CN110332600B - Intelligent heating method and system based on house building - Google Patents

Abstract

An intelligent heating method and system based on house building includes: the processor controls the heating platform to start and controls the heater to start, the processor controls the first heating channel to open and controls the humidity sensor to acquire clothes humidity information, the processor analyzes whether the humidity below the clothes hanger exceeds a first preset humidity or not, if so, the processor controls the mobile motor to drive the mobile roller to move the heating platform to the position below the clothes hanger and controls the second heating channel to open, the processor controls the first heating channel to close and the clothes drying rod to descend to a position away from the top of the heating platform in a preset distance, the processor controls the rotating device to start to rotate the clothes hanger at a constant speed and analyzes whether the humidity below the clothes hanger is lower than a second preset humidity or not, if so, the mobile motor is controlled to drive the mobile roller to drive the heating platform to move at a moving track position around the inner space of a house at a constant speed, the intelligent heating system supplies heating air to the interior of a user house, energy.

Description

Intelligent heating method and system based on house building

Technical Field

The invention relates to the field of house heating, in particular to an intelligent heating method and system based on house buildings.

Background

Along with the rapid development of economy in China, the living standard of people is continuously improved, the living conditions and the living environment are continuously improved, more and more families are provided with heating radiators or air conditioners and other heating equipment in the houses when the houses are built, except for considering the outward direction of the houses, so that more pursuits are given to solve the problem of cold in winter. However, the heat energy of the existing radiator is mainly solved by gas, coal and hot water, the defects of high cost, large energy consumption and environmental pollution are very outstanding, a large amount of electric energy is consumed for heating by using an air conditioner, the cost is too high, the requirement of common consumers cannot be met, and if the air conditioner is used for a long time, the air conditioner is easy to suffer from air conditioner diseases and is not beneficial to the health of human bodies.

The northern areas of China in winter are relatively cold, so most cities utilize a concentrated heat source in winter every year to supply heat for production, life and heating to factories and civil buildings in the areas. The central heating has a history of nearly one hundred years, however, the central heating also has a disadvantage in the condition of bringing comfortable living temperature to people, and the existing heating system is difficult to adjust the heating load in time according to the temperature change, and often can still heat the house normally under the condition of higher indoor temperature, thereby causing the temperature in the house to be too high, even needing to open a window to cool, and causing unnecessary waste.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the disadvantages in the background art, embodiments of the present invention provide an intelligent heating method and system based on a building, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent heating method based on a building construction, the method comprising the steps of:

s1, the processor controls a heating platform arranged at the position of a moving track on the surface of the wall in the house to be started and controls a heater arranged at the position in the started heating platform to be started;

s2, the processor controls a first heating channel arranged on the outer surface of the heating platform to be opened to supply the heating air of the heater to the interior of the house in real time, and controls a humidity sensor arranged below a clothes hanger of a clothes airing rod in the interior of the house to acquire clothes humidity information in real time;

s3, the processor analyzes whether the humidity below the clothes hanger exceeds a first preset humidity in real time according to the clothes humidity information acquired by the humidity sensor in real time;

s4, if yes, the processor controls a moving motor arranged in the heating platform to drive a connected moving roller to move the heating platform to a position below a clothes hanger with lower humidity first exceeding the preset humidity at the position of the moving track, and controls a second heating channel arranged at the top of the heating platform to open a heater which supplies the heater upwards in real time to dry clothes of the clothes hanger;

s5, the processor controls the first heating channel to be closed and controls a clothes airing rod arranged in the house to descend to a position which is a preset distance away from the top of the heating platform;

s6, the processor controls a rotating device at the connecting position of the clothes hanger and the clothes rod, the lower humidity of which exceeds the preset humidity, to start to rotate the fixed clothes hanger at a constant speed, and the processor analyzes whether the humidity below the clothes hanger is lower than a second preset humidity according to clothes humidity information acquired in real time by a humidity sensor arranged at the lower position of the clothes hanger;

and S7, if so, the processor controls a moving roller which is connected with a moving motor in the heating platform in a driving mode to enable the heating platform to move at a constant speed around the space in the house at the position of the moving track.

As a preferred mode of the present invention, after S2, the method further includes the steps of:

s20, the processor controls a first temperature sensor arranged at the top end position in the house to start to acquire house temperature information in real time, and analyzes whether the current temperature in the house is lower than a first preset temperature according to the house temperature information acquired by the first temperature sensor in real time;

s21, if yes, the processor controls a heater arranged at the inner position of the heating platform to enter a full-power mode so as to enable the temperature inside the house to reach a second preset temperature;

and S22, if not, the processor controls the heater arranged at the inner position of the heating platform to enter a half-power mode.

As a preferred mode of the present invention, the method further comprises the steps of:

s8, the processor controls a second temperature sensor arranged at a clothes rack position in a room of a user house to start to acquire clothes temperature information in real time, and analyzes whether the temperature around the clothes rack is lower than a third preset temperature in real time according to the clothes temperature information acquired by the second temperature sensor in real time;

s9, if yes, the processor acquires real-time information through networking and analyzes whether the current time reaches preset time or not according to the acquired real-time information;

and S10, if so, the processor controls a moving roller which is arranged in the heating platform and is driven and connected by a moving motor to move the heating platform to the side position of the clothes rack at the position of a moving track, and controls a first heating channel arranged on the outer surface of the heating platform to be opened to enter an up-and-down air supply state.

As a preferred mode of the present invention, the method further comprises the steps of:

s11, the processor controls a wind speed sensor arranged at the window position of the user house to start to acquire wind speed information in real time, and analyzes whether the window in the user house is in an open state or not in real time according to the wind speed information acquired by the wind speed sensor in real time;

and S12, if so, the processor controls a moving roller which is arranged in the heating platform and is driven and connected by a moving motor to move the heating platform to a position below the window in an open state at the position of the moving track, controls a second heating channel arranged at the top position of the heating platform to be opened, and controls a first heating channel arranged at the outer surface position of the heating platform to be closed.

As a preferred mode of the present invention, after S12, the method further includes the steps of:

s13, the processor controls the heater inside the heating platform moved to the position below the window in the opening state to enter a full power mode and sends window unclosed prompt information to external equipment of a user keeping the connection relation;

s14, the processor analyzes whether the window in the opening state is closed or not in real time according to the wind speed information acquired by the wind speed sensor in real time;

and S15, if yes, the processor controls the heater which enters the full-power mode to enter the half-power mode, controls a second heating channel arranged at the top of the heating platform to be closed, and controls a first heating channel arranged at the outer surface of the heating platform to be opened.

An intelligent heating system based on house buildings uses an intelligent heating method based on the house buildings, and comprises a heating device, a rotating device, an identification device and a processor, wherein the heating device comprises a moving track, a heating platform, a heater, a first heating channel and a second heating channel, and the moving track is arranged at the position of the surface of the wall in the house of a user and used for providing the movement of the heating platform; the heating system comprises a heating platform, a movable track, a movable motor, a movable roller and a movable roller, wherein the heating platform is arranged at the position of the movable track and used for moving and supplying heating at the position of the movable track; the heater is arranged at the inner position of the heating platform and is provided with a plurality of heating modes for supplying heating air; the first heating channel is arranged on the outer surface of the heating platform and is provided with a first fan blade for providing the heating of the heater to be radiated from the side of the heating platform; the second heating channel is arranged at the top of the heating platform and is provided with a second fan blade for providing heating air, and the heating air for providing heating air is emitted from the upper part of the heating platform;

the rotating device comprises a rotating shaft and a plurality of rotating hooks, the rotating shaft is provided with a plurality of rotating hooks, is arranged at an inner position below the clothes airing rods in the house of the user, is connected with the rotating hooks and is used for driving the connected rotating hooks to rotate; the rotary hook is arranged below the rotary shaft, connected with the rotary shaft and used for fixing the clothes hanger in a rotary manner;

the identification device comprises a humidity sensor, a first temperature sensor, a second temperature sensor and a wind speed sensor, wherein the humidity sensor is arranged at the position below the clothes hanger and used for acquiring humidity information of clothes below the clothes hanger; the first temperature sensor is arranged at the top end position inside the user house and used for acquiring temperature information inside the user house; the second temperature sensor is arranged at the outer surface of the clothes rack in the room of the user house and used for acquiring the temperature information of clothes hung on the clothes rack; the wind speed sensor is arranged at a window position of a user house and used for acquiring wind speed information;

the processor includes:

the wireless device is used for being respectively connected with the heating platform, the mobile motor, the heater, the first fan blade, the second fan blade, the rotating shaft, the rotating hook, the humidity sensor, the first temperature sensor, the second temperature sensor, the wind speed sensor, a clothes airing rod arranged in a user house, external equipment of a user and a network;

the platform control module is used for controlling the heating platform connected with the wireless device to be started or closed;

the heating control module is used for controlling the heater connected with the wireless device to be started or closed and controlling the set power mode of the heater;

the first heating module is used for controlling a first air supply blade in a first heating channel connected with the wireless device to execute set operation;

the humidity acquisition module is used for controlling the humidity sensor connected with the wireless device to be started or closed;

the information analysis module is used for analyzing the specified information and/or request and/or instruction;

the platform moving module is used for controlling a moving roller which is connected with a moving motor connected with the wireless device in a driving way to operate;

the second heating module is used for controlling a first air supply blade in a second heating channel connected with the wireless device to execute set operation;

the clothes drying control module is used for controlling the lifting of a clothes drying rod connected with the wireless device;

and the clothes drying rotating module is used for controlling the rotation shaft connected with the wireless device to be started or closed.

As a preferred mode of the present invention, the processor includes:

and the first temperature module is used for controlling the start or the close of a first temperature sensor connected with the wireless device.

As a preferred mode of the present invention, the processor includes:

the second temperature module is used for controlling the start or the close of a second temperature sensor connected with the wireless device;

an information acquisition module for acquiring information and/or requests and/or instructions with a wireless device.

As a preferred mode of the present invention, the processor includes:

and the wind speed detection module is used for starting or closing the wind speed sensor connected with the wireless device.

As a preferred mode of the present invention, the processor includes:

and the information sending module is used for sending the specified information and/or request and/or instruction to the specified object by utilizing the wireless device.

The invention realizes the following beneficial effects:

1. after intelligent heating system starts the completion, the inside clothes humidity information that dries in the air of intelligent monitoring house hangs, if it is less than after setting for the humidity value to detect the clothes humidity, control heating platform goes to this clothes hanger position of drying in the air and heats, and after the clothes that the clothes hanger that dries in the air of inside hung was dried and is accomplished, control heating platform patrol the heating inside the house, and intelligence is the inside heating installation that supplies with in user's house, the energy can be saved and heating efficiency is improved.

2. After the time set by the user is reached, the heating platform is controlled to move to the position of the clothes rack for heating clothes, cold clothes are prevented from being worn when the user is out in cold weather, and living experience of the user is provided.

3. When detecting that there is the window of opening in the inside user house then control heating platform and go to this window lower position and heat to it gets into inside the user house to avoid cold wind.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of an intelligent heating method provided by one example of the present invention;

FIG. 2 is a flow chart of a method of adjusting heater power provided by one example of the present invention;

FIG. 3 is a flow chart of a method for heating clothes in a dressing stand according to an exemplary embodiment of the present invention;

FIG. 4 is a flow chart of a house window unclosed processing method according to one example of the present invention;

FIG. 5 is a flow chart of a method for providing a prompt that a window of a house is not closed according to an exemplary embodiment of the present invention;

FIG. 6 is a connection diagram of an intelligent heating system according to an exemplary embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of a heating platform at a moving track location according to an example of the present invention;

fig. 8 is a schematic partial cross-sectional view of a clothes drying pole according to one example of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

As shown with reference to fig. 1-8.

Specifically, the present embodiment provides an intelligent heating method based on a building, including the following steps:

s1, the platform control module 41 in the processor 4 controls the heating platform 11 installed on the moving track 10 on the wall surface in the house to start, and after the heating platform 11 is started, the heating control module 42 in the processor 4 controls the heater 12 installed on the started position in the heating platform 11 to start;

s2, after the heater 12 is started, the first heating module 43 in the processor 4 controls the first fan blade 130 arranged at the position of the first heating channel 13 on the outer surface of the heating platform 11 to start and supply the hot air of the heater 12 to the inside of the house in real time, and after the first fan blade 130 is started, the humidity obtaining module 44 in the processor 4 controls the humidity sensor 30 arranged at the position below the clothes hanger of the clothes drying rod in the inside of the house to obtain the humidity information of the clothes in real time;

s3, after the humidity sensor 30 acquires the humidity information of the clothes in real time, the information analysis module 45 in the processor 4 analyzes whether the humidity below the clothes hanger exceeds a first preset humidity in real time according to the humidity information of the clothes acquired by the humidity sensor 30 in real time;

s4, if the information analysis module 45 analyzes that the humidity below the laundry rack exceeds the first preset humidity, that is, it analyzes that the laundry rack hangs wet clothes, the platform moving module 46 in the processor 4 controls the moving roller 111 connected to the moving motor 110 in the heating platform 11 to move the heating platform 11 to the position below the laundry rack with the lower humidity exceeding the first preset humidity in the moving track 10, and after the heating platform 11 is moved, the second heating module 47 in the processor 4 controls the second fan blade 140 in the second heating channel 14 at the top of the heating platform 11 to be opened to supply the laundry rack drying clothes of the heater 12 upward in real time;

s5, after the second fan blade 140 in the second heating channel 14 is opened, the first heating module 43 controls the first fan blade 130 in the first heating channel 13 to close, and meanwhile, the clothes drying control module 48 in the processor 4 controls the clothes drying rod arranged in the house to descend to a position away from the top of the heating platform 11 by a preset distance;

s6, after the clothes airing rod descends, the processor 4 controls the rotating device 2 at the connecting position of the clothes hanger with the clothes airing rod, the lower humidity of which exceeds the preset humidity, to start to rotate the fixed clothes hanger at a constant speed, namely the clothes airing rotating module 49 in the processor 4 controls the rotating shaft 20 at the connecting position of the clothes hanger with the lower humidity of which exceeds the preset humidity to start to rotate the clothes hanger fixed by the rotating hook 21 at a constant speed and heat the clothes hanger uniformly, and meanwhile, the information analyzing module 45 analyzes whether the humidity below the clothes hanger is lower than a second preset humidity according to the clothes humidity information acquired in real time by the humidity sensor 30 arranged at the lower position of the clothes hanger;

s7, if the information analysis module 45 analyzes that the humidity below the laundry rack is lower than a second preset humidity, the platform moving module 46 controls the moving motor 110 inside the heating platform 11 to drive the connected moving roller 111 to move the heating platform 11 at a constant speed around the space inside the house at the position of the moving track 10, so as to provide uniform heat to the space inside the house of the user.

Wherein, the first preset humidity may be 40% to 90%, and is preferably 55% in this embodiment; the preset distance may be 0-2 meters, preferably 50 centimeters in this embodiment; the second preset humidity may be 0% to 55%, preferably 40% in the present embodiment; a plurality of drying platforms can be arranged to ensure that each space in the house of the user is uniformly heated;

as a preferred mode of the present invention, after S2 (after the first fan blade 130 inside the first heating passage 13 is completely opened), the method further includes the steps of:

s20, a first temperature module 50 in the processor 4 controls a first temperature sensor 31 arranged at the top end position in the house to start to acquire house temperature information in real time, and after the first temperature sensor 31 acquires the house temperature information in real time, an information analysis module 45 analyzes whether the current temperature in the house is lower than a first preset temperature according to the house temperature information acquired by the first temperature sensor 31 in real time;

s21, if the information analysis module 45 analyzes that the current temperature inside the house is lower than the first preset temperature, the heating control module 42 controls the heater 12 disposed in the internal position of the heating platform 11 to enter the full power mode to make the temperature inside the house reach the second preset temperature;

s22, if the information analysis module 45 analyzes that the current temperature inside the house is not lower than the first preset temperature, the heating control module 42 controls the heater 12 disposed inside the heating platform 11 to enter the half-power mode.

Wherein, the first preset temperature may be 0-10 ℃, and is preferably 10 ℃ in the embodiment; the second predetermined temperature may be 20-28 deg.c, preferably 25 deg.c in this embodiment.

Example two

As shown with reference to fig. 1-8.

Specifically, the present embodiment is substantially the same as the first embodiment, and the difference is that in the present embodiment, the method further includes the following steps:

s8, the second temperature module 51 in the processor 4 controls the second temperature sensor 32 arranged at the position of the clotheshorse in the room of the user' S house to start to acquire the temperature information of the clothes in real time, and after the second temperature sensor 32 acquires the temperature information of the clothes in real time, the information analysis module 45 analyzes whether the temperature around the clotheshorse is lower than a third preset temperature in real time according to the temperature information of the clothes acquired by the second temperature sensor 32 in real time;

s9, if the information analysis module 45 analyzes that the temperature around the dressing frame is lower than the third preset temperature, the information acquisition module 52 inside the processor 4 obtains real-time information through networking, and after the information acquisition module 52 obtains the real-time information through networking, the information analysis module 45 analyzes whether the current time reaches the preset time according to the real-time information obtained by the information acquisition module 52;

s10, if the information analysis module 45 analyzes that the current time reaches the preset time, the platform moving module 46 controls the moving roller 111 driven and connected by the moving motor 110 disposed inside the heating platform 11 to move the heating platform 11 to the position of the side of the clothes rack at the position of the moving track 10, and after the heating platform 11 is moved and stopped, the first heating module 43 controls the first fan blade 130 disposed inside the first heating channel 13 on the outer surface of the heating platform 11 to be opened to enter the up-down blowing state.

Wherein the second preset temperature may be 0-20 ℃, preferably 15 ℃ in the present embodiment; the preset time includes, but is not limited to, the work time set by the user, the out time set by the user, and the like; the up-down air supply state refers to that the first air supply blade 130 supplies air in an up-down swinging manner.

EXAMPLE III

As shown with reference to fig. 1-8.

Specifically, the present embodiment is substantially the same as the first embodiment, and the difference is that in the present embodiment, the method further includes the following steps:

s11, the wind speed detection module 53 in the processor 4 controls the wind speed sensor 33 disposed at the window position of the user 'S house to start to obtain wind speed information in real time, and after the wind speed sensor 33 obtains the wind speed information in real time, the information analysis module 45 analyzes whether the window in the user' S house is in an open state in real time according to the wind speed information obtained by the wind speed sensor 33 in real time, that is, whether the wind speed level contained in the wind speed information obtained by the wind speed sensor 33 in real time exceeds level 1;

s12, if the information analysis module 45 analyzes that the window inside the house of the user is in the open state, the platform moving module 46 controls the moving roller 111 driven and connected by the moving motor 110 disposed inside the heating platform 11 to move the heating platform 11 to the position below the window in the open state at the position of the moving track 10, and after the heating platform 11 is moved and stopped, the second heating module 47 controls the second fan blade 140 disposed inside the second heating channel 14 at the top of the heating platform 11 to be opened, and meanwhile, the first heating module 43 controls the first fan blade 130 disposed inside the first heating channel 13 at the outer surface of the heating platform 11 to be closed.

As a preferred aspect of the present invention, after S12 (after the second heating module 47 controls the second fan blade 140 in the second heating path 14 installed at the top of the heating platform 11 to be turned on), the method further includes the steps of:

s13, the heating control module 42 controls the heater 12 inside the heating platform 11 moving to the position below the window in the open state to enter the full power mode, and the information sending module 54 inside the processor 4 sends the window unclosed prompt message to the external device of the user who maintains the connection relationship;

s14, after the information sending module 54 sends the prompt information that the window is not closed to the external equipment of the user keeping the connection relation, the information analysis module 45 analyzes whether the window in the open state is closed or not in real time according to the wind speed information acquired by the wind speed sensor 33 in real time;

s15, if the information analysis module 45 analyzes that the window in the open state is closed, the heating control module 42 controls the heater 12 entering the full power mode to enter the half power mode, and the second heating module 47 controls the second fan blade 140 disposed inside the second heating channel 14 at the top of the heating platform 11 to be closed, and the first heating module 43 controls the first fan blade 130 disposed inside the first heating channel 13 at the outer surface of the heating platform 11 to be opened.

Example four

As shown with reference to fig. 1-8.

Specifically, the present embodiment provides an intelligent heating system based on a house building, which uses an intelligent heating method based on a house building, and includes a heating device 1, a rotation device 2, an identification device 3, and a processor 4, where the heating device 1 includes a moving rail 10, a heating platform 11, a heater 12, a first heating channel 13, and a second heating channel 14, and the moving rail 10 is disposed at a position on a wall surface inside a user's house and is used for providing movement of the heating platform 11; the heating platform 11 is arranged at the position of the moving track 10 and is used for moving and supplying heating at the position of the moving track 10, a moving motor 110 and a moving roller 111 are arranged inside the heating platform 11, the moving motor 110 is arranged at the position inside the heating platform 11 and is connected with the moving roller 111 and is used for driving the connected moving roller 111 to run, and the moving roller 111 is arranged at the position inside the heating platform 11 and is respectively connected with the heating platform 11 and the moving motor 110 and is used for driving the connected heating platform 11 to move at the position of the moving track 10; the heater 12 is disposed at an internal position of the heating platform 11 and is provided with a plurality of heating modes for supplying heating air; the first heating channel 13 is arranged at the outer surface of the heating platform 11 and is provided with a first fan blade 130 for providing the heating of the heater 12 to be emitted from the side of the heating platform 11; the second heating channel 14 is disposed at the top of the heating platform 11 and is provided with a second fan blade 140 for providing a heating air to be emitted from the upper side of the heating platform 11;

the rotating device 2 comprises a rotating shaft 20 and a plurality of rotating hooks 21, the rotating shaft 20 is provided with a plurality of rotating hooks and is arranged at an inner position below a clothes airing rod in a user house, and the rotating hooks 21 are connected with the rotating hooks 21 and used for driving the connected rotating hooks 21 to rotate; the rotary hook 21 is arranged below the rotary shaft 20, connected with the rotary shaft 20 and used for fixing the clothes hanger and the rotary hook in a rotary manner;

the identification device 3 comprises a humidity sensor 30, a first temperature sensor 31, a second temperature sensor 32 and a wind speed sensor 33, wherein the humidity sensor 30 is arranged at the position below the clothes hanger and used for acquiring humidity information of clothes below the clothes hanger; the first temperature sensor 31 is arranged at the top end position inside the user house and used for acquiring temperature information inside the user house; the second temperature sensor 32 is arranged at the outer surface of the clothes rack in the room of the user house and used for acquiring the temperature information of clothes hung on the clothes rack; the wind speed sensor 33 is arranged at a window position of a user house and used for acquiring wind speed information;

the processor 4 includes:

the wireless device 40 is used for being respectively connected with the heating platform 11, the mobile motor 110, the heater 12, the first fan blade 130, the second fan blade 140, the rotating shaft 20, the rotating hook 21, the humidity sensor 30, the first temperature sensor 31, the second temperature sensor 32, the wind speed sensor 33, a clothes airing rod arranged in a user house, external equipment of a user and a network;

a platform control module 41 for controlling the heating platform 11 connected to the wireless device 40 to start or stop;

a heating control module 42 for controlling the heater 12 connected to the wireless device 40 to be turned on or off and controlling the heater 12 to operate in a set power mode;

a first heating module 43 for controlling the first fan blade 130 in the first heating channel 13 connected to the wireless device 40 to execute the set operation;

a humidity acquisition module 44 for controlling the humidity sensor 30 connected to the wireless device 40 to be turned on or off;

an information analysis module 45 for analyzing specified information and/or requests and/or instructions;

a platform moving module 46 for controlling the operation of a moving roller 111 which is connected with a moving motor 110 connected with the wireless device 40;

the second heating module 47 is used for controlling the first fan blade 130 in the second heating channel 14 connected with the wireless device 40 to execute the set operation;

a clothes drying control module 48 for controlling the lifting of the clothes drying rod connected with the wireless device 40;

and a clothes drying rotating module 49 for controlling the rotation shaft 20 connected with the wireless device 40 to be started or closed.

As a preferred mode of the present invention, the processor 4 includes:

and a first temperature module 50 for controlling the first temperature sensor 31 connected to the wireless device 40 to be turned on or off.

As a preferred mode of the present invention, the processor 4 includes:

a second temperature module 51 for controlling the second temperature sensor 32 connected to the wireless device 40 to be turned on or off;

an information retrieval module 52 for retrieving information and/or requests and/or instructions using the wireless device 40.

As a preferred mode of the present invention, the processor 4 includes:

and the wind speed detection module 53 is used for starting or closing the wind speed sensor 33 connected with the wireless device 40.

As a preferred mode of the present invention, the processor 4 includes:

an information sending module 54 for sending the specified information and/or request and/or instruction to the specified object using the wireless device 40.

Electronic devices of the intelligent heating system are all designed to be waterproof; a storage battery for supplying electric power is arranged in the heating platform 11; the number of the heating platforms 11 required is different according to the internal area of the user house; the movable roller 111 is a universal wheel and can rotate.

It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to the third embodiments), and is not described in detail here.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. An intelligent heating method based on house building, which is characterized by comprising the following steps:

s1, the processor controls a heating platform arranged at the position of a moving track on the surface of the wall in the house to be started and controls a heater arranged at the position in the started heating platform to be started;

s2, the processor controls a first heating channel arranged on the outer surface of the heating platform to be opened to supply the heating air of the heater to the interior of the house in real time, and controls a humidity sensor arranged below a clothes hanger of a clothes airing rod in the interior of the house to acquire clothes humidity information in real time;

s3, the processor analyzes whether the humidity below the clothes hanger exceeds a first preset humidity in real time according to the clothes humidity information acquired by the humidity sensor in real time;

s4, if yes, the processor controls a moving motor arranged in the heating platform to drive a connected moving roller to move the heating platform to a position below a clothes hanger with lower humidity first exceeding the preset humidity at the position of the moving track, and controls a second heating channel arranged at the top of the heating platform to open a heater which supplies the heater upwards in real time to dry clothes of the clothes hanger;

s5, the processor controls the first heating channel to be closed and controls a clothes airing rod arranged in the house to descend to a position which is a preset distance away from the top of the heating platform;

s6, the processor controls a rotating device at the connecting position of the clothes hanger and the clothes rod, the lower humidity of which exceeds the preset humidity, to start to rotate the fixed clothes hanger at a constant speed, and the processor analyzes whether the humidity below the clothes hanger is lower than a second preset humidity according to clothes humidity information acquired in real time by a humidity sensor arranged at the lower position of the clothes hanger;

and S7, if so, the processor controls a moving roller which is connected with a moving motor in the heating platform in a driving mode to enable the heating platform to move at a constant speed around the space in the house at the position of the moving track.

2. The intelligent heating method based on house buildings according to claim 1, characterized in that after S2, the method further comprises the following steps:

s20, the processor controls a first temperature sensor arranged at the top end position in the house to start to acquire house temperature information in real time, and analyzes whether the current temperature in the house is lower than a first preset temperature according to the house temperature information acquired by the first temperature sensor in real time;

s21, if yes, the processor controls a heater arranged at the inner position of the heating platform to enter a full-power mode so as to enable the temperature inside the house to reach a second preset temperature;

and S22, if not, the processor controls the heater arranged at the inner position of the heating platform to enter a half-power mode.

3. The intelligent heating method based on house building of claim 1, characterized in that the method further comprises the following steps:

s8, the processor controls a second temperature sensor arranged at a clothes rack position in a room of a user house to start to acquire clothes temperature information in real time, and analyzes whether the temperature around the clothes rack is lower than a third preset temperature in real time according to the clothes temperature information acquired by the second temperature sensor in real time;

s9, if yes, the processor acquires real-time information through networking and analyzes whether the current time reaches preset time or not according to the acquired real-time information;

and S10, if so, the processor controls a moving roller which is arranged in the heating platform and is driven and connected by a moving motor to move the heating platform to the side position of the clothes rack at the position of a moving track, and controls a first heating channel arranged on the outer surface of the heating platform to be opened to enter an up-and-down air supply state.

4. The intelligent heating method based on house building of claim 1, characterized in that the method further comprises the following steps:

s11, the processor controls a wind speed sensor arranged at the window position of the user house to start to acquire wind speed information in real time, and analyzes whether the window in the user house is in an open state or not in real time according to the wind speed information acquired by the wind speed sensor in real time;

and S12, if so, the processor controls a moving roller which is arranged in the heating platform and is driven and connected by a moving motor to move the heating platform to a position below the window in an open state at the position of the moving track, controls a second heating channel arranged at the top position of the heating platform to be opened, and controls a first heating channel arranged at the outer surface position of the heating platform to be closed.

5. The intelligent heating method based on house buildings according to claim 4, characterized in that after S12, the method further comprises the following steps:

s13, the processor controls the heater inside the heating platform moved to the position below the window in the opening state to enter a full power mode and sends window unclosed prompt information to external equipment of a user keeping the connection relation;

s14, the processor analyzes whether the window in the opening state is closed or not in real time according to the wind speed information acquired by the wind speed sensor in real time;

and S15, if yes, the processor controls the heater which enters the full-power mode to enter the half-power mode, controls a second heating channel arranged at the top of the heating platform to be closed, and controls a first heating channel arranged at the outer surface of the heating platform to be opened.

6. An intelligent heating system based on a house building, which uses the intelligent heating method based on the house building of any one of claims 1 to 5, and comprises a heating device, a rotating device, an identification device and a processor, wherein the heating device comprises a moving track, a heating platform, a heater, a first heating channel and a second heating channel, and the moving track is arranged at the position of the wall surface in the house of a user and is used for providing the movement of the heating platform; the heating system comprises a heating platform, a movable track, a movable motor, a movable roller and a movable roller, wherein the heating platform is arranged at the position of the movable track and used for moving and supplying heating at the position of the movable track; the heater is arranged at the inner position of the heating platform and is provided with a plurality of heating modes for supplying heating air; the first heating channel is arranged on the outer surface of the heating platform and is provided with a first fan blade for providing the heating of the heater to be radiated from the side of the heating platform; the second heating channel is arranged at the top of the heating platform and is provided with a second fan blade for providing heating air, and the heating air for providing heating air is emitted from the upper part of the heating platform;

the rotating device comprises a rotating shaft and a plurality of rotating hooks, the rotating shaft is provided with a plurality of rotating hooks, is arranged at an inner position below the clothes airing rods in the house of the user, is connected with the rotating hooks and is used for driving the connected rotating hooks to rotate; the rotary hook is arranged below the rotary shaft, connected with the rotary shaft and used for fixing the clothes hanger in a rotary manner;

the identification device comprises a humidity sensor, a first temperature sensor, a second temperature sensor and a wind speed sensor, wherein the humidity sensor is arranged at the position below the clothes hanger and used for acquiring humidity information of clothes below the clothes hanger; the first temperature sensor is arranged at the top end position inside the user house and used for acquiring temperature information inside the user house; the second temperature sensor is arranged at the outer surface of the clothes rack in the room of the user house and used for acquiring the temperature information of clothes hung on the clothes rack; the wind speed sensor is arranged at a window position of a user house and used for acquiring wind speed information;

the processor includes:

the wireless device is used for being respectively connected with the heating platform, the mobile motor, the heater, the first fan blade, the second fan blade, the rotating shaft, the rotating hook, the humidity sensor, the first temperature sensor, the second temperature sensor, the wind speed sensor, a clothes airing rod arranged in a user house, external equipment of a user and a network;

the platform control module is used for controlling the heating platform connected with the wireless device to be started or closed;

the heating control module is used for controlling the heater connected with the wireless device to be started or closed and controlling the set power mode of the heater;

the first heating module is used for controlling a first air supply blade in a first heating channel connected with the wireless device to execute set operation;

the humidity acquisition module is used for controlling the humidity sensor connected with the wireless device to be started or closed;

the information analysis module is used for analyzing the specified information and/or request and/or instruction;

the platform moving module is used for controlling a moving roller which is connected with a moving motor connected with the wireless device in a driving way to operate;

the second heating module is used for controlling a first air supply blade in a second heating channel connected with the wireless device to execute set operation;

the clothes drying control module is used for controlling the lifting of a clothes drying rod connected with the wireless device;

and the clothes drying rotating module is used for controlling the rotation shaft connected with the wireless device to be started or closed.

7. The intelligent building based heating system of claim 6, wherein the processor comprises:

and the first temperature module is used for controlling the start or the close of a first temperature sensor connected with the wireless device.

8. The intelligent building based heating system of claim 6, wherein the processor comprises:

the second temperature module is used for controlling the start or the close of a second temperature sensor connected with the wireless device;

an information acquisition module for acquiring information and/or requests and/or instructions with a wireless device.

9. The intelligent building based heating system of claim 6, wherein the processor comprises:

and the wind speed detection module is used for starting or closing the wind speed sensor connected with the wireless device.

10. The intelligent building based heating system of claim 6, wherein the processor comprises:

and the information sending module is used for sending the specified information and/or request and/or instruction to the specified object by utilizing the wireless device.

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