting system based on the Internet of things, which is used for solving the problem of intelligent interaction between a heating floor and indoor Internet of things equipment.

The purpose of the invention can be realized by the following technical scheme:

a floor adjusting system based on the Internet of things comprises an Internet of things platform, a temperature acquisition module, a sensing module, a data transmission module and an adjusting module;

the adjusting module is used for acquiring a real-time floor temperature value, and when the real-time floor temperature value is greater than or equal to K1 ℃, the adjusting module generates a dryness heat mode signal and sends the dryness heat mode signal to the Internet of things platform through the data transmission module;

when the real-time floor temperature value is greater than or equal to K2 ℃, the adjusting module generates a warm mode signal and sends the warm mode signal to the Internet of things platform through the data transmission module;

when the real-time temperature value of the floor is greater than or equal to K3 ℃, the adjusting module generates a comfortable mode signal and sends the comfortable mode signal to the Internet of things platform through the data transmission module;

when the real-time temperature value of the floor is more than or equal to K4 ℃, the adjusting module generates a cold mode signal and sends the cold mode signal to the Internet of things platform through the data transmission module;

the temperature of K1 ℃, K2 ℃, K3 ℃ and K4 ℃ are preset temperature values, and the temperature of K1 ℃ is higher than K2 ℃ and higher than K3 ℃ and the temperature of K4 ℃ is higher than 0 ℃;

the Internet of things platform receives the dryness heat mode signal, generates a dryness heat adjusting instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the dryness heat adjusting instruction into the operating parameters;

the Internet of things platform receives the warming mode signal, generates a warming adjustment instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the warming adjustment instruction into the operating parameters;

the Internet of things platform receives the comfort mode signal, generates a comfort adjusting instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the comfort adjusting instruction into the operating parameters;

the Internet of things platform receives the cold mode signal, generates a cold adjusting instruction, acquires the current running parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the cold adjusting instruction into the running parameters;

the dryness heat adjustment instruction is specifically as follows: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than K lux, adjusting the light color temperature value to be 5500K-6500K, adjusting the frequency value of a sound box of the Internet of things to be 12350 HZ-16000 HZ, adjusting the running condition of a window of the Internet of things to be the running state, adjusting the extending angle of the window of the Internet of things to be larger than or equal to 12 degrees, adjusting the running condition of a humidifier of the Internet of things to be the running state, and adjusting the humidifying rate to be 25% HR;

the temperature adjusting instruction is specifically as follows: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than J lux, adjusting the light color temperature value to be 3700K-4200K, adjusting the frequency value of a sound box of the Internet of things to be 9680 HZ-11000 HZ, adjusting the running condition of a window of the Internet of things to be the running state, adjusting the extending angle of the window of the Internet of things to be larger than or equal to 6 degrees, adjusting the running condition of a humidifier of the Internet of things to be the running state, and adjusting the humidifying rate to be 17% HR;

the comfort adjustment instruction is specifically: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than H lux, adjusting the light color temperature value to be 1500K-2600K, adjusting the frequency value of a sound box of the Internet of things to be 3000 HZ-5000 HZ, adjusting the operation condition of a window of the Internet of things to be in a closed state and adjusting the operation condition of a humidifier of the Internet of things to be in a closed state;

the cold regulation instruction is specifically as follows: adjusting the light intensity value of the Internet of things electric lamp to be larger than G lux, adjusting the light color temperature value to be 900K-1500K, adjusting the frequency value of the Internet of things sound box to be 1500 HZ-3000 HZ, adjusting the operation condition of the Internet of things window to be in a closed state and adjusting the operation condition of the Internet of things humidifier to be in a closed state.

Further, the operation parameters of the current indoor Internet of things lamp are obtained through the sensing module, and the operation parameters comprise the operation condition of the Internet of things lamp, the light intensity value of the Internet of things lamp and the light color temperature value.

Further, the operation parameters of the current indoor internet of things sound box are obtained through the sensing module, and the operation conditions of the internet of things sound box and the frequency value of the internet of things sound box are obtained.

Further, the operation parameters of the current indoor window of the internet of things are obtained through the sensing module, and the operation conditions of the window of the internet of things and the extending angle of the window of the internet of things are obtained.

Further, the operation parameters of the current indoor internet of things humidifier are obtained through the sensing module, and the operation conditions of the internet of things humidifier and the humidification rate of the internet of things humidifier are obtained.

Furthermore, the sensing module is used for acquiring an equipment code of the indoor Internet of things equipment and sending the equipment code to the Internet of things platform, the Internet of things platform inquires the equipment code and generates inquiry information, the inquiry information is sent to the sensing module, the sensing module reads the type classification corresponding to the equipment code in the inquiry information and classifies the Internet of things equipment corresponding to the equipment code;

the query information comprises the type classification of the Internet of things equipment, an Internet of things equipment generator and the generation time of the Internet of things equipment.

Further, the perception module comprises a camera unit, an audio acquisition unit and a photosensitive unit.

Further, the perception module is used for obtaining an equipment code of the indoor internet of things equipment, and comprises: acquiring an identification of the Internet of things to be identified; converting the to-be-recognized Internet of things identifier into a polygonal figure; recognizing the polygonal graph by using a pre-trained graph classification model to obtain a recognition result representing the coding category of the identification of the Internet of things to be recognized; and analyzing the to-be-identified Internet of things identification according to the coding type of the to-be-identified Internet of things identification.

Further, the camera unit is used for collecting the identification of the internet of things to be identified, the audio acquisition unit is used for acquiring the frequency value of the sound box of the internet of things, and the photosensitive unit is used for acquiring the light intensity value and the light color temperature value of the electric lamp of the internet of things.

Further, the K lux, the J lux, the H lux and the G lux are all preset illumination values; the temperature acquisition module is used for acquiring real-time floor temperature values.

Compared with the prior art, the invention has the beneficial effects that:

be used for acquireing the real-time temperature value of floor through adjusting module, and generate the dry heat mode signal according to the real-time temperature value of floor, warm mode signal, comfortable mode signal and cold mode signal, and through above-mentioned information and then change indoor thing networking electric light, the thing networking audio amplifier, the operating parameter of thing networking window and thing networking humidifier, and then with indoor thing networking electric light, the thing networking audio amplifier, thing networking window and thing networking humidifier carry out intelligent interaction, promote user's quality at home, also can come perception temperature variation according to light variation simultaneously, and then select the most comfortable temperature, promote the quality of life.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Thus, the detailed description of the embodiments of the present invention provided in the following drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention.

As shown in fig. 1, a floor adjusting system based on the internet of things comprises an internet of things platform, a temperature acquisition module, a sensing module, a data transmission module and an adjusting module;

the sensing module is used for acquiring an equipment code of the indoor Internet of things equipment and sending the equipment code to the Internet of things platform, the Internet of things platform inquires the equipment code and generates inquiry information, the inquiry information is sent to the sensing module, the sensing module reads the type classification corresponding to the equipment code in the inquiry information and classifies the Internet of things equipment corresponding to the equipment code;

the query information comprises the type classification of the Internet of things equipment, the generation manufacturer of the Internet of things equipment and the generation time of the Internet of things equipment.

The sensing module comprises a camera shooting unit, an audio acquisition unit and a photosensitive unit.

The perception module is used for acquireing the equipment code of thing networking device in the room, includes: acquiring an identification of the Internet of things to be identified; converting the identification of the Internet of things to be identified into a polygonal figure; recognizing the polygonal graph by using a pre-trained graph classification model to obtain a recognition result representing the coding category of the identification of the Internet of things to be recognized; and analyzing the identification of the Internet of things to be identified according to the coding type of the identification of the Internet of things to be identified.

The camera unit is used for collecting an Internet of things identifier to be identified, the audio acquisition unit is used for collecting a frequency value of an Internet of things sound box, and the photosensitive unit is used for collecting a light intensity value and a light color temperature value of an Internet of things electric lamp;

the adjusting module is used for acquiring a real-time floor temperature value, and when the real-time floor temperature value is greater than or equal to K1 ℃, the adjusting module generates a dryness heat mode signal and sends the dryness heat mode signal to the Internet of things platform through the data transmission module; the Internet of things platform receives the dryness heat mode signal, generates a dryness heat adjusting instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the dryness heat adjusting instruction into the operating parameters; the dryness heat adjustment instruction is specifically as follows: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than K lux, adjusting the light color temperature value to be 5500K-6500K, adjusting the frequency value of a sound box of the Internet of things to be 12350 HZ-16000 HZ, adjusting the running condition of a window of the Internet of things to be the running state, adjusting the extending angle of the window of the Internet of things to be larger than or equal to 12 degrees, adjusting the running condition of a humidifier of the Internet of things to be the running state, and adjusting the humidifying rate to be 25% HR;

when the real-time floor temperature value is greater than or equal to K2 ℃, the adjusting module generates a warm mode signal and sends the warm mode signal to the Internet of things platform through the data transmission module; the Internet of things platform receives the warming mode signal, generates a warming adjustment instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the warming adjustment instruction into the operating parameters; the temperature adjustment command specifically includes: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than J lux, adjusting the light color temperature value to be 3700K-4200K, adjusting the frequency value of a sound box of the Internet of things to be 9680 HZ-11000 HZ, adjusting the running condition of a window of the Internet of things to be the running state, adjusting the extending angle of the window of the Internet of things to be larger than or equal to 6 degrees, adjusting the running condition of a humidifier of the Internet of things to be the running state, and adjusting the humidifying rate to be 17% HR;

when the real-time temperature value of the floor is greater than or equal to K3 ℃, the adjusting module generates a comfortable mode signal and sends the comfortable mode signal to the Internet of things platform through the data transmission module; the Internet of things platform receives the comfort mode signal, generates a comfort adjusting instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the comfort adjusting instruction into the operating parameters; the comfort adjustment command is specifically: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than H lux, adjusting the light color temperature value to be 1500K-2600K, adjusting the frequency value of a sound box of the Internet of things to be 3000 HZ-5000 HZ, adjusting the operation condition of a window of the Internet of things to be in a closed state and adjusting the operation condition of a humidifier of the Internet of things to be in a closed state;

when the real-time temperature value of the floor is more than or equal to K4 ℃, the adjusting module generates a cold mode signal and sends the cold mode signal to the Internet of things platform through the data transmission module; the Internet of things platform receives the cold mode signal, generates a cold adjusting instruction, acquires the current running parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the cold adjusting instruction into the running parameters; the cold regulation instruction is specifically as follows: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than G lux, adjusting the light color temperature value to be 900K-1500K, adjusting the frequency value of a sound box of the Internet of things to be 1500 HZ-3000 HZ, adjusting the operation condition of a window of the Internet of things to be in a closed state and adjusting the operation condition of a humidifier of the Internet of things to be in a closed state;

k1 ℃, K2 ℃, K3 ℃ and K4 ℃ are all preset temperature values, and the temperature of K1 ℃ is more than K2 ℃ and more than K3 ℃ and more than K4 ℃ and more than 0 ℃; k lux, J lux, H lux, and G lux are all preset illumination values.

The operation parameters of the current indoor Internet of things lamp are obtained through the sensing module, and the operation parameters comprise the operation condition of the Internet of things lamp, the light intensity value of the Internet of things lamp and the light color temperature value.

The method includes the steps that the operation parameters of the current indoor Internet of things loudspeaker box are obtained through the sensing module, and the operation condition of the Internet of things loudspeaker box and the frequency value of the Internet of things loudspeaker box are obtained.

The operation parameters of the current indoor Internet of things window are obtained through the sensing module, and the operation conditions of the Internet of things window and the stretching angle of the Internet of things window are obtained.

The operation parameters of the current indoor Internet of things humidifier are obtained through the sensing module, and the operation conditions of the Internet of things humidifier and the humidification rate of the Internet of things humidifier are obtained.

In the embodiments provided by the present invention, it should be understood that the disclosed apparatus, device and method can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and there may be other divisions when the actual implementation is performed; the modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of the embodiment.

It will also be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms second, etc. are used to denote names, but not any particular order.

Finally, it should be noted that the above examples are only intended to illustrate the technical process of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical process of the present invention without departing from the spirit and scope of the technical process of the present invention.

Claims (10)

1. A floor adjusting system based on the Internet of things is characterized by comprising an Internet of things platform, a temperature acquisition module, a sensing module, a data transmission module and an adjusting module;

the adjusting module is used for acquiring a real-time floor temperature value, and when the real-time floor temperature value is greater than or equal to K1 ℃, the adjusting module generates a dryness heat mode signal and sends the dryness heat mode signal to the Internet of things platform through the data transmission module;

when the real-time floor temperature value is greater than or equal to K2 ℃, the adjusting module generates a warm mode signal and sends the warm mode signal to the Internet of things platform through the data transmission module;

when the real-time temperature value of the floor is greater than or equal to K3 ℃, the adjusting module generates a comfortable mode signal and sends the comfortable mode signal to the Internet of things platform through the data transmission module;

when the real-time temperature value of the floor is more than or equal to K4 ℃, the adjusting module generates a cold mode signal and sends the cold mode signal to the Internet of things platform through the data transmission module;

the temperature of K1 ℃, K2 ℃, K3 ℃ and K4 ℃ are preset temperature values, and the temperature of K1 ℃ is higher than K2 ℃ and higher than K3 ℃ and the temperature of K4 ℃ is higher than 0 ℃;

the Internet of things platform receives the dryness heat mode signal, generates a dryness heat adjusting instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the dryness heat adjusting instruction into the operating parameters;

the Internet of things platform receives the warming mode signal, generates a warming adjustment instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the warming adjustment instruction into the operating parameters;

the Internet of things platform receives the comfort mode signal, generates a comfort adjusting instruction, acquires the current operating parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the comfort adjusting instruction into the operating parameters;

the Internet of things platform receives the cold mode signal, generates a cold adjusting instruction, acquires the current running parameters of the indoor Internet of things lamp, the Internet of things loudspeaker box, the Internet of things window and the Internet of things humidifier through the sensing module, and adds the cold adjusting instruction into the running parameters;

the dryness heat adjustment instruction is specifically as follows: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than K lux, adjusting the light color temperature value to be 5500K-6500K, adjusting the frequency value of a sound box of the Internet of things to be 12350 HZ-16000 HZ, adjusting the running condition of a window of the Internet of things to be the running state, adjusting the extending angle of the window of the Internet of things to be larger than or equal to 12 degrees, adjusting the running condition of a humidifier of the Internet of things to be the running state, and adjusting the humidifying rate to be 25% HR;

the temperature adjusting instruction is specifically as follows: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than J lux, adjusting the light color temperature value to be 3700K-4200K, adjusting the frequency value of a sound box of the Internet of things to be 9680 HZ-11000 HZ, adjusting the running condition of a window of the Internet of things to be the running state, adjusting the extending angle of the window of the Internet of things to be larger than or equal to 6 degrees, adjusting the running condition of a humidifier of the Internet of things to be the running state, and adjusting the humidifying rate to be 17% HR;

the comfort adjustment instruction is specifically: adjusting the light intensity value of an electric lamp of the Internet of things to be larger than H lux, adjusting the light color temperature value to be 1500K-2600K, adjusting the frequency value of a sound box of the Internet of things to be 3000 HZ-5000 HZ, adjusting the operation condition of a window of the Internet of things to be in a closed state and adjusting the operation condition of a humidifier of the Internet of things to be in a closed state;

the cold regulation instruction is specifically as follows: adjusting the light intensity value of the Internet of things electric lamp to be larger than G lux, adjusting the light color temperature value to be 900K-1500K, adjusting the frequency value of the Internet of things sound box to be 1500 HZ-3000 HZ, adjusting the operation condition of the Internet of things window to be in a closed state and adjusting the operation condition of the Internet of things humidifier to be in a closed state.

2. The floor adjusting system based on the Internet of things is characterized in that the operation parameters of the current indoor Internet of things electric lamp are obtained through the sensing module, and the operation parameters comprise the operation condition of the Internet of things electric lamp, the light intensity value of the Internet of things electric lamp and the light color temperature value.

3. The floor adjusting system based on the internet of things of claim 1, wherein the obtaining of the operation parameters of the current indoor internet of things sound box through the sensing module comprises obtaining of an operation condition of the internet of things sound box and a frequency value of the internet of things sound box.

4. The floor adjusting system based on the internet of things of claim 1, wherein the obtaining of the operation parameters of the current indoor window of the internet of things through the sensing module comprises obtaining of the operation condition of the window of the internet of things and the extending angle of the window of the internet of things.

5. The floor adjusting system based on the internet of things of claim 1, wherein the operation parameters of the current indoor internet of things humidifier are obtained through the sensing module, and the operation parameters comprise the operation condition of the internet of things humidifier and the humidification rate of the internet of things humidifier.

6. The floor adjusting system based on the internet of things of claim 1, wherein the sensing module is used for acquiring an equipment code of indoor internet of things equipment, sending the equipment code to the internet of things platform, the internet of things platform inquiring the equipment code, generating inquiry information and sending the inquiry information to the sensing module, the sensing module reading the type classification corresponding to the equipment code in the inquiry information and classifying the internet of things equipment corresponding to the equipment code;

the query information comprises the type classification of the Internet of things equipment, an Internet of things equipment generator and the generation time of the Internet of things equipment.

7. The internet of things-based floor adjusting system according to claim 1, wherein the sensing module comprises a camera unit, an audio acquisition unit and a photosensitive unit.

8. The internet of things-based floor adjustment system according to claim 5, wherein the sensing module is used for acquiring a device code of an indoor internet of things device, and comprises: acquiring an identification of the Internet of things to be identified; converting the to-be-recognized Internet of things identifier into a polygonal figure; identifying the polygonal graph through graph classification to obtain an identification result of the coding category representing the identification of the Internet of things to be identified; and analyzing the to-be-identified Internet of things identification according to the coding type of the to-be-identified Internet of things identification.

9. The floor adjusting system based on the Internet of things is characterized in that the camera unit is used for collecting an identification of the Internet of things to be identified, the audio acquisition unit is used for collecting a frequency value of a loudspeaker box of the Internet of things, and the photosensitive unit is used for collecting a light intensity value and a light color temperature value of an electric lamp of the Internet of things.

10. The internet of things based floor conditioning system of claim 1, wherein K lux, J lux, H lux, and G lux are all preset illumination values; the temperature acquisition module is used for acquiring real-time floor temperature values.

Images