CN206947969U - Power type movable charging vehicle - Google Patents

Abstract

It the utility model is related to a kind of power type movable charging vehicle.The charging vehicle possesses：One charging inlet；First energy-storage battery；Second energy-storage battery and electrokinetic cell, the charging inlet are arranged to selectively only be connected with one piece of battery in first energy-storage battery, second energy-storage battery and the electrokinetic cell when carrying out mending electricity in itself to movable charging vehicle.Movable charging vehicle of the present utility model and based on the charging/discharging thereof of the movable charging vehicle by the way that electrokinetic cell and energy-storage battery are arranged into identical, can be electrokinetic cell and energy-storage battery electric energy supplement with a charging inlet, can streamline operation and system architecture, save cost.

Description

Power type movable charging vehicle

Technical field

New energy charging device is the utility model is related to, more particularly to a kind of circuit system of power type movable charging vehicle System.

Background technology

With world's environmental issue and the energy is critical becomes increasingly conspicuous, and finds without pollution or automobile of reduced contamination morning Just turn into people pursue target, under this overall background New-energy electric vehicle future development become certainty.On the other hand, with The development of electric automobile, charging electric vehicle is difficult, the problem of inconvenient of charging becomes increasingly conspicuous, difficult in order to solve such charging The problem of, there is power type movable charging vehicle, what power type movable charging vehicle can be flexible provides the user convenient Charging service.

However, current power type movable charging vehicle is also immature, charging inlet is complicated, is not easy to operate, mobile charging The charging inlet of the battery charging of car in itself and energy-storage battery charging on car is not unified, either AC charging or direct current Charging is all with single charging inlet, and future, the power of charging pile the more can do the more big, and the charging rate of battery also constantly carries Height, thus It is not necessary to multiple charging guns to car in itself, also vehicle-mounted energy-storage battery charges.

Utility model content

In view of the above problems, the utility model is aimed to provide to simplify this body structure of charging vehicle and can simplify and filled The movable charging vehicle of manual steps when electric and charging/discharging thereof and benefit method for electrically based on the movable charging vehicle.

The power type movable charging vehicle of the utility model first aspect, it is characterised in that possess：One charging inlet；The One energy-storage battery；Second energy-storage battery and electrokinetic cell,

The charging inlet is arranged to when carrying out mending electricity in itself to movable charging vehicle selectively only with described first One piece of battery connection in energy-storage battery, second energy-storage battery and the electrokinetic cell.

Alternatively, the electrokinetic cell, first energy-storage battery and the second energy-storage battery are identical battery, described to fill Electrical interface is used for the electrically-charging equipment for being connected to outside.

Alternatively, the charging inlet is used for direct-current charging post, alternating-current charging pile, wireless charging emitter with outside In any one equipment connection.

Alternatively, it is further equipped with：

First switch, it is arranged between first energy-storage battery and the charging inlet；

Second switch, it is arranged between second energy-storage battery and the charging inlet；

3rd switch, is arranged between the electrokinetic cell and the charging inlet,

Wherein, when carrying out mending electricity in itself to movable charging vehicle, selectively only the first switch, second are opened A switch conduction in pass and the 3rd switch.

Alternatively, it is further equipped with：

Monitor, for monitoring the SOC of first energy-storage battery, second energy-storage battery and the electrokinetic cell And a switch conduction in the first switch, second switch and the 3rd switch is controlled according to monitoring result.

Alternatively, the monitor is used to monitoring first energy-storage battery, second energy-storage battery and described dynamic The SOC of power battery, and be controlled according to following monitoring results：

If the electrokinetic cell SOC for not full power state if preferentially cause the 3rd switch conduction with to the electrokinetic cell Carry out mending electricity；

Preferentially cause if being full power state if the SOC of the electrokinetic cell and first energy-storage battery, second storage The switch conduction of the less one piece of energy-storage battery connections of SOC in energy battery；

Then cause the energy storage electricity larger with another piece of SOC in the case that electricity finishes being mended to the less energy-storage batteries of SOC The switch conduction of pond connection；

If the SOC of first energy-storage battery, second energy-storage battery and the electrokinetic cell is full power state, Then mend electric release.

Alternatively, the monitor is further used for controlling power type movable charging vehicle to provide user according to monitoring result Charging service.

Alternatively, the monitor is arranged to implement the control of one of in the following manner：

It is respectively that two users provide charging service using the first energy-storage battery and the second energy-storage battery；

Charging service is provided using the first energy-storage battery and the second energy-storage battery together for same user；And

Using electrokinetic cell charging service is provided for a user.

The benefit method for electrically of the present utility model for power type movable charging vehicle mend electricity, it is characterised in that including following Step：

Monitor the SOC of first energy-storage battery, second energy-storage battery and the electrokinetic cell；

If the electrokinetic cell SOC for not full power state if preferentially the electrokinetic cell is carried out to mend electricity；

Preferentially to first energy-storage battery, second energy storage electricity if being full power state if the SOC of the electrokinetic cell The less one piece of energy-storage battery of SOC mends electricity in pond；

In the case where mending electricity to the less energy-storage batteries of SOC and finishing, another piece of larger energy-storage battery of SOC is mended Electricity；

If the SOC of first energy-storage battery, second energy-storage battery and the electrokinetic cell is full power state, Then send the prompting that charging finishes.

The power type movable charging vehicle of the utility model second aspect, it is characterised in that possess：One charging inlet；1st ~the N energy-storage batteries；Electrokinetic cell,

The charging inlet be arranged to when carrying out mending electricity in itself to movable charging vehicle selectively only with the described 1st~ One piece of battery connection in N energy-storage batteries and the electrokinetic cell, wherein, N is natural number.

Alternatively, 1 energy-storage battery~nth block energy-storage battery is identical battery, and the charging inlet is used to connect It is connected to and carries out the electrically-charging equipment for mending the outside of electricity in itself to movable charging vehicle.

Alternatively, the charging inlet is used for direct-current charging post, alternating-current charging pile, wireless charging emitter with outside In any one equipment connection.

Alternatively, it is further equipped with：

1st switch the~the N switch, be separately positioned on the 1st energy-storage battery~N energy-storage batteries each with it is described Between charging inlet, and

Electrokinetic cell switchs, and is arranged between the electrokinetic cell and the charging inlet,

Wherein, when carrying out mending electricity in itself to movable charging vehicle, the~the N of the 1st switch is selectively only caused to open One switch conduction in the Central Shanxi Plain.

Alternatively, it is further equipped with：

Monitor, for monitoring the SOC of the 1st the~the N of switch switches and the electrokinetic cell and according to monitoring result Control a switch conduction in the~the N of the 1st switch switches and electrokinetic cell switch.

Alternatively, the monitor is used to monitor the 1st energy-storage battery~N energy-storage batteries and the electrokinetic cell SOC, and be controlled according to following monitoring results：

If the electrokinetic cell SOC for not full power state if preferentially cause the electrokinetic cell switch conduction with to described Electrokinetic cell carries out mending electricity；

If the SOC of the electrokinetic cell is full power state, cause what the energy-storage battery ascending with SOC was connected successively Switch conduction, carry out mending electricity with energy-storage battery ascending to SOC successively；

If the SOC of the 1st energy-storage battery~N energy-storage batteries and the electrokinetic cell is full power state, mend Electric release.

Alternatively, the monitor is further used for controlling power type movable charging vehicle to provide user according to monitoring result Charging service.

Alternatively, the monitor is arranged to implement the control of one of in the following manner：

It is respectively that N number of user provides charging service using the first~the N energy-storage batteries；

Charging service is provided using with the first~the N energy-storage batteries together for same user；And

Using electrokinetic cell charging service is provided for a user.

The utility model second aspect to power type movable charging vehicle mend the benefit method for electrically of electricity, it is characterised in that bag Include following step：

Monitor the SOC of the 1st energy-storage battery~N energy-storage batteries and the electrokinetic cell；

If the electrokinetic cell SOC for not full power state if preferentially the electrokinetic cell is carried out to mend electricity；

If the SOC of the electrokinetic cell is full power state, the energy-storage battery ascending to SOC carries out mending electricity successively；

If the SOC for surveying the 1st energy-storage battery~N energy-storage batteries and the electrokinetic cell is full power state, Then mend electric release.

As described above, movable charging vehicle of the present utility model and the charging/discharging thereof based on the movable charging vehicle pass through by Electrokinetic cell and energy-storage battery are arranged to identical, can be electrokinetic cell and energy-storage battery supplement electricity with a charging inlet Can, operating process is simplified, simplifies system architecture, saves cost.Moreover, can utilize monitor to each energy-storage battery with And the SOC of electrokinetic cell is monitored, energy-storage battery and electrokinetic cell are carried out according to monitored results to mend electricity, can be ensured excellent First electrokinetic cell is carried out to mend electricity, can be realized in a manner of intelligent, efficient to the electrokinetic cell of movable charging vehicle and energy storage electricity Pond carries out mending electricity.Furthermore charging in many ways can be provided according to the actual conditions of application, charging modes are various, charge efficiency It is high.

Brief description of the drawings

Fig. 1 is the circuit structure figure for the power type movable charging vehicle for representing the utility model first embodiment.

Fig. 2 is the circuit of the circuit of a part for the power type movable charging vehicle for representing the utility model second embodiment Structural map.

Fig. 3 is the circuit of another part circuit for the power type movable charging vehicle for representing the utility model second embodiment Structural map.

Embodiment

What is be described below is some in multiple embodiments of the present utility model, it is desirable to provide to of the present utility model basic Understand.It is not intended as and confirms of the present utility model crucial or conclusive key element or restriction scope of the claimed.

First embodiment

Said firstly, for the circuit structure of the power type movable charging vehicle of first embodiment of the present utility model It is bright.

Fig. 1 is the circuit structure figure for the power type movable charging vehicle for representing the utility model first embodiment.

As shown in figure 1, the power type movable charging vehicle of the utility model first embodiment at least possesses：It is connected to outside Electrically-charging equipment a charging inlet 100；First energy-storage battery 200；Second energy-storage battery 300 and electrokinetic cell 400.

Wherein, the first energy-storage battery 200；Second energy-storage battery 300 and electrokinetic cell 400 are identical battery.Here For identical battery refer to capacity, voltage range, battery material it is identical.

One charging inlet 100 is only set in the utility model, and charging inlet 100 is arranged to enter to movable charging vehicle Row mend it is electric when selectively only with one in the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 Connection.Charging inlet 100 is used to be connected to charge to power type movable charging vehicle with the charging equipment of outside.For example, fill Any one equipment that electrical interface 100 is used in the direct-current charging post, alternating-current charging pile, wireless charging emitter with outside connects Connect.

Then, had according to Fig. 1 to the circuit structure of the power type movable charging vehicle of the embodiment of the utility model one Body explanation.

Possessing a charging inlet 100, the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 On the basis of, it is also equipped with components described below in the circuit structure of Fig. 1 power type movable charging vehicle：

First switch K1, it is arranged between the first energy-storage battery 200 and charging inlet 100；

Second switch K2, it is arranged between the second energy-storage battery 300 and charging inlet 100；

3rd switch K3, is arranged between electrokinetic cell 400 and charging inlet 100；

First DC/DC 500, DC converting is carried out for the output to the first energy-storage battery 200, wherein DC/DC refers to directly Flow to the converter of direct current；

2nd DC/DC 600, DC converting is carried out for the output to the first energy-storage battery 300；And

Motor driver 700, the DC voltage for electrokinetic cell 400 to be exported become the voltage of motor.

Further, following switches are also equipped with the circuit structure of Fig. 1 power type movable charging vehicle：

4th switch K4, is arranged between the first energy-storage battery 200 and the first DC/DC500；

5th switch K5, is arranged between the second energy-storage battery 300 and the 2nd DC/DC600；

6th switch K6, is arranged between electrokinetic cell 400 and motor driver 700；

7th switch K7, it is arranged between the 5th switch K5 and the 6th switch K6；

8th switch K8, it is arranged on the first DC/DC500 output end（That is the first DC/DC500 one end and the 4th switch K4 Connection, the first DC/DC500 other end and the 8th switch K8）；

9th switch K9, it is arranged on the 2nd DC/DC600 output end（That is the 2nd DC/DC600 one end and the 5th switch K5 Connection, the 2nd DC/DC600 other end and the 9th switch K9）；And

Tenth switch K10, it is arranged between the 8th switch K8 and the 9th switch K9.

In the power type movable charging vehicle shown in Fig. 1, as described above, selection identical battery is as the first energy-storage battery 200th, the second energy-storage battery 300 and electrokinetic cell 400, advantage of this is that：

A. when the scope of activities of power type movable charging vehicle is smaller, user distribution is compact to power type movable charging vehicle sheet The course continuation mileage of body requires low, is charged using the electrokinetic cell of power type movable charging vehicle in itself to user；

B. when the scope of activities of power type movable charging vehicle is larger, user distribution is more scattered, the situation of field rescue Deng, at this moment using energy-storage battery electricity for charging vehicle charging continuation of the journey.

On the other hand, in the power type movable charging vehicle shown in Fig. 1, when power type movable charging vehicle of the present utility model , can be by being the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell by charging inlet 100 when needing to mend electricity 400 are charged, can be with by the way that any one in first switch K1, second switch K2 and the 3rd switch K3 is closed into closure Charging inlet 100 is controlled as which block battery charging, wherein, in synchronization first switch K1, second switch K2 and the 3rd There can only be a switch closure in switch K3, to confirm the state of all switches between action every time.For example, by only closing One switch K1, can charge from charging inlet 100 to the first energy-storage battery 200；, can by only closing second switch K2 Second energy-storage battery 300 is charged from charging inlet 100；, can be from charging inlet 100 by only closing the 3rd switch K3 Electrokinetic cell 400 is charged.

On the other hand, for the power type movable charging vehicle shown in Fig. 1, when the power type charging vehicle is that user charges：

A. if two users can export two-way simultaneously in same place, power type movable charging vehicle of the present utility model Direct current is that two users charge, and at this moment disconnects the tenth switch K10, and the switch K8 outputs of switch K4 and the 8th of closure the 4th are straight all the way Stream electricity, the switch K5 and the 9th of closure the 5th switch K9 outputs direct current all the way.

B. when an only user needs service, in power type movable charging vehicle of the present utility model, closure the 8th The switch K10 of switch K8 and the tenth simultaneously disconnect K9；Or the switch of closure the 9th K9, the tenth switch K10 and the switch K8 of disconnection the 8th, this Sample can provide the user more quick charging service using two-way DC/DC system relationships.

According to the power type movable charging vehicle of the utility model first embodiment, first switch K1, second switch are utilized These three switchings of the switches of K2 and the 3rd K3 are switched to realize that once plugging in rifle can charge to three pieces of batteries, and in the first embodiment party It can be just that each energy-storage battery carries out mending electricity with electrokinetic cell only to need to set a charging inlet 100 in formula, effectively simplify behaviour Make flow, simplify circuit structure, save cost.

Second embodiment

Then, illustrated for the power type movable charging vehicle of second embodiment of the present utility model.

Fig. 2 is the circuit of the circuit of a part for the power type movable charging vehicle for representing the utility model second embodiment Structural map.

The circuit structure figure of power type movable charging vehicle shown in Fig. 2 is to increase to set in the circuit structure shown in Fig. 1 Monitor 800.For simplified electrical circuit diagram, the circuit of the right part in Fig. 1 is eliminated in fig. 2.The one of monitor 8000 End is connected with charging inlet 100, and the other end is connected respectively to the first energy-storage battery 200, the second energy-storage battery 300 and power electric Pond 400.

Reference picture 2 illustrates for carrying out mending electrically operated situation to power type movable charging vehicle of the present utility model. So-called electricity of mending grasps the energy-storage battery and power battery charging referred to for power type movable charging vehicle.Moved in above-mentioned Fig. 1 power type Realized once by using first switch K1, second switch K2 and these three switching switches of the 3rd switch K3 in dynamic charging vehicle Plug in rifle can give three pieces of batteries to charge, and only need once to plug in rifle operation for operating personnel, by monitor 800 according to its charging Decision Control is completed.

Hereinafter, it is specifically described for the benefit controlled by monitor 800 is electrically operated.

Monitor 800 controls according to the SOC of the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 Mend electrically operated.It is specific as follows：

A. monitor 800 obtains the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 this three blocks of electricity The SOC in pond, preferentially electrokinetic cell 400 is carried out to mend electricity, when carrying out mending electricity to electrokinetic cell 400, first switch K1, second open Close K2 to disconnect, the 3rd switch K3 closures, after the completion of electricity is mended to electrokinetic cell 400, the 3rd switch K3 disconnects, and at this moment mends electricity monitoring Automatically restart；

B. monitor 800 obtain again the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 this three The SOC of block battery, at this moment electrokinetic cell 400 is full power state, for energy-storage battery, preferentially gives wherein SOC less energy storage electricity Pond is charged, and there was only switch closure corresponding to battery during charging, other are switched off, and present battery charging complete, disconnect current phase The switch answered, mend electricity monitoring and restart automatically；

C. monitor 800 obtain again the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 this three The SOC of block battery, at this moment the SOC of only one piece battery is smaller, then give last block battery mend electricity, its on off state operation with it is upper State analogue.Work as charging complete, disconnect current switch, mend electricity monitoring and restart automatically；

D. monitor 800 obtain again the first energy-storage battery 200, the second energy-storage battery 300 and electrokinetic cell 400 this three The SOC of block battery, it is all full power state at this moment to detect three pieces of batteries, and the message for charging and finishing at this moment is sent to operating personnel.

Fig. 3 is the circuit of another part circuit for the power type movable charging vehicle for representing the utility model second embodiment Structural map.

Then, service operations of the reference picture 3 for the power type movable charging vehicle of the utility model second embodiment are entered Row explanation.So-called service operations just refer to that power type movable charging vehicle carries out charging service operation to the electric car of user.

In the present embodiment, service operations are in the following several ways：

（1）Charged to two users simultaneously in the case of, charged using the first energy-storage battery 200 to user 1, utilize second Energy-storage battery 300 is charged to user 2, and at this moment the 4th switch K5, the 5th switch K5, the 8th switch K8 and the 9th switch K9 are closed Close, meanwhile, the tenth switch K10 disconnects, and is thus supplied and charged to user 1 by the first DC/DC500 from the first energy-storage battery 200, It is charged as charging to two users to the supply of user 2 from the second energy-storage battery 300 by the 2nd DC/DC600；

（2）In the case of only to user's charging, the first energy-storage battery 200 and the second energy-storage battery 300 can be utilized Being charged together for same user, on off state switchs the switch K10 closures of K5 and the tenth for the 4th switch K4, the 5th, meanwhile, root Factually border insert charging gun situation come select closure the 8th switch K8 or the 9th switch K9 in one.In addition, with two pieces Battery charges to a user simultaneously when, preferentially the second energy-storage battery 300 can be discharged.

（3）When charging vehicle scope of activities is smaller, all there is no electricity in the first energy-storage battery 200, the second energy-storage battery 300 In the case of available, electrokinetic cell 300 can also be utilized to be charged for user.At this moment need power supply of charge closing car itself, i.e., it is disconnected The 4th switch K4, the 5th switch K5 are opened, the switch K7 of closure the 7th, by the 2nd DC/DC600 is user using electrokinetic cell 400 Charging.

As described above, according to the power type movable charging vehicle of the utility model second embodiment, monitor can be utilized The SOC of 800 pairs of each energy-storage batteries and electrokinetic cell is monitored, and energy-storage battery and electrokinetic cell are entered according to monitored results Row mends electricity, wherein, preferentially electrokinetic cell is carried out to mend electricity, in the case where electrokinetic cell is completed to mend electricity, then it is preferentially relative to SOC Less energy-storage battery carries out mending electricity, thereby, it is possible to ensure that preferentially electrokinetic cell is carried out to mend electricity, can realize with intelligent, high The mode of effect carries out mending electricity to the electrokinetic cell and energy-storage battery of movable charging vehicle.

Moreover, according to the power type movable charging vehicle of the utility model second embodiment, the first energy-storage battery 200 is utilized And second energy-storage battery 300 can provide chargings to two users simultaneously, on the other hand, the first energy-storage battery can also be utilized 200 and second energy-storage battery 300 together to same user provide charging.It can also enough using electrokinetic cell 400 to use Family provides charging, and therefore, the power type movable charging vehicle of the utility model second embodiment can be according to the actual feelings of application Condition provides charging in many ways, and charging modes are various, and charge efficiency is high.

Variation

Illustrated finally, for the circuit structure of variation power type movable charging vehicle of the present utility model.

In first embodiment and second embodiment, it is illustrated in the case of energy-storage battery is two pieces.But It is the quantity of energy-storage battery not to be defined in the utility model, energy-storage battery can be N blocks, and wherein N is natural number.

Specifically, the power type movable charging vehicle of variation of the present utility model possesses：For being connected to mobile charging Car carries out mending in itself a charging inlet of the electrically-charging equipment of the outside of electricity；1st~the N energy-storage batteries；Electrokinetic cell.

Wherein, 1 energy-storage battery~nth block energy-storage battery is identical battery, and the charging inlet is arranged to moving When dynamic charging vehicle in itself mend electricity selectively only with the 1st~the N energy-storage batteries and the electrokinetic cell One piece of battery connection.

Further, the power type movable charging vehicle of variation of the present utility model is further equipped with：

1st switch the~the N switch, be separately positioned on the 1st energy-storage battery~N energy-storage batteries each with it is described Between charging inlet, and

Electrokinetic cell switchs, and is arranged between the electrokinetic cell and the charging inlet,

Wherein, when carrying out mending electricity in itself to movable charging vehicle, the~the N of the 1st switch is selectively only caused to open One switch conduction in the Central Shanxi Plain.

Further, the power type movable charging vehicle of variation of the present utility model is further equipped with：Monitor, for monitoring 1st switchs the SOC of the~the N switches and the electrokinetic cell and according to monitoring result control the 1st switch the~the N switches An and switch conduction in the electrokinetic cell switch.

The monitor is used for the SOC for monitoring the 1st energy-storage battery~N energy-storage batteries and the electrokinetic cell, And it is controlled according to following monitoring results：

If the electrokinetic cell SOC for not full power state if preferentially cause the electrokinetic cell switch conduction with to described Electrokinetic cell carries out mending electricity；

If the SOC of the electrokinetic cell is full power state, cause what the energy-storage battery ascending with SOC was connected successively Switch conduction, carry out mending electricity with energy-storage battery ascending to SOC successively；

If the SOC of the 1st energy-storage battery~N energy-storage batteries and the electrokinetic cell is full power state, mend Electric release.

On the other hand, monitor is stated to be further used for controlling power type movable charging vehicle to provide user according to monitoring result Charging service.Specifically, the monitor is arranged to implement the control of one of in the following manner：

It is respectively that N number of user provides charging service using the first~the N energy-storage batteries；

Charging service is provided using with the first~the N energy-storage batteries together for same user；And

Using electrokinetic cell charging service is provided for a user.

As described above, movable charging vehicle of the present utility model and the charging/discharging thereof based on the movable charging vehicle pass through by Electrokinetic cell and energy-storage battery are arranged to identical, can be electrokinetic cell and energy-storage battery supplement electricity with a charging inlet Can, can streamline operation and system architecture, save cost.Moreover, can utilize monitor to each energy-storage battery with And the SOC of electrokinetic cell is monitored, energy-storage battery and electrokinetic cell are carried out according to monitored results to mend electricity, can be ensured excellent First electrokinetic cell is carried out to mend electricity, can be realized in a manner of intelligent, efficient to the electrokinetic cell of movable charging vehicle and energy storage electricity Pond carries out mending electricity.Furthermore charging in many ways can be provided according to the actual conditions of application, charging modes are various, charge efficiency It is high.

Example above primarily illustrates movable charging vehicle of the present utility model and the discharge and recharge based on the movable charging vehicle Method.Although only some of specific embodiment of the present utility model are described, ordinary skill people Member it is to be appreciated that the utility model can without departing from its spirit with scope in the form of many other implement.Therefore, institute's exhibition The example shown is considered as illustrative and not restrictive with embodiment, is not departing from as defined in appended claims In the case of the utility model spirit and scope, the utility model may cover various modification and replacement.

Claims (12)

1. a kind of power type movable charging vehicle, it is characterised in that possess：One charging inlet；First energy-storage battery；Second energy storage Battery and electrokinetic cell,

The charging inlet be arranged to when carrying out mending electricity to movable charging vehicle selectively only with first energy-storage battery, One piece of battery connection in second energy-storage battery and the electrokinetic cell.

2. power type movable charging vehicle as claimed in claim 1, it is characterised in that

The electrokinetic cell, first energy-storage battery and the second energy-storage battery are identical battery,

The charging inlet is used for the electrically-charging equipment for being connected to outside.

3. power type movable charging vehicle as claimed in claim 2, it is characterised in that

The charging inlet is used for any one in the direct-current charging post, alternating-current charging pile, wireless charging emitter with outside Kind equipment connection.

4. power type movable charging vehicle as claimed in claim 3, it is characterised in that

It is further equipped with：

First switch, it is arranged between first energy-storage battery and the charging inlet；

Second switch, it is arranged between second energy-storage battery and the charging inlet；

3rd switch, is arranged between the electrokinetic cell and the charging inlet,

Wherein, when carrying out mending electricity to movable charging vehicle, the first switch, second switch and the are selectively only caused A switch conduction in three switches.

5. power type movable charging vehicle as claimed in claim 4, it is characterised in that be further equipped with：

Monitor, for monitor first energy-storage battery, second energy-storage battery and the electrokinetic cell SOC and A switch conduction in the first switch, second switch and the 3rd switch is controlled according to monitoring result.

6. power type movable charging vehicle as claimed in claim 5, it is characterised in that

The monitor is further used for controlling power type movable charging vehicle to provide charging service to user according to monitoring result.

7. a kind of power type movable charging vehicle, it is characterised in that possess：One charging inlet；1st~the N energy-storage batteries；Power Battery,

The charging inlet be arranged to when carrying out mending electricity in itself to movable charging vehicle selectively only with the 1st~the N One piece of battery connection in energy-storage battery and the electrokinetic cell, wherein, N is natural number.

8. power type movable charging vehicle as claimed in claim 7, it is characterised in that

The charging inlet is used to be connected to the electrically-charging equipment for carrying out mending the outside of electricity in itself to movable charging vehicle,

1 energy-storage battery~nth block energy-storage battery is identical battery.

9. power type movable charging vehicle as claimed in claim 8, it is characterised in that

The charging inlet is used for any one in the direct-current charging post, alternating-current charging pile, wireless charging emitter with outside Kind equipment connection.

10. power type movable charging vehicle as claimed in claim 9, it is characterised in that be further equipped with：

1st switch the~the N switches, are separately positioned on each and the charging of the 1st energy-storage battery~N energy-storage batteries Between interface, and

Electrokinetic cell switchs, and is arranged between the electrokinetic cell and the charging inlet,

Wherein, when carrying out mending electricity in itself to movable charging vehicle, selectively only cause in the 1st switch the~the N switches A switch conduction.

11. power type movable charging vehicle as claimed in claim 10, it is characterised in that be further equipped with：

Monitor, for monitoring the SOC of the 1st the~the N of switch switches and the electrokinetic cell and being controlled according to monitoring result A switch conduction in the~the N of 1st switch switches and electrokinetic cell switch.

12. power type movable charging vehicle as claimed in claim 11, it is characterised in that

The monitor is further used for controlling power type movable charging vehicle to provide charging service to user according to monitoring result.