CN112325368B - Intelligent prompting system for floor - Google Patents

Abstract

The invention discloses an intelligent prompting system for floors, belonging to the field of computers; the heating floor comprises a first temperature detection unit, a second temperature detection unit, a first temperature control unit, a second temperature control unit, a first temperature control unit, a second temperature control unit and a control unit, wherein the first temperature control unit is used for controlling the first temperature control unit and the second temperature control unit; arrange through accurate range formula and obtain the display content, the display content is the control by temperature change mode promptly, send the control by temperature change mode to user wireless terminal through signal transmission module, solved current heating floor can not carry out the problem of intelligent regulation temperature according to indoor in outdoor difference in temperature, the user is according to self hobby simultaneously, through setting up psi and zeta predetermine the range value, and then change the control by temperature change mode, makes the heating floor more intelligent, improves user's standard of living.

Description

Intelligent prompting system for floor

Technical Field

The invention belongs to the field of computers; relates to floor prompting technology; in particular to an intelligent prompting system for floors.

Background

The traditional indoor wooden floor has high requirements on the use environment, is easy to expand, deform, mildew and damage by worms in a humid environment, and is easy to contract, deform and crack in a dry environment; the finished product or the semi-finished product is generally formed by adopting a coating process, and a paint layer with a smooth surface is formed to protect the wooden floor, so that the service life and the aesthetic feeling of the wooden floor are improved; but current heating floor can't be according to carrying out intelligent regulation temperature according to indoor in outdoor difference in temperature, and then causes outdoor temperature to rise, and ambient temperature rises, and the floor is still lasting high temperature heating, and then leads to floor shrinkage deformation and fracture, causes the energy waste simultaneously, and user's economic nature reduces.

Disclosure of Invention

The invention aims to provide an intelligent prompting system for a floor, which is used for solving the problem that the temperature of the existing heating floor can not be intelligently adjusted according to the indoor and outdoor temperature difference.

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

an intelligent prompting system for floors comprises a temperature detection module, a weather judgment module, a time detection module, a push module, a signal transmission module and an Internet of things platform;

the pushing module is used for pushing a floor heating temperature control mode for the user wireless terminal, specifically, time information and temperature information are obtained and are substituted into a temperature control model as coefficients to obtain a temperature control mode, the temperature control mode is sent to an internet of things platform through a signal transmission module, and the internet of things platform sends the temperature control mode to the user wireless terminal through the signal transmission module;

the temperature control model comprises an extraction layer, a screening layer, a standard layer, a setting layer and a storage layer;

the extraction layer is used for extracting the characteristic codes in the time information and the temperature information and sending the characteristic codes to the screening layer;

the screening layer is used for screening the character length values of the feature codes, eliminating the feature codes of which the character length values are more than or equal to K, marking the eliminated feature codes as mimicry values and sending the mimicry values to the standard layer; k is a preset character length value;

the standard layer is used for performing decimal removal processing on the mimicry value; sending the mimicry value subjected to decimal removal processing to a mounting layer;

the mounting layer is used for arranging the mimicry values according to a standard arrangement mode to obtain display contents, and the display contents are the temperature control mode;

the storage layer is used for storing the display content.

Further, the canonical arrangement formula is: the current time, the current time recommended floor heating temperature, the future time, and the future time forecast recommended floor heating temperature;

the steps of recommending the floor heating temperature at the current time specifically comprise:

acquiring the current time and the real-time indoor temperature value I of the current time_{Inner part}And real-time outdoor temperature value I_{Outer cover}；

Real-time indoor temperature value I_{Inner part}Subtracting real-time outdoor temperature value I_{Outer cover}Obtaining a first temperature difference T by

And obtaining a recommended temperature value TJ, beta as a preset algorithm value.

Further, the future time specifically refers to all the hour time from the current time to 12 hours later;

the future time prediction recommended floor heating temperature is specifically a prediction recommended floor heating temperature corresponding to all the integral point times from the current time to 12 hours, and specifically includes:

obtaining an outdoor temperature I at a future time_{Preliminary treatment of external diseases}By the formula

To find out I_{Push the inside inwards}，I_{Push the inside inwards}The psi and zeta are both preset range values for predicting the recommended floor heating temperature.

Further, the outdoor temperature I of the future time is obtained_{Preliminary treatment of external diseases}The method specifically comprises the following steps:

acquiring weather temperature information in a network weather forecast, wherein the weather temperature information comprises a temperature value I of a current area at the current time acquired from a network_{When it is predicted}And temperature values I of the current area at each moment of the day_PreliminaryBy the formula I_{When it is predicted}-I_{Outer cover}Obtaining a correction coefficient iota; by the formula I_Preliminary+ι＝I_{Preliminary treatment of external diseases}Obtaining the outdoor temperature I at a future time_{Preliminary treatment of external diseases}。

Further, the temperature detection module comprises a first temperature detection unit and a second temperature detection unit;

the first temperature detection unit is arranged indoors, is used for monitoring real-time indoor temperature value and is marked as I_{Inner part}And real-time indoor temperature value I is transmitted by the signal transmission module_{Inner part}Transmitting the data to an Internet of things platform; the second temperature detection unit is arranged outdoors, is used for monitoring real-time outdoor temperature value and is marked as I_{Outer cover}And real-time outdoor temperature value I is transmitted through the signal transmission module_{Outer cover}And transmitting the data to the Internet of things platform.

Furthermore, the temperature detection module also comprises a data analysis unit, and the data analysis unit is used for analyzing the real-time indoor temperature value I_{Inner part}And outdoor temperature value I_{Outer cover}The processing is carried out to obtain the temperature change value, and the processing steps are as follows:

the method comprises the following steps: will I_{Outer cover}Subtract I_{Inner part}Acquiring a first temperature difference T;

step two: taking I after 10 minutes_{Outer cover}And I_{Inner part}；

Step three: after 10 minutes I_{Outer cover}Subtract I_{Inner part}Acquiring a second temperature difference T2;

step four: and calculating a temperature change value A according to the formula A-T2.

Further, the feature code specifically includes:

the time information feature code comprises current time and future time; the temperature information feature code comprises a recommended temperature value TJ and an outdoor temperature I of a predicted time_{Preliminary treatment of external diseases}。

Further, the weather judging module is used for acquiring weather temperature information in the network weather forecast, and the time detecting module is used for acquiring time information, wherein the time information comprises the current time.

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

acquiring a real-time indoor temperature value and a real-time indoor temperature value through a first temperature detection unit and a second temperature detection unit, calculating a first temperature difference value T, and calculating a first temperature difference value T according to a formula

Obtaining a recommended temperature value TJ, wherein the weather temperature information in the network weather forecast is obtained and comprises a temperature value I of the current time of the current area obtained from the network_{When it is predicted}And temperature values I of the current area at each moment of the day_PreliminaryBy the formula I_{When it is predicted}-I_{Outer cover}Obtaining a correction coefficient iota; by the formula I_Preliminary+ι＝I_{Preliminary treatment of external diseases}Obtaining the outdoor temperature I of the predicted time_{Preliminary treatment of external diseases}Outdoor temperature I at a time to be predicted_{Preliminary treatment of external diseases}Substitution into

Internally derived predicted recommended floor heating temperature I_{Push the inside inwards}The utility model discloses a heating floor, including the control of temperature module, signal transmission module, smart regulation temperature, user wireless terminal, the control of temperature module is just arranging the formula through accurate range and is obtained the display content, the display content is for the control of temperature mode, send the control of temperature mode to user wireless terminal through signal transmission module, solved current heating floor can not be according to indoor in the problem that outdoor difference in temperature carries out the intelligent regulation temperature, the user is according to self hobby simultaneously, through setting up the range value of predetermineeing of psi and zeta, and then change the control of temperature mode, it is more intelligent to make the heating floor, improves user's standard of living.

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, an intelligent prompting system for a floor includes a temperature detection module, a weather judgment module, a time detection module, a push module, a signal transmission module and an internet of things platform;

the temperature detection module comprises a first temperature detection unit and a second temperature detection unit;

wherein, first temperature detecting element sets up in indoor for real-time indoor temperature value of monitoring and mark I_{Inner part}And real-time indoor temperature value I is transmitted by the signal transmission module_{Inner part}Transmitting the data to an Internet of things platform; the second temperature detection unit is arranged outdoors, is used for monitoring real-time outdoor temperature value and is marked as I_{Outer cover}And real-time outdoor temperature value I is transmitted through the signal transmission module_{Outer cover}And transmitting the data to the Internet of things platform.

The temperature detection module also comprises a data analysis unit, and the data analysis unit is used for real-time indoor temperature value I_{Inner part}And outdoor temperature value I_{Outer cover}The temperature change value is obtained through processing, and the processing steps are as follows:

the method comprises the following steps: will I_{Outer cover}Subtract I_{Inner part}Acquiring a first temperature difference T;

step two: taking I after 10 minutes_{Outer cover}And I_{Inner part}；

Step three: after 10 minutes I_{Outer cover}Subtract I_{Inner part}Acquiring a second temperature difference T2;

step four: and calculating a temperature change value A according to the formula A-T2.

The floor heating temperature recommended at the current time specifically comprises the following steps:

acquiring the current time and the real-time indoor temperature value I of the current time_{Inner part}And real-time outdoor temperature value I_{Outer cover}；

Real-time indoor temperature value I_{Inner part}Subtracting real-time outdoor temperature value I_{Outer cover}Obtaining a first temperature difference T by

And obtaining a recommended temperature value TJ, beta as a preset algorithm value.

The future time specifically refers to all the hour time from the current time to 12 hours later; the future time prediction recommended floor heating temperature is specifically a prediction recommended floor heating temperature corresponding to all the integral point times from the current time to 12 hours, and specifically includes:

obtaining outdoor temperature I of future time_{Preliminary treatment of external diseases}By the formula

To find out I_{Push the inside inwards}，I_{Push the inside inwards}For predicting the recommended floor heating temperature, ψ and ζ are both preset range values.

Obtaining an outdoor temperature I at a future time_{Preliminary treatment of external diseases}The method specifically comprises the following steps:

acquiring weather temperature information in a network weather forecast, wherein the weather temperature information comprises a temperature value I of a current area at the current time acquired from a network_{When it is predicted}And temperature values I of the current area at each moment of the day_PreliminaryBy the formula I_{When it is predicted}-I_{Outer cover}Obtaining a correction coefficient iota; by the formula I_Preliminary+ι＝I_{Preliminary treatment of external diseases}Obtaining the outdoor temperature I at a future time_{Preliminary treatment of external diseases}。

The pushing module is used for pushing a floor heating temperature control mode for the user wireless terminal, specifically, time information and temperature information are obtained and are substituted into the temperature control model as coefficients to obtain a temperature control mode, the temperature control mode is sent to the Internet of things platform through the signal transmission module, and the Internet of things platform sends the temperature control mode to the user wireless terminal through the signal transmission module;

the temperature control model comprises an extraction layer, a screening layer, a standard layer, a mounting layer and a storage layer;

the extraction layer is used for extracting the characteristic codes in the time information and the temperature information and sending the characteristic codes to the screening layer;

the feature code is specifically: the time information feature code comprises current time and future time; the temperature information feature code comprises a recommended temperature value TJ and an outdoor temperature I of a predicted time_{Preliminary treatment of external diseases}；

The screening layer is used for screening the character length value of the characteristic code, eliminating the characteristic code with the character length value of the characteristic code being more than or equal to K, marking the eliminated characteristic code as a mimicry value and sending the mimicry value to the standard layer; k is a preset character length value;

the standard layer is used for performing decimal removal processing on the mimicry value; sending the mimicry value subjected to decimal removal processing to a mounting layer;

the arrangement layer is used for arranging the state values according to a standard arrangement mode to obtain display contents;

the storage layer is used for storing the display content.

The standard arrangement formula is: the current time, the current time recommended floor heating temperature, the future time, and the future time forecast recommended floor heating temperature;

the weather judging module is used for acquiring weather temperature information in the network weather forecast, the time detecting module is used for acquiring time information, and the time information comprises the current time.

The invention is implemented as follows: acquiring a real-time indoor temperature value and a real-time indoor temperature value through a first temperature detection unit and a second temperature detection unit, calculating a first temperature difference value T, and calculating a first temperature difference value T according to a formula

Obtaining a recommended temperature value TJ, wherein the weather temperature information in the network weather forecast is obtained and comprises a temperature value I of the current time of the current area obtained from the network_{When it is predicted}And temperature values I of the current area at each moment of the day_PreliminaryBy the formula I_{When it is predicted}-I_{Outer cover}Obtaining a correction coefficient iota; by the formula I_Preliminary+ι＝I_{Preliminary treatment of external diseases}Obtaining the outdoor temperature I of the predicted time_{Preliminary treatment of external diseases}Outdoor temperature I at a time to be predicted_{Preliminary treatment of external diseases}Substitution into

Internally derived predicted recommended floor heating temperature I_{Push the inside inwards}The display content is obtained by arranging in a quasi-arrangement mode, namely the temperature control mode, the temperature control mode is sent to a wireless terminal of a user through a signal transmission module, the user sets preset range values of psi and zeta according to the preference of the user,further changing the temperature control mode;

the user wireless terminal comprises a smart phone, a smart watch, a mobile phone capable of receiving short messages, a notebook computer and a desktop computer.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula which obtains the latest real situation by acquiring a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

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 (1)

1. An intelligent prompting system for floors is characterized by comprising a temperature detection module, a weather judgment module, a time detection module, a push module, a signal transmission module and an Internet of things platform;

the pushing module is used for pushing a floor heating temperature control mode for the user wireless terminal, specifically, time information and temperature information are obtained and are substituted into a temperature control model as coefficients to obtain a temperature control mode, the temperature control mode is sent to an internet of things platform through a signal transmission module, and the internet of things platform sends the temperature control mode to the user wireless terminal through the signal transmission module;

the temperature control model comprises an extraction layer, a screening layer, a standard layer, a mounting layer and a storage layer;

the extraction layer is used for extracting the characteristic codes in the time information and the temperature information and sending the characteristic codes to the screening layer;

the screening layer is used for screening the character length values of the feature codes, eliminating the feature codes of which the character length values are greater than or equal to K, marking the eliminated feature codes as mimicry values and sending the mimicry values to the standard layer; k is a preset character length value;

the standard layer is used for performing decimal removal processing on the mimicry value; sending the mimicry value subjected to decimal removal processing to a mounting layer;

the mounting layer is used for arranging the mimicry values according to a standard arrangement mode to obtain display contents, and the display contents are the temperature control mode;

the storage layer is used for storing the display content;

the standard arrangement formula is as follows: the current time, the current time recommended floor heating temperature, the future time, and the future time forecast recommended floor heating temperature;

the steps of recommending the floor heating temperature at the current time specifically comprise:

acquiring the current time and the real-time indoor temperature value of the current time

And real-time outdoor temperature values

；

Real-time indoor temperature value

Subtracting real-time outdoor temperature values

Obtaining a first temperature difference T by

A recommended temperature value TJ is obtained,

is a preset algorithm value;

the future time specifically refers to all the time points from the current time to 12 hours later;

the future time prediction recommended floor heating temperature is specifically a prediction recommended floor heating temperature corresponding to all the integral point times from the current time to 12 hours, and specifically includes:

obtaining outdoor temperature at a future time

By the formula

To obtain

，

In order to predict the recommended floor heating temperature,

and

all are preset range values;

the obtaining of the outdoor temperature of the future time

The method specifically comprises the following steps:

acquiring weather temperature information in a network weather forecast, wherein the weather temperature information comprises a temperature value of a current area at the current time acquired from a network

And the temperature value of the current area at each time of the day

By the formula

Obtaining a correction factor

(ii) a By the formula

Obtaining outdoor temperature at a future time

；

The temperature detection module comprises a first temperature detection unit and a second temperature detection unit;

the first temperature detection unit is arranged indoors, is used for monitoring real-time indoor temperature value and is marked as

And real-time indoor temperature value is transmitted through the signal transmission module

Transmitting the data to an Internet of things platform; the second temperature detection unit is arranged outdoors, is used for monitoring real-time outdoor temperature values and is marked as

And real-time outdoor temperature value is transmitted through the signal transmission module

Transmitting the data to an Internet of things platform;

the temperature detection module further comprises a data analysis unit, and the data analysis unit is used for real-time indoor temperature value

And outdoor temperature value

The processing is carried out to obtain the temperature change value, and the processing steps are as follows:

the method comprises the following steps: will be provided with

Minus

Acquiring a first temperature difference T;

step two: after 10 minutes of harvesting

And

；

step three: after 10 minutes

Minus

Acquiring a second temperature difference T2;

step four: calculating a temperature change value A according to a formula A = T-T2;

the feature code specifically includes:

the time information feature code comprises current time and future time; the temperature information feature code comprises a recommended temperature value TJ and a future time prediction recommended floor heating temperature;

the weather judging module is used for acquiring weather temperature information in the network weather forecast, and the time detecting module is used for acquiring time information which comprises the current time.

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