CN117055667B - Intelligent control method and system for multifunctional mirror cabinet - Google Patents

Abstract

The invention relates to an intelligent control method and system for a multifunctional mirror cabinet, and belongs to the technical field of intelligent control. Wherein the method comprises the following steps: and obtaining a compensation coefficient according to the humidity parameter and the temperature parameter, and correcting the humidity parameter to obtain an environment evaluation value x. Comparing the environmental evaluation value with a preset threshold value, acquiring a cabinet door state when the environmental evaluation value exceeds the threshold value, and sending a motor driving instruction when the cabinet door state is open. And acquiring the motor rotating speed, and sending a blocking prompt and a motor stopping instruction when the motor rotating speed is smaller than a preset rotating speed. And sending a temperature and humidity control instruction, returning to the execution information and the running state of the execution module according to the temperature and humidity control instruction, obtaining an environment evaluation value according to the execution information, and sending a stop instruction after the environment evaluation value is greater than a preset second threshold value. The monitoring of the internal environment problem of the mirror cabinet is realized, the problem of the internal environment of the mirror cabinet is timely solved when the environment problem occurs, and the sanitation of the internal environment of the mirror cabinet is ensured.

Description

Intelligent control method and system for multifunctional mirror cabinet

Technical Field

The invention belongs to the technical field of intelligent control, and particularly relates to an intelligent control method and system for a multifunctional mirror cabinet.

Background

The mirror cabinet is furniture produced by combining a mirror and a wall cabinet, has a storage function besides a basic mirror function, and can store toilet articles such as toothbrush cups, towels, cosmetics and the like.

At present, the mirror cabinet control still has the following to be improved: the environmental detection index inside the mirror cabinet is single, and objective evaluation can not be carried out on the sanitary condition inside the mirror cabinet.

Disclosure of Invention

In order to solve the above problems in the prior art, in a first aspect, the present invention provides an intelligent control method for a multifunctional mirror cabinet, comprising the following steps:

s1: obtaining humidity parameter x _i And temperature parameter t _j Obtaining a compensation coefficient lambda according to the humidity parameter and the temperature parameter _ij ；

S2: correcting the humidity parameter x _i The environment evaluation value x is obtained, and the correction formula is as follows:wherein x is _i Is the humidity parameter, t _j Is the temperature parameter lambda _ij Is a compensation coefficient;

s3: comparing the environment evaluation value with a preset threshold value, acquiring a cabinet door state when the environment evaluation value exceeds the threshold value, and sending a motor driving instruction when the cabinet door state is open;

s4: acquiring the motor rotation speed, and sending a blocking prompt and a motor stopping instruction when the motor rotation speed is smaller than a preset rotation speed;

s5: and sending a temperature and humidity control instruction, returning to execution information and an operation state of an execution module according to the temperature and humidity control instruction, obtaining the environment evaluation value according to the execution information, and sending a stop instruction after the environment evaluation value is greater than a preset second threshold value.

Specifically, in S1, a compensation coefficient lambda is obtained according to the humidity parameter and the temperature parameter _ij The specific method comprises the following steps:

constructing an auxiliary matrix of the humidity parameter and the temperature parameterConverting the environment evaluation value x into an auxiliary matrix F to obtain a formula (1):

calculating a least squares fitting solution of the formula (1) to obtain the compensation coefficient lambda _ij 。

Specifically, the execution information includes a temperature parameter and a humidity parameter collected during the operation of the execution module, the compensation coefficient is obtained according to the humidity parameter and the temperature parameter, and then the method in S2 is repeated.

In a second aspect, the present invention provides a multifunctional mirror cabinet intelligent control system, which includes an environment detection module, an intelligent control module, an execution module, and a multimedia display module, and may be used to run the multifunctional mirror cabinet intelligent control method as described above.

Specifically, the environment detection module comprises a humidity sensor and a temperature sensor, and is used for acquiring the humidity parameter and the temperature parameter;

the intelligent control module obtains a compensation coefficient according to the humidity parameter and the temperature parameter, corrects the humidity parameter to obtain the environment evaluation value, judges whether the environment evaluation value is larger than a preset threshold value, and if so, sends a temperature and humidity control instruction;

the execution module receives the temperature and humidity control instruction and starts a corresponding heating program and a corresponding blowing program;

and the multimedia display module displays the running state of the execution module and a preset multimedia file.

The intelligent control module is connected with the environment detection module through pins.

Preferably, the in-cabinet heater may be electrically heated using a graphene heating sheet comprising a glass base plate, a glass cover plate, and a graphene coating. The graphene coating is printed on the glass bottom plate, the graphene coating is clamped between the glass cover plate and the glass bottom plate by the glass cover plate, and the graphene coating is made to generate heat in a conductive manner by current passing through the graphene coating.

The beneficial effects of the invention are as follows:

(1) The environment evaluation value is obtained by correcting the humidity parameter through the temperature parameter, so that the unilateral performance of the single parameter index on the environment evaluation of the mirror cabinet is avoided, and the intelligent control of the multifunctional mirror cabinet is more accurate;

(2) The operation of the heater, the blower, the air sterilizer and other equipment is controlled by using the environment evaluation value, so that the environment problems inside the mirror cabinet and the toilet are monitored, and when the environment problems occur, the problems are timely solved, and the sanitation of towels, toothbrushes and other toilet articles stored inside the mirror cabinet and the environment sanitation of the whole toilet are ensured.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a flow chart of the intelligent control method of the multifunctional mirror cabinet.

Detailed Description

In order to further describe the technical means and effects adopted by the invention for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the invention with reference to the attached drawings and the preferred embodiment.

As shown in fig. 1, a first aspect of the embodiment of the present invention provides an intelligent control method for a multifunctional mirror cabinet, including the following steps:

s1: obtaining humidity parameter x _i And temperature parameter t _j Obtaining a compensation coefficient lambda according to the humidity parameter and the temperature parameter _ij ；

S2: correcting the humidity parameter x _i The environment evaluation value x is obtained, and the correction formula is as follows:wherein x is _i Is the humidity parameter, t _j Is the temperature parameter lambda _ij Is a compensation coefficient;

s3: judging whether the environment evaluation value is larger than a preset threshold value, if so, sending a temperature and humidity control instruction;

s4: and returning the execution information and the running state of the execution module according to the temperature and humidity control instruction, obtaining the environment evaluation value according to the execution information, and sending a stop instruction after the environment evaluation value is greater than a preset second threshold.

Specifically, in S1, a compensation coefficient lambda is obtained according to the humidity parameter and the temperature parameter _ij The specific method comprises the following steps:

constructing an auxiliary matrix of the humidity parameter and the temperature parameterConverting the environment evaluation value x into an auxiliary matrix F to obtain a formula (1):

and calculating the least square fitting solution of the formula (1) to obtain the environment evaluation value x, correcting the temperature and the humidity in a combined mode, considering the common influence of the temperature and the humidity on the environmental sanitation, and eliminating the influence of the temperature on the humidity sensor.

Specifically, the execution information includes a temperature parameter and a humidity parameter collected during the operation of the execution module, the compensation coefficient is obtained according to the humidity parameter and the temperature parameter, and then the method in S2 is repeated.

In this embodiment, the method for setting the threshold value is: the sample humidity parameters in the collected toilet were (unit:%): 34.9, 35.8, 30.2, 23.4, 42.1, 32.9, 36.1, 28.1, 21.2, 22.8, the sample temperature parameters in the acquisition toilet are (units:. Degree. C): 20.0, 19.4, 23.2, 20.5, 20.3, 15.4, 28.6, 26.1, 22.8, 19.3, according to the sample humidity parameter and sample temperature parameter in the toilet, calculating to obtain the toilet sample environment evaluation valueCalculating a least square fitting solution to the toilet sample environment evaluation value to obtain a sample environment evaluation value x=15.5, and setting an initialization threshold to 15.5;

and obtaining an environment evaluation value obtained by calculation of the environment detection module, obtaining an environment evaluation mean value of the environment evaluation value by calculating a harmonic mean value of the environment evaluation value, and obtaining the threshold value by calculating the average value of the environment evaluation mean value and the initialization threshold value.

In this embodiment, when the source of the environmental evaluation value is an in-cabinet sensor, the intelligent control module supplies power to the in-cabinet blower and the in-cabinet heater, and when the environmental evaluation value is lower than the threshold value, the power supply to the in-cabinet blower and the in-cabinet heater is stopped.

When the source of the environment evaluation value is an external cabinet sensor, the intelligent control module supplies power to the external cabinet air sterilizer, and when the environment evaluation value is lower than the threshold value, the power supply to the external cabinet air sterilizer is stopped.

The heater uses graphene heating plate circular telegram heating in the cabinet, graphene heating plate includes glass bottom plate, glass apron and graphite alkene coating. The graphene coating is printed on the glass bottom plate, the graphene coating is clamped between the glass cover plate and the glass bottom plate by the glass cover plate, and the graphene coating is made to generate heat in a conductive manner by current passing through the graphene coating.

The present invention is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present invention.

Claims (4)

1. The intelligent control method of the multifunctional mirror cabinet is characterized by comprising the following steps of:

s1: obtaining humidity parameter x _i And temperature parameter t _j Obtaining a compensation coefficient lambda according to the humidity parameter and the temperature parameter _ij ；

S2: correcting the humidity parameter x _i The environment evaluation value x is obtained, and the correction formula is as follows:wherein x is _i Is the humidity parameter, t _j Is the temperature parameter lambda _ij Is a compensation coefficient;

s3: comparing the environment evaluation value with a preset threshold value, acquiring a cabinet door state when the environment evaluation value exceeds the threshold value, and sending a motor driving instruction when the cabinet door state is open;

s4: acquiring the motor rotation speed, and sending a blocking prompt and a motor stopping instruction when the motor rotation speed is smaller than a preset rotation speed;

s5: a temperature and humidity control instruction is sent, execution information and the running state of an execution module are returned according to the temperature and humidity control instruction, the environment evaluation value is obtained according to the execution information, and a stop instruction is sent after the environment evaluation value is larger than a preset second threshold value;

s1, obtaining a compensation coefficient lambda according to the humidity parameter and the temperature parameter _ij The specific method comprises the following steps:

constructing an auxiliary matrix of the humidity parameter and the temperature parameterConverting the environment evaluation value x into an auxiliary matrix F to obtain a formula (1):

calculating a least squares fitting solution of the formula (1) to obtain the compensation coefficient lambda _ij 。

2. The intelligent control method of a multifunctional mirror cabinet according to claim 1, wherein the specific method for obtaining the environmental evaluation value according to the execution information comprises:

the execution information comprises an operation temperature parameter and an operation humidity parameter which are acquired in the operation process of the execution module, an auxiliary matrix of the operation temperature parameter and the operation humidity parameter is constructed to obtain the compensation coefficient, and the environment evaluation value is obtained by using the correction formula in the S2 for the operation temperature parameter, the operation humidity parameter and the compensation coefficient.

3. An intelligent control system for a multifunctional mirror cabinet, comprising an environment detection module, an intelligent control module, an execution module and a multimedia display module, and being configured to operate the intelligent control method for a multifunctional mirror cabinet according to any one of claims 1-2, wherein:

the environment detection module comprises a humidity sensor and a temperature sensor and is used for acquiring the humidity parameter and the temperature parameter;

the intelligent control module obtains a compensation coefficient according to the humidity parameter and the temperature parameter, corrects the humidity parameter to obtain the environment evaluation value, judges whether the environment evaluation value is larger than a preset threshold value, and if so, sends a temperature and humidity control instruction;

the execution module receives the temperature and humidity control instruction and starts a corresponding heating program and a corresponding blowing program;

and the multimedia display module displays the running state of the execution module and a preset multimedia file.

4. The intelligent control system of a multifunctional mirror cabinet according to claim 3, wherein the multimedia display module is embedded behind a single-sided mirror to form a mirror surface of the mirror cabinet, and is connected with the intelligent control module through a pin, and the intelligent control module is connected with the environment detection module through a pin.