CN205356222U - Container formula is collapsible, removal photovoltaic power generation electric power storage equipment - Google Patents

Abstract

The utility model discloses a container formula is collapsible, removal photovoltaic power generation electric power storage equipment. Including the container body, photovoltaic module, photovoltaic inverter, photovoltaic controller, battery, the inside one end of the container body is provided with photovoltaic inverter, photovoltaic controller and battery, photovoltaic module is through photovoltaic controller for the battery storage of charging, battery output the DC load, the battery passes through the photovoltaic inverter output interflow load, the external surface of container is equipped with foldable photovoltaic cell board and carries out photoelectric effect. The utility model discloses a container formula photovoltaic power generation device has portablely, for realizing its flexible nature, and the accessible long -distance transport, it is collapsible, in order to realize that it makes collapsiblely container flank and top surface so that lay bigger easy battery pack singly to overlap the equipment capacity maximize, also characteristics such as convenient transportation simultaneously.

Description

A kind of container-type photovoltaic generation electric energy storage device collapsible, mobile

Technical field

This utility model belongs to solar photovoltaic technology field, particularly relates to a kind of container-type photovoltaic generation electric energy storage device collapsible, mobile.

Background technology

Photovoltaic generation is as the energy source utilizing electricity generating techn of a kind of continuable, clean and effective, China's photovoltaic power generation technology quickly grows also is used widely simultaneously, but in China or even still have territory, non-Electric region all over the world, the total feature of areas without electricity is in remote districts, and the building cost of its construction of line and operating cost are all significantly high.Additionally carry out initial stage construction in remote districts and also have to solve electrical problem.

Container-type photovoltaic generation collapsible, mobile, electric energy storage device also solve problem above: removable, for realizing its maneuverability, employing TEU (Twenty-foot Equivalent Unit) is changed a social system, long-distance transport can be passed through, collapsible, container flank and end face are made collapsible to lay bigger easily battery component to realize single complete equipment maximum capacity, be also convenient for transport simultaneously.

Simultaneously the material selected by this set photovoltaic module support manufacture process is standard component or the versatile material that market commonly uses, standardization of being more convenient for, mass production, thus lower in cost, it is more conducive to popularization.

Utility model content

The purpose of this utility model is in that for the deficiencies in the prior art, there is provided a kind of container-type photovoltaic generation electric energy storage device collapsible, mobile, photovoltaic module is fixed on the outer surface of container body, and realize single complete equipment maximum capacity by folding structure, solve existing photovoltaic power generation equipment excessively fixing, the problem of flexible poor performance.

For solving above-mentioned technical problem, this utility model is achieved through the following technical solutions:

This utility model provides a kind of container-type photovoltaic generation electric energy storage device collapsible, mobile, including container body, photovoltaic module, photovoltaic DC-to-AC converter, photovoltaic controller, battery, wherein:

One end, inside of described container body is provided with photovoltaic DC-to-AC converter, photovoltaic controller and battery；Described photovoltaic module is charged the battery storage by photovoltaic controller, and described battery output DC load, described battery passes through photovoltaic DC-to-AC converter output AC load；

The top of described container body is provided with the first top board, and described first top board is provided with opposite opened the second top board；

The dual-side of described container body is respectively fixed with the first wing plate, and described first wing plate one side is connected with the frame member of container body, and described another side of first wing plate and the second wing plate are rotationally connected；

Described first top board and the second top board, the first wing plate and the second wing plate launch respectively through the mode of slew gear and hydraulic system and shrink；

Described first top board and the second top board, the first wing plate and the second wing plate are supported by pillar after launching respectively；

Described first top board and the second top board, the first wing plate and the second wing plate launch respectively after surface on photovoltaic module is installed.

Further, respectively through hinging through connection between described first top board and the second top board, the first wing plate and the second wing plate；Described first wing plate and the second wing plate are respectively arranged at two ends with fixing plate, and adjacent two described fixing plates are connected by hydraulically extensible bar；The end of described second top board and the first wing plate is connected by hydraulically extensible bar with container body respectively.

Further, one end double-open type chamber door of described container body 1 is provided with air inlet, and the other end is provided with exhaust blower and the fan shroud coordinated with exhaust blower.

Further, described second top board is the half of the first top board size.

Further, described pillar is the one end metallic rod with disk.

This utility model has the advantages that

1. container-type of the present utility model photovoltaic generation collapsible, mobile, electric energy storage device have removable, for realizing its maneuverability, long-distance transport can be passed through, collapsible, container flank and end face are made collapsible to lay bigger easily battery component to realize single complete equipment maximum capacity, be also convenient for the features such as transport simultaneously；

2. the material selected by this photovoltaic module support manufacture process is standard component or the versatile material that market commonly uses, standardization of being more convenient for, mass production, thus lower in cost, it is more conducive to promote；

3. container-type photovoltaic generation, electric energy storage device can realize member collapses, long-distance transport, are suitable for field and use without civil power region, can act also as emergency power supply use.Photovoltaic off-grid can be applied to, generate electricity by way of merging two or more grid systems, the field such as photovoltaic water pump, photovoltaic illumination.Simultaneously for meet greater power demand can multiple strings using, it is easy to extension.Relative to fixed bottom boundary power station or power station, roof, there are its exclusive flexible property, popularization and application of being more convenient for.

Certainly, implement arbitrary product of the present utility model to it is not absolutely required to reach all the above advantage simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, below the accompanying drawing that embodiment describes required use is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is container body deployed configuration schematic diagram of the present utility model；

Fig. 2 is container body deployed configuration A place of the present utility model partial structurtes enlarged drawing；

Fig. 3 is container body deployed configuration B place of the present utility model partial structurtes enlarged drawing；

Fig. 4 is that container body of the present utility model draws structural representation in；

Fig. 5 is that container body of the present utility model installs fixed structure schematic diagram；

Fig. 6 is the container body deployed configuration top view of Fig. 3；

Fig. 7 is container body structure top view of the present utility model；

Fig. 8 is the structure sectional view at Fig. 5 container body A-A place；

Fig. 9 is the second top board deployed configuration schematic diagram of the present utility model；

Figure 10 is the first wing plate of the present utility model and the second wing plate deployed configuration schematic diagram；

Figure 11 is photovoltaic module structure system diagram of the present utility model；

In accompanying drawing, the list of parts representated by each label is as follows:

1-container body, 2-photovoltaic module, 3-photovoltaic DC-to-AC converter, 4-photovoltaic controller, 5-battery, 6-the second wing plate, 7-the second top board, 8-the first top board, 9-the first wing plate, 10-pillar, 11-hydraulically extensible bar, 12-hinge.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, all other embodiments that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

Referring to shown in Fig. 1-11, this utility model is a kind of container-type photovoltaic generation electric energy storage device collapsible, mobile, including container body 1, photovoltaic module 2, photovoltaic DC-to-AC converter 3, photovoltaic controller 4, battery 5, wherein:

As shown in Figure 8, one end, inside of container body 1 is provided with photovoltaic DC-to-AC converter 3, photovoltaic controller 4 and battery 5；Photovoltaic module 2 gives battery 5 charge storage by photovoltaic controller 4, and battery 5 exports DC load, and battery 5 is by photovoltaic DC-to-AC converter 3 output AC load；

The top of container body 1 is provided with the first top board 8 as shown in Figure 1, and the first top board 8 is provided with opposite opened the second top board 7；The dual-side of container body 1 is respectively fixed with the first wing plate 9, and the first wing plate 9 one side is connected with the frame member of container body 1, and first another side of wing plate 9 and the second wing plate 6 are rotationally connected；

As it is shown in figure 5, the first top board 8 and second top board the 7, first wing plate 9 and the second wing plate 6 launch respectively through the mode of slew gear and hydraulic system and shrink；First top board 8 and second top board the 7, first wing plate 9 and the second wing plate 6 are supported by pillar 10 after launching respectively；First top board 8 and second top board the 7, first wing plate 9 and the second wing plate 6 launch respectively after surface on photovoltaic module 2 is installed.

Wherein, it is rotationally connected respectively through hinge 12 between the first top board 8 and second top board the 7, first wing plate 9 and the second wing plate 6；First wing plate 9 and the second wing plate 6 are respectively arranged at two ends with fixing plate 901, and adjacent two fixing plates 901 are connected by hydraulically extensible bar 11；The end of the second top board 7 and the first wing plate 9 is connected by hydraulically extensible bar 11 with container body 1 respectively.

Wherein, one end double-open type chamber door of container body 1 is provided with air inlet, and the other end is provided with exhaust blower and the fan shroud coordinated with exhaust blower.

Wherein, the second top board 7 is the half of the first top board 8 size.

Wherein, pillar 10 is the one end metallic rod with disk.

The concrete operations mode of the present embodiment is: this container-type is collapsible, mobile photovoltaic generation electric energy storage device carries out transport to the position needed by means of transports such as automobiles, distributing position is adjusted by crane, by slew gear and HYDRAULIC CONTROL SYSTEM the first top board 8 and the second top board 7, the stretching, extension of the first wing plate 9 and the second wing plate 6, the first top board 8 and the second top board 7 is supported respectively by pillar 10 after expansion, the angle end of the first wing plate 9 and the second wing plate 6, complete installing and using of equipment, and some container-type photovoltaic generation electric energy storage devices can carry out connection in series-parallel, improve generated output.This equipment has:

Collapsible, this moves photovoltaic generation, the first top board 8 of its container body 1 of electric energy storage device and second top board the 7, first wing plate 9 and the second wing plate 6 and launches respectively through the mode of slew gear and hydraulic system and shrink, and launches for it as shown in Figure 1 and draws process schematic in；Concrete mode adopts the slew gear of connecting rod or hinge, or adopting hydraulic stem to carry out rotating control: passing through to hinge through between the first top board 8 with the second top board 7 to be connected, the dual-side of the first top board 8 and the second top board 7 drives expansion and the contraction of the second top board 7 respectively through hydraulic stem simultaneously；The side of the first wing plate 9 is connected with container body 1 by hinge, the opposite side of the first wing plate 9 is connected by hinge and the second wing plate 6, and the both sides of the first wing plate 9 and the second wing plate 6 drive stretching, extension and the contraction of the first wing plate 9 and the second wing plate 6 respectively through hydraulic stem simultaneously.

Removable, the 20 forty equivalent unit 40 transformations of the way that this moves photovoltaic generation, its container body 1 of electric energy storage device is adopted international standards, back door is double door, and bottom design has air inlet, inwall to be provided with movable detachable dustproof net；After its gathering, overall dimensions and outward appearance and general container are as good as, it may be achieved long-distance transport；

Can generating electricity, this moves photovoltaic generation, its generating of electric energy storage device is to be absorbed solar energy by photovoltaic module 2, converts light energy into electric energy；Auxiliary power generation is carried out with the diesel generating set passing through to be arranged in container body 1.

Accumulation, this moves photovoltaic generation, electric energy storage device electric power storage is that photovoltaic module 2 luminous energy is converted into electric energy, store to lithium battery (or lead-acid battery) charging by photovoltaic controller 4, can powering directly to DC load on the one hand, another side lithium battery (or lead-acid battery) carries out DC/AC to inverter power supply and converts and power to AC load.

In the description of this specification, specific features that the description of reference term " embodiment ", " example ", " concrete example " etc. means to describe in conjunction with this embodiment or example, structure, material are lived feature and are contained at least one embodiment of the present utility model or example.In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

This utility model preferred embodiment disclosed above is only intended to help to set forth this utility model.Preferred embodiment does not have all of details of detailed descriptionthe, is not intended to the detailed description of the invention that this utility model is only described yet.Obviously, the content according to this specification, can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is to explain principle of the present utility model and practical application better, so that skilled artisan can be best understood by and utilize this utility model.This utility model is limited only by the restriction of claims and four corner thereof and equivalent.

Claims (5)

1. a container-type photovoltaic generation electric energy storage device collapsible, mobile, including container body (1), photovoltaic module (2), photovoltaic DC-to-AC converter (3), photovoltaic controller (4), battery (5), it is characterised in that:

Described container body (1) be internally provided with photovoltaic DC-to-AC converter (3), photovoltaic controller (4) and battery (5)；Described photovoltaic module (2) by photovoltaic controller (4) to battery (5) charge storage, described battery (5) output DC load, described battery (5) is by photovoltaic DC-to-AC converter (3) output AC load；

The top of described container body (1) is provided with the first top board (8), and described first top board (8) is provided with opposite opened the second top board (7)；

The dual-side of described container body (1) is respectively fixed with the first wing plate (9), described first wing plate (9) side is connected with the frame member of container body (1), and described another side of first wing plate (9) and the second wing plate (6) are rotationally connected；

Described first top board (8) is launched and shrinks with the second wing plate (6) respectively through the mode of slew gear or hydraulic system with the second top board (7), the first wing plate (9)；

Described first top board (8) is supported by pillar (10) after launching respectively with the second wing plate (6) with the second top board (7), the first wing plate (9)；

Described first top board (8) and the second top board (7), the first wing plate (9) launch respectively with the second wing plate (6) after surface on photovoltaic module (2) is installed.

2. a kind of container-type according to claim 1 photovoltaic generation electric energy storage device collapsible, mobile, it is characterized in that, be rotationally connected respectively through hinge (12) between described first top board (8) and the second top board (7), the first wing plate (9) and the second wing plate (6)；Described first wing plate (9) and the second wing plate (6) are respectively arranged at two ends with fixing plate (901), and adjacent two described fixing plates (901) are connected by hydraulically extensible bar (11)；The end of described second top board (7) and the first wing plate (9) is connected by hydraulically extensible bar (11) with container body (1) respectively.

3. a kind of container-type according to claim 1 photovoltaic generation electric energy storage device collapsible, mobile, it is characterized in that, one end double-open type chamber door of described container body (1) is provided with air inlet, and the other end is provided with exhaust blower and the fan shroud coordinated with exhaust blower.

4. a kind of container-type according to claim 1 photovoltaic generation electric energy storage device collapsible, mobile, it is characterised in that described second top board (7) is the half of the first top board (8) size.

5. a kind of container-type according to claim 1 photovoltaic generation electric energy storage device collapsible, mobile, it is characterised in that described pillar (10) is the one end metallic rod with disk.