CN207573003U - A kind of energy storage mobile charging device for energy-storage type vehicle - Google Patents

Abstract

The utility model discloses a kind of energy storage mobile charging devices for energy-storage type vehicle, including electric energy output section and super capacitor group, AC/DC modules are connected between the electric energy output section and the super capacitor group, the output electric energy of the electric energy output section to be converted and be supplied the super capacitor group store；The super capacitor group is also associated with DC/DC modules, the storage energy of the super capacitor group to charge to energy-storage type vehicle.Above-mentioned energy storage mobile charging device after ground charging unit breaks down, can carry out energy-storage type vehicle quick timely charging operations.

Description

A kind of energy storage mobile charging device for energy-storage type vehicle

Technical field

The utility model is related to charging unit technical field, more particularly to a kind of energy storage moving chargings for energy-storage type vehicle Electric installation.

Background technology

It is well known that energy-storage type vehicle relies on the ground charging unit electric energy supplement often stood, however when ground charging unit After failure, the electricity of tramcar storage, which is possible to that the next stop can not be driven to, to charge；For in the prior art should For the mobile charging device of other field, it is primarily present that charge power is small, and the charging time is slow, generator volume is huge Greatly, the problem of charging noise is big.

Utility model content

The purpose of this utility model is to provide a kind of energy storage mobile charging device for energy-storage type vehicle, when ground is charged After device failure, quick timely charging operations can be carried out to energy-storage type vehicle.

To achieve the above object, the utility model provides a kind of energy storage mobile charging device for energy-storage type vehicle, packet Electric energy output section and super capacitor group are included, AC/DC modules are connected between the electric energy output section and the super capacitor group, are used The output electric energy of the electric energy output section to be converted and is supplied the super capacitor group store；The super capacitor group is also associated with DC/DC modules, the storage energy of the super capacitor group to charge to energy-storage type vehicle.

Relative to above-mentioned background technology, the energy storage mobile charging device provided by the utility model for energy-storage type vehicle, Its core is to form main body using electric energy output section and super capacitor group, when do not have energy-storage type vehicle enter the station charging when, then it is electric The output electric energy of energy output section can be stored in super capacitor group；When energy-storage type vehicle enter the station charging when, electric energy output section and/ Or super capacitor group can charge to energy-storage type vehicle；At the same time, energy storage mobile charging device can also be lifted to Required position, after ground charging unit breaks down, the quick timely charging of energy-storage type vehicle.

Preferably, the electric energy output section is specially generator, further includes to control the power generation of the generator operation Machine controller, to the AC/DC controllers that control AC/DC modules operation and the super capacitor group to be controlled to carry out The super capacitor main control unit of energy storage；

It further includes and the engine controller, the AC/DC controllers and super capacitor main control unit three's phase Even, to realize when do not have energy-storage type vehicle enter the station charging when the three is controlled to perform carry out energy storage to the super capacitor group Charging unit control system.

Preferably, the DC/DC modules are connected with DC/DC controllers, further include to acquire whether have energy-storage type vehicle Enter the station the information acquisition unit of charging；The DC/DC controllers and described information collecting unit are all connected to the charging unit Control system, when have energy-storage type vehicle enter the station charging when, the charging unit control system control the super capacitor group and/or The generator charges to energy-storage type vehicle.

Preferably, it further includes to accommodate the generator, the AC/DC modules, the super capacitor group and the DC/ The mobile babinet of DC modules, the top of the movable type babinet have hanging ring.

Preferably, the generator is located at the side of the babinet, and the super capacitor group is located at the another of the babinet Side, and set on the lower part of the babinet, the AC/DC modules and the DC/DC modules are located at the top of the super capacitor group.

Preferably, the DC/DC modules close to the babinet side wall, and the DC/DC modules be connected with two to The charging cable to charge to energy-storage type vehicle.

Preferably, the end of two charging cables is respectively equipped with positive connector and cathode connector.

Description of the drawings

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is the embodiment of the utility model, for those of ordinary skill in the art, without creative efforts, also Other attached drawings can be obtained according to the attached drawing of offer.

The principle frame of the energy storage mobile charging device for energy-storage type vehicle that Fig. 1 is provided by the utility model embodiment Figure；

Fig. 2 be Fig. 1 in energy storage mobile charging device thermal energy storage process schematic diagram；

Fig. 3 be Fig. 1 in energy storage mobile charging device charging process schematic diagram；

Fig. 4 is the structure diagram of energy storage mobile charging device in Fig. 1；

Fig. 5 is the structure diagram of the babinet in Fig. 4.

Specific embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work All other embodiments obtained shall fall within the protection scope of the present invention.

In order to which those skilled in the art is made to more fully understand the utility model, below in conjunction with the accompanying drawings and specifically The utility model is described in further detail for embodiment.

It please refers to Fig.1 to Fig. 5, Fig. 1 and is moved by the energy storage for energy-storage type vehicle that the utility model embodiment provides The functional block diagram of charging unit；Fig. 2 be Fig. 1 in energy storage mobile charging device thermal energy storage process schematic diagram；Fig. 3 is to be stored up in Fig. 1 Energy mobile charging device is in the schematic diagram of charging process；Fig. 4 is the structure diagram of energy storage mobile charging device in Fig. 1；Fig. 5 is The structure diagram of babinet in Fig. 4.

A kind of energy storage mobile charging device for energy-storage type vehicle provided by the utility model mainly includes electric energy and exports Portion, AC/DC modules 2, super capacitor group 3 and DC/DC modules 4；Wherein, electric energy output section can be generator 1, and generator 1 can To use the generator of smaller power, so as to reduce the volume of energy storage mobile charging device.It is whole that PWM may be used in AC/DC modules 2 Stream mode makes it have higher power factor and smaller harmonic wave；Meanwhile rectifier transformer can be reduced using AC/DC modules 2 And rectification module.Energy-accumulating medium of the super capacitor group 3 as energy storage mobile charging device has higher power density and energy Metric density passes through multiple monomer strings and composition.Three level copped wave modules may be used in DC/DC modules 4, reduce IGBT both ends electricity Pressure, improves IGBT switching frequencies, reduces noise, while export using multiple 4 paralleling and interleavings of DC/DC modules, reduces defeated Go out ripple current.Electric energy output section can also be power supply 6, and power supply 6 uses the platform power supply of 380V；Namely when platform is capable of providing During 380V power supplys, 380V plugs are connected to platform distribution box, generator 1 can not devote oneself to work, it is entirely avoided generator 1 Noise, as shown in Figure of description 1.

When there is no the charging of energy-storage type vehicle 9 in platform, then can utilize power supply 6 or generator 1 to super capacitor group 3 into Row charging；And when energy-storage type vehicle 9 enters platform preparation charging, then it can be total to using super capacitor group 3 with electric energy output section It charges with realizing to energy-storage type vehicle 9.

In order to improve the automatic charging process of energy storage mobile charging device, charging unit control system 5 can also be set, sent out Motor 1 by engine controller 11 realizes and generates electricity that AC/DC modules 2 are realized by AC/DC controllers 21 and converted, super capacitor Group 3 realizes that charge and discharge operates by super capacitor main control unit 31.

Charging unit control system 5 and engine controller 11, AC/DC controllers 21 and super capacitor main control unit 31 3 Person is connected；Charging unit control system 5 can include detecting the test section whether energy-storage type vehicle 9 enters the station, and work as test section When not yet detecting that energy-storage type vehicle 9 enters the station, signal can be sent to engine controller 11, engine controller 11 is enabled to control Generator 1 performs generating operation, while sends signal to AC/DC controllers 21, and AC/DC modules 2 is enabled to perform AC to DC behaviour Make；And super capacitor group 3 is controlled to realize energy storage using super capacitor main control unit 31.With from simultaneously, when super capacitor master control list After member 31 detects that super capacitor group 3 charges, send charging to charging unit control system 5 and finish signal, then charge dress It puts control system 5 and sends signal out of service to engine controller 11 and AC/DC controllers 21, generator 1 stops power generation, And AC/DC modules 2 are out of service.

That is, when station does not have energy-storage type vehicle 9, charging unit control system 5 is filled according to enabling signal and items Electricity instruction (voltage, current signal) control AC/DC controllers 21 drive AC/DC modules 2 to work, the three-phase that generator 1 exports Three-phase AC380V power supplys are converted to DC power supply by AC/DC modules 2 and persistently charged for super capacitor group 3 by AC380V, super The voltage of capacitance group 3 reaches setting value, and for power storage in super capacitor group 3, charging unit control system 5 can be according to super The status signal of capacitance judges whether charging unit is stopped, as shown in the Figure of description 2.

DC/DC modules 4 are also associated with DC/DC controllers 41, and information acquisition unit 51 can detect whether energy storage type vehicle 9 enter the station charging, and information acquisition unit 51 can be voltage sensor；And DC/DC controllers 41 and information acquisition unit 51 are equal Be connected to charging unit control system 5, when have energy-storage type vehicle 9 enter the station charging when, charging unit control system 5 controls super electricity Appearance group 3 and/or generator 1 charge to energy-storage type vehicle 9.

When energy-storage type vehicle 9 is arrived at a station, charging unit control system 5 can be detected by the voltage sensor of output terminal Energy-storage type vehicle 9 enters the station, and charging unit control system 5 receives the status signal of energy-storage type vehicle 9 and super capacitor status signal, Control AC/DC modules 2 and DC/DC modules 4 work at the same time, and generator 1 and super capacitor group 3 can give energy-storage type vehicle 9 simultaneously Charging.After vehicle is leaving from station, charging unit control system 5 detects signal leaving from station, and DC/DC modules 4 are stopped, generator 1 Super capacitor group 3 is continued as by AC/DC modules 2 to charge, as shown in Figure of description 3.

It should be noted that as the generator 1 of the prior art, AC/DC modules 2, super capacitor group 3 and DC/DC modules 4, engine controller 11, AC/DC controllers 21, super capacitor main control unit 31 and DC/DC controllers 41 can be passed through respectively Realize its operation and data monitoring, and engine controller 11, AC/DC controllers 21, super capacitor main control unit 31 and DC/DC The specific set-up mode of controller 41 can also refer to the prior art.

It, can be by generator 1, AC/DC modules 2, super capacitor in order to realize the convenient movement of energy storage mobile charging device 3 and DC/DC of group modules 4 may be contained in mobile babinet, and the top of mobile babinet has hanging ring 81；That is, babinet surrounding Hanging ring 81, bottom integral solder pedestal 82 are set.Mobile babinet can directly using fork truck or crane be placed on full-sized car or On truck.After the charging unit failure of ground, which can be placed on truck, transported to scene, Charging cable in energy storage Portable charger is quickly accessed into energy-storage type vehicle 9 by connector, and charge for it, is such as said Shown in bright book attached drawing 4 and attached 5.

To advanced optimize the inner space of mobile babinet, generator 1 can be set to the side of babinet, super electricity Appearance group 3 is located at the opposite side of babinet, and set on the lower part of babinet；And AC/DC modules 2 and DC/DC modules 4 are located at super capacitor group 3 top.

Mobile box house can be roughly divided into three cavitys.Forepart is used to place generator 1, rear left cavity cloth Put super capacitor group 3, the devices such as rear right cavity arrangement AC/DC modules 2, DC/DC modules 4 and contactor, fuse, charging Device output terminal sets charging cable 7, and charging cable 7 connects energy-storage type vehicle 9 by connector.

By taking Figure of description 4 as an example, two charging cables 7 are connected to DC/DC modules 4, and DC/DC modules 4 are close to babinet Side wall, the end of two charging cables 7 is respectively equipped with positive connector 71 and cathode connector 72, for energy-storage type vehicle 9 chargings.

Above detailed Jie has been carried out for the energy storage mobile charging device of energy-storage type vehicle to provided by the utility model It continues.Specific case used herein is expounded the principle and embodiment of the utility model, and above example is said The bright method and its core concept for being merely used to help understand the utility model.It should be pointed out that for the common of the art For technical staff, under the premise of the utility model principle is not departed from, can also to the utility model carry out it is several improvement and Modification, these improvement and modification are also fallen into the protection domain of the utility model claims.

Claims (7)

1. a kind of energy storage mobile charging device for energy-storage type vehicle, which is characterized in that including electric energy output section and super electricity Appearance group (3), AC/DC modules (2) are connected between the electric energy output section and the super capacitor group (3), to by the electricity The output electric energy of energy output section is converted and the super capacitor group (3) is supplied to store；The super capacitor group (3) is also associated with DC/ DC modules (4), the storage energy of the super capacitor group (3) to charge to energy-storage type vehicle (9).

2. energy storage mobile charging device according to claim 1, which is characterized in that the electric energy output section is specially to generate electricity Machine (1) further includes to control engine controller (11) that the generator (1) runs, controlling the AC/DC modules (2) the AC/DC controllers (21) of operation and the super capacitor master control list to control the super capacitor group (3) progress energy storage First (31)；

It further includes and the engine controller (11), the AC/DC controllers (21) and the super capacitor main control unit (31) three be connected, to realize when do not have energy-storage type vehicle enter the station charging when the three is controlled to perform to the super capacitor Group (3) carries out the charging unit control system (5) of energy storage.

3. energy storage mobile charging device according to claim 2, which is characterized in that the DC/DC modules (4) are connected with DC/DC controllers (41) further include to acquire the information acquisition unit (51) for whether having energy-storage type vehicle to enter the station charging；It is described DC/DC controllers (41) and described information collecting unit (51) are all connected to the charging unit control system (5), when there is energy storage When formula vehicle pull-in charges, the charging unit control system (5) controls the super capacitor group (3) and the generator (1) It charges to energy-storage type vehicle (9).

4. the energy storage mobile charging device according to Claims 2 or 3, which is characterized in that further include to accommodate the hair Motor (1), the AC/DC modules (2), the super capacitor group (3) and the DC/DC modules (4) mobile babinet, it is described The top of mobile babinet has hanging ring (81).

5. energy storage mobile charging device according to claim 4, which is characterized in that the generator (1) is positioned at the case The side of body, the super capacitor group (3) positioned at the babinet opposite side, and set on the babinet lower part, the AC/DC Module (2) and the DC/DC modules (4) are positioned at the top of the super capacitor group (3).

6. energy storage mobile charging device according to claim 5, which is characterized in that the DC/DC modules (4) are close to described The side wall of babinet, and the DC/DC modules (4) are connected with two charging cables to charge to energy-storage type vehicle (9) (7)。

7. energy storage mobile charging device according to claim 6, which is characterized in that the end of two charging cables (7) End is respectively equipped with positive connector (71) and cathode connector (72).