CN203543700U

CN203543700U - Charging device and electric vehicle

Info

Publication number: CN203543700U
Application number: CN201320651235.8U
Authority: CN
Inventors: 倪捷; 陈文胜; 张芳勇; 郑善清; 王勇治
Original assignee: Zhejiang Luyuan Electric Vehicle Co Ltd
Current assignee: Zhejiang Luyuan Electric Vehicle Co Ltd
Priority date: 2013-10-21
Filing date: 2013-10-21
Publication date: 2014-04-16
Anticipated expiration: 2023-10-21

Abstract

The utility model provides a charging device and an electric vehicle, which is applied to an electric vehicle. The charging device comprises a driving device, an unfolding mechanism and a plurality of solar panels, wherein the driving device is installed on the electric vehicle; the unfolding mechanism is installed on the driving device, and the unfolding mechanism can be driven by the driving device to unfold outwards and fold; the solar panels are installed on the unfolding mechanism and electrically connected with the electric vehicle and can be opened along the unfolding the unfolding mechanism and folded along the folding the unfolding mechanism, when the unfolding mechanism is unfolded, the electric energy absorbed by the opened solar panels is used for charging the electric vehicle. The utility model also provides an electric vehicle. By adopting the technical scheme, the electric vehicle can be automatically charged through the solar energy, the operation of the user can be reduced, and the user experience of the user can be improved.

Description

Charging unit and battery-driven car

Technical field

The utility model relates to control technology for electric motor car field, in particular to a kind of charging unit and a kind of battery-driven car.

Background technology

At present, battery-driven car charging great majority are to find power supply just can carry out, and this just causes charging very inconvenient.

Therefore, need a kind of new technical scheme, can utilize solar power to charge to battery-driven car, where no matter realize battery-driven car, no matter neighbouring, whether there is power supply, as long as there is the place of sunlight just can charge to battery-driven car, thereby greatly improve the battery-driven car comfort feature charging outdoor of going out.

Utility model content

The utility model is just based on the problems referred to above, a kind of new technical scheme has been proposed, can utilize solar power to charge to battery-driven car, where no matter realize battery-driven car, no matter neighbouring, whether there is power supply, as long as there is the place of sunlight just can charge to battery-driven car, thereby greatly improve the battery-driven car comfort feature charging outdoor of going out.

In view of this, the utility model proposes a kind of charging unit, be applied to battery-driven car, comprising: actuating device, is arranged on described battery-driven car; Development mechanism, is arranged on described actuating device, and described actuating device can drive described development mechanism outwards to launch and superimposed packing up; Multiple solar panels, be installed on described development mechanism, and be electrically connected with described battery-driven car, can launch with the expansion of described development mechanism, can pack up with the superimposed of described development mechanism, when described development mechanism launches, the luminous energy absorbing by the described multiple solar panels that launch is described battery-driven car charging.

In this technical scheme, multiple solar panels are placed on folding development mechanism, like this, when needs pass through solar panel charging, development mechanism is launched, make multiple solar panels can absorb energy simultaneously, when not needing to charge, by superimposed development mechanism, pack up, thereby reduce the space hold rate of solar panels, and, this development mechanism drives automatically by actuating device, like this, does not need artificial expansion or superimposed development mechanism, reduce user's operation, thereby promoted user's experience.

In technique scheme, preferably, described actuating device comprises: actuating unit, and described actuating unit is connected to transmission device, and outputting power is to drive described transmission device to rotate; Described transmission device, is connected to kinematic link, to drive described kinematic link to rotate when rotating; Described kinematic link, one end is connected to described transmission device, and the other end is connected to described development mechanism, to drive described development mechanism outwards to launch and superimposed packing up when rotating.

In technique scheme, preferably, described actuating unit comprises turning handle and/or motor, and described transmission device comprises change-speed box, and described change-speed box is connected to the output shaft of described turning handle and/or described motor.

In this technical scheme, both can also can make actuating device work by electronic mode by manual mode, wherein manual mode can be user's hand rotation handle, electronic mode can be to make machine operation by modes such as electric signal.Like this, for user provides multiple type of drive, user can select arbitrarily according to individual demand.

Wherein, change-speed box can be the various ways such as one or more levels worm and gear, one or more levels gear, worm and gear and gear transmission combination, belt wheel or sprocket wheel and Worm Wheel System combination or planet gear transmission.

In technique scheme, preferably, also comprise: outer container, described outer container comprises case lid and casing, and described case lid can be fastened on described casing, and a side of described case lid and described casing is connected; Base, described base is embedded in described casing, described development mechanism is fixed on described base, before described development mechanism outwards launches, described case lid is opened, and described development mechanism is superimposed pack up after, described case lid and described casing return to buckling state.

In this technical scheme; in order to protect solar panels and development mechanism; can fix an outer container outward at development mechanism, this outer container can be opened case lid with the expansion of development mechanism, and packs up development mechanism is superimposed; while not using solar panel charging; case lid is fastened, like this, not only can protect solar panels and development mechanism; extend its service life, also facilitate and install and carry.

In technique scheme, preferably, described casing is fixed on the car body rear end of described battery-driven car, described development mechanism when outwards launching, the car body front end that expansion direction is described battery-driven car.

In this technical scheme, the outer container that solar panels and development mechanism are housed can be fixed on to the back seat of battery-driven car, when solar panels launch to the car body front end of battery-driven car, be solar panels launch time above electric bicycle saddle seat, so not only can avoid being shone too boiling hot at hot Outdoor Parking back cushion, extend the service life of seat cushion, and can avoid solar panels to take too much space.

In technique scheme, preferably, also comprise: bracing or strutting arrangement, one end is connected to the car body front end of described battery-driven car, and the telescopic below that extends described development mechanism of the other end, supports described development mechanism.

In this technical scheme, in order to guarantee solar panels and development mechanism upon deployment, can fixation, can add bracing or strutting arrangement, this bracing or strutting arrangement can adopt strut bar, and strut bar one end is fixed on battery-driven car, and the other end can be adjusted according to the position of development mechanism, to adapt to development mechanism, for it provides good bearing force.

In technique scheme, preferably, also comprise: controller, be arranged on described battery-driven car, and be connected to described development mechanism and described outer container, receiving outside expansion or superimposed while packing up instruction, control described case lid and open or fasten, and control described actuating device and drive described development mechanism outwards to launch and superimposed packing up.

In this technical scheme, can adopt controller to realize and in the time need to utilizing solar recharging, automatically open the case lid of outer container and automatically make development mechanism and solar panels expansion, when finishing solar recharging, automatically superimposed development mechanism and the solar panels packed up, cover case lid, do not need user oneself to go to carry out this series of troublesome operation, thereby promote user's experience.

In technique scheme, preferably, also comprise: position transduser, be connected to described controller, expanded position and stowed position to described development mechanism are detected, and position probing result is sent to described controller; And described controller is when described expanded position reaches default expanded position or described stowed position and reaches default stowed position, to described development mechanism, sends and stops outwards launching or the superimposed signal of packing up.

In this technical scheme, at development mechanism, be unfolded to predeterminated position or superimposed while packing up to predeterminated position, can automatically stop launching or packing up, thereby will automatically lock development mechanism, guarantee development mechanism fixation, avoid when deployed condition development mechanism because rocking appears in a variety of causes.

In technique scheme, preferably, also comprise: environmental sensor, be connected to described controller, for detection of external environment condition, and the testing result of described external environment condition is sent to described controller; And described controller reaches the default environment or default while packing up environment that launches in the testing result of described external environment condition, send outside expansion or the superimposed signal of packing up.

In this technical scheme, can or pack up solar panels according to outside environmental change Automatic-expanding, such as when detecting that outside begins to rain, automatically the solar panels of expansion are packed up, detecting that battery-driven car is static, and when Illumination intensity is good, automatically solar panels is launched, thereby realize automatic charging.

According on the other hand of the present utility model, a kind of battery-driven car is also provided, comprising: rechargeable battery and the charging unit as described in any one in technique scheme, charging unit is rechargeable battery charging.This battery-driven car has the technique effect identical with above-mentioned charging unit, does not repeat them here.

By above technical scheme, can utilize solar power to charge to battery-driven car, where no matter realize battery-driven car, no matter neighbouring, whether have power supply, as long as there is the place of sunlight just can charge to battery-driven car, thereby greatly improve the battery-driven car comfort feature charging outdoor of going out.

Accompanying drawing explanation

Fig. 1 shows according to the schematic diagram of the mode of operation of the charging unit of embodiment of the present utility model;

Fig. 2 shows according to the schematic diagram of the off working state of the charging unit of embodiment of the present utility model;

Fig. 3 A and Fig. 3 B show according to the structural representation of the actuating device of embodiment of the present utility model;

Fig. 4 A and Fig. 4 B show the type of drive schematic diagram according to the actuating device of embodiment of the present utility model;

Fig. 5 shows according to the principle schematic of the charging unit of embodiment of the present utility model.

The specific embodiment

In order more clearly to understand above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the drawings and specific embodiments, the utility model is further described in detail.It should be noted that, in the situation that not conflicting, the feature in the application's embodiment and embodiment can combine mutually.

A lot of details have been set forth in the following description so that fully understand the utility model; but; the utility model can also adopt other to be different from other modes described here and implement, and therefore, protection domain of the present utility model is not subject to the restriction of following public specific embodiment.

Fig. 1 shows according to the schematic diagram of the mode of operation of the charging unit of embodiment of the present utility model.

As shown in Figure 1, according to the charging unit of embodiment of the present utility model, comprising: not shown in actuating device 1(Fig. 1), be arranged on described battery-driven car; Development mechanism 2, is arranged on described actuating device 1, and described actuating device 1 can drive described development mechanism 2 outwards to launch and superimposed packing up; Multiple solar panels 3, be installed on described development mechanism 2, and be electrically connected with described battery-driven car, can launch with the expansion of described development mechanism 2, can pack up with the superimposed of described development mechanism 2, when described development mechanism 2 launches, the luminous energy absorbing by the described multiple solar panels 3 that launch is described battery-driven car charging.

In technique scheme, preferably, also comprise: outer container 4, described outer container comprises case lid 41 and casing 42, and described case lid 41 can be fastened on described casing 42, and a side of described case lid 41 and described casing 42 is connected; Base 5, described base 5 is embedded in described casing 41, and described development mechanism 2 is fixed on described base 5, before described development mechanism 2 outwards launches, described case lid 41 is opened, and after superimposed the packing up of described development mechanism 2, described case lid 41 and described casing 42 return to buckling state.

In technique scheme, preferably, described casing 42 is fixed on the car body rear end of described battery-driven car, described development mechanism 2 when outwards launching, the car body front end that expansion direction is described battery-driven car.

In technique scheme, preferably, also comprise: bracing or strutting arrangement 6, one end is connected to the car body front end of described battery-driven car, and the telescopic below that extends described development mechanism 2 of the other end, supports described development mechanism 2.

In technique scheme, preferably, also comprise: controller 7(is not shown), be arranged on (not shown) on described battery-driven car, and be connected to described development mechanism 2 and described outer container 4, receiving outside expansion or superimposed while packing up instruction, control described case lid 41 and open or fasten, and control described actuating device 1 and drive described development mechanism 2 outwards to launch and superimposed packing up.

In technique scheme, preferably, also comprise: position transduser 8(is not shown), be connected to described controller 7, expanded position and stowed position to described development mechanism 2 are detected, and position probing result is sent to described controller 7; And described controller 7 is when described expanded position reaches default expanded position or described stowed position and reaches default stowed position, to described development mechanism 2, sends and stops outwards launching or the superimposed signal of packing up.

In technique scheme, preferably, also comprise: environmental sensor 9(is not shown), be connected to described controller 7, for detection of external environment condition, and the testing result of described external environment condition is sent to described controller; And described controller 7 reaches the default environment or default while packing up environment that launches in the testing result of described external environment condition, send outside expansion or the superimposed signal of packing up.

Wherein, when solar panels and development mechanism are packed up, at rechargeable battery during in off working state, its structure as shown in Figure 2.Now, the casing 42 of outer container 4 and case lid 41 be in buckling state, to being contained in the parts such as the solar panels of casing the inside and development mechanism, played good protective effect.

Fig. 3 A and Fig. 3 B show according to the structural representation of the actuating device of embodiment of the present utility model.

As shown in Figure 3 A and Figure 3 B, according to the actuating device 1 of embodiment of the present utility model, comprise: actuating unit 11, described actuating unit 11 is connected to transmission device 12, and outputting power is to drive described transmission device 12 to rotate; Described transmission device 12, is connected to kinematic link 13, to drive described kinematic link 13 to rotate when rotating; Described kinematic link 13, one end is connected to described transmission device 12, and the other end is connected to described development mechanism 2, to drive described development mechanism 2 outwards to launch and superimposed packing up when rotating.

Wherein, as shown in Figure 3A, actuating unit 11 can adopt turning handle 111, as shown in Figure 3 B, actuating unit 11 also can adopt motor 112, and transmission device 12 comprises change-speed box 121, and described change-speed box 121 is connected to the output shaft of described turning handle 111 and/or described motor 112.

Fig. 4 A and Fig. 4 B show the type of drive schematic diagram according to the actuating device of embodiment of the present utility model.

As shown in Figure 4 A, according to the type of drive of the actuating device of embodiment of the present utility model, can adopt one-sided driving, an actuating device only drives a side of development mechanism.

Preferably, as shown in Figure 4 B, the type of drive of actuating device is that bilateral drives, and actuating device drives the both sides of development mechanism simultaneously, like this, can avoid the problem such as frame deformation of the development mechanism that one-sided driving brings, and drives better effects if.

As shown in Figure 5, according to charging unit of the present utility model, mainly comprise: controller 502, motor 504, the 506(of solar power mechanism is development mechanism and solar panels), transmission device 508, solar power Box Cover 510, holding mechanism 512, charging unit mechanism 514, position transduser 516, environmental sensor 518, launches and packs up control button 520.Below in conjunction with each part mentioned above, describe the working process of charging unit in detail.

Controller 502: receive the signal that various buttons and sensor are sent, control the Automatic-expanding of solar power mechanism 506 and pack up, control automatically opening and closing of solar power Box Cover 510 simultaneously, and holding mechanism 512 automatic lifting.

When controller 502 receives expansion action (mainly by launching and packing up control button 520), first control automatically opening of solar power Box Cover 510, then control motor 504 and drive transmission device 508, make solar power mechanism 506 be expanded to final position (it decides by position transduser), after controlling holding mechanism 512 and put in place with Time Controller 502, by its self-locking device by 506 fixations of solar power mechanism, in order to avoid solar power mechanism 506 is because rocking appears in a variety of causes.

After receiving to pack up action, controller 502 (can send signal by control button, environmental sensor etc., above-mentioned signal all can impel 506 mechanisms of solar power mechanism to enter collapsed state), by the self-locking device release of holding mechanism 512, then pack up holding mechanism 512, control motor 504 simultaneously and drive transmission device 508, make solar power mechanism 506 pack up to final position (it decides by position transduser).

Last controller 502 controls solar power Box Cover 510 and automatically cuts out, and exempts from external environment damage for the protection of solar panels.

Wherein, also comprise charging control mechanism 514, after solar power mechanism 506 launches completely, its output is connected with storage battery by a charging control mechanism 514, when luminosity acquires a certain degree, when solar power sends voltage higher than current cell pressure, solar panels will charge to battery, and its charging current is controlled by the control mechanism 514 that charges with charging maximum voltage; If when solar panels send voltage lower than cell pressure, owing to having and preventing that cell pressure from pouring in down a chimney the function into solar panels in charging control mechanism 514, therefore can protect solar panels to exempt from damage.

More than be described with reference to the accompanying drawings the technical solution of the utility model, pass through the technical solution of the utility model, can utilize solar power to charge to battery-driven car, where no matter realize battery-driven car, no matter neighbouring, whether there is power supply, as long as there is the place of sunlight just can charge to battery-driven car, thereby greatly improve the battery-driven car comfort feature charging outdoor of going out.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims

1. a charging unit, is applied to battery-driven car, it is characterized in that, comprising:

Actuating device, is arranged on described battery-driven car;

Development mechanism, folding being arranged on described actuating device, described actuating device can drive described development mechanism outwards to launch and superimposed packing up;

Multiple solar panels, be installed on described development mechanism, and be electrically connected with described battery-driven car, can launch with the expansion of described development mechanism, can pack up with the superimposed of described development mechanism, when described development mechanism launches, the luminous energy absorbing by the described multiple solar panels that launch is described battery-driven car charging.

2. charging unit according to claim 1, is characterized in that, described actuating device comprises:

Actuating unit, described actuating unit is connected to transmission device, and outputting power is to drive described transmission device to rotate;

Described transmission device, is connected to kinematic link, to drive described kinematic link to rotate when rotating;

Described kinematic link, one end is connected to described transmission device, and the other end is connected to described development mechanism, to drive described development mechanism outwards to launch and superimposed packing up when rotating.

3. charging unit according to claim 2, is characterized in that, described actuating unit comprises turning handle and/or motor, and described transmission device comprises change-speed box, and described change-speed box is connected to the output shaft of described turning handle and/or described motor.

4. charging unit according to claim 1, is characterized in that, also comprises:

Outer container, described outer container comprises case lid and casing, and described case lid can be fastened on described casing, and a side of described case lid and described casing is connected;

Base, described base is embedded in described casing, described development mechanism is fixed on described base, before described development mechanism outwards launches, described case lid is opened, and described development mechanism is superimposed pack up after, described case lid and described casing return to buckling state.

5. charging unit according to claim 4, is characterized in that, described casing is fixed on the car body rear end of described battery-driven car, described development mechanism when outwards launching, the car body front end that expansion direction is described battery-driven car.

6. charging unit according to claim 5, is characterized in that, also comprises:

Bracing or strutting arrangement, one end is connected to the car body front end of described battery-driven car, and the telescopic below that extends described development mechanism of the other end, supports described development mechanism.

7. charging unit according to claim 4, is characterized in that, also comprises:

Controller, be arranged on described battery-driven car, and be connected to described development mechanism and described outer container, receiving outside expansion or superimposed while packing up instruction, control described case lid and open or fasten, and control described actuating device and drive described development mechanism outwards to launch and superimposed packing up.

8. charging unit according to claim 7, is characterized in that, also comprises:

Position transduser, is connected to described controller, and expanded position and stowed position to described development mechanism are detected, and position probing result is sent to described controller; And

Described controller, when described expanded position reaches default expanded position or described stowed position and reaches default stowed position, sends and stops outwards launching or the superimposed signal of packing up to described development mechanism.

9. charging unit according to claim 8, is characterized in that, also comprises:

Environmental sensor, is connected to described controller, for detection of external environment condition, and the testing result of described external environment condition is sent to described controller; And

Described controller reaches the default environment or default while packing up environment that launches in the testing result of described external environment condition, sends outside expansion or the superimposed signal of packing up.

10. a battery-driven car, is characterized in that, comprising:

Rechargeable battery; With

Charging unit as claimed in any one of claims 1-9 wherein, described charging unit is described rechargeable battery charging.