CN109358663B

CN109358663B - Intelligent roof of building house

Info

Publication number: CN109358663B
Application number: CN201811302590.8A
Authority: CN
Inventors: 刘治; 潘海慕; 刘瑾; 刘逸烜; 刘溢洋; 曾玲平; 冯章勇; 邵臣杰; 叶斌斌
Original assignee: Wenzhou Jinrui Construction Co ltd
Current assignee: Wenzhou Jinrui Construction Co ltd
Priority date: 2018-11-02
Filing date: 2018-11-02
Publication date: 2020-09-22
Anticipated expiration: 2038-11-02
Also published as: CN109358663A

Abstract

The invention relates to an intelligent roof for building houses, which comprises a house main body, a roof main body and a temperature regulation system, wherein the temperature regulation system comprises a main control terminal, a house temperature detection module, a house temperature threshold value database in each season, a house proper temperature regulation database in spring, a house proper temperature regulation database in summer, a house proper temperature regulation database in autumn, a house proper temperature regulation database in winter, a season switching module, a calling module, a comparison module and a temperature regulation module. According to the invention, the house temperature detection module is used for detecting the temperature inside the house, and once the temperature inside the house is smaller than or larger than the temperature threshold value inside the house in the corresponding quarter, the temperature adjusting module can automatically select the appropriate temperature from the appropriate temperature adjusting database of the house in the corresponding quarter for adjustment, so that the temperature inside the house reaches the temperature which is most suitable for the residence of a user, and the living comfort of the house is improved.

Description

Intelligent roof of building house

Technical Field

The invention relates to the technical field of house buildings, in particular to an intelligent roof for building a house.

Background

The prior building house, such as a Chinese utility model patent with the publication number of CN201802083U, discloses an arch-tube-type glass fiber reinforced plastic roof movable house, which comprises a wall body, wherein an inverted U-shaped arch-tube-type glass fiber reinforced plastic roof is covered on the wall body.

On the wall body was located to the roof lid in above-mentioned house, when the temperature was higher in summer, the more heat that the illumination produced penetrated through in the roof entered into the house, lead to the temperature rising in the house, and when the temperature was lower in winter, the heat that the illumination produced was less and can't enter into in the house, lead to temperature reduction in the house, and then the temperature in the roof of this kind of house can't be adjusted according to the change in outside season, cause the too high or too low condition of temperature to appear in the house, lead to the travelling comfort of living in the house to be lower.

Disclosure of Invention

The invention aims to provide an intelligent roof of a building house, which can automatically adjust the temperature inside the house according to the outside seasonal temperature and improve the living comfort.

The above object of the present invention is achieved by the following technical solutions: the utility model provides an intelligent roof in building house, locates the roof main part at house main part top including house main part, lid, be equipped with temperature regulation and control system in the roof main part, temperature regulation and control system includes:

the main control terminal is used for data storage and data processing;

the house temperature detection module is coupled with the main control terminal to detect the temperature value inside the house in real time and is marked as T;

the temperature threshold database of the houses in each season is provided with temperature thresholds corresponding to the houses in each season, and spring F is defined_{Spring made of Chinese herbal medicine}The in-house temperature threshold of (a) is X1; summer F_{Summer (summer)}The in-house temperature threshold of (a) is X2; autumn F_AutumnThe in-house temperature threshold of (a) is X3; winter F_{Winter season}The in-house temperature threshold of (a) is X4;

a spring house proper temperature regulation database corresponding to spring is stored, a summer house proper temperature regulation database corresponding to summer is stored, an autumn house proper temperature regulation database corresponding to autumn is stored, and a winter house proper temperature regulation database corresponding to winter is stored;

the quarter switching module is coupled with the main control terminal to detect the quarter where the house is located in real time and output a corresponding quarter number;

the calling module is coupled with the main control terminal and takes the quarter number as a query object to call the temperature threshold Xn corresponding to the quarter in each quarter temperature threshold database of the house;

the comparison module is coupled with the main control terminal to receive the temperature T detected by the house temperature detection module, compare the temperature T with the corresponding quarter temperature threshold Xn called by the calling module and output a temperature adjusting signal;

the temperature adjusting module is coupled with the main control terminal to receive the temperature adjusting signal and adjust the temperature in the house to the temperature in the corresponding seasonal suitable temperature adjusting database;

when T is less than X1, the temperature adjusting module adjusts the temperature in the house to the temperature in the spring house proper temperature adjusting database; when T is more than X2, the temperature adjusting module adjusts the temperature in the house to the temperature in the summer house proper temperature adjusting database; when T is more than X3, the temperature adjusting module adjusts the temperature in the house to the temperature in the autumn house proper temperature adjusting database; when T < X4, the temperature adjustment module adjusts the temperature in the house to a temperature in the winter house suitability temperature adjustment database.

Through adopting above-mentioned technical scheme, when the quarter of the environment that the house was located changes, quarter switches the quarter information that the module can in time switch the house and locate, detect the temperature in the house through house temperature detection module simultaneously, and compare with the inside temperature threshold value in corresponding quarter house, and in time know the inside temperature situation in house, in case the inside temperature in house is less than or is greater than the requirement of the inside temperature threshold value in the corresponding quarter house, temperature regulation module can select suitable temperature and with the inside temperature regulation in house to this temperature according to temperature regulation signal in the suitable temperature regulation database in corresponding quarter house automatically, so that the temperature in the house reaches the temperature that the suitable user lives in, and then can improve the travelling comfort that the house lives.

Preferably: the temperature regulation system further comprises:

the calculation detection module is coupled with the main control terminal and is internally provided with an average value calculation function: μ = ∑ Tn/2m + 1; when the temperature T detected by the house temperature detection module in the corresponding quarter is larger than or smaller than the temperature threshold Xn of the corresponding quarter, calculating m times of Z (T) forward and backward in the detected temperature in the current quarter by taking Z (T) as a time interval, and selecting the detected 2m +1 temperature values T to calculate the temperature average value mu in the corresponding time period as a comparison value of the temperature threshold of the corresponding quarter;

the calculation detection module is also internally provided with a judgment function: mu-Xn is less than 0;

when the house is in spring and meets the judgment function, the temperature in the house is adjusted to the proper temperature in spring by the temperature adjusting module; when the house is in summer and meets the judgment function, the temperature adjusting module does not adjust; when the house is in autumn and meets the judgment function, the temperature adjusting module does not adjust; when the house is in winter and meets the judgment function, the temperature in the house is adjusted to be the proper temperature in winter by the temperature adjusting module.

Through adopting above-mentioned technical scheme, when the house temperature that each quarter house temperature detection module detected reachs corresponding quarter temperature threshold, calculate the function through setting up the average value, and through carrying out the mode that the same time was passed in order to carry out a plurality of detection temperatures and ask the average value to the temperature that detects at present, in order to avoid present quarter temperature variation great and cause the condition that the temperature regulation module can't in time make the regulation, and when facing different quarters, through judging the function so that each quarter can make relative temperature regulation.

Preferably: the calculation detection module is internally provided with a variance calculation function: sigma²=∑(Tn-μ)²/2m+1

Defining: beta is a reference value corresponding to the total variance value of the detected temperatures in the quarter;

when sigma is²When the temperature is higher than β, the temperature adjusting module adjusts the temperature in the anterior chamber room according to the temperature in the suitable room temperature adjusting database of the corresponding quarter;

otherwise when sigma is²< β, the temperature adjustment module does not adjust.

By adopting the technical scheme, when the average value calculation function selects a plurality of temperature detection values for calculation, a variance calculation function is set, so that a value with larger variation in the plurality of temperature detection values can be removed, and unstable factors in the temperature detection process can be eliminated.

Preferably: the temperature regulation system further comprises:

the quick sorting module is coupled with the main control terminal and sorts the temperature data in the spring house proper temperature regulation database and the winter house proper temperature regulation database from large to small;

and the bubbling sequencing module is coupled with the main control terminal and sequences the temperature data in the summer house proper temperature regulation database and the autumn house proper temperature regulation database from small to large.

By adopting the technical scheme, the temperature data in the house proper temperature regulation database in the spring and winter seasons are sorted by arranging the quick sorting module, and the temperature data in the house proper temperature regulation database in the summer and autumn seasons are sorted by arranging the bubbling sorting module, so that the temperature regulation module can quickly and orderly select the required temperature values to regulate in the process of carrying out temperature regulation in the corresponding seasons.

Preferably: the temperature regulation system further comprises:

the screening module, be coupled in main control terminal and be used for supplying the temperature regulation module screens the temperature in the suitable temperature regulation database in corresponding quarter house, just the screening module embeds there is the screening function: | T-Xn | > gamma;

defining: gamma is a reference value of the temperature regulating module which extracts a corresponding temperature regulating sequence from the temperature regulating numerical control library suitable for the houses in all seasons;

when the house is in spring or winter and meets the screening function, the temperature adjusting module selects corresponding temperatures from large to small in the spring house proper temperature adjusting database and the winter house proper temperature adjusting database to adjust; otherwise, when the screening function is not satisfied, the corresponding temperature is selected from small to large for adjustment;

when the house is in summer or autumn and meets the screening function, the temperature adjusting module selects corresponding temperatures from small to large in the summer house proper temperature adjusting database and the autumn house proper temperature adjusting database to adjust; otherwise, when the screening function is not satisfied, the corresponding temperature is selected from large to small for adjustment.

By adopting the technical scheme, the internal temperature of the house in spring and winter is lower, after the temperatures in the database are arranged from large to small through the quick sorting module, under the condition of contrast screening through the screening function, if the screening function is met, the temperature detected in the house is lower than the current quarter threshold value, at the moment, the temperature adjusting module should preferably select the value with higher temperature in the temperature adjusting database for adjustment, if the screening function is not met, the temperature in the house is still higher, the value with lower temperature can be preferably considered for adjustment, and the internal temperature of the house in summer and autumn is generally higher, so that the adjusting mode of the temperature adjusting module is opposite to that of the house in spring and winter.

Preferably: the temperature regulation system further comprises:

the App module is coupled with the main control terminal to receive temperature data in the house and remotely display the temperature data in a mobile phone of a user to which the house belongs;

and the reminding module is coupled with the main control terminal to receive the temperature adjusting signal and remind a user in the App module when the temperature adjusting module adjusts the temperature in the house.

Through adopting above-mentioned technical scheme, can effectively transmit the inside information in house through setting up the App module to can in time inform the user and know, and at this in-process, remind the module through setting up and make the user can learn the state that current house is located, make the user can select whether reentry after house inside temperature regulation.

Preferably: the temperature regulation system further comprises:

the temperature regulation time calculation module is coupled to the main control terminal and used for calculating the time for regulating the temperature inside the house, and the temperature regulation time calculation module is internally provided with a calculation function: t1(min) = | -T-Xn |/v 1

Wherein v1- -the rate of temperature adjustment in each quarter (. degree.C/min);

the route length calculating module is coupled with the App module and used for calculating the distance between the user and the house, and the route length calculating module is marked as h;

the walking speed detection module is coupled with the App module, is used for detecting the walking speed of the user to output a walking speed detection signal and is marked as v 2;

the walking time calculation module is coupled with the App module and is internally provided with a time calculation function: t2(min) = h/v 2;

only when the temperature adjustment module receives the temperature adjustment signal and t1= t2 is satisfied, the temperature adjustment module starts adjusting the temperature inside the house.

By adopting the technical scheme, when the user is ready to return to the house, the time for the user to return is obtained through the walking time calculation module, and the time for the user to return to the proper temperature is adjusted according to the temperature in the house, so that the temperature in the house is adjusted to the temperature which is most suitable for living when the user returns to the house.

Preferably: the temperature regulation system further comprises:

and the speed regulating module is coupled with the App module and used for changing the speed of temperature regulation in the house.

By adopting the technical scheme, the speed regulating module is arranged, so that the regulating speed of the temperature in the house can be regulated through the speed regulating module when the speed of a user returning to the house is increased or decreased and deviation is generated with the predicted time.

In conclusion, the beneficial technical effects of the invention are as follows:

the seasonal information that the house is located is switched through the seasonal switching module, the house temperature detection module detects the temperature inside the house, once the temperature inside the house is smaller than or larger than the requirement of the temperature threshold value in the corresponding seasonal house, the temperature adjusting module can automatically select the proper temperature for adjusting the inside of the house in the proper temperature adjusting database of the corresponding seasonal house, so that the temperature in the house reaches the temperature which is most suitable for the user to live in, and the living comfort of the house is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the house of the present invention.

FIG. 2 is a schematic diagram I of a temperature control system according to the present invention.

FIG. 3 is a schematic diagram of a temperature control system according to the present invention.

In the figure, 1, a house main body; 2. a roof main body; 3. a temperature regulation system; 4. a master control terminal; 5. a house temperature detection module; 6. a database of house temperature thresholds for each quarter; 7. a database for adjusting the temperature of the house in spring; 8. a summer house appropriate temperature regulation database; 9. a temperature adjustment database suitable for autumn houses; 10. a winter house suitability temperature regulation database; 11. a quarterly switching module; 12. a calling module; 13. a comparison module; 14. a temperature adjustment module; 15. a calculation detection module; 16. a quick sorting module; 17. a bubble sorting module; 18. a screening module; 19. an App module; 20. a reminding module; 21. a temperature adjustment time calculation module; 22. a route length calculation module; 23. a walking speed detection module; 24. a walking time calculation module; 25. and a speed regulation module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, an intelligent roof for building houses comprises a house main body 1 and a roof main body 2 covered on the top of the house main body 1, wherein a temperature regulation and control system 3 for regulating the temperature inside the house is arranged in the roof main body 2.

Referring to fig. 2, the temperature control system 3 includes a main control terminal 4 for data storage and data processing, and in this embodiment, the main control terminal 4 is preferably a large computer; the intelligent house temperature monitoring system further comprises a house temperature detection module 5 coupled to the main control terminal 4, a house temperature threshold database 6 in each quarter, a quarter switching module 11, a calling module 12, a comparison module 13 and a temperature adjusting module 14.

The house temperature detection module 5 is used for detecting the temperature value inside the house in real time and marking the temperature value as T, temperature thresholds which can be born by the house in four seasons corresponding to spring, summer, autumn and winter are arranged in the house temperature threshold database 6 in each season, and spring F is defined_{Spring made of Chinese herbal medicine}The in-house temperature threshold of (a) is X1; summer F_{Summer (summer)}The in-house temperature threshold of (a) is X2; autumn F_AutumnThe in-house temperature threshold of (a) is X3; winter F_{Winter season}The in-house temperature threshold of (a) is X4; due to the fact thatThe overall temperature in the season and winter is lower, and thus spring F_{Spring made of Chinese herbal medicine}Temperature threshold value X1, winter F_{Winter season}Is the lowest temperature, and the summer F is higher due to the higher overall temperature in summer and autumn_{Summer (summer)}Temperature threshold value X2, autumn F_AutumnThe temperature threshold X3 is the highest temperature value, namely the temperature threshold that the house can bear in spring and winter is the lowest temperature value, and the temperature threshold that the house can bear in summer and autumn is the highest temperature value.

Because the house proper temperature is corresponding to four seasons of spring, summer, autumn and winter, the proper temperature corresponding to the seasons is required to be selected for adjustment in the process of adjusting and controlling the temperature in the house; the temperature control system 3 further includes a database 7 for storing a suitable temperature control for a house in spring corresponding to spring, a database 8 for storing a suitable temperature control for a house in summer corresponding to summer, a database 9 for storing a suitable temperature control for a house in autumn corresponding to autumn, and a database 10 for storing a suitable temperature control for a house in winter corresponding to winter.

The quarter switching module 11 is used for detecting the quarter of the house in real time and outputting a corresponding quarter number; the calling module 12 is configured to receive the quarter number and call the temperature threshold Xn of the corresponding quarter from the temperature threshold database of each quarter of the house using the quarter number as a query object; the comparison module 13 is used for receiving the temperature T detected by the house temperature detection module 5, comparing the temperature T with the corresponding quarter temperature threshold Xn called by the calling module 12, and outputting a temperature adjustment signal; the temperature adjusting module 14 is used for receiving the temperature adjusting signal and selecting the appropriate temperature corresponding to the season from the spring house appropriate temperature adjusting database 7, the summer house appropriate temperature adjusting database 8, the autumn house appropriate temperature adjusting database 9 and the winter house appropriate temperature adjusting database 10, so as to adjust the temperature in the house to the temperature most suitable for the user to live in.

When T < X1, the temperature adjusting module 14 adjusts the temperature in the house to the temperature in the spring house proper temperature adjusting database 7; when T is more than X2, the temperature adjusting module 14 adjusts the temperature in the house to the temperature in the summer house proper temperature adjusting database 8; when T is more than X3, the temperature adjusting module 14 adjusts the temperature in the house to the temperature in the autumn house suitable temperature adjusting database 9; when T < X4, the temperature adjustment module 14 adjusts the temperature inside the house to the temperature in the winter house suitability temperature adjustment database 10.

Referring to fig. 3, the temperature control system 3 further includes a calculation detection module 15 coupled to the main control terminal 4; the calculation detection module 15 is internally provided with an average calculation function: μ = ∑ Tn/2m + 1; when the temperature T detected by the house temperature detection module 5 in the corresponding quarter is greater than or less than the temperature threshold Xn of the corresponding quarter, using z (T) as a time interval, sequentially calculating m times of z (T) forward and backward in the temperature detected in the current quarter, and selecting the detected 2m +1 temperature values T to calculate the temperature average value μ in the corresponding time period as the comparison value of the temperature threshold of the corresponding quarter, in this embodiment, the time of z (T) is preferably 5min, and the value of m is preferably 10.

The calculation detection module 15 is also internally provided with a judgment function: mu-Xn is less than 0; when the house is in spring and the judgment function is met, the temperature in the house detected in spring is smaller than the corresponding temperature threshold, and the temperature adjusting module 14 adjusts the temperature in the house to the proper temperature in spring; when the house is in summer and meets the judgment function, the house temperature detected in summer is smaller than the corresponding temperature threshold, but the condition that the house temperature can be adjusted only when the house temperature is larger than the corresponding temperature threshold in summer is opposite, so the temperature adjusting module 14 does not adjust; when the house is in autumn and meets the judgment function, the house temperature detected in autumn is smaller than the corresponding temperature threshold, but the situation that the house temperature can be adjusted only when the house temperature is larger than the corresponding temperature threshold in autumn is opposite, so the temperature adjusting module 14 does not adjust the house temperature; when the house is in winter and meets the judgment function, the detected temperature in the house in winter is smaller than the corresponding temperature threshold, and the temperature adjusting module 14 adjusts the temperature in the house to the proper temperature in winter.

In order to avoid the situation that the data difference is large due to more data in the temperature average value calculation process, a variance calculation function is also built in the calculation detection module 15: sigma²=∑(Tn-μ)²/2m +1, wherein β is defined as corresponding to the seasonReference value of the total variance value of the temperature detected by the temperature sensor, when σ²When > β, the temperature adjustment module 14 adjusts the temperature in the anterior chamber room according to the temperature in the appropriate room temperature adjustment database for the quarter, otherwise when σ is²< β, the temperature adjustment module 14 does not adjust.

The temperature adjusting module 14 selects an appropriate temperature from the appropriate temperature adjusting database of the corresponding quarter house for adjusting, in order to ensure the rapid ordering in the selecting process; the temperature regulation and control system 3 further comprises a quick sorting module 16 and a bubbling sorting module 17 which are coupled to the main control terminal 4, wherein the quick sorting module 16 is used for sorting the temperature data in the spring house proper temperature regulation database 7 and the winter house proper temperature regulation database 10 from large to small; the bubbling sorting module 17 is used for sorting the temperature data in the summer house suitable temperature regulation database 8 and the autumn house suitable temperature regulation database 9 from small to large.

In addition, the temperature control system 3 further comprises a screening module 18 coupled to the main control terminal 4, the screening module 18 is used for the temperature control module 14 to screen the temperature in the appropriate temperature control database of the corresponding quarter house, and a screening function is built in the screening module 18: | T-Xn | > γ, γ is preferably 10 ℃ in this embodiment; and gamma is defined as a reference value of the temperature adjusting module 14 for extracting the corresponding adjusting temperature sequence from the house proper temperature adjusting numerical control library in each quarter.

When the house is in spring or winter and meets the screening function, the temperature adjusting module 14 selects corresponding temperatures from large to small in the spring house proper temperature adjusting database 7 and the winter house proper temperature adjusting database 10 for adjustment; otherwise, when the screening function is not satisfied, the corresponding temperature is selected from small to large for adjustment; when the house is in summer or autumn and meets the screening function, the temperature adjusting module 14 selects corresponding temperatures from small to large in the summer house proper temperature adjusting database 8 and the autumn house proper temperature adjusting database 9 for adjustment; otherwise, when the screening function is not satisfied, the corresponding temperature is selected from large to small for adjustment.

The reason why the selected temperature sequences for the spring and winter seasons and the summer and autumn seasons are different is that the house internal temperatures for the spring and winter seasons are low, because the temperatures in the database are arranged from large to small through the quick sorting module 16, under the condition that the screening function is used for comparison and screening, if the screening function is met, the temperature detected in the house is lower than the current season threshold value, at this time, the temperature adjusting module 14 should preferentially select the value with higher temperature in the temperature adjusting database for adjustment, if the temperature is not met, the temperature in the house is higher, the value with lower temperature can be preferentially considered for adjustment, and the house internal temperatures in the summer and autumn seasons are generally higher, the adjusting mode of the temperature adjusting module 14 is opposite to that in the spring and winter seasons.

In order to meet the requirement that a user can know the temperature regulation condition information inside the house in time, the temperature regulation and control system 3 further comprises an App module 19 and a reminding module 20, wherein the App module and the reminding module are coupled to the main control terminal 4; the App module 19 is used for receiving temperature data in a house and remotely displaying the temperature data in a mobile phone of a user to which the house belongs; the reminding module 20 is used for receiving the temperature adjusting signal and reminding the user in the App module 19 when the temperature adjusting module 14 adjusts the temperature in the house.

In addition, after the user knows the temperature inside the house, in order to enable the user to reach the optimum living temperature when the temperature inside the house reaches the house, the regulation and control system further comprises a temperature regulation time calculation module 21 coupled to the main control terminal 4, a route length calculation module 22 coupled to the App module 19, a walking speed detection module 23, a walking time calculation module 24, and a speed regulation module 25.

The temperature adjustment time calculation module 21 is configured to calculate time for adjusting the internal temperature of the house, and the temperature adjustment time calculation module 21 has a calculation function: t1(min) = | -T-Xn | v 1;

wherein v1 is the temperature regulation speed (DEG C/min) in each season, and the temperature regulation speeds in the four seasons of spring, summer, autumn and winter in the embodiment are the same;

the route length calculation module 22 is used for calculating the distance between the user and the house and is marked as h; the walking speed detection module 23 is used for detecting the walking speed of the user to output a walking speed detection signal, and is marked as v 2; the walking time calculation module 24 is internally provided with a time calculation function: t2(min) = h/v 2; only when the temperature adjustment module 14 receives the temperature adjustment signal and t1= t2 is satisfied, the temperature adjustment module 14 starts adjusting the temperature inside the house.

And in the process of returning the user to the house, if the speed of the user is increased or decreased and deviates from the expected time, the speed adjusting module 25 can be used for adjusting the adjusting speed of the temperature in the house, so that the adjusting time of the temperature in the house is consistent with the time of returning the user to the house.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a building house intelligent roof, locates roof main part (2) at house main part (1) top including house main part (1), lid, its characterized in that: be equipped with temperature regulation and control system (3) in roof main part (2), temperature regulation and control system (3) include:

the main control terminal (4) is used for storing and processing data;

the house temperature detection module (5) is coupled with the main control terminal (4) to detect the temperature value inside the house in real time and is marked as T; a temperature threshold database (6) for houses in each season, which is provided with temperature thresholds corresponding to the houses in each season and defines spring F_{Spring made of Chinese herbal medicine}The in-house temperature threshold of (a) is X1; summer F_{Summer (summer)}The in-house temperature threshold of (a) is X2; autumn F_AutumnThe in-house temperature threshold of (a) is X3; winter F_{Winter season}The in-house temperature threshold of (a) is X4;

a database (7) for adjusting the temperature of a house suitable for spring in spring, a database (8) for adjusting the temperature of a house suitable for summer in summer, a database (9) for adjusting the temperature of a house suitable for autumn in autumn, and a database (10) for adjusting the temperature of a house suitable for winter in winter are stored;

the quarter switching module (11) is coupled to the main control terminal (4) to detect the quarter where the house is located in real time and output a corresponding quarter number;

the calling module (12) is coupled with the main control terminal (4) and takes the quarter number as a query object to call the temperature threshold Xn corresponding to the quarter in the temperature threshold database of each quarter of the house;

the comparison module (13) is coupled to the main control terminal (4) to receive the temperature T detected by the house temperature detection module (5), compare the temperature T with the corresponding quarter temperature threshold Xn called by the calling module (12), and output a temperature regulation signal;

the temperature adjusting module (14) is coupled to the main control terminal (4) and used for receiving the temperature adjusting signal and adjusting the temperature in the house to the temperature in the appropriate temperature adjusting database corresponding to the seasons;

when T < X1, the temperature adjusting module (14) adjusts the temperature in the house to the temperature in the spring house proper temperature adjusting database (7); when T is more than X2, the temperature adjusting module (14) adjusts the temperature in the house to the temperature in the summer house proper temperature adjusting database (8); when T is more than X3, the temperature adjusting module (14) adjusts the temperature in the house to the temperature in the autumn house suitable temperature adjusting database (9); when T < X4, the temperature adjusting module (14) adjusts the temperature in the house to the temperature in the winter house suitable temperature adjusting database (10);

the temperature regulation system (3) further comprises:

a calculation detection module (15) coupled to the main control terminal (4) and having an average calculation function built therein: μ = ∑ Tn/2m + 1; when the temperature T detected by the house temperature detection module (5) in the corresponding quarter is larger than or smaller than the temperature threshold Xn of the corresponding quarter, calculating m times of Z (T) forward and backward in the detected temperature of the current quarter by taking Z (T) as a time interval, and selecting the detected 2m +1 temperature values T to calculate the temperature average value mu in the corresponding time period as a comparison value of the temperature threshold of the corresponding quarter;

the calculation detection module (15) is also internally provided with a judgment function: mu-Xn is less than 0;

when the house is in spring and meets the judgment function, the temperature in the house is adjusted to the proper temperature in spring by the temperature adjusting module (14); when the house is in summer and meets the judgment function, the temperature adjusting module (14) does not adjust; when the house is in autumn and meets the judgment function, the temperature adjusting module (14) does not adjust; when the house is in winter and meets the judgment function, the temperature adjusting module (14) adjusts the temperature in the house to the proper temperature in winter;

the calculation detection module (15) is internally provided with a variance calculation function: sigma²=∑(Tn-μ)²/2m+1

when sigma is²When the temperature is higher than β, the temperature adjusting module (14) adjusts the temperature in the anterior chamber room according to the temperature in the suitable room temperature adjusting database corresponding to the quarter;

otherwise when sigma is²-when < β, the temperature adjustment module (14) does not adjust;

the temperature regulation system (3) further comprises:

a screening module (18) coupled to the main control terminal (4) and configured to allow the temperature adjustment module (14) to screen the temperature in the corresponding seasonal house preference temperature adjustment database, and the screening module (18) has a screening function built therein: | T-Xn | > gamma;

defining: gamma is a reference value of the temperature regulating module (14) which extracts a corresponding temperature regulating sequence from the temperature regulating numerical control library suitable for the houses in all seasons;

when the house is in spring or winter and meets the screening function, the temperature adjusting module (14) selects corresponding temperatures from large to small in the spring house proper temperature adjusting database (7) and the winter house proper temperature adjusting database (10) for adjustment; otherwise, when the screening function is not satisfied, the corresponding temperature is selected from small to large for adjustment;

when the house is in summer or autumn and meets the screening function, the temperature adjusting module (14) selects corresponding temperatures from small to large in the summer house proper temperature adjusting database (8) and the autumn house proper temperature adjusting database (9) for adjustment; otherwise, when the screening function is not satisfied, the corresponding temperature is selected from large to small for adjustment.

2. The intelligent roof of building house of claim 1, wherein: the temperature regulation system (3) further comprises:

the quick sorting module (16) is coupled to the main control terminal (4) and sorts the temperature data in the spring house proper temperature regulation database (7) and the winter house proper temperature regulation database (10) from large to small;

and the bubble sorting module (17) is coupled with the main control terminal (4) and sorts the temperature data in the summer house proper temperature regulation database (8) and the autumn house proper temperature regulation database (9) from small to large.

3. The intelligent roof of building house of claim 1, wherein: the temperature regulation system (3) further comprises:

the App module (19) is coupled with the main control terminal (4) to receive temperature data in the house and remotely display the temperature data in a mobile phone of a user to which the house belongs;

and the reminding module (20) is coupled with the main control terminal (4) to receive the temperature adjusting signal and remind a user in the App module (19) when the temperature adjusting module (14) adjusts the temperature in the house.

4. The intelligent roof of building house of claim 3, wherein: the temperature regulation system (3) further comprises:

the temperature regulation time calculation module (21) is coupled to the main control terminal (4) to calculate the time for regulating the temperature inside the house, and the temperature regulation time calculation module (21) is internally provided with a calculation function: t1(min) = | -T-Xn |/v 1

a route length calculation module (22), coupled to the App module (19), for calculating the distance between the user and the house, and marked h;

the walking speed detection module (23) is coupled to the App module (19) and used for detecting the walking speed of the user to output a walking speed detection signal, and is marked as v 2;

a travel time calculation module (24) coupled to the App module (19) and having a built-in time calculation function: t2(min) = h/v 2;

only when the temperature adjustment module (14) receives the temperature adjustment signal and t1= t2 is satisfied, the temperature adjustment module (14) starts adjusting the temperature inside the house.

5. The intelligent roof of building house of claim 4, wherein: the temperature regulation system (3) further comprises:

and the speed regulation module (25) is coupled with the App module (19) and is used for changing the speed of temperature regulation in the house.