CN111653850B

CN111653850B - Battery temperature adjusting method

Info

Publication number: CN111653850B
Application number: CN202010576741.XA
Authority: CN
Inventors: 周礼信
Original assignee: Pingxiang Ibo Intelligent Technology Co ltd
Current assignee: Pingxiang Ibo Intelligent Technology Co ltd
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2022-02-15
Anticipated expiration: 2040-06-22
Also published as: CN111653850A

Abstract

The invention provides a battery temperature regulating circuit and a regulating system, which comprise the following components: step S4: collecting battery temperature parameters; step S5: transmitting the battery temperature parameter to a control device; step S6: judging whether the battery temperature parameter is greater than a preset threshold value or not; step S7: if the battery temperature parameter is larger than or equal to a first threshold value, refrigerating the battery; if the battery temperature parameter is less than or equal to a second threshold value, heating the battery; if the battery temperature parameter is smaller than the first threshold value and larger than the second threshold value, the temperature adjusting device does not operate. The battery temperature adjusting system automatically adjusts the temperature of the battery, so that the battery is in the optimal running state for a long time, the service life of the battery is prolonged, and the condition that the battery is abnormally shut down and cannot be started is avoided.

Description

Battery temperature adjusting method

Technical Field

The invention relates to the field of batteries, in particular to a battery temperature adjusting method.

Background

With the rapid development of communication technology and terminal technology, mobile terminals such as mobile phones and tablet computers have increasingly powerful functions, which become important components in life of people.

The normal power supply of the battery is the basis of normal work of the mobile terminal, however, the working temperature of the battery is 0-40 ℃, and when the external environment temperature is very low, the activity of the battery can be reduced, so that the electric quantity of the battery is consumed very fast, and in severe cases, the mobile terminal is automatically shut down, so that the normal work requirement of the terminal cannot be met, and the user experience is poor.

Disclosure of Invention

In view of the above problems, the present invention is directed to solving the above-described problems. An object of the present invention is to provide a battery temperature adjusting method and an adjusting system thereof, which solve the above problems, and ensure that the battery is in a normal state when the external environment temperature is low by adjusting the temperature of the battery.

A battery temperature adjusting method comprises the following specific steps:

step S4: collecting battery temperature parameters;

step S5: transmitting the battery temperature parameter to a control device;

step S6: judging whether the battery temperature parameter is greater than a preset threshold value or not;

step S7:

if the battery temperature parameter is larger than or equal to the first threshold value, refrigerating the battery;

if the battery temperature parameter is less than or equal to a second threshold value, heating the battery;

if the battery temperature parameter is less than the first threshold value and greater than the second threshold value, the temperature regulating device does not operate.

Preferably, before collecting the battery temperature parameter, the method further comprises step S3:

the control device calls user behavior information;

judging the user behavior time period in which the user behavior information calling time is positioned;

if the battery is in the working behavior time period, the temperature adjusting device is turned on, and the battery temperature parameter acquisition device is in a preparation stage;

and if the battery is in the standby behavior time period, the temperature adjusting device is turned off, and the battery temperature parameter acquisition device is turned off.

Preferably, before the controlling device invokes the user behavior information, the method further includes step S2:

collecting user behavior information;

analyzing a user behavior time period corresponding to the user behavior information;

and storing the analysis result information into a storage device.

Preferably, analyzing the user behavior information for the corresponding user behavior time period includes:

analyzing the collected user behavior information within 24 continuous hours;

judging the user behavior time period in which the collected user behavior information is positioned;

if the power supply time of the battery in the time interval of 0.5 hour is more than or equal to 20 minutes, recording the 0.5 hour into the working behavior time period;

if the battery is powered for less than 10 minutes in a 0.5 hour time interval, the 0.5 hour is recorded as the standby behavior time period.

analyzing the collected user behavior information in N continuous natural days, wherein N is a natural number more than 6;

if the power supply time of the battery in the time interval of 0.5 hour is more than or equal to 20 minutes, recording the 0.5 hour into the time period of the pending work behavior;

if the power supply time of the battery in the time interval of 0.5 hour is less than 10 minutes, recording the 0.5 hour into the time period of pending standby behaviors;

counting the same time interval in N natural days, recording the frequency of the time period of the undetermined working behavior, and recording the time interval with the repetition frequency being greater than N-4 into the time period of the working behavior if the repetition frequency is greater than N-4, wherein the time interval is 0.5 hour;

counting the same time interval in N natural days, recording the time number of the time period of the pending standby behavior, and recording the time interval with the repetition number being more than N-4 into the time period of the standby behavior if the repetition number is more than N-4, wherein the time interval is 0.5 hour.

Preferably, before the controlling device invokes the user behavior information, the method further includes step S1:

the control device calls a second timing time of the battery;

judging whether the second timing time is greater than or equal to a preset running time or not;

if the preset running time is greater than or equal to the preset running time:

s100: clearing user behavior information in the storage device;

s200: executing step S2 within the first timing time of the battery;

s300: storing the user behavior information into the storage device again, and executing the steps S3, S4, S5, S6 and S7;

if the operation time is less than the preset operation time:

executing step S3, step S4, step S5, step S6, step S7;

the first timing time of the battery is 24 hours continuously or N continuous natural days, and the first timing time is used for storing user behavior information;

the second timing time of the battery is the time taken from the end of the first timing time of the battery to the calling of the second timing time action of the battery by the execution control device;

and presetting the running time, namely clearing the user behavior information time in the storage device for the regulation.

A conditioning system, comprising:

a battery;

the temperature sensor is arranged on the surface of the battery and used for sensing the surface temperature of the battery;

the control circuit is electrically connected with the temperature sensor and used for judging whether the temperature adjusting circuit is used for adjusting the temperature or not;

the refrigeration circuit is electrically connected with the control circuit and is used for refrigerating the battery;

and the heating circuit is electrically connected with the control circuit and is used for heating the battery.

Preferably, the regulation system comprises:

and the storage circuit is electrically connected with the control circuit and is used for storing the user behavior information.

Preferably, the regulation system comprises:

and the behavior acquisition circuit is electrically connected with the control circuit and is used for acquiring the behavior information of the user.

Preferably, the regulation system comprises:

the storage zero clearing circuit is electrically connected with the storage circuit and is used for zero clearing of information in the storage circuit;

the timing circuit is electrically connected with the control circuit and used for accumulating the running time of the battery;

and the time zero clearing circuit is electrically connected with the timing circuit and is used for clearing the timing circuit. The battery temperature adjusting method and the adjusting system thereof have the following technical effects:

1. the battery temperature adjusting method and the adjusting system thereof can automatically adjust the temperature of the battery, ensure that the temperature of the battery is in a reasonable range, enable the battery to be in an optimal running state for a long time, prolong the service life of the battery, and avoid the situation that the battery is abnormally shut down and cannot be started.

2. The battery temperature adjusting method and the adjusting system thereof comprise a user behavior calling circuit, the user behavior is collected and analyzed, and the user behavior and the temperature adjusting circuit are combined, so that the long-time operation of the battery temperature adjusting system is reduced, the loss of parts is reduced, and the service life of the system is prolonged.

3. The battery temperature adjusting method and the adjusting system thereof comprise a user behavior circuit, a user behavior circuit is called, the user behavior is collected and analyzed, the daily habits of a user are combined with the temperature adjusting circuit, the waiting time of the user is shortened, and the user can use the mobile terminal at any time.

Other characteristic features and advantages of the invention will become apparent from the following description of exemplary embodiments, which is to be read in connection with the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a block diagram schematically illustrating a battery temperature adjusting method according to the present invention;

FIG. 2 is a diagram illustrating an exemplary calling circuit structure of the present invention;

FIG. 3 is a circuit diagram illustrating an exemplary collection of user behavior according to the present invention;

FIG. 4 schematically illustrates the analyzing circuit of the present invention in FIG. 1;

FIG. 5 schematically illustrates the analyzing circuit of the present invention in FIG. 2;

FIG. 6 is a diagram illustrating an exemplary zero clearing circuit architecture of the present invention;

fig. 7 shows an exemplary embodiment of the regulating system according to the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

The basic idea of the battery temperature adjusting method and the adjusting system thereof is as follows: the battery supplies heat at low temperature through the regulating system, so that enough heat of the battery is ensured, and the battery is prevented from entering a dormant state.

The following describes the battery temperature adjusting method and the adjusting system thereof in detail with reference to the accompanying drawings.

A battery temperature adjustment method, as shown in fig. 1: the specific steps may include the following:

step S4: and collecting the temperature parameters of the battery.

Step S5: the battery temperature parameter is transmitted to the control device.

Step S6: and judging whether the battery temperature parameter is greater than a preset threshold value.

Step S7:

The first threshold value is 50 ℃, the second threshold value is 10 ℃, the value is an adjusting value, enough reaction time can be reserved for an adjusting system, critical adjustment in danger is avoided, and the stability and the safety of the system are improved.

Example 1

When the temperature sensor collects that the temperature of the battery is 51 ℃, the temperature information of 51 ℃ is transmitted to the control device, the control device receives the information, the judgment shows that the temperature of 51 ℃ is more than 50 ℃, and the battery is cooled through the regulating circuit.

Embodiment 2 when the temperature sensor collects that the battery temperature is 9 ℃, the 9 ℃ temperature information is transmitted to the control device, the control device receives the information, and the control device can know that the value is 9 ℃ and is less than 10 ℃ through judgment, and the battery is heated through the regulating circuit.

Example 3

When the temperature sensor collects that the temperature of the battery is 30 ℃, the temperature information of 30 ℃ is transmitted to the control device, the control device receives the information, and the judgment shows that the value of 30 ℃ is less than the first threshold value of 50 ℃ and greater than the second threshold value of 10 ℃, and at the moment, the regulating circuit does not operate.

Generally, the mobile terminal does not always work, and if the temperature adjusting circuit is executed for a long time, unnecessary power consumption is increased, and the service life of the zero device is affected. Therefore, after long-term thinking, the applicant may further include step S3 before collecting the battery temperature parameter:

the control device invokes the user behavior information.

And judging the user behavior time period in which the user behavior information calling time is positioned.

And if the battery is in the working behavior time period, the temperature adjusting device is turned on, and the battery temperature parameter acquisition device is in a preparation stage.

The using rule of the mobile terminal of the user is mastered by collecting the behavior of the user, the actual operating state of the mobile terminal is changed into controllable, and the applicant consults a large number of existing files before thinking about the execution program, and does not invent the same technology in the field of low-temperature rise of the mobile terminal, so that the technology is basically agreed and creative.

Meanwhile, it should be noted that the technical solutions generally conceivable by those skilled in the art are: the temperature raising procedure is performed simultaneously when the mobile terminal is in use, but it is noted that, at this time, the battery is already in a low temperature state, and a certain reaction time is required for raising the temperature of the battery.

Example 4

The control device calls user behavior information, the user is in a working behavior time period in the time period, at the time, the adjusting circuit is opened, and the temperature sensor collects the temperature of the battery.

Example 5

The control device calls the user behavior information, the user is in the standby behavior time period in the period everyday, at the time, the regulating circuit is closed, and the temperature sensor is closed.

Before the control device invokes the user behavior information, the method may further include step S2:

and collecting user behavior information.

And analyzing the user behavior time period corresponding to the user behavior information.

And storing the analysis result information into a storage device.

And storing the user behavior information into the storage device for later calling.

In practical use, analyzing the user behavior time period corresponding to the user behavior information may include:

analyzing the collected user behavior information within 24 continuous hours;

EXAMPLE 6 group

1) The battery power supply time is more than or equal to 20 minutes at 12 o 'clock, 30 o' clock to 13 o 'clock, 00 o' clock. And recording the 12 points, 30 points to 13 points, 00 points into the working behavior time period, and storing the information into a storage device.

2) At 19 o 'clock 30 min to 20 o' clock 00 min, the power supply time of the battery is more than or equal to 20 minutes. The 19 o 'clock 30 min-20 o' clock 00 min is recorded into the working behavior time period, and the information is stored into the storage device.

3) At point 06, 30 minutes to 07 points 00 minutes, the power supply time of the battery is more than or equal to 20 minutes. And recording the operation behavior time period from 06 points 30 to 07 points 00, and storing the information into a storage device.

EXAMPLE 7 group

1) At point 03, 30 minutes to point 04, 00 minutes, and less than 10 minutes when the battery is powered. The time of the standby behavior is recorded in the time period of 03 points 30 to 04 points 00, and the information is stored in the storage device.

2) At point 09, 30 minutes to 10 point 00 minutes, the battery is powered for less than 10 minutes. The time of the standby behavior is recorded in the time period of 03 points 30 to 04 points 00, and the information is stored in the storage device.

3) At 15 o 'clock 30 minutes to 16 o' clock 00 minutes, the time of battery power supply is less than 10 minutes. The time of the standby behavior is recorded in the time period of 03 points 30 to 04 points 00, and the information is stored in the storage device.

Meanwhile, the accuracy of user behavior analysis is improved.

Analyzing the user behavior information for the user behavior time period may further include:

EXAMPLE group 8

1) The counting unit is 7 natural days, the first day, the second day, the fourth day, the fifth day, the sixth day and the seventh day, 30 minutes to 13 minutes at 12 o' clock and 00 minutes, and the battery power supply time is more than or equal to 20 minutes.

On the third day, at 12 o 'clock 30 minutes to 13 o' clock 00 minutes, the battery power supply time is not more than 20 minutes.

And recording the 12 points, 30 points to 13 points, 00 points into the working behavior time period, and storing the information into a storage device.

2) The counting unit is 9 natural days, the first day, the second day, the fourth day, the fifth day and the sixth day, the seventh day and the eighth day are 20 o 'clock 30 minutes to 21 o' clock 00 minutes, and the battery power supply time is more than or equal to 20 minutes.

On the third day and the ninth day, the power supply time of the battery is not more than 20 minutes from 30 minutes at 20 o 'clock to 00 minutes at 21 o' clock.

And recording the 20 points, 30 points and 21 points, 00 points into the working behavior time period, and storing the information into a storage device.

EXAMPLE 9 group

1) The counting unit is 7 natural days, the first day, the second day, the fourth day, the fifth day and the seventh day, 30 minutes to 20 minutes at 19 points and 00 minutes at 20 points, and the battery power supply time is less than 10 minutes.

On the third day and the sixth day, at the time of 19 o 'clock, 30 minutes to 20 o' clock, 00 minutes, the battery power supply time is not less than 10 minutes.

The 19 o 'clock 30 min-20 o' clock 00 min is logged into the standby behavior time period, and the information is stored into the storage device.

2) The counting unit is 8 natural days, the first day, the second day, the fourth day, the fifth day and the seventh day, 30 minutes to 24 minutes at 23 points and 00 minutes at 24 points, and the battery power supply time is less than 10 minutes.

The power supply time of the battery is not less than 10 minutes on the third day, the sixth day and the eighth day at 23 o 'clock 30-24 o' clock 00.

The 23 point 30-24 point 00 is recorded into the standby action time period, and the information is stored into the storage device.

Also, due to the irregular change of the user behavior, the user behavior time period needs to be adjusted.

Before the control device invokes the user behavior information, the method further includes step S1:

the control device calls a second timing time of the battery.

And judging whether the second timing time is greater than or equal to the preset running time.

If the time is larger than or equal to the preset running time.

S100: and clearing the user behavior information in the storage device.

S200: step S2 is executed within the first counted time of the battery.

S300: to store the user behavior information into the storage device again, step S3, step S4, step S5, step S6, and step S7 are performed.

If less than the predetermined run time.

Step S3, step S4, step S5, step S6, step S7 are performed.

And the first timing time of the battery is 24 continuous hours or N continuous natural days, and the first timing time is used for storing the user behavior information.

And the second timing time of the battery is the time taken from the end of the first timing time of the battery to the calling of the second timing time action of the battery by the execution control device.

Wherein the predetermined operation time may be 7 natural days.

Example 10

The control device calls a second timing time of the battery, and at the moment, the second timing time of the battery is 8 natural days; judging that the second timing time 8 natural days are more than the preset operation time 7 natural days; and clearing the user behavior information in the storage device, executing the step S2, storing the user behavior information into the storage device again, and executing the steps S3, S4, S5, S6 and S7.

Example 11

The control device calls a second timing time of the battery, and at the moment, the second timing time of the battery is 6 natural days; judging that the second chronograph time 6 natural days is less than the predetermined operating time 7 natural days, the steps S3, S4, S5, S6, S7 are performed.

A conditioning system may include:

a battery;

and the temperature sensor is arranged on the surface of the battery and used for sensing the surface temperature of the battery.

And the control circuit is electrically connected with the temperature sensor and used for judging whether the temperature adjusting circuit is called to adjust the temperature or not.

And the refrigerating circuit is electrically connected with the control circuit and is used for refrigerating the battery.

The conditioning system may include:

and the storage zero clearing circuit is electrically connected with the storage circuit and is used for clearing the information in the storage circuit.

And the timing circuit is electrically connected with the control circuit and is used for accumulating the running time of the battery.

And the time zero clearing circuit is electrically connected with the timing circuit and is used for clearing the timing circuit.

Example 12

The temperature control circuit comprises a battery, a temperature sensor, a control circuit electrically connected with the temperature sensor, a refrigerating circuit electrically connected with the control circuit, a heating circuit, a storage circuit, a timing circuit, a storage zero clearing circuit electrically connected with the storage circuit and a time zero clearing circuit electrically connected with the timing circuit.

The battery temperature adjusting method and the adjusting system thereof can automatically adjust the temperature of the battery, ensure that the temperature of the battery is in a reasonable range, enable the battery to be in an optimal running state for a long time, prolong the service life of the battery, and avoid the situation that the battery is abnormally shut down and cannot be started. Meanwhile, a user behavior circuit is called, user behaviors are collected and analyzed, and the user behaviors are combined with the temperature adjusting circuit, so that long-time operation of a battery temperature adjusting system is reduced, loss of parts is reduced, and the service life of the system is prolonged.

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 an 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 article or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of additional like elements in the article or device comprising the element.

The above embodiments are merely to illustrate the technical solutions of the present invention and not to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments. It will be understood by those skilled in the art that various modifications and equivalent arrangements may be made without departing from the spirit and scope of the present invention and it should be understood that the present invention is to be covered by the appended claims.

Claims

1. A battery temperature adjusting method is characterized by comprising the following specific steps:

step S4: collecting battery temperature parameters;

step S5: transmitting the battery temperature parameter to a control device;

step S7:

if the battery temperature parameter is larger than or equal to a first threshold value, refrigerating the battery;

if the battery temperature parameter is smaller than the first threshold value and larger than the second threshold value, the temperature adjusting device does not operate;

before the acquiring of the battery temperature parameter, the method further includes step S3:

the control device calls user behavior information;

if the time slot of the standby behavior is in, the temperature adjusting device is turned off, and the battery temperature parameter acquisition device is turned off;

before the control device invokes the user behavior information, the method further includes step S2:

collecting user behavior information;

storing the analysis result information into a storage device;

the analyzing the user behavior information corresponding to the user behavior time period comprises:

analyzing the collected user behavior information within 24 continuous hours;

2. The battery temperature adjustment method according to claim 1, further comprising, before the control device invokes the user behavior information, step S1 of:

the control device calls a second timing time of the battery;

if the preset running time is greater than or equal to the preset running time:

s100: clearing user behavior information in the storage device;

s200: executing step S2 within the first timing time of the battery;

if the operation time is less than the preset operation time:

executing step S3, step S4, step S5, step S6, step S7;

the first timing time of the battery is 24 continuous hours or N continuous natural days, and the first timing time is used for storing the user behavior information;

the second timing time of the battery is the time from the end of the first timing time of the battery to the execution of the action of calling the second timing time of the battery by the control device;

the preset running time is the time for clearing the user behavior information in the storage equipment.