CN114935238B

CN114935238B - Intelligent monitoring and calibrating system for refrigerator temperature acquisition

Info

Publication number: CN114935238B
Application number: CN202210193772.6A
Authority: CN
Inventors: 石霞; 刘洪华; 许亮; 曾宏勋
Original assignee: Shenzhen Tiansu Calibration And Testing Co ltd
Current assignee: Shenzhen Tiansu Calibration And Testing Co ltd
Priority date: 2022-03-01
Filing date: 2022-03-01
Publication date: 2022-12-23
Anticipated expiration: 2042-03-01
Also published as: CN114935238A

Abstract

The invention relates to an intelligent monitoring and calibrating system for refrigerator temperature acquisition, which comprises a central processor control module, a temperature data storage unit, an intelligent temperature sensor acquisition module, an emergency battery unit, a fault detection module, an alarm module and a display unit, wherein all the modules are mutually connected with all the units, and the central processor control module is connected with a refrigerator refrigerating system. The central processing unit control module detects temperature data of different positions by the N intelligent temperature sensors of each box body, compares and analyzes the temperature data to judge the loss value of the current temperature and the preset temperature, selects the working mode of a certain box body in the current state in the current refrigerator, judges whether the certain intelligent temperature sensor is normal or not by comparing the historical temperature out-of-tolerance ratio of relative time points, and realizes intelligent calibration of temperature acquisition.

Description

Intelligent monitoring and calibrating system for refrigerator temperature acquisition

Technical Field

The invention relates to the technical field of intelligent monitoring and calibration of refrigerator temperature acquisition, in particular to an intelligent monitoring and calibration system for refrigerator temperature acquisition.

Background

The refrigerator temperature control system is a control system which automatically controls the start and stop of a refrigeration compressor within a certain temperature difference range according to the temperature requirement of the refrigerator, so that the temperature in the refrigerator is kept within a given value range. The temperature control systems of the refrigerator which are common in the market at present are divided into two types, wherein one type is a purely mechanical type temperature control system for manually adjusting the temperature, and the other type is an electronic type temperature control system for automatically adjusting the temperature.

The pure mechanical temperature control system is troublesome to operate and not intelligent enough due to manual adjustment, while the electronic temperature control system is intelligent enough but affected by gradual aging of the temperature detection sensor, so that certain deviation exists in the control of the temperature inside the refrigerator, the temperature deviation is increased year by year, and the storage quality of stored articles inside the refrigerator is reduced year by year.

Chinese patent publication no: CN101408775B. A temperature control method for refrigerator is disclosed. And correcting the temperature in the box body by using the deviation between the acquired environment temperature and the environment temperature calculated by the user set temperature and the user set temperature. And determining whether the refrigeration system is started to refrigerate the box body or not by judging whether the sum of the acquired temperature in the box body and the set temperature correction parameter is greater than the set temperature or not. The temperature detecting device in the box body is arranged at the position with the height ranging from 1/3 to 1/2 in the box body, and the box body comprises a refrigerating chamber, a temperature changing chamber and a freezing chamber. The invention patent considers that the patent solves the problem of inaccurate internal temperature of the refrigerator body, and can improve the refrigeration efficiency of the refrigerator and reduce energy consumption.

The invention almost fixes the position of the temperature detecting device, and the judgment result still has certain error due to too few collected judgment conditions, and the internal temperature is not very accurate because the external conditions still have much influence and interference on the box body.

Disclosure of Invention

Therefore, the invention provides an intelligent monitoring and calibrating system for refrigerator temperature acquisition, which is used for solving the problem that the storage quality of stored articles in a refrigerator is reduced year by year due to the gradual aging influence of a temperature detection sensor in the prior art.

In order to achieve the above object, the present invention provides an intelligent monitoring and calibrating system for refrigerator temperature acquisition, comprising,

and the central processor control module is used for coordinating the mutual work of other modules, receiving the signals fed back by the other modules and obtaining the solution of the current condition through intelligent judgment.

The temperature data storage unit is used for storing historical temperature data.

The intelligent temperature sensor acquisition module is used for setting intelligent real-time low-temperature-resistant temperature sensors with corresponding quantity according to the size of the inner space of the refrigerator, acquiring current temperature data of multiple batches and sending the current temperature data to the central processor control module.

The emergency battery unit is provided with a current sensor and a voltage sensor at a refrigerator power supply, judges whether the refrigerator is in a power-off state at present, starts a standby battery to carry out emergency power supply on all module equipment of the intelligent monitoring and calibration system for temperature acquisition of the refrigerator under the power-off condition, charges the standby battery under the normal power supply condition, and adopts a rechargeable large-capacity battery.

And the fault detection module is used for performing fault detection on all intelligent temperature sensors according to historical temperature data stored in the temperature data storage unit, judging whether a certain intelligent temperature sensor has a fault or not, and informing the central processing unit control module of performing alarm processing.

And the alarm module prompts a user which equipment possibly has faults or problems aiming at the signals sent by the central processing unit control module and sends an alarm.

The refrigerator comprises an external display unit, wherein a liquid crystal touch panel and a liquid crystal display screen are arranged outside a refrigerator shell, the liquid crystal touch panel is used for setting the temperature inside the refrigerator according to the actual requirement of a user, and the liquid crystal display screen is used for displaying the current refrigerator temperature state and temporary state information.

The intelligent temperature sensor comprises a central processor control module, a temperature data storage unit, an intelligent temperature sensor acquisition module, an emergency battery unit, a fault detection module, an alarm module and a display unit which are connected with each other, wherein the central processor control module is connected with a refrigerator refrigerating system.

Two operation modes are arranged in the central processing unit control module, are respectively a power supply mode and a battery supply mode, and respectively have two state modes under the two operation modes, namely a refrigerator door closing state mode and a refrigerator door opening state mode.

And the central processor control module makes corresponding actions corresponding to the corresponding judgment according to different operation modes and different state modes.

Under the power supply mode of the running mode power supply, when the state mode is the refrigerator door closing state mode, the central processing unit control module controls the data acquisition period of the intelligent temperature sensor acquisition module to be A seconds once,

under the power supply mode of the running mode, when the state mode is the refrigerator door opening state mode, the central processing unit control module controls the data acquisition period of the intelligent temperature sensor acquisition module to be once every B seconds,

under the battery power supply mode of the operation mode, when the state mode is the refrigerator door closing state mode, the central processor control module controls the data acquisition period of the intelligent temperature sensor acquisition module to be once every A + B seconds,

under the battery power supply mode of the operation mode and when the state mode is the refrigerator door opening state mode, the central processor control module controls the data acquisition cycle of the intelligent temperature sensor acquisition module to be once every A seconds,

wherein A is more than B, and A and B are positive integers.

And when a certain state mode in a certain current power supply operation mode is set, the acquisition period is once every O seconds, wherein O is one of A, B and A + B.

N intelligent temperature sensors are arranged in a certain box body in the refrigerator, and the names of the intelligent temperature sensors are a first temperature sensor N1, a second temperature sensor N2, a third temperature sensor N3, 8230, and an nth temperature sensor Nn, wherein N is a positive integer.

For the ith temperature sensor Ni, at the temperature T set by the user, the historical temperature data stored by the temperature data storage unit is Ni ₁ 、Ni ₂ 、Ni ₃ 、……、Ni _T-1 、Ni _T ，Ni _T The current temperature data is Ni, and T is the number of historical temperature data.

The current average temperature of a certain box body in the refrigerator is

The central processor control module controls the refrigerator refrigerating system to work according to the temperature T set by a user, the allowable deviation range of the temperature of a certain box body in the refrigerator is a set value T, and T is less than 1. When the current average temperature of a certain box body in the refrigerator exceeds T + T, the central processing unit control module controls the low-power operation of the refrigeration system of the refrigerator, and when the current average temperature of a certain box body in the refrigerator reaches T-T, the central processing unit control module controls the standby state of the refrigeration system of the refrigerator.

Under the power supply mode of the running mode power supply, when the state mode is the refrigerator door closing state mode, the central processing unit control module judges the work of each module and unit according to the comparison between the current average temperature value of a certain refrigerator body in the refrigerator and the current user set value T.

When in use

The central processor control module controls the low-power operation of the refrigeration system of the refrigerator when any Ni works _T When the temperature is less than or equal to T-T, the central processor control module controls the refrigeration system of the refrigerator to pause, namely, a certain box body in the refrigerator is put into high-temperature articles to be cooled, so that the temperature difference of each temperature sensor is large, the temperature sensor needs to be stood for a period of time to wait for the articles to carry out heat transfer, and when any Ni is in use _T T-T is not more than three times continuously to form a temperature comparison result of the central processing unit control module in the data acquisition period of the intelligent temperature sensor acquisition module, then the central processing unit control module controls the alarm module to give an alarm, and the temperature of a certain area of a certain box body in the refrigerator is determined to be out of control at the moment, so that the problem that the refrigerator door is not closed tightly or the refrigerator shell is sealed can be caused.

When the temperature is higher than the set temperature

The central processor control module controls the refrigerator refrigeration system to pause.

When in use

Then, the central processor control module respectively calculates the historical Ni of the intelligent temperature sensor Ni in a certain period according to x pieces of historical data of each intelligent temperature sensor with the most similar time to the currently acquired temperature data _T Curve F (Ni) _x )，Ni _x ＝Ni _T-x 、Ni _T-(x-1) 、Ni _T-(x-2) 、……、Ni _T-(x-x) And history of all intelligent temperature sensing Ni _T Curve F (Ni) _x ) Before making the comparison, each intelligence was monitoredWhether the data of the temperature sensor is normal or not.

When the temperature is higher than the set temperature

When any Ni is present _T More than or equal to T + T becomes the temperature comparison result of the central processor control module in the data acquisition period O of the intelligent temperature sensor acquisition module, and Ni is _T The central processing unit control module controls the alarm module to give an alarm to prompt a user that the temperature of a certain area of a certain box body in the refrigerator is out of control. If this Ni is present _T For different intelligent temperature sensors, the CPU control module judges that a high-temperature article is newly added to a certain box body of the refrigerator, temporarily suspends the work of a refrigeration system of the refrigerator, and waits for

And the situation occurs and a corresponding countermeasure is taken.

If any T + T > Ni _T If the temperature is more than T-T, the central processing unit control module judges that the temperature in the refrigerator is normal at the moment. The central processing unit control module is used for sensing all the history Ni of the intelligent temperature _T Curve F (Ni) _x ) Amplitude comparison is carried out, if all curves integrally go upward, the central processing unit control module calculates all curves F (Ni) _x ) The reasonable uplink amplitude rate is set to be H ℃/min, and any curve F (Ni) _x ) If curve F (Ni) is equal to Hi _x ) If the ascending amplitude rate Hi is larger than H, the central processor control module judges that high-temperature articles are newly added in the refrigerator. If curve F (Ni) _x ) The uplink amplitude rate Hi is higher than H and is continuously changed into a temperature curve F (Ni) of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module _x ) And if the comparison result is obtained, the central processing unit control module controls the alarm module to give an alarm to prompt a user that the temperature loss of one box body in the refrigerator is abnormal, and the user is asked to check and detect at the first time. If curve F (Ni) _x ) And the ascending amplitude rate Hi is less than or equal to H, the central processor control module judges that the internal temperature of the refrigerator is normal at the moment.

In run mode power supplyUnder the electricity mode, when the state mode is refrigerator door open state mode, central processing unit control module pauses refrigerator refrigerating system's work, only controls intelligent temperature sensor collection module's data acquisition cycle, and the acquisition cycle is once for B seconds, and central processing unit control module judges that the result is the Ni of gathering all intelligent temperature sensor by intelligent temperature sensor collection module _T The current average temperature of a certain box body in the refrigerator is compared with the set temperature T of the user, namely,

and is provided with

Or the opening time of the refrigerator door exceeds S seconds, and S is a positive integer.

The central processor control module controls the alarm module to give an alarm to prompt a user that the refrigerator door is opened for too long time and the temperature loss of a certain box body in the refrigerator is too large.

Under the battery power supply mode of the operation mode, when the state mode is a refrigerator door closed state mode, the emergency battery unit judges that the refrigerator is in a power-off state at present, the standby battery is started to carry out emergency power supply on all module devices of the intelligent temperature acquisition monitoring and calibrating system of the refrigerator, and the central processor control module is informed, the central processor control module judges that the power supply of the refrigerator is powered off at the moment, the refrigerator refrigerating system cannot be started to work, and each module is controlled to work in a power-saving mode, namely, the data acquisition period of the intelligent temperature sensor acquisition module controlled by the intelligent temperature sensor acquisition module is prolonged to be once every A + B seconds, if the curve F (Ni) is generated at the moment (Ni is generated when the data acquisition period of the intelligent temperature sensor acquisition module is controlled by the intelligent temperature sensor acquisition module is prolonged to be once every A + B seconds) _x ) The uplink amplitude rate Hi is higher than H and is continuously changed into a temperature curve F (Ni) of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module _x ) And if the comparison result is obtained, the central processing unit control module controls the alarm module to give an alarm to prompt a user that the temperature loss of one box body in the refrigerator is abnormal, and the user is asked to check the refrigerator sealing at the first time. Ruqu musical instrumentWire F (Ni) _x ) The ascending amplitude rate Hi is less than or equal to H, the central processor control module judges that the refrigerator is normally sealed at the moment, and the temperature of a certain box body in the refrigerator is normal.

Under the battery power supply mode of the operation mode, when the state mode is the refrigerator door opening state mode, the central processing unit control module controls the intelligent temperature sensor acquisition module to control the data acquisition period of the intelligent temperature sensor acquisition module to be prolonged to A seconds for one time, and the central processing unit control module judges that the result is Ni acquired by the intelligent temperature sensor acquisition module to all the intelligent temperature sensors _T The calculated value is compared with the current average temperature of a certain box body in the refrigerator with the set temperature T of the user, namely,

and is provided with

Or the opening time of the refrigerator door exceeds

Second, S is a positive integer.

The central processing unit control module controls the alarm module to give an alarm to prompt a user that the opening time of the refrigerator door is too long and the temperature loss of a certain box body in the refrigerator is too large.

If the central processing unit control module determines that the refrigerator door opening state mode is just switched to the refrigerator door closing state mode, the central processing unit control module controls the data acquisition period of the intelligent temperature sensor acquisition module to be adjusted from the current period O seconds to O seconds once

Once per second, the central processing unit control module controls the data acquisition period of the intelligent temperature sensor acquisition module according to the loss ratio of the average value of the measured temperature data to the set temperature T

The total acquisition time of one second and the working strength of a refrigeration system of the refrigerator are set to be J larger than K, and J and K are positive integers.

If it is

The central processor control module controls the data acquisition period of the intelligent temperature sensor acquisition module

The total acquisition time of one second is J multiplied by O seconds, and the high-power work of a refrigerator refrigerating system is controlled, namely, the high-density long-time acquisition and detection temperature and the high-power refrigeration are carried out.

If it is

The total acquisition time of one second is K multiplied by O seconds, and the low-power operation of the refrigerator refrigerating system is controlled, namely, the high-density short-time acquisition detection temperature and the low-power refrigeration are carried out.

If it is

The total acquisition time of one second is O seconds, and the low-power operation of the refrigerator refrigerating system is controlled, namely the low-density short-time acquisition detection temperature and the low-power refrigeration are carried out.

The temperature data storage unit stores historical temperature values Ni corresponding to all intelligent temperature sensors, wherein the historical temperature values Ni are generated by historical temperature data detected by any intelligent temperature sensor and do not have alarm prompts before and after door opening _T ' andtemperature history curve F (Ni) _x ) ', and recording the relative time point of each data, the central processor control module will history temperature value Ni every 24h _T ' and historical temperature Curve F (Ni) _x ) ' with the current temperature value Ni _T And temperature curve F (Ni) _x ) Comparing the temperature difference and setting the temperature value Ni _T And Ni _T A reasonable difference of' is Ni _T ^D Setting the temperature curve F (Ni) _x ) And F (Ni) _x ) A reasonable difference of' is F (Ni) _x ) ^D When the average value of the temperature of a certain box body in the refrigerator is in a normal state, the central processing unit control module compares the historical temperature value, the historical temperature curve, the current temperature value and the temperature difference value of the current historical temperature curve with the reasonable difference value, and judges whether the intelligent temperature sensor possibly breaks down at present. Let U be a positive integer.

When the relative time points coincide, ni _T -Ni _T ′＞Ni _T ^D And the temperature out-of-tolerance ratio

And when the temperature sensor is in failure, the central processing unit control module judges that the same Ni temperature sensor is likely to be in failure or the refrigerator shell is likely to be in failure, and informs the alarm module to give an alarm to prompt a user that a certain temperature sensor is likely to be in failure.

When the relative time points are consistent, ni _T -Ni _T ′＞Ni _T ^D And temperature out-of-tolerance ratio

And if so, the central processor control module judges that the same Ni temperature sensor does not have a fault or the tightness of the refrigerator shell does not have a problem.

When the relative time points are consistent, ni _T -Ni _T ′≤Ni _T ^D And then the central processor control module judges that the same Ni temperature sensor does not have a fault or the tightness of the refrigerator shell does not have a problem.

When the relative time points agree, F (Nix) -F (Nix)' > F (Ni) _x ) ^D And temperature out-of-tolerance ratio

When the relative time points agree, F (Nix) -F (Nix)' > F (Ni) _x ) ^D And the temperature out-of-tolerance ratio

When the relative time points coincide, F (Nix) -F (Nix)'. Ltoreq.F (Ni) _x ) ^D And if so, the central processor control module judges that the same Ni temperature sensor does not have a fault or the tightness of the refrigerator shell does not have a problem.

The external display unit is arranged outside the refrigerator shell, the external display unit is provided with a liquid crystal touch panel and a liquid crystal display screen, the liquid crystal touch panel is provided with a plurality of blocks which respectively display different box body temperatures, different box bodies comprise but not limited to a box body A, a box body B and a box body C, the temperature of different box bodies in the refrigerator can be manually adjusted by a user according to actual requirements, the initial temperature is respectively set to be 0 ℃, the liquid crystal display screen is used for displaying the temperature state of a certain box body in the refrigerator at present, and the temperature state displayed by the box body with the problem in the alarm state flickers and gives out alarm sound.

Compared with the prior art, the invention has the advantages that the central processing unit control module detects the temperatures of different positions by using the N intelligent temperature sensors of each box body, judges the current temperature and the preset temperature loss value one by using the detected temperature data of different positions and judges the working mode of a certain box body in the current state in the current refrigerator one by one in a sequence, wherein the working mode comprises but is not limited to changing the period of collecting temperature data by the intelligent temperature sensors and changing the working power of a refrigerating system of the refrigerator.

The temperature of a certain box body in the refrigerator is more accurate and controllable, and the temperature from the surface to the body can be ensured in the temperature calibration process from the point to the surface.

The central processor control module judges whether a certain intelligent temperature sensor is in an abnormal working state or whether the refrigerator shell is in a problem or not by utilizing the historical temperature over-differential ratio and the relative time point.

The refrigerator is more intelligent, low in demand, low in energy consumption and high in demand and energy efficiency, adjustment can be better made at any time according to the current state of a certain box body in the refrigerator, the current problems can be simply judged, a user is informed to contact a manufacturer to maintain as soon as possible, and the service life of the refrigerator is prolonged.

Drawings

FIG. 1 is a schematic connection diagram of an intelligent monitoring and calibrating system for refrigerator temperature acquisition according to the present invention;

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1, the present invention provides an intelligent monitoring and calibrating system for collecting refrigerator temperature, comprising,

The intelligent temperature sensor acquisition module is used for setting intelligent real-time low-temperature-resistant temperature sensors with corresponding quantity according to the size of the internal space of the refrigerator, acquiring current temperature data of multiple batches and sending the current temperature data to the central processor control module.

The refrigerator comprises an external display unit, wherein a liquid crystal touch panel and a liquid crystal display screen are arranged outside a refrigerator shell, the liquid crystal touch panel is used for setting the temperature inside the refrigerator according to the actual requirement of a user, and the liquid crystal display screen is used for displaying the current temperature state and the temporary state information of the refrigerator.

wherein A is more than B, and A and B are positive integers.

The method is characterized in that N intelligent temperature sensors are arranged in a certain box body in the refrigerator according to the arrangement density of cubic decimeters, and at least N intelligent temperature sensors are guaranteed to be arranged in each cubic meter, wherein the total number of the intelligent temperature sensors in the certain box body in the refrigerator is N, and the names of the intelligent temperature sensors are a first temperature sensor N1, a second temperature sensor N2, a third temperature sensor N3, a speed of 8230, an nth temperature sensor Nn and a positive number.

For the ith temperature sensor Ni, at the temperature T set by the user, the historical temperature data stored by the temperature data storage unit is Ni ₁ 、Ni ₂ 、Ni ₃ 、……、Ni _T-1 、Ni _T ，Ni _T The data is Ni current temperature data, and T is the number of historical temperature data.

The current average temperature of a certain box body in the refrigerator is

When in use

The central processor control module controls the low-power operation of the refrigeration system of the refrigerator when any Ni works _T When the temperature is less than or equal to T-T, the central processor control module controls the refrigeration system of the refrigerator to pause working, and when any Ni exists _T Continuously forming the central processor control module pair by three times of T-T or lessThe central processing unit control module controls the alarm module to give an alarm according to the temperature comparison result in the data acquisition period of the temperature sensor acquisition module, and the temperature of a certain area of a certain box body in the refrigerator is judged to be out of control at the moment.

When in use

When the temperature is higher than the set temperature

Then, the central processor control module respectively calculates the historical Ni of the intelligent temperature sensor Ni in a certain period according to x pieces of historical data of each intelligent temperature sensor with the most similar time to the currently acquired temperature data _T Curve F (Ni) _x )，Ni _x ＝Ni _T-x 、Ni _T-(x-1) 、Ni _T-(x-2) 、……、Ni _T-(x-x) And history Ni of all intelligent temperature sensing _T Curve F (Ni) _x ) Before comparison, whether the data of each intelligent temperature sensor is normal or not is monitored.

If any Ni _T More than or equal to T + T becomes the temperature comparison result of the central processor control module in the data acquisition period O of the intelligent temperature sensor acquisition module, and Ni is _T The central processing unit control module controls the alarm module to give an alarm to prompt a user that the temperature of a certain area of a certain box body in the refrigerator is out of control. If this Ni is present _T If the temperature sensors are different intelligent temperature sensors, the CPU control module judges that a high-temperature object is newly added in a certain box body of the refrigerator, temporarily suspends the work of a refrigeration system of the refrigerator, and waits for

And the situation occurs and a corresponding countermeasure is taken.

If any T + T > Ni _T If the temperature is more than T-T, the central processing unit control module judges that the temperature in the refrigerator is normal at the moment. The control module of the central processing unit transmits all the intelligent temperaturesHistory of feeling Ni _T Curve F (Ni) _x ) Amplitude comparison is carried out, and if all curves integrally go upward, the central processing unit control module calculates all curves F (Ni) _x ) The reasonable uplink amplitude rate is set to be H ℃/min, and any curve F (Ni) _x ) If curve F (Ni) is equal to Hi _x ) If the ascending amplitude rate Hi is larger than H, the central processor control module judges that high-temperature articles are newly added in the refrigerator. If curve F (Ni) _x ) The uplink amplitude rate Hi is higher than H and is continuously changed into a temperature curve F (Ni) of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module _x ) And if the comparison result is obtained, the central processing unit control module controls the alarm module to give an alarm to prompt a user that the temperature loss of one box body in the refrigerator is abnormal, and the user is asked to check and detect at the first time. If curve F (Ni) _x ) And the ascending amplitude rate Hi is less than or equal to H, the central processor control module judges that the internal temperature of the refrigerator is normal at the moment.

Under the power supply mode of the running mode, when the state mode is the refrigerator door opening state mode, the central processing unit control module pauses the work of the refrigerator refrigerating system, only controls the data acquisition period of the intelligent temperature sensor acquisition module, the acquisition period is once every B seconds, and the judgment result of the central processing unit control module is Ni acquired by the intelligent temperature sensor acquisition module to obtain all the intelligent temperature sensors _T The current average temperature of a certain box body in the refrigerator is compared with the set temperature T of the user, namely,

and is

Under the battery power supply mode of the operation mode, when the state mode is a refrigerator door closed state mode, the emergency battery unit judges that the refrigerator is in a power-off state at present, the standby battery is started to carry out emergency power supply on all module devices of the intelligent temperature acquisition monitoring and calibrating system of the refrigerator, and the central processor control module is informed, the central processor control module judges that the power supply of the refrigerator is powered off at the moment, the refrigerator refrigerating system cannot be started to work, and each module is controlled to work in a power-saving mode, namely, the data acquisition period of the intelligent temperature sensor acquisition module controlled by the intelligent temperature sensor acquisition module is prolonged to be once every A + B seconds, if the curve F (Ni) is generated at the moment (Ni is generated when the data acquisition period of the intelligent temperature sensor acquisition module is controlled by the intelligent temperature sensor acquisition module is prolonged to be once every A + B seconds) _x ) The uplink amplitude rate Hi is more than H and becomes a temperature curve F (Ni) of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module _x ) And if the comparison result is positive, the central processor control module controls the alarm module to give an alarm to prompt a user that the temperature loss of one box body in the refrigerator is abnormal, and the user is asked to check the refrigerator seal at the first time. If curve F (Ni) _x ) And the uplink amplitude rate Hi is less than or equal to H, the central processor control module judges that the refrigerator is normally sealed at the moment, and the temperature of a certain box body in the refrigerator is normal.

Under the battery power supply mode of the operation mode, when the state mode is the refrigerator door opening state mode, the central processing unit control module controls the intelligent temperature sensor acquisition module to control the data acquisition period of the intelligent temperature sensor acquisition module to be prolonged to A seconds for one time, and the central processing unit control module judges that the result is Ni acquired by the intelligent temperature sensor acquisition module to all intelligent temperature sensors _T The current average temperature of a certain box body in the refrigerator is compared with the set temperature T of the user, namely,

and is

Or the opening time of the refrigerator door exceeds

Second, S is a positive integer.

If it is

The total acquisition time of one second is J multiplied by O seconds, and the high-power work of the refrigerator refrigerating system is controlled, namely, the high-density long-time acquisition and detection temperature and the high-power refrigeration are carried out.

If it is

The total acquisition time of one second is K multiplied by O seconds, and the refrigerator refrigerating system is controlled to work at low power, namely, the temperature is acquired and detected at high density for short time, and the refrigerating is carried out at low power.

If it is

The temperature data storage unit stores historical temperature values Ni corresponding to all intelligent temperature sensors, wherein the historical temperature values Ni are generated by historical temperature data detected by any intelligent temperature sensor and do not have alarm prompts before and after door opening _T ' and historical temperature Curve F (Ni) _x ) ', and recording the relative time point of each data, the central processor control module will history temperature value Ni every 24h _T ' and historical temperature Curve F (Ni) _x ) ' with the current temperature value Ni _T And temperature curve F (Ni) _x ) Comparing the temperature difference and setting the temperature value Ni _T And Ni _T A reasonable difference of' is Ni _T ^D Setting the temperature curve F (Ni) _x ) And F (Ni) _x ) A reasonable difference of' is F (Ni) _x ) ^D When the average value of the temperature of a certain box body in the refrigerator is in a normal state, the central processor control module compares the historical temperature value, the historical temperature curve, the current temperature value and the temperature difference value of the current historical temperature curve with the reasonable difference value, and judges whether the intelligent temperature sensor possibly breaks down at present. Let U be a positive integer.

When the relative time points are consistent, ni _T -Ni _T ′＞Ni _T ^D And the temperature out-of-tolerance ratio

When it is in, thenThe central processor control module judges that the same Ni temperature sensor possibly fails or the tightness of the refrigerator shell possibly fails, and informs the alarm module to give an alarm to prompt a user that a certain temperature sensor possibly fails.

When the relative time points are consistent, ni _T -Ni _T ′≤Ni _T ^D And if so, the central processor control module judges that the same Ni temperature sensor does not have a fault or the tightness of the refrigerator shell does not have a problem.

And then the central processor control module judges that the same Ni temperature sensor does not have a fault or the tightness of the refrigerator shell does not have a problem.

Compared with the prior art, the invention has the advantages that the N intelligent temperature sensors of each box body are used for detecting the temperatures of different positions, the central processor control module judges the current temperature and the preset temperature loss value one by one and one by a plurality of rows by utilizing the detected temperature data of different positions so as to judge the working mode of a certain box body in the current state in the current refrigerator, and the working mode comprises but is not limited to changing the period of the temperature data collected by the intelligent temperature sensors and changing the working power of a refrigerating system of the refrigerator.

The temperature of a certain box body in the refrigerator is more accurate and controllable, namely from point to surface and from surface to body.

The refrigerator is more intelligent, low in demand, low in energy consumption, high in demand and high in energy efficiency, adjustment can be made at any time according to the current state of a certain box body in the refrigerator, the current problems can be simply judged, a user is informed to contact a manufacturer to maintain as soon as possible, and the service life of the refrigerator is prolonged.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can be within the protection scope of the invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The invention provides an intelligent monitoring and calibrating system for refrigerator temperature acquisition, which is characterized by comprising,

the temperature data storage unit is used for storing historical temperature data;

the intelligent temperature sensor acquisition module is connected with the temperature data storage unit and consists of a plurality of low-temperature-resistant intelligent temperature sensors, and the number of the low-temperature-resistant intelligent temperature sensors is determined by the size of a certain box body space in the refrigerator;

the fault detection module is connected with the temperature data storage unit and used for detecting the working state of each low-temperature-resistant intelligent temperature sensor;

the alarm module is connected with the fault detection module and used for sending an alarm to prompt the real-time state of the refrigerator;

the external display unit is connected with the alarm module, arranged outside the refrigerator shell and provided with a liquid crystal touch panel and a liquid crystal display screen for displaying current temperature information;

the emergency battery unit is connected with the intelligent temperature sensor acquisition module, the external display unit, the alarm module, the fault detection module and the temperature data storage unit, is arranged at a refrigerator power supply, is provided with a current sensor and a voltage sensor and is used for monitoring whether the refrigerator power supply is electrified or not;

the central processor control module is connected with the temperature data storage unit, the emergency battery unit, the fault detection module, the alarm module and the external display unit, and is used for coordinating the mutual work of other modules, receiving the information fed back by other modules in real time and commanding the work of other modules or units according to an intelligent judgment result;

the central processor control module is connected with a refrigerator refrigerating system;

the central processor control module is internally provided with two operation modes, namely a power supply mode and a battery supply mode, wherein the two operation modes respectively have two state modes, namely a refrigerator door closing state mode and a refrigerator door opening state mode;

the central processor control module judges that the intelligent temperature sensor acquisition module carries out comparison analysis and judgment on temperature data of different positions detected by a plurality of intelligent temperature sensors of each box body in a certain current running state according to four running states respectively corresponding to two running modes and two state modes, and obtains a corresponding processing method according to comparison analysis and judgment results;

the central processing unit control module is internally provided with a power supply mode, a battery power supply mode, a refrigerator door closing state mode and a refrigerator door opening state mode, and the data acquisition periods corresponding to different power supply modes and different state modes are different;

under the power supply mode of the running mode and when the state mode is the refrigerator door closing state mode, the central processor control module controls the data acquisition cycle of the intelligent temperature sensor acquisition module to be once every A seconds,

under the power supply mode of the running mode, when the state mode is the refrigerator door opening state mode, the central processor control module controls the data acquisition period of the intelligent temperature sensor acquisition module to be once every B seconds,

under the battery power supply mode of the operation mode and when the state mode is the refrigerator door closed state mode, the central processor control module controls the data acquisition cycle of the intelligent temperature sensor acquisition module to be once every A + B seconds,

wherein, A is more than B, and A and B are positive integers;

when the power supply running mode is in a certain state mode, the acquisition period is once every O seconds, wherein O is one of A, B and A + B;

n low-temperature-resistant intelligent temperature sensors are arranged in a certain box body in the refrigerator, and the name of each low-temperature-resistant intelligent temperature sensor is a first temperature sensor N1, a second temperature sensor N2, a third temperature sensor N3, 8230, and an nth temperature sensor Nn, N is a positive integer;

for the ith temperature sensor Ni, when the set temperature is T, the historical temperature data stored by the temperature data storage unit is Ni ₁ 、Ni ₂ 、Ni ₃ 、……、Ni _T-1 、Ni _T Wherein Ni _T The current temperature data of Ni, T is the number of historical temperature data, i =1, 2.. N;

the current average temperature of a certain box body in the refrigerator is

The central processor control module controls a refrigeration system of the refrigerator to work according to a set temperature T, the allowable deviation range of the temperature of a certain box body in the refrigerator is a set value T, and T is less than 1;

the central processor control module compares the current average temperature G with T + T and T-T to adjust the running state of the refrigerator;

the central processor control module makes corresponding judgment actions according to the current temperature in a power supply mode and a refrigerator door closing state mode;

under the power supply mode of the running mode power supply, when the state mode is the refrigerator door closing state mode, the central processing unit control module judges the work of each module and unit according to the comparison between the current average temperature value of a certain refrigerator body in the refrigerator and the current user set value T;

when G is larger than or equal to T + T, the central processor control module controls the low-power work of the refrigerator refrigerating system;

when G is greater than or equal to T + T, if any Ni exists _T When the temperature is less than or equal to T-T, the central processor control module controls the refrigerator refrigerating system to pause;

when G is greater than or equal to T + T, if any Ni exists _T Continuously obtaining the temperature comparison result of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module by the central processor control module for more than or equal to T-T three times, controlling the alarm module to give an alarm by the central processor control module, and judging that the temperature of a certain area of a certain box body in the refrigerator is out of control at the moment;

when G is less than or equal to T-T, the central processor control module controls the refrigerator refrigerating system to pause;

when T + T is more than G and more than T-T, the central processor control module respectively calculates the historical Ni of the intelligent temperature sensor Ni in a certain period according to x pieces of historical data of each intelligent temperature sensor, which have the closest time to the currently acquired temperature data _T Curve F (Ni) _x )，Ni _x ＝Ni _T-x 、Ni _T-(x-1) 、Ni _T-(x-2) 、……、Ni _T-(x-x) And history Ni of all low temperature resistant intelligent temperature sensors _T Curve F (Ni) _x ) Before comparison, monitoring whether the data of each low-temperature-resistant intelligent temperature sensor is normal;

when T + T > G > T-T, any Ni, if present _T More than or equal to T + T becomes the temperature comparison result of the central processor control module in the data acquisition period O of the intelligent temperature sensor acquisition module, and Ni is _T If the temperature sensors are the same intelligent temperature sensor, the central processing unit control module controls the alarm module to give an alarm to prompt a user that the temperature of a certain area of a certain box body in the refrigerator is out of control; if this Ni is _T If the temperature sensors are different intelligent temperature sensors, the central processor control module judges that a high-temperature article is newly added to a certain box body of the refrigerator, temporarily stops the work of a refrigerating system of the refrigerator, waits for the occurrence of the condition G which is more than or equal to T + T and takes corresponding counter measures;

when T + T > G > T-T, if any T + T > Ni _T If the temperature is higher than T-T, the central processor control module judges that the temperature in the refrigerator is normal at the moment;

when T + T > G > T-T, and T + T > Ni _T When more than T-T, thenThe central processor control module is used for sensing all the history Ni of the intelligent temperature _T Curve F (Ni) _x ) Amplitude comparison is carried out, if all curves integrally go upward, the central processing unit control module calculates all curves F (Ni) _x ) The reasonable uplink amplitude rate is set to be H, and any curve F (Ni) _x ) The uplink amplitude rate of (c) is Hi,

if curve F (Ni) _x ) If the uplink amplitude rate Hi is greater than H, the central processor control module judges that high-temperature articles are newly added to the refrigerator;

if curve F (Ni) _x ) The uplink amplitude rate Hi is more than H and becomes a temperature curve F (Ni) of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module _x ) If the comparison result is positive, the central processor control module controls the alarm module to give an alarm to prompt a user that the temperature loss of one box body in the refrigerator is abnormal, and the user needs to check and detect the temperature loss at the first time;

if curve F (Ni) _x ) If the uplink amplitude rate Hi is less than or equal to H, the central processor control module judges that the internal temperature of the refrigerator is normal at the moment;

the central processor control module makes corresponding judgment actions according to the current temperature in a power supply mode of an operation mode and an opening state mode of a refrigerator door;

in the power supply mode of the running mode, when the state mode is the refrigerator door opening state mode, the central processing unit control module suspends the work of a refrigerator refrigerating system, only controls the data acquisition period of the intelligent temperature sensor acquisition module, the acquisition period is once every B seconds, and when the central processing unit control module judges that the result is Ni acquired by the intelligent temperature sensor acquisition module to all the intelligent temperature sensors _T Comparing the calculated current average temperature of a certain box body in the refrigerator with the set temperature T of a user, namely G is more than T, and

or the opening time of the refrigerator door exceeds S seconds, wherein S is a positive integer;

the central processor control module controls the alarm module to give an alarm;

the central processor control module makes corresponding judgment corresponding actions according to the current temperature in a battery power supply mode and a refrigerator door closing state mode;

in the battery power supply mode of the operation mode, when the state mode is a refrigerator door closed state mode, the emergency battery unit judges that the refrigerator is in a power-off state at present, a standby battery is started to supply power to all module devices of the intelligent temperature acquisition monitoring and calibrating system of the refrigerator in an emergency mode, and the central processor control module is informed, judges that the power supply of the refrigerator is powered off at the moment, the refrigerating system of the refrigerator cannot be started to work, and controls all the modules to work in a power-saving mode, namely the intelligent temperature sensor acquisition module controls the data acquisition cycle of the intelligent temperature sensor acquisition module to be prolonged to one time of A + B seconds;

the central processor control module is used for sensing all the history Ni of the intelligent temperature _T Curve F (Ni) _x ) Amplitude comparison is carried out, if all curves integrally go upward, the central processing unit control module calculates all curves F (Ni) _x ) The reasonable uplink amplitude rate is set to be H, and any curve F (Ni) _x ) Is Hi, the uplink amplitude rate of (c) is,

if the curve F (Ni) is present _x ) The uplink amplitude rate Hi is more than H and becomes a temperature curve F (Ni) of the central processor control module in the data acquisition period of the intelligent temperature sensor acquisition module _x ) If the comparison result is positive, the central processor control module controls the alarm module to give an alarm, the temperature loss of one box body in the refrigerator is abnormal, and the refrigerator sealing needs to be detected;

if curve F (Ni) _x ) If the uplink amplitude rate Hi is less than or equal to H, the central processor control module judges that the refrigerator is normally sealed at the moment and the temperature of a certain box body in the refrigerator is normal;

the central processor control module makes corresponding judgment corresponding actions according to the current temperature in a battery power supply mode and a refrigerator door opening state mode;

under the battery power supply mode in the operation mode, when the state mode is the refrigerator door opening state mode, the central processing unit control module controls the intelligent temperature sensor acquisition module to control the data acquisition period of the intelligent temperature sensor acquisition module to be prolonged to A seconds for once, and when the central processing unit control module judges that the result is that the Ni of all intelligent temperature sensors is acquired by the intelligent temperature sensor acquisition module _T Comparing the calculated current average temperature of a certain box body in the refrigerator with the set temperature T of a user, namely G is more than T, and

or the opening time of the refrigerator door exceeds

Second, S is a positive integer,

the central processing unit control module controls the alarm module to give an alarm.

2. The intelligent monitoring and calibration system for the refrigerator temperature acquisition according to claim 1, wherein the central processor control module makes corresponding actions corresponding to corresponding determinations according to the current temperature under the condition that different operation modes and different state modes are switched with each other;

if the central processing unit control module determines that the refrigerator door opening state mode is just switched to the refrigerator door closing state mode, the central processing unit control module controls the data acquisition period of the intelligent temperature sensor acquisition module to be adjusted from the current period O seconds to the current period O seconds once

Once every second, the central processing unit control module controls the data acquisition period of the intelligent temperature sensor acquisition module according to the loss ratio of the average value of the measured temperature data to the set temperature T

Setting J to be more than K, wherein J and K are positive integers;

if it is

The total acquisition time of one second is J multiplied by O seconds, and the high-power work of a refrigerator refrigerating system is controlled, namely, the high-density long-time acquisition detection temperature and the high-power refrigeration are carried out;

if it is

The total acquisition time of one second is K multiplied by O seconds, and a refrigerator refrigerating system is controlled to work at low power, namely, the temperature is acquired and detected at high density for short time, and the refrigerating is carried out at low power;

if it is

The total acquisition time of one second is O seconds, and the refrigerator refrigerating system is controlled to work at low power, namely, the temperature is acquired and detected at low density for short time, and the refrigerating is carried out at low power.

3. The intelligent refrigerator temperature collection monitoring and calibrating system as claimed in claim 1, wherein a comparison value of historical temperature data stored in the temperature data storage unit and current temperature data is used to determine whether the current intelligent temperature sensor or the refrigerator shell has a problem in sealing performance,

the temperature data storage unit stores all historical temperature data generated by historical temperature data detected by any intelligent temperature sensor and corresponding to historical temperature value Ni of each intelligent temperature sensor, wherein the alarm prompt does not appear before and after the door is opened _T ' and historical temperature Curve F (Ni) _x ) ', and recording the relative time point of each data, the central processor control module will record the historical temperature value Ni every 24h _T ' and historical temperature Curve F (Ni) _x ) ' with the current temperature value Ni _T And temperature curve F (Ni) _x ) Comparing the temperature difference and setting the temperature value Ni _T And Ni _T A reasonable difference of' is Ni _T ^D Setting the temperature curve F (Ni) _x ) And F (Ni) _x ) A reasonable difference of' is F (Ni) _x ) ^D When the average value of the temperature of a certain box body in the refrigerator is in a normal state, the central processor control module compares the historical temperature value, the historical temperature curve, the current temperature value and the temperature difference value of the current historical temperature curve with the reasonable difference value, judges whether the intelligent temperature sensor possibly fails at present, and sets U as a positive integer.

4. The intelligent refrigerator temperature acquisition monitoring and calibration system of claim 3, comprising a method for judging whether the current intelligent temperature sensor or the refrigerator shell has a problem in tightness by the central processor control module according to a comparison value of historical temperature data stored in the temperature data storage unit and current temperature data;

When the temperature sensor is in failure, the central processing unit control module judges that the same Ni temperature sensor is likely to fail or the refrigerator shell is sealedProblems may occur, and the alarm module is informed to give an alarm to prompt a user that a certain temperature sensor may have faults;

If so, the central processing unit control module judges that the same Ni temperature sensor does not have a fault or the refrigerator shell has no problem in sealing performance;

when the relative time points coincide, ni _T -Ni _T ′≤Ni _T ^D If so, the central processing unit control module judges that the same Ni temperature sensor does not have a fault or the refrigerator shell has no problem in sealing performance;

When the temperature sensor is in a normal state, the central processing unit control module judges that the same Ni temperature sensor possibly fails or the refrigerator shell is possibly in a problem of sealing performance, and informs the alarm module of giving an alarm;

when the relative time points coincide, F (Nix) -F (Nix)'. Ltoreq.F (Ni) _x ) ^D And when the temperature sensor is detected to be in a fault state, the central processing unit control module judges that the same Ni temperature sensor is not in fault state or the refrigerator shell is not in problem of tightness.

5. The intelligent monitoring and calibration system for refrigerator temperature collection according to claim 1,

the external display unit is arranged outside the refrigerator shell, the external display unit is provided with a liquid crystal touch panel and a liquid crystal display screen, the liquid crystal touch panel is provided with a plurality of blocks which respectively display different box body temperatures, different box bodies comprise but not limited to a box body A, a box body B and a box body C, the different box body temperatures inside the refrigerator are adjusted according to actual requirements, the initial temperatures are respectively set to be 0 ℃, the liquid crystal display screen is used for displaying the temperature state of a certain box body inside the refrigerator at present, and the temperature state displayed by a certain problem box body flickers under an alarm state and gives out alarm sound.