CN204614897U - A kind of storage battery based on wireless network, location and unlatching automatic activation - Google Patents

Abstract

The utility model provides a kind of storage battery based on wireless network, location and unlatching automatic activation, comprise: accumulator body, battery condition monitor portion, voltage conversion portion, localization part, wireless portion and unlatching activating part, battery condition monitor portion measures the operating state of storage battery in real time; Voltage conversion portion changes electric energy voltage into voltage required for battery condition monitor portion, localization part and wireless portion; Localization part knows the geographical position of current storage battery site; Data wireless to be sent sends by wireless portion, and receives external wireless order and parameter; Open activating part, when using first time as user, automatic activation storage battery wireless network, location.The utility model structure is simple, and simple operation, not only can notify user's battery operated exception the very first time, also can at storage battery and when using carrier stolen the very first time obtain the geographical coordinate of storage battery.

Description

A kind of storage battery based on wireless network, location and unlatching automatic activation

Technical field

The utility model relates to storage battery postorder applied technical field, particularly, relates to a kind of storage battery based on wireless network, location and unlatching automatic activation.

Background technology

Current storage battery there will be thermal runaway when charging abnormal, causes battery of electric vehicle oxygen blast cyanidation, causes battery to scrap in advance.In addition, electric motor car burns the main point of origin of car is the short circuit sparking caused at the line juxtaposition at battery pack place.But also there is not at present the monitoring for battery-operated exception in this case and warning, bring hidden danger to the use of user.

Further, in current storage battery uses, often can there is storage battery and use the stolen event of carrier, user is suffered a loss, also making troubles simultaneously.

Through retrieval, China Patent Publication No. CN202976361U (application number: CN201220704541.9), this utility model patent provides a kind of accumulator anti-theft device and storage battery, and accumulator anti-theft device comprises power module, vibrating sensor, satellite positioning module, mobile communication module and processor; Described vibrating sensor when detecting that storage battery moves output detection signal to processor, to start satellite positioning module and mobile communication module puts into operation; Described satellite positioning module detects the geographical coordinate of storage battery and feeds back to described processor, generates warning message and transfers to mobile communication module together with the geographical coordinate received, be sent to Surveillance center by mobile communication module by processor.But this patent cannot the operating state of Real-time Obtaining storage battery.

Utility model content

For defect of the prior art, the purpose of this utility model is to provide a kind of storage battery based on wireless network and location, the monitoring of storage battery, wireless network and battery condition is combined, the work state information of storage battery can be known while obtaining battery location information, like this, not only can notify user's battery operated exception the very first time, also can at storage battery and when using carrier stolen the very first time obtain the geographical coordinate of storage battery, stop extreme event as far as possible and occur and the spreading further of extreme event.

For realizing above object, the utility model provides a kind of storage battery based on wireless network, location and unlatching automatic activation, comprise accumulator body, battery condition monitor portion, voltage conversion portion, localization part, wireless portion and unlatching activating part, wherein:

Described accumulator body, at least comprise a set of can the storage battery of storage of electrical energy and charging and discharging capabilities;

Described battery condition monitor portion, for the state of Real-Time Monitoring storage battery, comprises the charging and discharging state of storage battery, normal operating conditions and holding state;

Described voltage conversion portion, the electric energy voltage exported by the anode and cathode terminals of accumulator body changes the voltage required for battery condition monitor portion, localization part and wireless portion into;

Described localization part, knows the geographical position of current storage battery site;

Described wireless portion, the storage battery geographic location wireless transmission that the various physical signalling of storage battery collect battery condition monitor portion and localization part obtain, and receive external wireless order and parameter, the order that wireless portion receives and Parameter transfer accumulators condition monitoring part;

Described unlatching activating part, when user uses storage battery first time, the localization part of automatic activation storage battery, wireless portion.

Preferably, described battery condition monitor portion, comprises battery condition testing circuit and processor, wherein:

Described battery condition testing circuit, converts the signal of telecommunication that processor can gather to by various for storage battery physical signalling;

Described processor, the storage battery physical signalling changed by battery condition testing circuit processes, and result is passed to wireless portion sends.

More preferably, the various physical signalling of described storage battery, comprises electric current, voltage, temperature etc.

Preferably, the electric energy voltage that the anode and cathode terminals of accumulator body exports by described voltage conversion portion changes the voltage required for battery condition monitor portion, localization part and wireless portion into, refer to: directly the voltage of accumulator body port is introduced, then convert to battery condition monitor portion, localization part and wireless portion the supply voltage that is applicable to.

Preferably, described wireless portion, comprising: antenna and data codec, wherein:

Described antenna, sends data wireless to be sent for processor, and receives outside wireless data and parameter;

Described data codec, is encoded wireless data to be sent for processor, is sent by antenna, and is decoded by the wireless data that antenna receives, and passes to processor.

More preferably, the data that described processor is to be sent, comprise the storage battery geographic location of the various physical signalling of storage battery and localization part acquisition.

Preferably, described unlatching activating part, comprising: first time uses testing circuit and uses active circuit, wherein:

Described first time uses testing circuit, detects user and first time uses storage battery, and detection signal is passed to use active circuit;

Described use active circuit, after receiving the user's first time use detection signal using testing circuit to pass to for the first time, the functions such as automatic activation storage battery wireless network, location.

Preferred, described first time uses testing circuit, comprise tongue tube, magnet, described tongue tube is arranged on accumulator body inside, described magnet arranges described accumulator body housing exterior and corresponds to the position of described tongue tube, remove described magnet, then reed switch conduction state changes, and first time uses detection signal also to change thereupon.

Preferably, described battery condition monitor portion, voltage conversion portion, localization part and wireless portion can be embedded in accumulator body, also can hang on accumulator body outward.

Compared with prior art, the utility model has following beneficial effect:

The utility model structure is simple, easy and simple to handle, not only can notify user's battery operated exception the very first time, also can at storage battery and when using carrier stolen the very first time obtain the geographical coordinate of storage battery, there is extensive dissemination.

Position signalling when prelocalization can be carried out wireless transmission by the utility model in real time, can obtain the geographical coordinate of storage battery when storage battery is stolen in time.The utility model also will characterize some physical signallings (storage battery present operating voltage of battery-operated state, electric current, temperature, battery charging state SOC, cell health state SOH and battery functi on state SOF etc.) carry out wireless transmission, user just can the current battery-operated state of real-time awareness, when battery-operated is abnormal, (such as temperature is too high, discharge and recharge is abnormal) time, user can process in time, also storage battery production manufacturer is facilitated to collect product quality data in time, market survey is carried out to storage battery production manufacturer, after-sale service, quality improvement, new product development exploitation and product life cycle quality monitoring etc. provide foundation.

Accompanying drawing explanation

By reading the detailed description done non-limiting example with reference to the following drawings, other features, objects and advantages of the present utility model will become more obvious:

Fig. 1 is accumulator structure schematic diagram in the utility model one embodiment;

In figure: 1-accumulator body, 2-battery condition monitor portion, 3-voltage conversion portion, 4-localization part, 5-wireless portion, 6-opens activating part;

Fig. 2 is battery condition monitor portion and wireless portion structure chart in the utility model one embodiment,

In figure: 7-battery condition testing circuit; 8-processor; 9-antenna; 10-data codec;

Fig. 3,4 is the voltage conversion portion circuit diagram in the utility model one embodiment;

Fig. 5 is the current detection circuit figure of the battery condition testing circuit in the utility model one embodiment;

Fig. 6 is the voltage detecting circuit figure of the battery condition testing circuit in the utility model one embodiment;

Fig. 7,8 is the temperature sensing circuit figure of the battery condition testing circuit in the utility model one embodiment;

Fig. 9 is the wireless portion circuit diagram in the utility model one embodiment;

First time in the utility model one embodiment of Figure 10 position uses testing circuit figure.

Embodiment

Below in conjunction with specific embodiment, the utility model is described in detail.Following examples will contribute to those skilled in the art and understand the utility model further, but not limit the utility model in any form.It should be pointed out that to those skilled in the art, without departing from the concept of the premise utility, some distortion and improvement can also be made.These all belong to protection range of the present utility model.

The utility model provides a kind of storage battery based on wireless network and location, comprise accumulator body 1, battery condition monitor portion 2, voltage conversion portion 3, localization part 4, wireless portion 5 and open activating part 6, these parts all can adopt circuit realiration.

As shown in Figure 1, described voltage conversion portion 3, becomes the operating voltage required for battery condition monitor portion 2, localization part 4 and wireless portion 5 by the voltage transitions of the anode and cathode terminals of accumulator body 1;

As shown in Figure 2, described battery condition monitor portion 2 comprises battery condition testing circuit 7 and processor 8, described wireless portion 5 comprises antenna 9 and data codec 10, wherein: various for storage battery physical signalling is converted to the signal of telecommunication that processor 8 can gather by battery condition testing circuit 7, current physical location information in conjunction with localization part 4 detection passes to the data codec 10 in wireless portion 5, the storage battery physical signalling that battery condition testing circuit is changed by processor 8 processes, wireless data to be sent for processor 8 is encoded by described data codec 10, launched by antenna 9 again, and the wireless data that antenna 9 receives is decoded, pass to processor 8.Detect when opening activating part 6 signal using storage battery for the first time, by automatic activation processor 8, storage battery starts the functions such as enabling wireless network, location.Described data codec 10 adopts existing techniques in realizing, and coding wherein, decoding etc. all belong to existing common technology, does not belong to the utility model innovation.

As a preferred implementation, described battery condition monitor portion 2, voltage conversion portion 3, localization part 4 and wireless portion 5 can be embedded in accumulator body 1, also can hang on accumulator body 1 outward.

Described battery condition testing circuit 7, can comprise various detecting sensor or circuit, various for storage battery physical signalling is converted to the signal of telecommunication that processor 8 can gather.The various physical signalling of storage battery comprises as storage battery current voltage, temperature, real-time current, charge condition etc., these signal indexs are exactly the frock state of storage battery, there are these physical signallings can know the working condition of current storage battery, whether normally work, whether be in good working order.The various physical signallings of the utility model Real-time Obtaining storage battery, in conjunction with current locating information, are sent by wireless.

As shown in Figure 3,4, as a preferred implementation, the both positive and negative polarity of accumulator body 1 accesses by described voltage conversion portion 3, convert storage battery output voltage VBattery-and VBattery+ to operating voltage VWork required for battery condition monitor portion 2, localization part 4 and wireless portion 5, can direct-current switch power supply be used as shown in Figure 3, also can use linear power supply as shown in Figure 4.

As shown in Figure 5, for the current detection circuit schematic diagram of described battery condition testing circuit 7, can measure current battery-driven current conditions by the voltage detecting inspection leakage resistance R1 two ends, the later stage nurses one's health into by filter and amplification the ADC (analog-to-digital conversion) that suitable voltage signal (I_Battery) accesses processor 8.

As shown in Figure 6, for the voltage detecting circuit schematic diagram of described battery condition testing circuit 7, the magnitude of voltage of current storage battery port can be detected by the dividing potential drop of resistance R1 and R2, then nurse one's health into by amplifying the ADC (analog-to-digital conversion) that suitable voltage signal (V_Battery) accesses processor 8.

There is voltage and current measuring ability, just can go out other parameter indexs of storage battery, such as battery charging state SOC, cell health state SOH and battery functi on state SOF etc. by indirect inspection.

As shown in Figure 7,8, the temperature circuit schematic diagram for described battery condition testing circuit 7: as shown in Figure 7, directly can become voltage signal to access the ADC of processor 8 by temperature transition by the temperature detection chip being similar to LM35; As shown in Figure 8, also can use and be similar to the such temperature device of PT1000 and temperature transition become voltage signal to access the ADC of processor 8 in conjunction with modulate circuit; Directly can also make the temperature sensor that purpose processor itself embeds.

As a preferred implementation, described wireless portion 5 can adopt GPRS as shown in Figure 9 or gsm module, is carried out the wireless interaction of data by existing wireless cellular network; Also the wireless mode such as WIFI, bluetooth can be used to carry out data interaction.

As a preferred implementation, described localization part 4 can adopt existing positioning chip, GPRS module as being similar to Fig. 9 to realize the acquisition of physical coordinates by the mode of triangle polyester fibre, the mode of GPS also can be adopted to obtain the higher physical coordinates of precision.

As a preferred implementation, the first time of opening in activating part 6 uses testing circuit to be similar to Figure 10, at accumulator body indoor design tongue tube, and place a magnet in the enclosure location of accumulator body corresponding to tongue tube, when storage battery dispatches from the factory, magnet is placed on battery cell case always and reacts on tongue tube, now the function dormancy such as wireless and location of storage battery; When user uses first time, the magnet that battery cell case is placed is removed, now tongue tube detects that outside does not have magnet, reed switch conduction state changes, first time uses detection signal also to change thereupon, thus activate wireless portion and the localization part of storage battery, realize the function such as wireless network and location.

A kind of storage battery based on wireless network, location and unlatching automatic activation described in the utility model, its structure is simple, easy and simple to handle, data exchange is carried out by wireless portion and mobile communication base station, user is by mobile phone A PP or note, not only can know user's battery operated exception the very first time, also can at storage battery and when using carrier stolen the very first time obtain the geographical coordinate of storage battery, there is extensive dissemination.

Above specific embodiment of the utility model is described.It is to be appreciated that the utility model is not limited to above-mentioned particular implementation, those skilled in the art can make various distortion or amendment within the scope of the claims, and this does not affect flesh and blood of the present utility model.

Claims (9)

1., based on a storage battery for wireless network, location and unlatching automatic activation, it is characterized in that, comprise accumulator body, battery condition monitor portion, voltage conversion portion, localization part, wireless portion and unlatching activating part, wherein:

Described accumulator body, at least comprise a set of can the storage battery of storage of electrical energy and charging and discharging capabilities;

Described battery condition monitor portion, for the state of Real-Time Monitoring storage battery, comprises the charging and discharging state of storage battery, normal operating conditions and holding state;

Described voltage conversion portion, the electric energy voltage exported by the anode and cathode terminals of accumulator body changes the voltage required for battery condition monitor portion, localization part and wireless portion into;

Described localization part, knows the geographical position of current storage battery site;

Described wireless portion, the storage battery geographic location wireless transmission that the various physical signalling of storage battery collect battery condition monitor portion and localization part obtain, and receive external wireless order and parameter, the order that wireless portion receives and Parameter transfer accumulators condition monitoring part;

Described unlatching activating part, when user uses storage battery first time, the localization part of automatic activation storage battery, wireless portion.

2. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 1, it is characterized in that, described battery condition monitor portion, comprises battery condition testing circuit and processor, wherein:

Described battery condition testing circuit, converts the signal of telecommunication that processor can gather to by various for storage battery physical signalling;

Described processor, the storage battery physical signalling changed by battery condition testing circuit processes, and result is passed to wireless portion sends.

3. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 2, is characterized in that, the various physical signalling of described storage battery, to comprise in electric current, voltage, temperature one or more.

4. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 1, it is characterized in that, the electric energy voltage that the anode and cathode terminals of accumulator body exports by described voltage conversion portion changes the voltage required for battery condition monitor portion, localization part and wireless portion into, refer to: directly the voltage of accumulator body port is introduced, then convert to battery condition monitor portion, localization part and wireless portion the supply voltage that is applicable to.

5. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 2, it is characterized in that, described wireless portion, comprising: antenna and data codec, wherein:

Described antenna, sends data wireless to be sent for the processor of described battery condition monitor portion, and receives outside wireless data and parameter;

Described data codec, is encoded wireless data to be sent for the processor of described battery condition monitor portion, is sent by antenna, and is decoded by the wireless data that antenna receives, and passes to processor.

6. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 5, it is characterized in that, the data that described processor is to be sent, comprise the storage battery geographic location of the various physical signalling of storage battery and localization part acquisition.

7. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 1, it is characterized in that, described unlatching activating part, comprising: first time uses testing circuit and uses active circuit, wherein:

Described first time uses testing circuit, detects user and first time uses storage battery, and detection signal is passed to use active circuit;

Described use active circuit, after receiving the user's first time use detection signal using testing circuit to pass to for the first time, the localization part of automatic activation storage battery, wireless portion, i.e. wireless network, positioning function.

8. a kind of storage battery based on wireless network, location and unlatching automatic activation according to claim 1, it is characterized in that, described first time uses testing circuit, comprise tongue tube, magnet, described tongue tube is arranged on accumulator body inside, and described magnet arranges described accumulator body housing exterior and corresponds to the position of described tongue tube, removes described magnet, then reed switch conduction state changes, and first time uses detection signal also to change thereupon.

9. a kind of storage battery based on wireless network, location and unlatching automatic activation according to any one of claim 1-7, it is characterized in that, described battery condition monitor portion, voltage conversion portion, localization part and wireless portion are embedded in accumulator body, or hang over outward on accumulator body.