CN109387786A

CN109387786A - A kind of AED electric quantity managing method, device, electronic equipment and storage medium

Info

Publication number: CN109387786A
Application number: CN201710687776.9A
Authority: CN
Inventors: 陈大兵; 李志伟
Original assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd; Shenzhen Mindray Scientific Co Ltd
Current assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd; Shenzhen Mindray Scientific Co Ltd
Priority date: 2017-08-11
Filing date: 2017-08-11
Publication date: 2019-02-26
Anticipated expiration: 2037-08-11
Also published as: CN109387786B

Abstract

The embodiment of the present invention discloses a kind of AED electric quantity managing method, device, electronic equipment and storage medium, one of method includes the following steps: to detect consumption electricity of the automated external defibrillator AED under each use state, and the first object remaining capacity of the AED is obtained according to the consumption electricity under each use state, each use state includes standby mode, open state and electricity self-test state；Obtain the second target remaining capacity of the corresponding AED of current voltage value；The first difference for calculating the first object remaining capacity Yu the second target remaining capacity, when first difference is more than preset threshold range, the wrong warning information of output first.Using the present invention, solves the problems, such as to cause error calculated big using single AED quantity measuring method, improve the reliability of AED managing electric quantity.

Description

A kind of AED electric quantity managing method, device, electronic equipment and storage medium

Technical field

The present invention relates to Internet technical field more particularly to a kind of AED electric quantity managing method, device, electronic equipment and Storage medium.

Background technique

At present the whole world have more than 2,000,000 people every year due to sudden cardiac arrest (Sudden Cardiac Arrest, SCA) and It dies suddenly, electric defibrillation is the currently the only effective treatment method of SCA.Wherein, a kind of common electric defibrillation equipment is automatic External defibrillator (Automatic External Defibrillator, AED).It can diagnose specific arrhythmia cordis, and And electric defibrillation is given, it is that can be available for non-expert application for rescuing the Medical Devices of sudden cardiac death patient.

In AED product, mainly use disposable battery as power supply.This is because disposable battery is convenient for dimension Shield, can store, for a long time to largely be used.But AED needs extreme high reliability as first-aid apparatus, Whenever will can await orders, carry out first aid at any time, it is therefore, most important for the managing electric quantity of battery in AED.And it is existing The managing electric quantity for battery in AED mainly use voltage detecting method or voltameter to detect current method, or theoretical statistics side Method measures, but all there is a problem of that AED electricity calculating error is big, reduces the reliability of AED managing electric quantity.

Summary of the invention

The embodiment of the present invention provides a kind of AED electric quantity managing method, device, electronic equipment and storage medium, can solve AED electricity calculates the big problem of error.

First aspect of the embodiment of the present invention provides a kind of AED electric quantity managing method, it may include:

It detects consumption electricity of the automated external defibrillator AED under each use state, and each uses shape according to described Consumption electricity under state obtains the first object remaining capacity of the AED, and each use state includes standby mode, booting State and electricity self-test state；

Obtain the second target remaining capacity of the corresponding AED of current voltage value；

The first difference for calculating the first object remaining capacity Yu the second target remaining capacity, when described first poor When value is more than preset threshold range, the wrong warning information of output first.

Optionally, consumption electricity of the detection AED under each use state, and according under each use state Consumption electricity obtain the first object remaining capacity of the AED, comprising:

Calculate consumption electricity of the AED under each use state；

Consumption electricity under each use state is overlapped to obtain the first wastage in bulk or weight electricity of the AED；

Using the initial total electricity of the AED and the difference of the first wastage in bulk or weight electricity as the first object of the AED Remaining capacity.

Optionally, when the use state is standby mode, the consumption electricity for calculating AED under each use state Amount, comprising:

It obtains the standby mode corresponding first and uses duration；

The described first the first product for using predetermined current under duration and the standby mode is calculated, by first product It is multiplied with predeterminated voltage, to obtain the consumption electricity under the standby mode.

Optionally, when the use state is open state, the open state includes heart rate analysis state and defibrillation Charged state, the consumption electricity for calculating AED under each use state, comprising:

It obtains the heart rate analysis state corresponding second and uses duration；

The described second the second product for using predetermined current under duration and the heart rate analysis state is calculated, by described second Product is multiplied with predeterminated voltage, to obtain the consumption electricity under the heart rate analysis state；

The defibrillation obtained under the defibrillation charged state consumes electricity；

The third product of defibrillation the consumption electricity and predeterminated voltage is calculated, to obtain disappearing under the defibrillation charged state Power consumption；

By under the heart rate analysis state consumption electricity and the defibrillation charged state under consumption electricity and conduct Consumption electricity under the open state.

Optionally, when the use state is electricity self-test state, calculating AED the disappearing under each use state Power consumption, comprising:

It obtains the corresponding third of the electricity self-test state and uses duration and self-test number；

The third is calculated using the 4th product of predetermined current under duration and the electricity self-test state, by the described 4th Product is multiplied with predeterminated voltage, to obtain the first consumption electricity under the electricity self-test state；

The product of the self-test number Yu default defibrillation charge capacity is calculated, to obtain filling under the electricity self-test state Power consumption；

Using the sum of the first consumption electricity and the charge capacity as the consumption electricity under the electricity self-test state.

Optionally, the second target remaining capacity for obtaining the corresponding AED of current voltage value, comprising:

Obtain the current voltage value of the AED；

The remaining electricity of the second target for obtaining the corresponding AED of the current voltage value according to voltage electricity corresponding relationship Amount.

Optionally, the method also includes:

Obtain the present current value of the AED after powering；

Integral calculation is carried out to the present current value, calculates predesigned compensation electricity under integral result and the standby mode Sum；

Calculate the AED initial total electricity and it is described and difference to obtain the third target remaining capacity of the AED；

Calculate separately the second difference of the third target remaining capacity and the first object remaining capacity and described The third difference of third target remaining capacity and the second target remaining capacity；

When at least there is a difference more than the preset threshold range in second difference and the third difference, The wrong warning information of output second.

Second aspect of the embodiment of the present invention provides a kind of AED electric quantity managing method, it may include:

Booting consumption electricity is determined based on the present current value of the AED after powering, is calculated the booting and is consumed electricity With the predesigned compensation electricity under the standby mode and, using the initial total electricity of the AED and it is described and difference as institute State the second target remaining capacity of AED；

Calculate consumption electricity of the AED under each use state；

It obtains the standby mode corresponding first and uses duration；

Optionally, when the use state is open state, the consumption electricity for calculating AED under each use state Amount, comprising:

Optionally, described that booting consumption electricity is determined based on the present current value of the AED after powering, it is opened described in calculating Machine consume the predesigned compensation electricity under electricity and the standby mode and, by the initial total electricity of the AED with it is described and Second target remaining capacity of the difference as the AED, comprising:

Obtain the present current value of the AED after powering；

Calculate the initial total electricity and it is described and difference to obtain the second target remaining capacity of the AED.

Optionally, the method also includes:

Obtain the current voltage value of the AED；

The remaining electricity of third target for obtaining the corresponding AED of the current voltage value according to voltage electricity corresponding relationship Amount；

The third aspect of the embodiment of the present invention provides a kind of AED electric quantity managing method, it may include:

Obtain the first object remaining capacity of the corresponding AED of current voltage value；

Optionally, the first object remaining capacity for obtaining the corresponding AED of current voltage value, comprising:

Obtain the current voltage value of the AED；

The remaining electricity of first object for obtaining the corresponding AED of the current voltage value according to voltage electricity corresponding relationship Amount.

Obtain the present current value of the AED after powering；

Optionally, the method also includes:

Consumption electricity of the AED under each use state is calculated, each use state includes standby mode, opens Machine state and electricity self-test state；

Using the initial total electricity of the AED and the difference of the first wastage in bulk or weight electricity as the third target of the AED Remaining capacity；

It obtains the standby mode corresponding first and uses duration；

Fourth aspect of the embodiment of the present invention provides a kind of AED power management device, it may include:

First remaining capacity obtains module, for detecting consumption of the automated external defibrillator AED under each use state Electricity, and the first object remaining capacity of the AED is obtained according to the consumption electricity under each use state, it is described each Use state includes standby mode, open state and electricity self-test state；

Second remaining capacity obtains module, the remaining electricity of the second target for obtaining the corresponding AED of current voltage value Amount；

First early warning output module, for calculating the first object remaining capacity and the second target remaining capacity First difference, when first difference is more than preset threshold range, the wrong warning information of output first.

Optionally, first remaining capacity obtains module and is specifically used for:

Calculate consumption electricity of the AED under each use state；

Optionally, when the use state is standby mode, first remaining capacity obtains module and is specifically used for:

It obtains the standby mode corresponding first and uses duration；

Optionally, when the use state is open state, the open state includes heart rate analysis state and defibrillation Charged state, first remaining capacity obtain module and are specifically used for:

Optionally, when the use state is electricity self-test state, first remaining capacity obtains module and specifically uses In:

Optionally, second remaining capacity obtains module and is specifically used for:

Obtain the current voltage value of the AED；

Optionally, described device further includes the second early warning output module, is used for:

Obtain the present current value of the AED after powering；

The 5th aspect of the embodiment of the present invention provides a kind of AED power management device, it may include:

Second remaining capacity obtains module, for determining booting consumption based on the present current value of the AED after powering Electricity, calculate it is described booting consumption electricity and the standby mode under predesigned compensation electricity and, by the AED it is initial always Electricity and it is described and second target remaining capacity of the difference as the AED；

Calculate consumption electricity of the AED under each use state；

It obtains the standby mode corresponding first and uses duration；

Obtain the present current value of the AED after powering；

Obtain the current voltage value of the AED；

The 6th aspect of the embodiment of the present invention provides a kind of AED power management device, it may include:

First remaining capacity obtains module, the remaining electricity of the first object for obtaining the corresponding AED of current voltage value Amount；

Obtain the current voltage value of the AED；

Obtain the present current value of the AED after powering；

Optionally, when the use state is standby mode, the second early warning output module is specifically used for:

It obtains the standby mode corresponding first and uses duration；

Optionally, when the use state is defibrillation charged state, the second early warning output module is specifically used for:

Optionally, when the use state is electricity self-test state, the second early warning output module is specifically used for:

The 7th aspect of the embodiment of the present invention provides a kind of computer storage medium, and the computer storage medium is stored with A plurality of instruction, described instruction are suitable for as processor loads and executes the side as described in first aspect or second aspect or the third aspect Method.

Eighth aspect of the embodiment of the present invention provides a kind of electronic equipment, comprising: processor and memory；Wherein, described Memory is stored with computer program, and the processor realizes such as first aspect or second aspect when executing the computer program Or third aspect the method.

The 9th aspect of the embodiment of the present invention provides a kind of application program, including program instruction, and described program instruction, which is worked as, is held For executing such as first aspect or second aspect or the third aspect the method when row.

In embodiments of the present invention, the consumption electricity by detection AED under each use state is to obtain the first of AED Target remaining capacity, and the second target remaining capacity of the corresponding AED of current voltage value is obtained, then calculate the remaining electricity of first object The difference of amount and the second target remaining capacity, when the difference is more than preset threshold range, output error warning information；Or it is logical Consumption electricity of the detection AED under each use state is crossed to obtain the first object remaining capacity of AED, and is being opened based on AED The predesigned compensation electricity under present current value and standby mode after machine determines the second target remaining capacity of AED, then calculates The difference of first object remaining capacity and the second target remaining capacity, when the difference is more than preset threshold range, output error Warning information；Or obtain the first object remaining capacity of the corresponding AED of current voltage value, and after powering based on AED Predesigned compensation electricity under present current value and standby mode determines the second target remaining capacity of AED, then calculates first The difference of target remaining capacity and the second target remaining capacity, when the difference is more than preset threshold range, output error early warning Information.Judge that the measurement result of AED electricity whether there is mistake by comparing the measurement result of different quantity measuring methods, from And solve the problems, such as using single-measurement method calculate AED electricity error it is big, improve the reliability of AED managing electric quantity.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is a kind of flow diagram of AED electric quantity managing method provided in an embodiment of the present invention；

Fig. 2 is the interface schematic diagram of AED provided in an embodiment of the present invention a kind of；

Fig. 3 is the interface schematic diagram of a kind of voltage and remaining capacity corresponding relationship provided in an embodiment of the present invention；

Fig. 4 is the flow diagram of another kind AED electric quantity managing method provided in an embodiment of the present invention；

Fig. 5 is the flow diagram of another kind AED electric quantity managing method provided in an embodiment of the present invention；

Fig. 6 is the flow diagram of another kind AED electric quantity managing method provided in an embodiment of the present invention；

Fig. 7 is the flow diagram of another kind AED electric quantity managing method provided in an embodiment of the present invention；

Fig. 8 is the flow diagram of another kind AED electric quantity managing method provided in an embodiment of the present invention；

Fig. 9 is a kind of structural schematic diagram of AED power management device provided in an embodiment of the present invention；

Figure 10 is the structural schematic diagram of another kind AED power management device provided in an embodiment of the present invention；

Figure 11 is the structural schematic diagram of another kind AED power management device provided in an embodiment of the present invention；

Figure 12 is the structural schematic diagram of another kind AED power management device provided in an embodiment of the present invention；

Figure 13 is the structural schematic diagram of another kind AED power management device provided in an embodiment of the present invention；

Figure 14 is the structural schematic diagram of another kind AED power management device provided in an embodiment of the present invention；

Figure 15 is the structural schematic diagram of a kind of electronic equipment provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The present embodiments relate to AED power management device can be have use state detection and electricity calculate etc. AED equipment including function, or tablet computer, personal computer (PC), smart phone, palm PC and movement are mutual The terminal devices such as networked devices (MID).

Below in conjunction with attached drawing 1- attached drawing 8, it is situated between in detail to AED electric quantity managing method provided in an embodiment of the present invention It continues.

Referring to Figure 1, for the embodiment of the invention provides a kind of flow diagrams of AED electric quantity managing method.Such as Fig. 1 institute Show, the embodiment of the present invention the method may include following steps S101- step S103.

S101, detects consumption electricity of the automated external defibrillator AED under each use state, and each is made according to described Obtain the first object remaining capacity of the AED with the consumption electricity under state, each use state include standby mode, Open state and electricity self-test state.

Specifically, being illustrated in figure 2 a kind of automated external defibrillator (Automated External Defibrillator, AED), electric shock device, automatic electric shock device, automatic defibrillator, defibrillator and fool also known as outside automaton Electric shock device etc. is a kind of portable Medical Devices, it can diagnose specific arrhythmia cordis, and give electric defibrillation, be What can be available for non-expert application is used to rescue a kind of emergency medical service of sudden cardiac death patient.AED is mainly used once Property battery as power supply, therefore the state of disposable battery and maintenance are just extremely important.In AED shown in Fig. 2, one Secondary property battery is mounted on position indicated by arrow in figure.

For AED, can there is a different use states, the use state include standby mode, open state and Electricity self-test state, and open state may include heart rate analysis state and defibrillation charged state, under different use states Part electricity may be consumed.

In the specific implementation, consumption electricity of the AED under each use state is calculated by carrying out state-detection to AED, it will Consumption electricity under each use state is overlapped to obtain the first wastage in bulk or weight electricity of the AED, by the AED's The first object remaining capacity of initial total electricity and the difference of the first wastage in bulk or weight electricity as the AED.It is described initial total Electricity is the AED maximum electricity of battery namely total capacity of AED battery when unused.

It is described that state-detection is carried out to AED in a kind of feasible embodiment, it is to be understood that detection is current Size of current under state then can determine current use state according to the corresponding relationship of predetermined current size and use state. It optionally, can present current value that is real-time or being periodically detected AED.

For example, being as shown in table 1 the mapping table of predetermined current size and use state, if current size of current is 5uA, it is determined that current use state is standby mode.Further, by lasting detection electric current, in the electricity of some period Stream then can determine that this period is the use duration of standby mode all in 5~8uA.

Table 1

Electric current	Use state
		5~8uA	Standby mode
0.2~0.3A	Heart rate analysis state
		3~6A	Defibrillation charged state
0.3~0.4A	Electricity self-test state

Wherein, under different use states, consumption electricity calculation method is different, can calculate separately each what is detected Consumption charge value under use state.

When use state is standby mode, obtains standby mode or heart rate analysis state corresponding first uses duration, The first the first product for using predetermined current under duration and standby mode is calculated, first product is multiplied with predeterminated voltage, To obtain the consumption electricity under standby mode.

For example, the first of standby mode a length of T1 when using, the predetermined current of standby mode is I1, predeterminated voltage V, that Consumption electricity Q1=T1I1V under standby mode.Wherein, the general 5~8uA of value of I1, V generally take AED using Average voltage in journey, for disposable battery, the battery core of common 4 string 3 simultaneously, the general value of V is in 10V or so.

When the use state is open state, the open state includes heart rate analysis state and defibrillation charging shape State.If heart rate analysis state, then the heart rate analysis state corresponding second is obtained using duration, described second is calculated and uses The second product of predetermined current, second product is multiplied with predeterminated voltage under duration and the heart rate analysis state, with Consumption electricity under the heart rate analysis state.

For example, the second of heart rate analysis state a length of T2 when using, the predetermined current of heart rate analysis state are I2, electricity is preset Pressure is V, then the consumption electricity Q21=T2I2V under heart rate analysis state.Wherein, the general 0.2~0.4A of value of I2, V mono- As take the average voltage of AED in use.

If defibrillation charged state, then obtains the defibrillation under the defibrillation charged state and consume electricity, removed described in calculating It quivers and consumes the third product of electricity and predeterminated voltage, to obtain the consumption electricity under the defibrillation charged state.

For example, if defibrillation consumption electricity is E1, the consumption electricity Q22=E1V under defibrillation charged state.Wherein, it removes Charging of quivering is that high-voltage charging is carried out to defibrillator capacitance, and general charge efficiency is in 85%~90%, such as defibrillation charging 200J, then Defibrillation consumes electricity E1=200/0.85=235J.

Then, by under the heart rate analysis state consumption electricity and the defibrillation charged state under consumption electricity and As the consumption electricity under the open state, that is to say, that the consumption electricity Q2=Q21+Q22=T2 under open state I2·V+E1·V。

When use state is electricity self-test state, obtain the corresponding third of the electricity self-test state using duration and Self-test number, calculates third using the 4th product of predetermined current under duration and electricity self-test state, by the 4th product with it is described Predeterminated voltage is multiplied, to obtain the first consumption electricity under the electricity self-test state；Then self-test number is calculated to remove with default It quivers the product of charge capacity, to obtain the charge capacity under the use state；By the first consumption electricity and the charging The sum of electricity is as the consumption electricity under the electricity self-test state.

For example, third under self-test state a length of T3 when using, the predetermined current under self-test state is I3, then first disappears Power consumption Q31=T3I3V, self-test number are N, and presetting defibrillation charge capacity is E2, then the second consumption electricity Q32= NE2, therefore, the consumption electricity Q3=Q31+Q32=T3I3V+NE2 under self-test state.Wherein, the general value of E2 exists 2J or so.

Consumption electricity under each use state is overlapped to obtain the wastage in bulk or weight electricity of the AED, therefore, According to above-mentioned calculating process, it is known that the wastage in bulk or weight electricity Q=Q1+Q2+Q3=T1I1V+T2I2V+E1V+ of AED T3I3V+NE2=V (T1I1+T2I2+E1+T3I3)+NE2.

So, using the default total electricity of the AED and the difference of the wastage in bulk or weight electricity as the first object of the AED Remaining capacity.

For example, if the initial total electricity of AED is Q₀, then the first object remaining capacity Q of AED_x=Q₀-Q。

It should be noted that the theory state of the AED may include standby mode, open state and electricity self-test state These types of state, wherein open state may include heart rate analysis state with defibrillation charged state again, but in the actual use of AED In the process, partial status therein may be pertained only to.

S102 obtains the second target remaining capacity of the corresponding AED of current voltage value.

Specifically, the present day analog voltage signal of AED can be acquired by the modulus conversion chip ADC of AED first, and should Analog voltage signal reads voltage value after being converted to digital voltage signal, to obtain the current voltage value of the AED, then root According to the corresponding relationship of voltage and remaining capacity, the corresponding second target remaining capacity of the current voltage value is determined.Wherein, described The corresponding relationship of voltage and remaining capacity can be preset voltage and remaining capacity mapping table, or voltage with The energy curve of remaining capacity.Pass through the corresponding relationship of voltage and remaining capacity, so that it may determine corresponding to the voltage value read Remaining capacity, and using the remaining capacity as the second target remaining capacity Q_y。

For example, being illustrated in figure 3 the corresponding relationship of one of voltage and remaining capacity, horizontal axis is current residual electricity Amount, the longitudinal axis is current voltage value, and voltage and residue electricity at -20 DEG C, -10 DEG C, 20 DEG C and 60 DEG C are respectively shown in figure The curve graph of amount, if the current voltage value read at 20 DEG C is 2.3V, it is determined that the second target remaining capacity is 800cycle.

S103 calculates the first difference of the first object remaining capacity Yu the second target remaining capacity, when described When first difference is more than preset threshold range, the wrong warning information of output first.

Specifically, calculating the first difference is Q₁₀=Q_x-Q_yIf default remaining capacity threshold value is-Q_t~Q_t, by Q₁₀With-Q_tWith Q_tIt is compared, if Q₁₀Not in-Q_t~Q_tIn range, then illustrate Q_xWith Q_yIn at least exist one calculate mistake result and lead It causes measured AED remaining capacity inaccurate, then the first wrong warning information is exported, for warning user to calculated result Accuracy confirmed.Otherwise, the difference for showing two calculated result in error range, determines the remaining electricity of the AED calculated Amount is correct.Determine that AED is low battery at this time, exports low capacity prompt information.The wrong warning information of the output first can be It shows the modes such as audio, video, text or flashing flash lamp, is not especially limited herein.

Optionally, Fig. 4 is referred to, the method for the embodiment of the present invention can also include the following steps S104- step S107。

S104 obtains the present current value of the AED after powering.

S105 carries out integral calculation to the present current value, calculates to preset under integral result and the standby mode and mend The sum for repaying electricity, calculate the AED initial total electricity and it is described and difference with the remaining electricity of the third target for obtaining the AED Amount.

Specifically, voltameter (such as Coulomb meter) acquisition present current value can be used, if collection result is I (t), t is current At the moment, 0 is the booting moment, then booting is with the electricity of post consumptionIf default electricity in the said standby state Stream is I₀, then predesigned compensation electricity is Q under the standby mode_n=I₀T1, then third target remaining capacity

S106, calculate separately the third target remaining capacity and the first object remaining capacity the second difference and The third difference of the third target remaining capacity and the second target remaining capacity.

Specifically, the second difference is Q₂₀=Q_x-Q_z, third difference is Q₃₀=Q_y-Q_z。

S107 is more than the preset threshold model when at least there is a difference in second difference and the third difference When enclosing, the wrong warning information of output second.

Specifically, if Q₂₀And Q₃₀Middle there are at least one is more than-Q_t~Q_tRange, it is assumed that Q₂₀It is more than that explanation may be Q_x Mistake, possible Q_zIt is wrong, it is also possible to Q_xAnd Q_zIt is all wrong.In Q₁₁More than-Q_t~Q_tWhen range, explanation may be Q_xMistake, possible Q_yMistake, It may be Q_xAnd Q_yIt is all wrong.So may be Q after comprehensive descision_xMistake or Q_x、Q_y、Q_zA possibility that all wrong, is bigger, and exports Second wrong warning information is to indicate that a possibility which calculated result malfunctions is bigger.Therefore, detection range can be reduced, more accurately Judgement Q₂₀And Q₃₀Test accuracy.

In embodiments of the present invention, the consumption electricity by detection AED under each use state is to obtain the first of AED Target remaining capacity, and the second target remaining capacity of the corresponding AED of current voltage value is obtained, then calculate the remaining electricity of first object The difference of amount and the second target remaining capacity, when the difference is more than preset threshold range, output error warning information.Pass through ratio Measurement result of the measurement result of more different quantity measuring methods to judge AED electricity is adopted with the presence or absence of mistake to solve The big problem of AED electricity error is calculated with single-measurement method, improves the reliability of AED managing electric quantity.

Fig. 5 is referred to, for the embodiment of the invention provides the flow diagrams of another AED electric quantity managing method.Such as Fig. 5 It is shown, the embodiment of the present invention the method may include following steps S201- step S203.

S201, detects consumption electricity of the automated external defibrillator AED under each use state, and each is made according to described Obtain the first object remaining capacity of the AED with the consumption electricity under state, each use state include standby mode, Open state and electricity self-test state.

When use state is standby mode, obtains standby mode corresponding first and use duration, when calculating the first use Long the first product with predetermined current under standby mode, first product is multiplied with predeterminated voltage, to obtain standby mode Under consumption electricity.

For example, the first of standby mode a length of T1 when using, the predetermined current of standby mode is I1, predeterminated voltage V, that Consumption electricity Q1=T1I1V under standby mode.Wherein, the general value of the general 5~8uA of value of I1, I2 0.2~ 0.4A, V generally take the average voltage of AED in use, for disposable battery, common 4 string 3 and battery core, V is general Value is in 10V or so.

S202 determines booting consumption electricity based on the present current value of the AED after powering, calculates the booting consumption Predesigned compensation electricity under electricity and the standby mode and, by the initial total electricity of the AED and it is described and difference work For the second target remaining capacity of the AED.

Specifically, voltameter (such as Coulomb meter), which can be used, acquires the present current value of the AED after powering, if acquisition knot Fruit is I (t), and t is current time, and 0 is the booting moment, then booting is with the electricity of post consumptionIf it is described to Predetermined current under machine state is I₀, then predesigned compensation electricity is Q under the standby mode_n=I₀T1, then the second target is remaining Electricity

S203 calculates the first difference of the first object remaining capacity Yu the second target remaining capacity, when described When first difference is more than preset threshold range, the wrong warning information of output first.

Optionally, Fig. 6 is referred to, the method for the embodiment of the present invention can also include the following steps S204- step S207。

S204 obtains the current voltage value of the AED.

S205, the third target for obtaining the corresponding AED of the current voltage value according to voltage electricity corresponding relationship are surplus Remaining electricity.

Specifically, the present day analog voltage signal of AED can be acquired by the modulus conversion chip ADC of AED first, and should Analog voltage signal reads voltage value after being converted to digital voltage signal, to obtain the current voltage value of the AED, then root According to the corresponding relationship of voltage and remaining capacity, the corresponding third target remaining capacity of the current voltage value is determined.Wherein, described The corresponding relationship of voltage and remaining capacity can be preset voltage and remaining capacity mapping table, or voltage with The energy curve of remaining capacity.Pass through the corresponding relationship of voltage and remaining capacity, so that it may determine corresponding to the voltage value read Remaining capacity, and using the remaining capacity as third target remaining capacity Q_z。

S206, calculate separately the third target remaining capacity and the first object remaining capacity the second difference and The third difference of the third target remaining capacity and the second target remaining capacity.

S207 is more than the preset threshold model when at least there is a difference in second difference and the third difference When enclosing, the wrong warning information of output second.

In embodiments of the present invention, the consumption electricity by detection AED under each use state is to obtain the first of AED Target remaining capacity, and AED is determined based on the predesigned compensation electricity under the present current value and standby mode of AED after powering The second target remaining capacity, then the difference of first object remaining capacity and the second target remaining capacity is calculated, when the difference is super When crossing preset threshold range, output error warning information.AED is judged by comparing the measurement result of different quantity measuring methods The measurement result of electricity whether there is mistake, thus solve the problems, such as using single-measurement method calculate AED electricity error it is big, Improve the reliability of AED managing electric quantity.

Fig. 7 is referred to, for the embodiment of the invention provides the flow diagrams of another AED electric quantity managing method.Such as Fig. 7 It is shown, the embodiment of the present invention the method may include following steps S301- step S303.

S301 obtains the first object remaining capacity of the corresponding AED of current voltage value.

Specifically, being illustrated in figure 2 a kind of automated external defibrillator (Automated External Defibrillator, AED), electric shock device, automatic electric shock device, automatic defibrillator, defibrillator and fool also known as outside automaton Electric shock device etc. is a kind of portable Medical Devices, it can diagnose specific arrhythmia cordis, and give electric defibrillation, be What can be available for non-expert application is used to rescue a kind of emergency medical service of sudden cardiac death patient.AED is mainly used once Property battery as power supply, therefore the state of disposable battery and maintenance are just extremely important.In AED shown in Fig. 2, one Secondary property battery is mounted on position indicated by arrow in figure

In specific implementation, the present day analog voltage signal of AED can be acquired by the modulus conversion chip ADC of AED first, and Voltage value is read after the analog voltage signal is converted to digital voltage signal, to obtain the current voltage value of the AED, so Afterwards according to the corresponding relationship of voltage and remaining capacity, the corresponding first object remaining capacity of the current voltage value is determined.Wherein, The corresponding relationship of the voltage and remaining capacity can be the mapping table of preset voltage and remaining capacity, or electricity The energy curve of pressure and remaining capacity.Pass through the corresponding relationship of voltage and remaining capacity, so that it may determine that the voltage value institute read is right The remaining capacity answered, and using the remaining capacity as first object remaining capacity Q_x。

For example, being illustrated in figure 3 the corresponding relationship of one of voltage and remaining capacity, horizontal axis is current residual electricity Amount, the longitudinal axis is current voltage value, and voltage and residue electricity at -20 DEG C, -10 DEG C, 20 DEG C and 60 DEG C are respectively shown in figure The curve graph of amount, if the current voltage value read at 20 DEG C is 2.3V, it is determined that first object remaining capacity is 800cycle.

S302 determines booting consumption electricity based on the present current value of the AED after powering, calculates the booting consumption Predesigned compensation electricity under electricity and the standby mode and, by the initial total electricity of the AED and it is described and difference work For the second target remaining capacity of the AED.

Specifically, voltameter (such as Coulomb meter), which can be used, acquires the present current value of the AED after powering, if acquisition knot Fruit is I (t), and t is current time, and 0 is the booting moment, then booting is with the electricity of post consumptionIf it is described to Predetermined current under machine state is I₀, then predesigned compensation electricity is Q under the standby mode_n=I₀T1, then the second target is remaining ElectricityWherein, T₁For the standby time of AED, Q₀For the initial of AED Total electricity, that is, the maximum capacity of AED battery.

S303 calculates the first difference of the first object remaining capacity Yu the second target remaining capacity, when described When first difference is more than preset threshold range, the wrong warning information of output first.

Optionally, Fig. 8 is referred to, the method for the embodiment of the present invention can also include the following steps S304- step S308。

S304 calculates consumption electricity of the AED under each use state.

Specifically, can have different use states for AED, the use state includes standby mode, booting State and electricity self-test state, and open state may include heart rate analysis state and defibrillation charged state, in different uses Part electricity may be consumed under state.

Before calculating, the use state of AED is detected first.In a kind of feasible embodiment, it is possible to understand that , the size of current under current state is detected, then can determine according to the corresponding relationship of predetermined current size and use state Current use state.It optionally, can present current value that is real-time or being periodically detected AED.

In specific implementation, when use state is standby mode, obtains standby mode corresponding first and use duration, calculate First uses the first product of predetermined current under duration and standby mode, and first product is multiplied with predeterminated voltage, with Consumption electricity under to standby mode.

Consumption electricity under each use state is overlapped to obtain the first wastage in bulk or weight of the AED by S305 Electricity.

Specifically, the consumption electricity under each use state is overlapped to obtain the wastage in bulk or weight of AED electricity Amount, therefore, according to above-mentioned calculating process, it is known that the wastage in bulk or weight electricity Q=Q1+Q2+Q3=T1I1V+T2I2V+ of AED E1V+T3I3V+NE2=V (T1I1+T2I2+E1+T3I3)+NE2.

S306, using the initial total electricity of the AED and the difference of the first wastage in bulk or weight electricity as the third of the AED Target remaining capacity.

For example, if the initial total electricity of AED is Q₀, then the first object remaining capacity Q of AED_z=Q₀-Q。

S307, calculate separately the third target remaining capacity and the first object remaining capacity the second difference and The third difference of the third target remaining capacity and the second target remaining capacity.

S308 is more than the preset threshold model when at least there is a difference in second difference and the third difference When enclosing, the wrong warning information of output second.

Specifically, if Q₂₀And Q₃₀Middle there are at least one is more than-Q_t~Q_tRange, it is assumed that Q₂₀It is more than that explanation may be Q_x Mistake, possible Q_zIt is wrong, it is also possible to Q_xAnd Q_zIt is all wrong.In Q₁₀More than-Q_t~Q_tWhen range, explanation may be Q_xMistake, possible Q_yMistake, It may be Q_xAnd Q_yIt is all wrong.So may be Q after comprehensive descision_xMistake or Q_x、Q_y、Q_zA possibility that all wrong, is bigger, and exports Second wrong warning information is to indicate that a possibility which calculated result malfunctions is bigger.Therefore, detection range can be reduced, more accurately Judgement Q₂₀And Q₃₀Test accuracy.

In embodiments of the present invention, by obtaining the first object remaining capacity of the corresponding AED of current voltage value, Yi Jiji Predesigned compensation electricity under the present current value and standby mode of AED after powering determines the remaining electricity of the second target of AED Then amount calculates the difference of first object remaining capacity and the second target remaining capacity, when the difference is more than preset threshold range When, output error warning information.The measurement result of AED electricity is judged by comparing the measurement result of different quantity measuring methods With the presence or absence of mistake, thus solve the problems, such as using single-measurement method calculate AED electricity error it is big, improve AED electricity The reliability of management.

Below in conjunction with attached drawing 9 and attached drawing 14, it is situated between in detail to AED power management device provided in an embodiment of the present invention It continues.It should be noted that AED power management device shown in attached drawing 9- attached drawing 14, real shown in Fig. 1-Fig. 8 of the present invention for executing The method for applying example, for ease of description, only parts related to embodiments of the present invention are shown, and particular technique details does not disclose , please refer to Fig. 1-of the present invention embodiment shown in Fig. 8.

Fig. 9 is referred to, for the embodiment of the invention provides a kind of structural schematic diagrams of AED power management device.Such as Fig. 9 institute Show, the AED power management device 1 of the embodiment of the present invention may include: that the first remaining capacity obtains the 11, second residue of module Electricity obtains module 12 and the first early warning output module 13.

First remaining capacity obtains module 11, for detecting automated external defibrillator AED disappearing under each use state Power consumption, and the first object remaining capacity of the AED is obtained according to the consumption electricity under each use state, it is described each A use state includes standby mode, open state and electricity self-test state.

Optionally, first remaining capacity obtains module 11 and is specifically used for:

Calculate consumption electricity of the AED under each use state；

Optionally, when the use state is standby mode, first remaining capacity obtains module 11 and is specifically used for:

It obtains the standby mode corresponding first and uses duration；

Optionally, when the use state is open state, the open state includes heart rate analysis state and defibrillation Charged state, first remaining capacity obtain module 11 and are specifically used for:

Optionally, when the use state is electricity self-test state, it is specific that first remaining capacity obtains module 11 For:

Second remaining capacity obtains module 12, and the second target for obtaining the corresponding AED of current voltage value is remaining Electricity.

Obtain the current voltage value of the AED；

First early warning output module 13, for calculating the first object remaining capacity and the second target remaining capacity The first difference, when first difference is more than preset threshold range, the wrong warning information of output first.

Optionally, as shown in Figure 10, described device further includes the second early warning output module 14, is used for:

Obtain the present current value of the AED after powering；

Referring to Figure 11, for the embodiment of the invention provides the structural schematic diagrams of another AED power management device.Such as figure Shown in 11, the AED power management device 2 of the embodiment of the present invention may include: that the first remaining capacity obtains module 21, second Remaining capacity obtains module 22 and the first early warning output module 23.

First remaining capacity obtains module 21, for detecting automated external defibrillator AED disappearing under each use state Power consumption, and the first object remaining capacity of the AED is obtained according to the consumption electricity under each use state, it is described each A use state includes standby mode, open state and electricity self-test state.

Optionally, first remaining capacity obtains module 21 and is specifically used for:

Calculate consumption electricity of the AED under each use state；

Optionally, when the use state is standby mode, first remaining capacity obtains module 21 and is specifically used for:

It obtains the standby mode corresponding first and uses duration；

Optionally, when the use state is open state, the open state includes heart rate analysis state and defibrillation Charged state, first remaining capacity obtain module 21 and are specifically used for:

Optionally, when the use state is electricity self-test state, it is specific that first remaining capacity obtains module 21 For:

Second remaining capacity obtains module 22, for determining that booting disappears based on the present current value of the AED after powering Power consumption, calculate it is described booting consumption electricity and the standby mode under predesigned compensation electricity and, by the initial of the AED Total electricity and it is described and second target remaining capacity of the difference as the AED.

Optionally, second remaining capacity obtains module 22 and is specifically used for:

Obtain the present current value of the AED after powering；

First early warning output module 23, for calculating the first object remaining capacity and the second target remaining capacity The first difference, when first difference is more than preset threshold range, the wrong warning information of output first.

Optionally, as shown in figure 12, described device further includes the second early warning output module 24, is used for:

Obtain the current voltage value of the AED；

Referring to Figure 13, for the embodiment of the invention provides the structural schematic diagrams of another AED power management device.Such as figure Shown in 13, the AED power management device 3 of the embodiment of the present invention may include: that the first remaining capacity obtains module 31, second Remaining capacity obtains module 32 and the first early warning output module 33.

First remaining capacity obtains module 31, and the first object for obtaining the corresponding AED of current voltage value is remaining Electricity.

Optionally, first remaining capacity obtains module 31 and is specifically used for:

Obtain the current voltage value of the AED；

The first object for obtaining the corresponding AED of the current voltage value according to predeterminated voltage electricity corresponding relationship is remaining Electricity.

Second remaining capacity obtains module 32, for determining that booting disappears based on the present current value of the AED after powering Power consumption, calculate it is described booting consumption electricity and the standby mode under predesigned compensation electricity and, by the initial of the AED Total electricity and it is described and second target remaining capacity of the difference as the AED.

Optionally, second remaining capacity obtains module 32 and is specifically used for:

Obtain the present current value of the AED after powering；

First early warning output module 33, for calculating the first object remaining capacity and the second target remaining capacity The first difference, when first difference is more than preset threshold range, the wrong warning information of output first.

Optionally, as shown in figure 14, described device further includes the second early warning output module 34, is used for:

Optionally, when the use state is standby mode or heart rate analysis state, the second early warning output module 34 are specifically used for:

It obtains the standby mode corresponding first and uses duration；

Optionally, when the use state is open state, the open state includes heart rate analysis state and defibrillation Charged state, the second early warning output module 34 are specifically used for:

Optionally, when the use state is electricity self-test state, the second early warning output module 34 is specifically used for:

Referring to Figure 15, for the embodiment of the invention provides the structural schematic diagrams of electronic equipment.As shown in figure 15, the electricity Sub- equipment 1000 may include: at least one processor 1001, such as CPU, at least one network interface 1004, user interface 1003, memory 1005, at least one communication bus 1002.Wherein, communication bus 1002 is for realizing between these components Connection communication.Wherein, user interface 1003 may include display screen (Display), keyboard (Keyboard), optional user interface 1003 can also include standard wireline interface and wireless interface.Network interface 1004 optionally may include that the wired of standard connects Mouth, wireless interface (such as WI-FI interface).Memory 1005 can be high speed RAM memory, be also possible to non-labile storage Device (non-volatile memory), for example, at least a magnetic disk storage.Memory 1005 optionally can also be at least one A storage device for being located remotely from aforementioned processor 1001.As shown in figure 15, the memory as a kind of computer storage medium It may include the application program of operating system, network communication module, Subscriber Interface Module SIM and AED managing electric quantity in 1005.

In electronic equipment 1000 shown in Fig. 7, user interface 1003 is mainly used for providing the interface of input for user, obtains Take the data of family input；Network interface 1004 is mainly used for carrying out data communication with user terminal；And processor 1001 can be with For calling the application program of the AED managing electric quantity stored in memory 1005, to realize any embodiment shown in Fig. 1 and Fig. 8 The movement of the AED cell managing device of offer.

The embodiment of the present invention also provides a kind of computer storage medium (non-transitorycomputer readable storage medium), described Computer storage medium is stored with computer program, and the computer program includes program signaling, and described program signaling, which is worked as, to be counted Calculation machine makes the computer execute method as in the foregoing embodiment when executing, and the computer can be mentioned above A part of AED cell managing device or electronic equipment.

Above-mentioned non-transitorycomputer readable storage medium can appointing using one or more computer-readable media Meaning combination.Computer-readable medium can be computer-readable signal media or computer readable storage medium.Computer can Reading storage medium for example may be-but not limited to-the system of electricity, magnetic, optical, electromagnetic, infrared ray or semiconductor, device Or device, or any above combination.The more specific example (non exhaustive list) of computer readable storage medium includes: Electrical connection, portable computer diskette, hard disk, random access memory (RAM), read-only storage with one or more conducting wires Device (Read Only Memory；Hereinafter referred to as: ROM), erasable programmable read only memory (Erasable Programmable Read Only Memory；Hereinafter referred to as: EPROM) or flash memory, optical fiber, portable compact disc are read-only deposits Reservoir (CD-ROM), light storage device, magnetic memory device or above-mentioned any appropriate combination.In this document, computer Readable storage medium storing program for executing can be any tangible medium for including or store program, which can be commanded execution system, device Either device use or in connection.

Computer-readable signal media may include in a base band or as carrier wave a part propagate data-signal, Wherein carry computer-readable program code.The data-signal of this propagation can take various forms, including --- but It is not limited to --- electromagnetic signal, optical signal or above-mentioned any appropriate combination.Computer-readable signal media can also be Any computer-readable medium other than computer readable storage medium, which can send, propagate or Transmission is for by the use of instruction execution system, device or device or program in connection.

The program code for including on computer-readable medium can transmit with any suitable medium, including --- but it is unlimited In --- wireless, electric wire, optical cable, RF etc. or above-mentioned any appropriate combination.

Can with one or more programming languages or combinations thereof come write for execute the application operation computer Program code, described program design language include object oriented program language-such as Java, Smalltalk, C++, It further include conventional procedural programming language-such as " C " language or similar programming language.Program code can be with It fully executes, partly execute on the user computer on the user computer, being executed as an independent software package, portion Divide and partially executes or executed on a remote computer or server completely on the remote computer on the user computer.? It is related in the situation of remote computer, remote computer can pass through the network of any kind --- including local area network (Local Area Network；Hereinafter referred to as: LAN) or wide area network (Wide Area Network；Hereinafter referred to as: WAN) it is connected to user Computer, or, it may be connected to outer computer (such as being connected using ISP by internet).

The embodiment of the present application also provides a kind of computer program product, when the instruction in above-mentioned computer program product by When managing device execution, the AED electric quantity managing method that the application Fig. 1-embodiment illustrated in fig. 8 provides may be implemented.

Through the above description of the embodiments, it is apparent to those skilled in the art that, for description It is convenienct and succinct, only the example of the division of the above functional modules, in practical application, can according to need and will be upper It states function distribution to be completed by different functional modules, i.e., the internal structure of device is divided into different functional modules, to complete All or part of function described above.The specific work process of the system, apparatus, and unit of foregoing description, before can referring to The corresponding process in embodiment of the method is stated, details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, device and method can be with It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the module or The division of unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units Or component can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, institute Display or the mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, device or unit Indirect coupling or communication connection can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer It is each that equipment (can be personal computer, server or the network equipment etc.) or processor (processor) execute the application The all or part of the steps of embodiment the method.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (Read Only Memory；Hereinafter referred to as: ROM), random access memory (Random Access Memory；Hereinafter referred to as: RAM), the various media that can store program code such as magnetic or disk.

The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any Those familiar with the art within the technical scope of the present application, can easily think of the change or the replacement, and should all contain Lid is within the scope of protection of this application.Therefore, the protection scope of the application should be based on the protection scope of the described claims.

Claims

1. a kind of AED electric quantity managing method characterized by comprising

Consumption electricity of the automated external defibrillator AED under each use state is detected, and according under each use state Consumption electricity obtain the first object remaining capacity of the AED, each use state includes standby mode, open state And electricity self-test state；

The first difference for calculating the first object remaining capacity Yu the second target remaining capacity, when first difference is super When crossing preset threshold range, the wrong warning information of output first.

2. the method according to claim 1, wherein consumption electricity of the detection AED under each use state Amount, and the first object remaining capacity of the AED is obtained according to the consumption electricity under each use state, comprising:

Calculate consumption electricity of the AED under each use state；

The initial total electricity of the AED and the difference of the first wastage in bulk or weight electricity is remaining as the first object of the AED Electricity.

3. according to the method described in claim 2, it is characterized in that, the use state be standby mode when, the calculating Consumption electricity of the AED under each use state, comprising:

It obtains the standby mode corresponding first and uses duration；

The described first the first product for using predetermined current under duration and the standby mode is calculated, by first product and in advance If voltage is multiplied, to obtain the consumption electricity under the standby mode.

4. according to the method described in claim 2, it is characterized in that, the use state be open state when, the booting State includes heart rate analysis state and defibrillation charged state, the consumption electricity for calculating AED under each use state, packet It includes:

The described second the second product for using predetermined current under duration and the heart rate analysis state is calculated, by second product It is multiplied with predeterminated voltage, to obtain the consumption electricity under the heart rate analysis state；

The third product of defibrillation the consumption electricity and predeterminated voltage is calculated, to obtain the electricity of the consumption under the defibrillation charged state Amount；

Using the consumption electricity under the heart rate analysis state with the sum for consuming electricity under the defibrillation charged state as described Consumption electricity under open state.

5. according to the method described in claim 2, it is characterized in that, the use state be electricity self-test state when, it is described Calculate consumption electricity of the AED under each use state, comprising:

The third is calculated using the 4th product of predetermined current under duration and the electricity self-test state, by the 4th product It is multiplied with predeterminated voltage, to obtain the first consumption electricity under the electricity self-test state；

The product of the self-test number Yu default defibrillation charge capacity is calculated, to obtain the electricity of the charging under the electricity self-test state Amount；

6. the method according to claim 1, wherein described obtain the of the corresponding AED of current voltage value Two target remaining capacities, comprising:

Obtain the current voltage value of the AED；

The second target remaining capacity of the corresponding AED of the current voltage value is obtained according to voltage electricity corresponding relationship.

7. the method according to claim 1, wherein the method also includes:

Obtain the present current value of the AED after powering；

Integral calculation is carried out to the present current value, calculates predesigned compensation electricity under integral result and the standby mode With；

Calculate separately the second difference and the third of the third target remaining capacity Yu the first object remaining capacity The third difference of target remaining capacity and the second target remaining capacity；

When at least there is a difference more than the preset threshold range in second difference and the third difference, output Second wrong warning information.

8. a kind of AED electric quantity managing method characterized by comprising

Booting consumption electricity is determined based on the present current value of the AED after powering, calculates the booting consumption electricity and institute The sum for stating the predesigned compensation electricity under standby mode, using the initial total electricity of the AED and it is described and difference as the AED The second target remaining capacity；

9. according to the method described in claim 8, it is characterized in that, consumption electricity of the detection AED under each use state Amount, and the first object remaining capacity of the AED is obtained according to the consumption electricity under each use state, comprising:

Calculate consumption electricity of the AED under each use state；

10. according to the method described in claim 9, it is characterized in that, the use state be standby mode when, the calculating Consumption electricity of the AED under each use state, comprising:

It obtains the standby mode corresponding first and uses duration；

11. according to the method described in claim 9, it is characterized in that, the use state be open state when, the booting State includes heart rate analysis state and defibrillation charged state, the consumption electricity for calculating AED under each use state, packet It includes:

12. according to the method described in claim 9, it is characterized in that, the use state be electricity self-test state when, it is described Calculate consumption electricity of the AED under each use state, comprising:

13. according to the method described in claim 8, it is characterized in that, the present current value based on the AED after powering Determine booting consumption electricity, calculate it is described booting consumption electricity and the standby mode under predesigned compensation electricity and, by institute State AED initial total electricity and it is described and second target remaining capacity of the difference as the AED, comprising:

Obtain the present current value of the AED after powering；

14. according to the method described in claim 8, it is characterized in that, the method also includes:

Obtain the current voltage value of the AED；

The third target remaining capacity of the corresponding AED of the current voltage value is obtained according to voltage electricity corresponding relationship；

15. a kind of AED electric quantity managing method characterized by comprising

16. according to the method for claim 15, which is characterized in that described to obtain the corresponding AED's of current voltage value First object remaining capacity, comprising:

Obtain the current voltage value of the AED；

The first object remaining capacity of the corresponding AED of the current voltage value is obtained according to voltage electricity corresponding relationship.

17. according to the method for claim 15, which is characterized in that the current flow based on the AED after powering Value determine booting consumption electricity, calculate it is described booting consumption electricity and the standby mode under predesigned compensation electricity and, by The initial total electricity of the AED and it is described and second target remaining capacity of the difference as the AED, comprising:

Obtain the present current value of the AED after powering；

18. according to the method for claim 15, which is characterized in that the method also includes:

Consumption electricity of the AED under each use state is calculated, each use state includes standby mode, booting shape State and electricity self-test state；

The initial total electricity of the AED and the difference of the first wastage in bulk or weight electricity is remaining as the third target of the AED Electricity；

19. according to the method for claim 18, which is characterized in that when the use state is standby mode, the meter Calculate consumption electricity of the AED under each use state, comprising:

It obtains the standby mode corresponding first and uses duration；

20. according to the method for claim 18, which is characterized in that described to open when the use state is open state Machine state includes heart rate analysis state and defibrillation charged state, the consumption electricity for calculating AED under each use state, packet It includes:

21. according to the method for claim 18, which is characterized in that when the use state is electricity self-test state, institute State the consumption electricity for calculating AED under each use state, comprising:

22. a kind of AED power management device characterized by comprising

First remaining capacity obtains module, for detecting consumption electricity of the automated external defibrillator AED under each use state, And the first object remaining capacity of the AED, each use are obtained according to the consumption electricity under each use state State includes standby mode, open state and electricity self-test state；

Second remaining capacity obtains module, for obtaining the second target remaining capacity of the corresponding AED of current voltage value；

First early warning output module, for calculating the first of the first object remaining capacity and the second target remaining capacity Difference, when first difference is more than preset threshold range, the wrong warning information of output first.

23. a kind of AED power management device characterized by comprising

Second remaining capacity obtains module, for determining booting consumption electricity based on the present current value of the AED after powering, Calculate it is described booting consumption electricity and the standby mode under predesigned compensation electricity and, by the initial total electricity of the AED With it is described and second target remaining capacity of the difference as the AED；

24. a kind of AED power management device characterized by comprising

First remaining capacity obtains module, for obtaining the first object remaining capacity of the corresponding AED of current voltage value；

25. a kind of computer storage medium, which is characterized in that the computer storage medium is stored with a plurality of instruction, the finger It enables and is suitable for being loaded by processor and being executed such as claim 1-7 or any one of 8-14 or 15-21 the method.

26. a kind of electronic equipment characterized by comprising processor and memory；Wherein, the memory is stored with calculating Machine program, the processor are realized as described in claim any one of 1-7 or 8-14 or 15-21 when executing the computer program Method.