CN204967321U

CN204967321U - Electric motor car intelligent charging system

Info

Publication number: CN204967321U
Application number: CN201520632554.3U
Authority: CN
Inventors: 万长宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-08-20
Filing date: 2015-08-20
Publication date: 2016-01-13
Anticipated expiration: 2025-08-20

Abstract

The utility model relates to an electric motor car intelligent charging system, it includes mobile client, backend server, intelligent power supply unit and the socket that charges, communicate through the internet between mobile client, backend server and the intelligent electric power supply unit three, the socket that charges passes through the power cord to be connected with intelligent power supply unit, and intelligent power supply unit charges for outside rechargeable battery through the socket that charges. It sets up the service code on the socket to charge, and the service code is the one -to -one rather than the socket that charges at place. The beneficial effects of the utility model are that: be suitable for popularization and application, the user of being convenient for carries out the convenience, swiftly charges the rechargeable battery of electric motor car, can also significantly reduce because of the potential safety hazard problem that electric vehicle charging arouses, benefit the nation and the people.

Description

A kind of electric motor intelligent charging system

Technical field

The utility model belongs to electric vehicle charging technical field, is specifically related to a kind of electric motor intelligent charging system.

Background technology

Electric bicycle, as a kind of economy, convenience, energy-conservation walking-replacing tool, occupies very large market in China.At present, electric bicycle mainly uses lead acid accumulator to power, and by the restriction of storage battery power reservoir capacity, electric bicycle, after travelling certain mileage, must use charger to charge to storage battery.

The charging modes of existing rechargeable battery is divided into following three kinds substantially: 1) electric motor car user settles a dispute by the parties concerned themselves, user is electric motor car charging by pulling out a power line from family, this is the main flow charging modes of current most of electric motor car user, this charging modes makes the same power line of cobweb in community be seen everywhere, and exists unsightly, dangerous and inconvenient problem.2) residential property provides common charging socket at bicycle shed, this charging modes seldom adopts at present, the reasons such as the electricity charge, maintenance, management and potential safety hazard, the community electric motor car user that causes the property of community farthest to be tolerated settle a dispute by the parties concerned themselves electric motor car charging problem and do not go to improve this infrastructure.3) some businessman provides Quick charging station for electric vehicle, and this equipment is generally placed near business district, cannot really realize convenience-for-people object.In addition, this quick charge station technology also imperfection is substantially all adopt deep negative pulse technique to charge, this method cannot to the full electricity of rechargeable battery punching, can 70% ~ 80% be rushed in theory, actual discontented 70%, must charge to rechargeable battery after such electric motor car user goes home.And the big current continued powers that to use once in a while be feasible, often like this charging will cause very large injury to rechargeable battery.

Utility model content

In order to solve the problems referred to above that prior art exists, the utility model provides a kind of electric motor intelligent charging system being suitable for applying.

The technical scheme that the utility model adopts is: a kind of electric motor intelligent charging system comprises cell-phone customer terminal, background server, intelligent power supply and charging socket; Described cell-phone customer terminal, to be communicated by the Internet between described background server and described intelligent power supply three; Described charging socket is connected with described intelligent power supply by power line, and described intelligent power supply is that external charging battery charges by described charging socket.

Further, described charging socket arranges service code, the described charging socket at described service code and its place is one to one.

Further, described intelligent power supply comprises 220V AC power, charge control module, charging circuit, rechargeable battery detection module and wireless communication module, described 220V AC power is connected with described charging circuit by described charge control module, and described rechargeable battery detection module is all connected with described charge control module with described wireless communication module; Described rechargeable battery detection module detects the charging voltage required for rechargeable battery and charging current that are connected with described charging socket, and testing result is transferred to described charge control module, described charge control module controls described charging circuit, and to export corresponding charging voltage and charging current be that the rechargeable battery of electric motor car charges; Described wireless communication module is used for communicating with described cell-phone customer terminal or described background server.

Further, described charge control module comprises microprocessor, relay and electric power detection module, described microprocessor is connected with the input of described charging circuit by described relay, and the output of described charging circuit is connected with external charging battery by described charging socket; Described electric power detection module is connected with described microprocessor and external charging battery, and the dump energy of the external charging battery detected is transferred to described microprocessor by described electric power detection module, the break-make of relay described in described Microprocessor S3C44B0X.

Further, be also provided with timer and touch display module in described charge control module, described timer and touch display module are all connected with described microprocessor; Described timer is set by described touch display module and shows the charging interval; The dump energy of described touch display module display external charging battery.

Further, charged state indicating circuit and electric-leakage detection circuit is also provided with in described charge control module; Described charged state indicating circuit is connected between described relay and charging circuit, is used to indicate the charged state of described charging circuit; Described electric-leakage detection circuit is connected with described microprocessor, and the leakage current value detected is transferred to described microprocessor by described electric-leakage detection circuit, the actuating of relay described in described Microprocessor S3C44B0X.

Further, also voltage and current detection circuit is provided with in described charge control module, described voltage and current detection circuit is connected with described microprocessor, the charging voltage of the rechargeable battery detected and charging current are all transferred to described microprocessor by described voltage and current detection circuit, the actuating of relay described in described Microprocessor S3C44B0X.

Further, be also provided with lightning protection circuit in described charge control module, described lightning protection circuit one end ground connection, all the other two ends are connected with the live wire end of described charging socket and zero line side respectively.

Further; described charging socket is arranged in a protection box; described protection box comprises a box body and is arranged on the entrance guard device on described box body; described entrance guard device comprises microcontroller, power on/off detection module and electromagnetic lock; whether described power on/off detection module is energized to described entrance guard device is detected; and by the energising that detects or off-position Signal transmissions to described microcontroller, described microprocessor controls electromagnetic lock opens or closes.

Owing to adopting above technical scheme, the beneficial effects of the utility model are: the utility model, by arranging cell-phone customer terminal, background server, intelligent power supply and charging socket, makes user to charge to the rechargeable battery of electric motor car voluntarily, easily.The utility model is easy to utilize, can really solve electric motor car charging problems.In addition, the utility model can also greatly reduce the security hidden trouble caused because of electric motor car charging, benefits the nation and the people.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model electric motor intelligent charging system;

Fig. 2 is the structural representation of intelligent power supply in the utility model electric motor intelligent charging system.

In figure: 1, cell-phone customer terminal; 2, background server; 3, intelligent power supply; 4, charging socket; 5, rechargeable battery; 31,220V AC power; 32, charge control module; 33, charging circuit; 34, rechargeable battery detection module; 35, wireless communication module; 321, microprocessor; 322, relay; 323, electric power detection module; 324, timer; 325, touch display module; 326, charged state indicating circuit; 327, electric-leakage detection circuit; 328, voltage and current detection circuit.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in detail.

As shown in Figure 1, the utility model provides a kind of electric motor intelligent charging system, and it comprises cell-phone customer terminal 1, background server 2, intelligent power supply 3 and charging socket 4.Wherein, cell-phone customer terminal 1, carry out telecommunication by the Internet between background server 2 and intelligent power supply 3 three.Charging socket 4 is connected with intelligent power supply 3 by normal power cords such as the power line of electric rice cooker or the power lines of computer, and intelligent power supply 3 is charged for external charging battery 5 by charging socket 4.Use intelligent power supply 3 and charging socket 4 to charge for rechargeable battery 5, save the electric motor car special charger used in prior art.Multiple charging socket 4 can charge for multiple rechargeable battery 5 simultaneously.Each charging socket 4 arranges service code, and the charging socket 4 at service code and its place is one to one.

In a preferred embodiment, as shown in Figure 2, intelligent power supply 3 comprises 220V AC power 31, charge control module 32, charging circuit 33, rechargeable battery detection module 34 and wireless communication module 35.220V AC power 31 is connected with charging circuit 33 by charge control module 32, and rechargeable battery detection module 34 is all connected with charge control module 32 with wireless communication module 35.Rechargeable battery detection module 34 detects the size of charging voltage required for rechargeable battery 5 and the size and Orientation of charging current that are connected with charging socket 4, and the charging voltage detected and charging current are transferred to charge control module 32, charge control module 32 controls charging circuit 33 according to the charging voltage received and charging current, and to export corresponding charging voltage and charging current be that the rechargeable battery 5 of electric motor car charges, the size of charging voltage and charging current can meet the charge requirement of rechargeable battery 5 on the one hand, the direction of charging current can provide correct polarity for rechargeable battery 5 on the other hand, connection error is avoided to make rechargeable battery 5 occur the fault burnt out.Wireless communication module 35 is for communicating with cell-phone customer terminal 1 or background server 2.

Further, charge control module 32 comprises microprocessor 321, relay 322 and electric power detection module 323.Microprocessor 321 is connected with the input of charging circuit 33 by relay 322, and the output of charging circuit 33 is connected with external charging battery 5 by charging socket 4.Electric power detection module 323 is connected with microprocessor 321 and external charging battery 5, the dump energy of the external charging battery 5 detected is transferred to microprocessor 321 by electric power detection module 323, microprocessor 321, according to dump energy control relay 322 break-make received, realizes the intelligent charge to outside rechargeable battery 5.

In a preferred embodiment, as shown in Figure 2, timer 324 and touch display module 325 is also provided with in charge control module 32.Timer 324 is all connected with microprocessor 321 with touch display module 325.Timer 324 is set by touch display module 325 and shows the charging interval.After charging interval has set, microprocessor 321 control relay 322 and charging circuit 33 conducting.After timer 324 stops timing, microprocessor 321 control relay 322 and charging circuit 33 disconnect, and stop as external charging battery 5 charges.In addition, the dump energy of the external charging battery 5 that electric power detection module 323 detects transfers to after microprocessor 321 processes, and is sent to touch display module 325 and shows, be convenient to the charge condition that user controls rechargeable battery 5 in real time.

In a preferred embodiment, as shown in Figure 2, be also provided with charged state indicating circuit 326 in charge control module 32, charged state indicating circuit 326 is connected between relay 322 and charging circuit 33, is used to indicate the charged state of charging circuit 33.

In a preferred embodiment, as shown in Figure 2, be also provided with electric-leakage detection circuit 327 in charge control module 32, electric-leakage detection circuit 327 is connected with microprocessor 321.Electric-leakage detection circuit 327 comprises zero sequence current mutual inductor and operational amplifier.Residual current in zero sequence current mutual inductor testing circuit, and the residual current detected is transferred to operational amplifier amplify, current signal transfer after amplification is to microprocessor 321, microprocessor 321 obtains leakage current value after carrying out the process such as analog-to-digital conversion and extracting operation to the current signal received, and the leakage current value obtained and the leakage current alarm threshold value preset compare by microprocessor 321.When leakage current value is greater than leakage current alarm threshold value, microprocessor 321 control relay 322 disconnects, and cuts off 220V AC power 31 and powers, to protect the Electrical Safety of charging socket 4.

In a preferred embodiment, as shown in Figure 2, also be provided with voltage and current detection circuit 328 in charge control module 32, voltage and current detection circuit 328 is connected with microprocessor 321, and it comprises pressure filter circuit, electric energy metering module, current transformer and filter circuit.

The charging voltage of rechargeable battery 5 sends into electric energy metering module by pressure filter circuit.Electric energy metering module converts the signal received to active power; and send into microprocessor 321 with the form of high-frequency impulse; microprocessor 321 obtains magnitude of voltage after processing the high-frequency impulse received; and the magnitude of voltage obtained and the voltage alarm threshold value preset are compared; when magnitude of voltage is greater than voltage alarm threshold value, microprocessor 321 control relay 322 disconnects, and cuts off 220V AC power 31 and powers; to protect the Electrical Safety of charging socket 4, thus play the effect of overvoltage protection.

The charging current of the rechargeable battery 5 detected is sent into electric energy metering module by filter circuit by current transformer.Electric energy metering module converts the signal received to active power, and sends into microprocessor 321 with the form of high-frequency impulse, and microprocessor 321 obtains current value after processing the high-frequency impulse received; The current value obtained and the electric current alarm threshold value preset compare by microprocessor 321; when current value is greater than default electric current alarm threshold value; microprocessor 321 control relay 322 disconnects; cut off 220V AC power 31 to power; to protect the Electrical Safety of charging socket 4, thus play the effect of overcurrent protection.

In a preferred embodiment, be also provided with lightning protection circuit in charge control module 32, lightning protection circuit one end ground connection, all the other two ends are connected with the live wire end of charging socket 4 and zero line side respectively.Further, lightning protection circuit adopts a Surge Protector, and the earth terminal of Surge Protector is connected with ground wire, and its live wire end is connected with the live wire end of charging socket 4, and its zero line side is connected with the zero line side of charging socket 4.When the spike high-frequency impulse of thundery sky thunder and lightning seals in intelligent power supply 3 rechargeable battery 5 threatened on charging socket 4 by supply line, Surge Protector absorbs disturbing pulse, plays the effect of protection rechargeable battery 5.

In a preferred embodiment, for ensureing that electric motor car can be charged safely and steadly by charging socket 4, charging socket 4 is arranged in a protection box.Protection box comprises a box body and is arranged on the entrance guard device on box body, entrance guard device comprises microcontroller, power on/off detection module and electromagnetic lock, whether power on/off detection module is energized to entrance guard device is detected, and by the energising that detects or off-position Signal transmissions to microcontroller, microcontroller cuts out according to the "on" position signal controlling electromagnetic lock received, namely, in the process that electric motor car charges, box body is in closure state; Or microcontroller is opened according to the off-position signal controlling electromagnetic lock received, time namely without electric motor car charging or electric motor car charging complete, box body is in open mode.

Based on electric motor intelligent charging system, the utility model additionally provides a kind of electric motor intelligent charging method, and it comprises the following steps:

1) rechargeable battery 5 of electric motor car connects charging socket 4 by power line.

2) the rechargeable battery detection module 34 in intelligent power supply 3 detects charging voltage required for rechargeable battery 5 and charging current, and transfers to the microprocessor 321 in charge control module 32; Electric power detection module 323 detects the dump energy of rechargeable battery 5 and transfers to microprocessor 321; Background server 2 is sent to by wireless communication module 35 after the dump energy of microprocessor 321 to the charging current received and rechargeable battery 5 processes.

3) charging current needed for rechargeable battery 5 and dump energy, background server 2 calculates the expense that rechargeable battery 5 is full of the time required for electricity and is full of required for electricity, and sends to cell-phone customer terminal 1 by network.Cell-phone customer terminal 1 will be agreed to charging by network or do not agreed to that the information feed back charged is to background server 2.

4) when cell-phone customer terminal 1 by network by agree to charging information feed back to background server 2 time, background server 2 will agree to that the information of charging sends to intelligent power supply 3, intelligent power supply 3 is charged for rechargeable battery 5 by charging socket 4, and its detailed process is:

(1), in the service code on charging socket 4 and service time input handset client 1, service code and service are sent to background server 2 by network start-up time by cell-phone customer terminal 1.

(2) background server 2 is resolved the service code received and service start-up time, and services control signals is sent to intelligent power supply 3 by wireless communication module 35 by background server 2.

(3) intelligent power supply 3 receives services control signals, the charging voltage required for the rechargeable battery 5 that rechargeable battery detection module 34 detects and charging current, and charge control module 32 controls charging circuit 33 for rechargeable battery and charges.

Protection box is automatically locked, and the rechargeable battery 5 of electric motor car is charged by charging socket 4; When electric power detection module 323 detects rechargeable battery 5 charging complete of electric motor car, microprocessor 321 controls charging socket 4 power-off by relay 322, and protection box is opened.After charging complete, charging completion signal and service ending time are sent to background server 2 by wireless communication module 35 by intelligent power supply 3.

(4) background server 2 calculates expense needed for this charging service according to the charging completion signal received, service ending time and service start-up time, and cost information is sent to cell-phone customer terminal 1 by network.

5) when cell-phone customer terminal 1 by network by do not agree to charge information feed back to background server 2 time, background server 2 will not agree to charge information send to intelligent power supply 3, intelligent power supply 3 does not charge for rechargeable battery 5.In addition, when background server 2 does not receive any information of cell-phone customer terminal 1 feedback within the t1 time, then background server 2 is judged to not agree to charging automatically.

Above-mentioned steps 4) in, if rechargeable battery 5 is pulled out the plug of electric motor car end in charging process by people's malice, rechargeable battery detection module 34 detects does not have correct electric current to export, microprocessor 321 cuts off the power supply of this charging socket 4 by relay 322, charging abnormal information is sent to background server 2 by wireless communication module 35 simultaneously.Background server 2 stops identifying code in generating according to the charging abnormal information that receives, and by charging abnormal information with in stop identifying code and all send to cell-phone customer terminal 1; Meanwhile, background server 2 by stop charging control information feed back to intelligent power supply 3 by wireless communication module 35.In stop the charging content of control information be: if rechargeable battery 5 reconnects charging socket 4 within the t2 time, and background server 2 can receive during cell-phone customer terminal 1 feeds back and stops identifying code, then intelligent power supply equipment continues as rechargeable battery 5 by charging socket 4 and charges; Otherwise background server 2 recalculates service fee, and the cost information calculated is sent to cell-phone customer terminal 1 by network.Wherein, chargeable time is service start-up time to time of intelligent power supply 3 auto-breaking, and the time is accurate to minute.

The utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but any change is done in its shape or structure; every have identical with the application or akin technical scheme, all drops within protection range of the present utility model.

Claims

1. an electric motor intelligent charging system, is characterized in that: it comprises cell-phone customer terminal, background server, intelligent power supply and charging socket; Described cell-phone customer terminal, to be communicated by the Internet between described background server and described intelligent power supply three; Described charging socket is connected with described intelligent power supply by power line, and described intelligent power supply is that external charging battery charges by described charging socket.

2. a kind of electric motor intelligent charging system as claimed in claim 1, is characterized in that: described charging socket arranges service code, and the described charging socket at described service code and its place is one to one.

3. a kind of electric motor intelligent charging system as claimed in claim 1 or 2, it is characterized in that: described intelligent power supply comprises 220V AC power, charge control module, charging circuit, rechargeable battery detection module and wireless communication module, described 220V AC power is connected with described charging circuit by described charge control module, and described rechargeable battery detection module is all connected with described charge control module with described wireless communication module; Described rechargeable battery detection module detects the charging voltage required for rechargeable battery and charging current that are connected with described charging socket, and testing result is transferred to described charge control module, described charge control module controls described charging circuit, and to export corresponding charging voltage and charging current be that the rechargeable battery of electric motor car charges; Described wireless communication module is used for communicating with described cell-phone customer terminal or described background server.

4. a kind of electric motor intelligent charging system as claimed in claim 3, it is characterized in that: described charge control module comprises microprocessor, relay and electric power detection module, described microprocessor is connected with the input of described charging circuit by described relay, and the output of described charging circuit is connected with external charging battery by described charging socket; Described electric power detection module is connected with described microprocessor and external charging battery, and the dump energy of the external charging battery detected is transferred to described microprocessor by described electric power detection module, the break-make of relay described in described Microprocessor S3C44B0X.

5. a kind of electric motor intelligent charging system as claimed in claim 4, it is characterized in that: be also provided with timer and touch display module in described charge control module, described timer and touch display module are all connected with described microprocessor; Described timer is set by described touch display module and shows the charging interval; The dump energy of described touch display module display external charging battery.

6. a kind of electric motor intelligent charging system as claimed in claim 4, is characterized in that: be also provided with charged state indicating circuit and electric-leakage detection circuit in described charge control module;

Described charged state indicating circuit is connected between described relay and charging circuit, is used to indicate the charged state of described charging circuit;

Described electric-leakage detection circuit is connected with described microprocessor, and the leakage current value detected is transferred to described microprocessor by described electric-leakage detection circuit, the actuating of relay described in described Microprocessor S3C44B0X.

7. a kind of electric motor intelligent charging system as claimed in claim 4, it is characterized in that: in described charge control module, be also provided with voltage and current detection circuit, described voltage and current detection circuit is connected with described microprocessor, the charging voltage of the rechargeable battery detected and charging current are all transferred to described microprocessor by described voltage and current detection circuit, the actuating of relay described in described Microprocessor S3C44B0X.

8. a kind of electric motor intelligent charging system as claimed in claim 3; it is characterized in that: in described charge control module, be also provided with lightning protection circuit; described lightning protection circuit one end ground connection, all the other two ends are connected with the live wire end of described charging socket and zero line side respectively.

9. a kind of electric motor intelligent charging system as claimed in claim 1 or 2; it is characterized in that: described charging socket is arranged in a protection box; described protection box comprises a box body and is arranged on the entrance guard device on described box body; described entrance guard device comprises microcontroller, power on/off detection module and electromagnetic lock; whether described power on/off detection module is energized to described entrance guard device is detected; and by the energising that detects or off-position Signal transmissions to described microcontroller, described microprocessor controls electromagnetic lock opens or closes.