CN114545070A - Intelligent socket energy efficiency grade assessment method and test device thereof - Google Patents

Abstract

The invention discloses an intelligent socket energy efficiency grade assessment method and a test device thereof, wherein the method comprises the following steps: acquiring the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software, and recording the energy consumption data of each module; converting the weighted conversion power of each module according to the energy consumption condition related to each module of the intelligent socket and the proportion condition of the actual use state of each module in the whole period; the method comprises the steps that the weighted conversion power of all modules is added to obtain the overall weighted conversion power of the intelligent socket, all modules and the overall weighted conversion power of the intelligent socket are analyzed, and an evaluation object is given energy efficiency grades; the method is suitable for various types of products, improves the working efficiency, the operation flexibility and the accuracy, reduces the overall cost and can accurately measure the consumed electric energy.

Description

Intelligent socket energy efficiency grade assessment method and test device thereof

Technical Field

The invention relates to the technical field of intelligent socket detection, in particular to an intelligent socket energy efficiency grade assessment method and a test device thereof.

Background

Along with the development of thing networking, intelligent product constantly appears in people's life, and smart jack replaces the use of traditional socket gradually, thereby smart jack with intelligent module embedding socket in the realization to the control of socket, through the break-make electricity of smart jack control electrical apparatus. At present, intelligent modules such as Wifi, ZigBee, Bluetooth and power monitoring are arranged in the intelligent socket. Although the level of intelligence is continuously increased, people have higher and higher frequency of using intelligent products in life, but the safety of the socket is still required to be concerned.

Although the on-off of the electric appliance can be controlled through the intelligent socket, the intelligent socket is simple and convenient, the problem that the electric appliance is always in standby or working state and energy consumption is wasted can be solved, and the purpose that the electric appliance is safer to use is achieved. The service cycle of the electrical appliance is scientifically arranged, the energy waste in the idle time period is reduced to a certain extent, the service life of the electrical appliance is prolonged, and the energy conservation of the electrical appliance is realized. But smart jack compares traditional socket, and its self inner structure is more complicated, has numerous electronic circuit module, and self can produce certain energy consumption, and different smart jack energy consumption is different.

At present, the energy consumption of the intelligent socket does not have a quantitative index, an index is needed to assess whether the intelligent socket product can really bring the energy-saving effect, a plan can be made for the intelligent socket industry, and enterprises are guided to develop and produce the energy-saving intelligent socket which is really meaningful. For the current situation, an intelligent socket energy efficiency grade evaluation method is lacked, the energy efficiency of the intelligent socket is evaluated, the product is analyzed through actual data, the energy consumption loss of the intelligent socket is improved, and a set of complete evaluation method is established through the research of the intelligent socket energy efficiency grade evaluation method.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides an intelligent socket energy efficiency grade evaluation method and a test device thereof.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a smart socket energy efficiency grade assessment method comprises the following steps:

acquiring the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software, and recording the energy consumption data of each module;

the weighted conversion power of each module is converted according to the energy consumption condition related to each module of the intelligent socket and the proportion condition of the actual use state of each module in the whole period;

and adding the weighted conversion power of all the modules to obtain the overall weighted conversion power of the intelligent socket, analyzing each module and the overall weighted conversion power of the intelligent socket, and giving an evaluation object to classify the energy efficiency grade.

Further, gather the energy consumption condition of the whole workflow of smart jack through real time monitoring test software to the energy consumption data of each module of record includes: and analyzing the energy consumption data of each module independently, verifying the validity of the data and judging the accuracy of the test.

Further, the object comprises the whole intelligent socket and each module, and energy efficiency grades are respectively and independently classified.

Further, the giving of the evaluation object a rating of energy efficiency includes:

acquiring an energy efficiency grade standard corresponding to the evaluation object;

inquiring a weighted conversion power value in the energy efficiency grade standard, and screening the weighted conversion power value matched with the evaluation object in the energy efficiency grade standard;

and determining the energy efficiency grade corresponding to the weighted conversion power value matched with the evaluation object as the energy efficiency grade of the evaluation object.

A smart jack energy efficiency rating assessment test device, the device comprising:

the detection station module is used for inserting the intelligent socket into a test power supply station, setting real-time monitoring test software in a computer and adjusting monitoring parameters and speed;

the data acquisition module acquires the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software and records the energy consumption data of each module;

the energy efficiency value determining module is used for converting the weighted conversion power of each module according to the energy consumption condition related to each module of the intelligent socket and the proportion condition of the actual use state of each module in the whole period;

and the energy efficiency grade evaluation module is used for obtaining the overall weighted conversion power of the intelligent socket by adding the weighted conversion powers of all the modules, analyzing each module and the overall weighted conversion power of the intelligent socket and giving an evaluation object to divide the energy efficiency grade.

The invention has the beneficial effects that:

1. the invention is suitable for various types of products, improves the working efficiency, the operation flexibility and the test accuracy, reduces the overall cost and can accurately measure the consumed electric energy.

2. The invention can read the whole energy consumption condition of the product in real time and measure the energy consumption condition of each module at the same time.

3. The invention can fit the actual use condition, simulate the actual use period and time condition, and can classify the energy consumption grade for the same product.

4. The energy consumption conditions of the product in different use states are monitored in real time through software, the specific function or stage of the product with the largest energy consumption is analyzed, and the power consumption process of function optimization and functions of a production enterprise is driven.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of an energy efficiency rating assessment method of the present invention;

fig. 2 is a schematic configuration diagram of the energy efficiency grade evaluation device of the present invention.

Detailed Description

Referring to fig. 1, a smart socket energy efficiency rating assessment method includes:

s110, acquiring the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software, and recording the energy consumption data of each module;

the real-time monitoring test software is used for setting the cycle and the speed of the grabbing values in the whole test process and monitoring the change condition of each parameter of the intelligent socket in real time, so that abnormal conditions can be found in time in the test process.

Specifically, the real-time monitoring test software can set data to be captured according to needs, monitor and collect the energy consumption data parameters of the whole and each module in the whole work flow in real time, record and draw corresponding charts for analysis, storage and traceability.

S120, converting the weighted conversion power of each module according to the energy consumption situation related to each module of the intelligent socket and the proportion situation of the actual use state of each module in the whole period;

specifically, all modules of the intelligent socket are analyzed independently, the ratio and the actual power value of the actual working time of each module in the whole detection test period are obtained, and the weighted conversion power of each module is converted by multiplying the ratio of each module by the actual power value.

And S130, adding the weighted conversion powers of all the modules to obtain the overall weighted conversion power of the intelligent socket, analyzing each module and the overall weighted conversion power of the intelligent socket, and giving an evaluation object energy efficiency grade.

Specifically, the overall weighted conversion power of the intelligent socket is obtained by adding the weighted conversion powers of all the modules, the reliability and the accuracy of the detection test are confirmed by analyzing and comparing the modules and the overall energy consumption of the intelligent socket, and then the energy efficiency grade is given to the evaluation object through the corresponding energy efficiency grade standard.

Further, gather the energy consumption condition of the whole workflow of smart jack through real time monitoring test software to the energy consumption data of each module of record includes: and analyzing the energy consumption data of each module independently, verifying the validity of the data and judging the accuracy of the test.

Specifically, energy consumption data of each module is analyzed and drawn into a corresponding chart, then the chart is manually verified, whether each module works normally is checked and judged, so that the accuracy of the test is judged, and the condition that the test is inaccurate due to abnormal work of individual modules is prevented.

Further, the object comprises the whole intelligent socket and each module, and energy efficiency grades are respectively and independently classified.

Specifically, the weighted conversion power of all the modules is added to obtain the overall weighted conversion power of the intelligent socket, each module and the overall energy consumption of the intelligent socket are analyzed and compared to confirm the reliability and accuracy of the detection test, and then the energy efficiency grades are respectively divided for the intelligent socket and each module through the corresponding energy efficiency grade standard.

Further, the giving of the evaluation object a rating of energy efficiency includes:

acquiring an energy efficiency grade standard corresponding to the evaluation object;

inquiring a weighted conversion power value in the energy efficiency grade standard, and screening the weighted conversion power value matched with the evaluation object in the energy efficiency grade standard;

and determining the energy efficiency grade corresponding to the weighted conversion power value matched with the evaluation object as the energy efficiency grade of the evaluation object.

Specifically, energy efficiency grades are respectively divided for the whole intelligent socket and each module, so that a production enterprise can drive the production enterprise to promote the function optimization and the power consumption process of the function by analyzing the energy efficiency grades of each module.

The purpose of the research of the intelligent socket energy efficiency grade evaluation method is to evaluate the energy efficiency grade of the intelligent socket by a unified method through simulating the actual use condition in order to solve the problem of energy consumption of the intelligent socket, and improve the energy-saving efficiency of products in the whole intelligent socket industry.

Through analyzing the internal structure of the intelligent socket, all functions of the intelligent socket are divided into corresponding modules to be analyzed independently, energy consumption measurement is carried out on each module, different energy consumption grades are divided for the modules with different functions, and corresponding energy consumption grades are evaluated, for example, the modules in an internet connection mode are provided, wherein the energy efficiency grade of the Wifi module is divided into 3 grades, and the energy efficiency grade of the electronic switch control circuit module is divided into 3 grades. And then obtaining the power consumption of the whole using stage by multiplying the time by the power according to the time of each module used in the actual using process, then sorting the power consumption values of all the modules, counting and calculating the weighted conversion power of the whole product by collecting the proportion value of each module in the whole period in the actual using process, and finally evaluating the energy efficiency grade of the product through the weighted conversion power.

The invention is suitable for various types of products, improves the working efficiency and the operation flexibility, reduces the overall cost and can accurately measure the consumed electric energy. The whole energy consumption condition of the product can be read in real time through real-time monitoring software, and the energy consumption condition of each module can be measured at the same time. The energy consumption conditions of the product in different use states can be accurately acquired, the specific function or stage of the product with the largest energy consumption is analyzed, and the power consumption process of function optimization and functions of a production enterprise is driven.

Referring to fig. 2, the smart socket energy efficiency rating evaluation test device includes:

the detection station module 210 is used for inserting the intelligent socket into a test power station, setting real-time monitoring test software in a computer, and adjusting monitoring parameters and speed;

the power station comprises a voltage regulator, an electric energy meter and a power meter, the voltage regulator is adjusted to rated voltage, and the power meter is connected with a computer.

The test power station is used for being connected with the intelligent socket and providing a specified voltage power supply to test according to related standards or regulations.

The voltage regulator is used for providing a constant voltage power supply for the intelligent socket.

The electric energy meter is used for measuring the actual energy consumption of each module.

The power meter is used for measuring the power value of each module.

The data acquisition module 220 acquires the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software and records the energy consumption data of each module;

the energy efficiency value determining module 230 is configured to convert the weighted conversion power of each module according to the energy consumption situation related to each module of the smart socket and the proportion situation of the actual usage state of each module in the whole cycle;

and the energy efficiency grade evaluation module 240 is configured to obtain an overall weighted conversion power of the smart socket by adding the weighted conversion powers of all the modules, analyze each module and the overall weighted conversion power of the smart socket, and assign an evaluation object with an energy efficiency grade.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the embodiments of the video playback evaluation apparatus and the electronic device, since they are substantially similar to the embodiments of the video playback evaluation method, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the embodiments of the method.

The above embodiments do not limit the scope of the present invention, and those skilled in the art can make equivalent modifications and variations without departing from the overall concept of the present invention.

Claims (5)

1. A smart socket energy efficiency grade assessment method is characterized by comprising the following steps:

acquiring the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software, and recording the energy consumption data of each module;

the weighted conversion power of each module is converted according to the energy consumption condition related to each module of the intelligent socket and the proportion condition of the actual use state of each module in the whole period;

and adding the weighted conversion power of all the modules to obtain the overall weighted conversion power of the intelligent socket, analyzing each module and the overall weighted conversion power of the intelligent socket, and giving an evaluation object to classify the energy efficiency grade.

2. The method for evaluating the energy efficiency level of the smart socket according to claim 1, wherein the step of collecting the energy consumption condition of the whole working process of the smart socket through real-time monitoring and testing software and recording the energy consumption data of each module comprises the steps of: and analyzing the energy consumption data of each module independently, verifying the validity of the data and judging the accuracy of the test.

3. The method according to claim 1, wherein the object comprises the whole smart socket and each module, and each module is respectively and independently assigned with energy efficiency rating.

4. The smart socket energy efficiency rating assessment method according to claim 3, wherein the giving of the assessment object to classify the energy efficiency rating comprises:

acquiring an energy efficiency grade standard corresponding to the evaluation object;

inquiring a weighted conversion power value in the energy efficiency grade standard, and screening the weighted conversion power value matched with the evaluation object in the energy efficiency grade standard;

and determining the energy efficiency grade corresponding to the weighted conversion power value matched with the evaluation object as the energy efficiency grade of the evaluation object.

5. A smart jack energy efficiency rating assessment test device, the device comprising:

the detection station module is used for inserting the intelligent socket into a test power supply station, setting real-time monitoring test software in a computer and adjusting monitoring parameters and speed;

the data acquisition module acquires the energy consumption condition of the whole working process of the intelligent socket through real-time monitoring and testing software and records the energy consumption data of each module;

the energy efficiency value determining module is used for converting the weighted conversion power of each module according to the energy consumption condition related to each module of the intelligent socket and the proportion condition of the actual use state of each module in the whole period;

and the energy efficiency grade evaluation module is used for obtaining the overall weighted conversion power of the intelligent socket by adding the weighted conversion powers of all the modules, analyzing each module and the overall weighted conversion power of the intelligent socket and giving an evaluation object to divide the energy efficiency grade.

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