CN203339752U - Intelligent charging and storage cabinet - Google Patents

Abstract

The utility model discloses an intelligent charging and storage cabinet for carrying out charging monitoring on a battery. The charging and storage cabinet comprises a master control module, a battery sampling module, power supply modules, and a power supply control module. To be specific, the input terminal of the battery sampling module is in circuit connection with batteries and the battery sampling module is in circuit connection with the master control module; the battery sampling module receives battery state information and transmits the information to the master control module to determine a battery charging state. The output terminals of the power supply modules are in circuit connection with the batteries; and the power supply modules carry out charging on the batteries. The output terminal of the power supply control module is in circuit connection with the power supply modules and the power supply control module is in circuit connection with the master control module. The master control module uses the power supply control module to carry out charging controlling on the power supply modules; when the batteries are charged enough or are in abnormal states, the power supply modules are disconnected. On the basis of coordinated controlling of all the modules, the batteries are charged, so that the demand of fast charging in the fields of logistics and postal service and the like can be satisfied; and meanwhile, storage controlling is also carried out on the batteries. Moreover, a single charging mode is changed and thus charging can be carried out on the unattended condition, so that the charging efficiency is improved and the charging process is simplified.

Description

A kind of intelligence is filled the storage cabinet

Technical field

The battery that the utility model relates to a kind of radio RF recognition technology and wireless communication technique field fills and changes electric control system, is specifically related to a kind of intelligence and fills the storage cabinet.

Background technology

On the market the charging of electric bicycle is mainly completed by single charger at present, seldom have a plurality of batteries chargings are controlled and the technology of battery storage.

In order to meet the quick charge of electric bicycle, meet battery storage, meet logistic industry, the actual demand of post industry etc., what propose a kind of intelligence fills the storage cabinet system.

The utility model content

The utility model provides a kind of intelligence to fill the storage cabinet, has changed current single charging modes, makes charging to carry out in unattended situation, has improved the efficiency of charging simultaneously, simplifies charging process and becomes.

For achieving the above object, the utility model provides a kind of intelligence to fill the storage cabinet, for battery is carried out to charging monitoring, is characterized in, this fills the storage cabinet and comprises:

Main control module;

The battery sampling module, its inlet circuit connects battery, and circuit connection main control module, and the battery sampling module receives battery status information and transfers to main control module with the judgement battery charging state;

Power module, its circuit of output terminal connects battery, and battery is charged;

Energy supply control module, its circuit of output terminal connects power module, and circuit connects main control module; Main control module by energy supply control module to the power module control of charging, deenergization module when battery is full of or is abnormal.

This fills the storage cabinet and also comprises:

Some antennas, each battery is provided with radio-frequency module, and some antennas are read respectively information the output of radio-frequency module on each battery;

The radio-frequency (RF) identification array, its inlet circuit connects some antennas, receives each antenna and gathers on battery the information of radio-frequency module and identify and read;

Radio frequency identification module, its inlet circuit connects radio-frequency (RF) identification array, and circuit connects described main control module, and on some batteries of radio frequency identification module received RF identification array output, the communication of radio-frequency module is to main control module.

Radio-frequency module on above-mentioned battery adopts electronic tag or radio-frequency card; The identifying information of battery is stored and exported to electronic tag to main control module; Radio-frequency card output battery is withholdd management information to main control module.

This fills the storage cabinet and also comprises:

The access control module, its circuit connects main control module;

Some gate inhibition's electromagnetic locks, fill the storage cabinet and be provided with some switch gates, and this gate inhibition's electromagnetic lock is arranged at each switch gate place of filling the storage cabinet, and the input of some gate inhibition's electromagnetic locks circuit respectively connects gate inhibition's control module; When there being the people to charge, main control module output gate inhibition control command, to the access control module, by each gate inhibition's electromagnetic lock of access control module controls, is filled the switching of each switch gate of storage cabinet with control.

Above-mentioned energy supply control module circuit is connected with some power modules, and some power module outlets circuit respectively connect some different batteries, respectively some batteries are carried out to charging monitoring simultaneously.

Above-mentioned main control module also circuit is connected with human-machine interface module, radio-frequency module information demonstration output on the battery status information that its demonstration main control module receives and battery.

Above-mentioned main control module also circuit is connected with wireless communication module, and main control module realizes that with external battery charging management master control layer communication is connected by wireless communication module, and whole information of filling the storage cabinet is transferred to the master control layer in time.

Above-mentioned battery is lead-acid battery or lithium iron battery.

A kind of intelligence of the utility model is filled the battery charging equipment of storage cabinet and prior art and is compared, its advantage is, the disclosed system of the utility model is controlled by the coordination by main control module between battery sampling module, energy supply control module, power module, battery is charged, meet logistics, the postal grade need to, than the field of charging quickly, be stored control to battery simultaneously;

The utility model can be fast to the lead-acid battery of electric bicycle, and lithium iron battery etc. are charged, and simultaneously also battery is carried out to storage administration, by radio frequency identification module, to the management of being withholdd of effective card, the whole information of storing up cabinet of filling is transferred to backstage in time;

The utility model has changed current single charging modes, makes charging to carry out in unattended situation, has improved the efficiency of charging simultaneously, simplifies charging process.

The accompanying drawing explanation

Fig. 1 is the structural representation that a kind of intelligence of the utility model is filled the storage cabinet.

Embodiment

Below in conjunction with accompanying drawing, further illustrate specific embodiments of the invention.

As shown in Figure 1, the present invention discloses a kind of intelligence of for the battery 12 to electric bicycle, carrying out charging monitoring and fills the storage cabinet, and this fills the storage cabinet and comprises: main control module 1, human-machine interface module 2, wireless communication module 3, radio frequency identification module 4, radio-frequency (RF) identification array 5, battery sampling module 6, energy supply control module 7, access control module 8, some power modules 9, some gate inhibition's electromagnetic locks 10, some antennas 11.

Battery 12 can be lead-acid battery or lithium iron battery.

Main control module 1 is the main control unit that fills the storage cabinet, is equivalent to people's brain, and the various information that gather are processed, and controls each Executive Module simultaneously and moves accordingly.

Battery sampling module 6 inlet circuits connect battery 12, battery sampling module 6 is gone back circuit and is connected main control module 1, the information of voltage that 6 pairs of batteries of battery sampling module 12 carry out examinations and gather battery transfers to main control module 1 with the judgement battery charging state, such as the information such as whether being full of.

The output of some power modules 9 circuit respectively connects several corresponding batteries 12, respectively several batteries 12 is charged simultaneously and implements charging and control.

Energy supply control module 7 circuit of output terminal connect power module 9, and energy supply control module 7 is gone back circuit and connected main control module 1.The information judgement battery charging state that main control module 1 gathers according to battery sampling module 6, and by controls of charge of 7 pairs of power modules 9 of energy supply control module, when battery is full of or deenergization module 9 extremely the time, charge to battery 12 stopping.

Some antennas 11 all circuit are connected to radio-frequency (RF) identification array 5, and each battery 12 is provided with radio-frequency module, and some antennas 11 are corresponding respectively to be read the information of radio-frequency module on each battery and export radio-frequency (RF) identification array 5 to.Radio-frequency module on battery 12 can adopt electronic tag or radio-frequency card.The identifying information that electronic tag is used for storing and export battery 12 is to main control module 1, to realize the identification to each rechargeable battery.Radio-frequency card is for realizing the charging function of battery charging, and its output battery is withholdd management information to main control module 1, and is sent to system backstage or the management of master control layer enforcement charging monitor.

Radio-frequency (RF) identification array 5 inlet circuits connect each antenna 11, and the information that receives radio-frequency module on each antenna 11 collection batteries is identified and read.Radio-frequency (RF) identification array 5, by the input switching controls to each antenna 11, reads the label information of battery, the state of electrolytic cell.

Radio frequency identification module 4 inlet circuits connect radio-frequency (RF) identification array 5, go back circuit and connect main control module 1.On some batteries of radio frequency identification module 4 received RF identification array 5 outputs, the communication of radio-frequency module is to main control module 1.

Access control module 8 circuit connect main control module 1, are the actuators of main controller, receive the access control instruction of main control module 1, implement access control.

Fill the storage cabinet and be provided with some switch gates, some gate inhibition's electromagnetic locks 10 are arranged at respectively each switch gate place of filling the storage cabinet, and the input of some gate inhibition's electromagnetic locks 10 circuit respectively connects gate inhibition's control module 8.When there being the people to charge, main control module 1 sends the access control instruction to access control module 8, by access control module 8, controls each gate inhibition's electromagnetic lock 10, fills the switching of each switch gate of storage cabinet with control.

Human-machine interface module 2 circuit connect main control modules 1, and it is for showing on battery status information that main control module 1 receives and battery radio-frequency module information and showing output.

Wireless communication module 3 circuit connect main control module 1, and main control module 1 realizes that with external battery charging management master control layer communication is connected by wireless communication module 3, and whole information of filling the storage cabinet is transferred to the master control layer in time.

Although content of the present utility model has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to restriction of the present utility model.After those skilled in the art have read foregoing, for multiple modification of the present utility model with to substitute will be all apparent.Therefore, protection range of the present utility model should be limited to the appended claims.

Claims (8)

1. an intelligence is filled the storage cabinet, for battery (12) is carried out to charging monitoring, it is characterized in that, this fills the storage cabinet and comprises:

Main control module (1);

Battery sampling module (6), its inlet circuit connects described battery (12), and circuit connects described main control module (1), and battery sampling module (6) receives battery status information and transfers to main control module (1) with the judgement battery charging state;

Power module (9), its circuit of output terminal connects described battery (12), and battery is charged;

Energy supply control module (7), its circuit of output terminal connects described power module (9), and circuit connects described main control module (1); Main control module (1) by energy supply control module (7) to power module (9) control of charging, deenergization module (9) when battery is full of or is abnormal.

2. intelligence as claimed in claim 1 is filled the storage cabinet, it is characterized in that, this fills the storage cabinet and also comprises:

Some antennas (11), each battery (12) is provided with radio-frequency module, and some antennas (11) are read respectively information the output of radio-frequency module on each battery;

Radio-frequency (RF) identification array (5), its inlet circuit connects some described antennas (11), receives each antenna (11) and gathers on battery the information of radio-frequency module and identify and read;

Radio frequency identification module (4), its inlet circuit connects described radio-frequency (RF) identification array (5), and circuit connects described main control module (1), on some batteries of radio frequency identification module (4) received RF identification array (5) output, the communication of radio-frequency module is to main control module (1).

3. intelligence as claimed in claim 2 is filled the storage cabinet, it is characterized in that, the radio-frequency module on described battery (12) adopts electronic tag or radio-frequency card; The identifying information of battery (12) is stored and exported to electronic tag to main control module (1); Radio-frequency card output battery is withholdd management information to main control module (1).

4. intelligence as claimed in claim 1 is filled the storage cabinet, it is characterized in that, this fills the storage cabinet and also comprises:

Access control module (8), its circuit connects described main control module (1);

Some gate inhibition's electromagnetic locks (10), fill the storage cabinet and be provided with some switch gates, and this gate inhibition's electromagnetic lock (10) is arranged at each switch gate place of filling the storage cabinet, and the input of some gate inhibition's electromagnetic locks circuit respectively connects described access control module (8); When there being the people to charge, main control module (1) output gate inhibition control command, to access control module (8), is controlled each gate inhibition's electromagnetic lock (10) by access control module (8), fills the switching of each switch gate of storage cabinet with control.

5. fill the storage cabinet as claim 1 or 2 or 4 described intelligence, it is characterized in that, described energy supply control module (7) circuit is connected with some power modules (9), some power modules (9) output circuit respectively connects some different batteries (12), respectively some batteries is carried out to charging monitoring simultaneously.

6. intelligence as claimed in claim 1 is filled the storage cabinet, it is characterized in that, described main control module (1) is gone back circuit and is connected with human-machine interface module (2), radio-frequency module information demonstration output on the battery status information that its demonstration main control module (1) receives and battery.

7. intelligence as claimed in claim 1 is filled the storage cabinet, it is characterized in that, described main control module (1) is gone back circuit and is connected with wireless communication module (3), main control module (1) realizes that with external battery charging management master control layer communication is connected by wireless communication module (3), and whole information of filling the storage cabinet is transferred to the master control layer in time.

8. intelligence as claimed in claim 1 is filled the storage cabinet, it is characterized in that, described battery (12) is lead-acid battery or lithium iron battery.

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