CN206318263U - Photovoltaic container - Google Patents
Photovoltaic container Download PDFInfo
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- CN206318263U CN206318263U CN201621442867.3U CN201621442867U CN206318263U CN 206318263 U CN206318263 U CN 206318263U CN 201621442867 U CN201621442867 U CN 201621442867U CN 206318263 U CN206318263 U CN 206318263U
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- photovoltaic module
- photovoltaic
- layer
- support frame
- container
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Abstract
The utility model is, on a kind of photovoltaic container, to be related to container field, and main purpose is to solve existing photovoltaic module to be laid immediately on container top surface, and the weight of photovoltaic module easily makes the technical problem of container top layer iron sheet depressed deformation.The technical scheme mainly used for:Photovoltaic container, including photovoltaic module, support frame and casing, the casing include box frame;The photovoltaic module is arranged on the box frame and positioned at the outside of the casing, so that the photovoltaic module is supported by the box frame by support frame as described above.Wherein, because photovoltaic module is arranged on by support frame on the box frame of container, the intensity of box frame is higher, strong support can be provided photovoltaic module, being installed to container top relative to existing photovoltaic module causes the casing deformation on case top, the box frame and shell of the utility model photovoltaic container will not be deformed, so that the service life of the utility model photovoltaic module is higher.
Description
Technical field
The utility model is related to container technology field, more particularly to a kind of photovoltaic container.
Background technology
The photovoltaic panel that photovoltaic container is laid by container top generates electricity, and can form independent confession, an electricity system,
The place for being difficult to popularize in electric power facilities such as wilderness, isolated islands in recent years has obtained very big application, especially by the military and badly
The high praise of field worker under environment.
However, in view of the thickness of scale of container top layer is relatively thin, if photovoltaic module is laid immediately on container top surface, light
The weight of volt component easily makes container top layer iron sheet depressed deformation, is unfavorable for the service life of container, and the top of container
Face is out-of-flatness in itself, it is difficult to meet the technical requirements of photovoltaic module laying.Moreover, directly laying photovoltaic group on container top
Part, excessive installation procedure and work high above the ground can increase the difficulty of construction of installation personnel.
Utility model content
In view of this, the utility model provides a kind of photovoltaic container, and main purpose is that the existing photovoltaic module of solution is straight
Connect and be laid on container top surface, the weight of photovoltaic module easily makes the technical problem of container top layer iron sheet depressed deformation.
To reach above-mentioned purpose, the utility model mainly provides following technical scheme:
On the one hand, embodiment of the present utility model provides a kind of photovoltaic container, including photovoltaic module, support frame and case
Body, the casing includes box frame;
The photovoltaic module is arranged on the box frame and positioned at the outside of the casing by support frame as described above,
So that the photovoltaic module is supported by the box frame.
The purpose of this utility model and solve its technical problem and can also be applied to the following technical measures to achieve further.
In foregoing photovoltaic container, optionally, the photovoltaic module is located at the top of the box top;
The photovoltaic module is arranged on support frame as described above, and support frame as described above is arranged on the Part I of the box frame
On, the Part I is located at the top of the casing.
In foregoing photovoltaic container, optionally, photovoltaic container also includes Level tune runners;
Support frame as described above is arranged on the box frame by the Level tune runners, to pass through the Level tune
The horizontality of photovoltaic module on support frame as described above is adjusted runners.
In foregoing photovoltaic container, optionally, the photovoltaic container has at least two layers light in a vertical direction
Lie prostrate component;
Wherein, can be relatively movable between each layer photovoltaic module, to move to the be layered on top of each other on vertical first relative position
Put and move to the second relative position of relative expansion.
In foregoing photovoltaic container, optionally, in each layer photovoltaic module there is the first layer light being disposed adjacent
Lie prostrate component and second layer photovoltaic module;
The first layer photovoltaic module is fixed on support frame as described above;
The second layer photovoltaic module is movably disposed on support frame as described above, with relatively described first layer photovoltaic module
Move to described the first relative position and the second described relative position.
In foregoing photovoltaic container, optionally, the second layer photovoltaic module has first in the horizontal direction
Arrange photovoltaic module and second row photovoltaic module;
Both the first row photovoltaic module and the second row photovoltaic module can be relatively close, so that the second layer light
Lie prostrate the relatively described first layer photovoltaic module of component and be located at the first described relative position;Be relatively distant from so that the second layer
The relatively described first layer photovoltaic module of photovoltaic module is located at the second described relative position.
In foregoing photovoltaic container, optionally, support frame as described above is provided with line slide rail, and support frame as described above passes through institute
State line slide rail with photovoltaic module described in each row to be connected, to be oriented to each row's photovoltaic module in the second layer photovoltaic module;
Wherein, each row's photovoltaic module in the second layer photovoltaic module passes through screw-nut structure and support frame as described above
It is connected, to be driven by the screw-nut structure, is located at the relatively described first layer photovoltaic module of the second layer photovoltaic module
The first described relative position and the second described relative position.
In foregoing photovoltaic container, optionally, the often row photovoltaic module in the second layer photovoltaic module includes
At least one photovoltaic module unit;
The photovoltaic module unit includes keel and the photovoltaic module on the keel;
The keel are connected with the nut platform of the screw-nut structure and the sliding block of the line slide rail respectively.
In foregoing photovoltaic container, optionally, support frame as described above has at least two layers in a vertical direction;
There is interval on vertical, each layer photovoltaic module is set correspondingly between adjacent two layers of support frame as described above
In the different layers of support frame as described above.
In foregoing photovoltaic container, optionally, each layer of support frame as described above includes by multiple connecting rods same
The frame structure being formed by connecting in plane;
Wherein, two adjacent story frame structures are fixedly connected.
By above-mentioned technical proposal, the utility model photovoltaic container at least has the advantages that:
In the technical scheme that the utility model is provided, because photovoltaic module is arranged on the casing of container by support frame
On skeleton, wherein, the intensity of box frame is higher, strong support can be provided photovoltaic module, relative to existing photovoltaic group
Part, which is installed to container top, causes the casing deformation on case top, and the box frame and shell of the utility model photovoltaic container will not
Deformation, so that the service life of the utility model photovoltaic module is higher.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model
Art means, and being practiced according to the content of specification, with preferred embodiment of the present utility model and coordinate accompanying drawing detailed below
Describe in detail bright as after.
Brief description of the drawings
Fig. 1 is a kind of front view for photovoltaic container that an embodiment of the present utility model is provided;
Fig. 2 is second layer photovoltaic module on a kind of support frame that an embodiment of the present utility model is provided with respect to first layer
Photovoltaic module is located at front view during the first relative position;
Fig. 3 is second layer photovoltaic module on a kind of support frame that an embodiment of the present utility model is provided with respect to first layer
Photovoltaic module is located at front view during the second relative position;
Fig. 4 is second layer photovoltaic module on a kind of support frame that an embodiment of the present utility model is provided with respect to first layer
Photovoltaic module is located at top view during the second relative position;
Fig. 5 is a kind of top view for photovoltaic module unit that an embodiment of the present utility model is provided;
Fig. 6 is a kind of structural representation for support frame that an embodiment of the present utility model is provided.
Embodiment
Further to illustrate that the utility model is to reach technological means and effect that predetermined utility model purpose is taken,
Below in conjunction with accompanying drawing and preferred embodiment, to embodiment, structure, feature and its work(according to the present utility model application
Effect, is described in detail as after.In the following description, what different " embodiment " or " embodiment " referred to is not necessarily same implementation
Example.In addition, the special characteristic, structure or feature in one or more embodiments can be combined by any suitable form.
As shown in figure 1, a kind of photovoltaic container 100 that one embodiment of the present utility model is proposed, including photovoltaic module
1st, support frame 2 and casing 3.Casing 3 includes box frame.Photovoltaic module 1 by support frame 2 be arranged on box frame on and
Positioned at the outside of casing 3, so that photovoltaic module 1 is supported by box frame.
Need exist for explanation be:Foregoing casing 3 also includes the cabinet shell being arranged on box frame, wherein, case
The intensity of body skeleton is higher, and box frame can provide support for cabinet shell, to ensure the structural strength of whole casing 3, and
And it is also convenient for the installation of cabinet shell.
Above-mentioned cabinet shell can be using materials such as iron sheets.
In the technical scheme of above-mentioned offer, because photovoltaic module 1 is arranged on the box frame of container by support frame 2
On, wherein, the intensity of box frame is higher, can provide photovoltaic module 1 strong support, relative to existing photovoltaic module peace
Being attached to container top causes the casing deformation on case top, and the box frame and shell of the utility model photovoltaic container 100 will not
Deformation, so that the service life of the utility model photovoltaic module 1 is higher.
Need exist for explanation be:The quantity of foregoing support frame 2 can be two or more, to reduce single support frame 2
Support frame 2 is installed on the box frame of casing 3 by volume and weight, convenient working personnel.
Further, as shown in figure 1, foregoing photovoltaic module 1 can be located at the top of the top surface of casing 3.Photovoltaic module 1 is pacified
On support frame 2, support frame 2 is arranged on the Part I of box frame, and Part I is located at the top of casing 3.At this
In example, photovoltaic module 1 and support frame 2 are respectively positioned in space more spacious on the top surface of casing 3, so that its installation will not be by
The limitation of installing space, does not interfere with turnover of the user in the side of casing 3 yet.
As shown in figure 1, photovoltaic container 100 of the present utility model can also include Level tune runners 4.Foregoing support
Frame 2 by Level tune runners 4 be arranged on box frame on, with by Level tune runners 4 to photovoltaic module 1 on support frame 2
Horizontality be adjusted.In this example, by the Level tune runners 4 of setting, the angle of photovoltaic module 1 can be carried out
Regulation, preferably to receive solar irradiation, improves the operating efficiency of photovoltaic module 1.
Need exist for explanation be:Foregoing Level tune runners 4 is part purchased in market, can commercially be purchased as needed
Buy, specifically will not be repeated here.
Further, as shown in Figures 2 to 4, photovoltaic container 100 of the present utility model has at least in a vertical direction
Two layers of photovoltaic module.Wherein, can be relatively movable between each layer photovoltaic module, to move to the first phase being layered on top of each other on vertical
To position (as shown in Figure 2) and move to the second relative position (as shown in Figure 3 and Figure 4) of relative expansion.In this example,
By the multilayer photovoltaic module of setting, the quantity of photovoltaic module 1 can be increased, increase the utility model photovoltaic container 100
Photovoltaic capacity.
Need exist for explanation be:When two layers adjacent of photovoltaic module is layered on top of each other on vertical, this is adjacent two layers
Photovoltaic module can have interval on vertical, can also contact with each other.In order to avoid being sent out between two layers adjacent of photovoltaic module
Raw interference, it is preferred that when two layers adjacent of photovoltaic module is layered on top of each other on vertical, two layers adjacent of photovoltaic module is perpendicular
There is interval upwards.
Foregoing each layer photovoltaic module can be by way of rectilinear translation in the first relative position and the second relative position
Between switch, so there is the technique effect of convenient operation.
Specifically when implementing, as shown in Fig. 2 having the first layer photovoltaic group being disposed adjacent in foregoing each layer photovoltaic module
Part 11 and second layer photovoltaic module 12.First layer photovoltaic module 11 is fixed on support frame 2.Second layer photovoltaic module 12 is movable
Ground is arranged on support frame 2, and foregoing the first relative position and second is moved to respect to position with relative first layer photovoltaic module 11
Put.It is movable relative to first layer photovoltaic module 11 and second layer photovoltaic module 12, in this example, by by first layer light
Volt component 11 is fixed, and only second layer photovoltaic module 12 is movable, can simplify the structure of motion, saves cost.
Further, as shown in Figures 2 to 4, foregoing second layer photovoltaic module 12 has first in the horizontal direction
Arrange photovoltaic module 121 and second row photovoltaic module 122.Both first row photovoltaic module 121 and second row photovoltaic module 122 can phases
To close, so that second layer photovoltaic module 12 is located at the first foregoing relative position (such as Fig. 2 institutes with respect to first layer photovoltaic module 11
Show);Be relatively distant from so that second layer photovoltaic module 12 is located at the second foregoing relative position with respect to first layer photovoltaic module 11
(as shown in Figure 3 and Figure 4).In this example, by setting double photovoltaic module in the second layer, photovoltaic group can further be increased
The quantity of part 1, improves the photovoltaic capacity of the utility model photovoltaic container 100.
Need exist for explanation be:As shown in figure 4, when foregoing second layer photovoltaic module 12 is with respect to first layer photovoltaic module
11 when being located at the second relative position, foregoing first row photovoltaic module 121 first layer photovoltaic module 11 throwing in the plane
Shadow is located at the first side of first layer photovoltaic module 11, second row photovoltaic module 122 in the institute of first layer photovoltaic module 11 in the plane
Projection positioned at first layer photovoltaic module 11 the second side, wherein, the first side is opposite with the second side.Wherein, by this example
Setting, the arrangement of each photovoltaic module 1 can be made more reasonable, each photovoltaic module 1 will not be interfered to be arrived by gear, so that too
Sunlight can be sufficiently irradiated with each photovoltaic module 1, the operating efficiency of each photovoltaic module 1 is reached maximum.
Further, as shown in Figures 2 to 4, foregoing support frame 2 is provided with guide frame, and guide frame is used for the
Each row's photovoltaic module 1 in two layers of photovoltaic module 12 is oriented to.Wherein, each row's photovoltaic module in second layer photovoltaic module 12 leads to
Cross screw-nut structure 5 with support frame 2 to be connected, to be driven by screw-nut structure 5, make second layer photovoltaic module 12 relative first
Layer photovoltaic module 11 is located at foregoing the first relative position and the second relative position.In this example, guide frame and leading screw spiral shell
Cap coordinates, and the robust motion of each row's photovoltaic module in second layer photovoltaic module 12 can be effectively ensured, the second layer is realized
Each row's photovoltaic module is steady flexible in photovoltaic module 12.
Need exist for explanation be:Leading screw in foregoing screw-nut structure 5 can be ball-screw, to reduce motion resistance
Power.
Foregoing guide frame can include line slide rail 6, and support frame 2 passes through line slide rail 6 and second layer photovoltaic module
Each row's photovoltaic module in 12 is connected, to be oriented to each row's photovoltaic module in second layer photovoltaic module 12.
Need exist for explanation be:The quantity of foregoing screw-nut structure 5 and line slide rail 6 can be multiple, to enter
One step is oriented to and provided the power of motion to each row's photovoltaic module in the second photovoltaic module 1, realizes second layer photovoltaic module 12
In each row's photovoltaic module it is steady flexible.
In a specific application example, as shown in figure 5, often row's photovoltaic module in foregoing second layer photovoltaic module 12
At least one photovoltaic module unit 120 is may each comprise, photovoltaic module unit 120 includes keel 7 and the light on keel 7
Lie prostrate component 1.Keel 7 are connected with the nut platform 51 of screw-nut structure 5 and the sliding block 61 of line slide rail 6 respectively.
Further, the quantity of photovoltaic module 1 can be two on foregoing each photovoltaic module unit 120.Each light
Volt assembly unit 120 is oriented to by two line slide rails 6, and is connected by a screw-nut structure 5 with support frame 2.
Further, foregoing support frame 2 has at least two layers in a vertical direction.Adjacent two layers of support frame 2 it
Between there is interval on vertical, foregoing each layer photovoltaic module is arranged on the different layers of support frame 2 correspondingly.Due to support
There is interval on vertical, so as to facilitate the installation of abovementioned layers photovoltaic module 1, it is to avoid adjacent between the adjacent two layers of frame 2
Interfered between two layers of photovoltaic module 1.
Each layer of foregoing support frame 2 may each comprise the framework knot being formed by connecting at grade by multiple connecting rods
Structure.Wherein, two adjacent story frame structures are fixedly connected.In this example, it is formed by connecting at grade by multiple connecting rods
Frame structure be beneficial to photovoltaic module 1 installation, the horizontality of institute's installation photovoltaic component 1 is can effectively ensure that, in favor of photovoltaic
Component 1 can receive solar energy in maximum efficiency.
In a specific application example, as shown in fig. 6, foregoing support frame 2 has two layers on vertical, it is respectively
First layer 21 and the second layer 22.Wherein, first layer 21 and the second layer 22 may each comprise is connected at grade by multiple connecting rods
The frame structure connect.The frame structure of first layer 21 is fixedly connected with the frame structure of the second layer 22.
Operation principle of the present utility model and preferred embodiment is described below.
The technical scheme that the utility model is provided solves following technical problem:1st, existing container top laying photovoltaic is solved
Component, the weight of photovoltaic module easily makes container top layer iron sheet depressed deformation, the technology for reducing the service life of container
Problem;2nd, existing container top surface out-of-flatness is solved, it is difficult to meet the technical problem that photovoltaic module laying is required;3rd, solve
The limited area on existing container top, the technology for directly causing photovoltaic capacity inadequate in the top surface laying photovoltaic module of container is asked
Topic.
In the technical scheme that the utility model is provided, photovoltaic module 1 is arranged on the case of the side of container four by support frame 2
On body skeleton, the cabinet shell such as iron sheet on container top can be avoided to bear overload and depressed deformation, so as to improve
The service life of container.Photovoltaic module 1 is arranged on support frame 2, and support frame 2 is arranged on packaging by Level tune runners 4
On the box frame on case top.Wherein, Level tune runners 4 can adjust the horizontality of photovoltaic module 1 on support frame 2, to meet
The technical requirements that photovoltaic module 1 is laid.
Specifically in installation photovoltaic component 1, first photovoltaic module 1 can be arranged on support frame 2 on the ground, then will install
The support frame 2 of good photovoltaic module 1, which is sling, is installed on container top, so convenient to operate and safe.
Wherein, photovoltaic module 1 can so increase photovoltaic module 1 on support frame 2 by the way of bilayer laying
Quantity is laid, increases the photovoltaic capacity of container.Wherein, lower floor's photovoltaic module is that foregoing first layer photovoltaic module 11 is directly solid
It is scheduled on support frame 2;Upper strata photovoltaic module is that foregoing second layer photovoltaic module 12 is arranged on by ball-screw nut structure 5
On support frame 2, to realize stretching motion on support frame 2 by screw-nut structure 5.
Wherein, foregoing lower floor's photovoltaic module is connected by briquetting, is directly anchored on support frame 2.Upper strata photovoltaic module
It is divided into 6 independent units, the photovoltaic module 1 of each unit is connected by briquetting, is fixedly mounted on keel 7.Keel 7 with
The nut platform 51 of foregoing screw-nut structure 5 is connected, and the leading screw of screw-nut structure 5 is arranged on support frame 2.Wherein, roll
Ballscrew can drive nut platform 51 to move to realize stretching motion of the upper strata photovoltaic module on support frame 2.
Line slide rail 6 is there is also mounted on support frame 2, the sliding block 61 of line slide rail 6 connects with the keel 7 of upper strata photovoltaic module
Connect.By movement of the sliding block 61 on slide rail, upper strata photovoltaic module stable stretching motion on support frame 2 can be realized.
Foregoing photovoltaic module support frame system can be divided into two or more parts and be assembled, then again with packaging
Case coordinates.The photovoltaic module that more layers can be designed on foregoing support frame 2 stretches constriction device.
Need exist for explanation be:In the case where not conflicting, those skilled in the art can incite somebody to action according to actual conditions
Related technical characteristic is mutually combined in above-mentioned each example, to reach corresponding technique effect, particularly for various combined situations
Do not repeat one by one herein.
The above, is only preferred embodiment of the present utility model, not makees any formal to the utility model
Limitation, any simple modification made according to technical spirit of the present utility model to above example, equivalent variations and modification,
In the range of still falling within technical solutions of the utility model.
Claims (10)
1. a kind of photovoltaic container, it is characterised in that including photovoltaic module (1), support frame (2) and casing (3), the casing
(3) box frame is included;
The photovoltaic module (1) is arranged on the box frame and positioned at the casing (3) by support frame as described above (2)
Outside, so that the photovoltaic module (1) is supported by the box frame.
2. photovoltaic container as claimed in claim 1, it is characterised in that
The photovoltaic module (1) is located at the top of the casing (3) top surface;
The photovoltaic module (1) is arranged on support frame as described above (2), and support frame as described above (2) is arranged on the of the box frame
In a part, the Part I is located at the top of the casing (3).
3. photovoltaic container as claimed in claim 1 or 2, it is characterised in that also including Level tune runners (4);
Support frame as described above (2) is arranged on the box frame by the Level tune runners (4), to be adjusted by the level
The horizontality of photovoltaic module (1) on support frame as described above (2) is adjusted section runners (4).
4. photovoltaic container as claimed in claim 1 or 2, it is characterised in that
The photovoltaic container has at least two layers photovoltaic module in a vertical direction;
Wherein, can be relatively movable between each layer photovoltaic module, with move to the first relative position for being layered on top of each other on vertical and
Move to the second relative position of relative expansion.
5. photovoltaic container as claimed in claim 4, it is characterised in that
There is the first layer photovoltaic module (11) and second layer photovoltaic module (12) being disposed adjacent in each layer photovoltaic module;
The first layer photovoltaic module (11) is fixed on support frame as described above (2);
The second layer photovoltaic module (12) is movably disposed on support frame as described above (2), with relatively described first layer photovoltaic
Component (11) moves to described the first relative position and the second described relative position.
6. photovoltaic container as claimed in claim 5, it is characterised in that
The second layer photovoltaic module (12) has first row photovoltaic module (121) and second row photovoltaic group in the horizontal direction
Part (122);
Both the first row photovoltaic module (121) and the second row photovoltaic module (122) can be relatively close, so that described the
The relatively described first layer photovoltaic module (11) of two layers of photovoltaic module (12) is located at the first described relative position;Be relatively distant from,
So that the relatively described first layer photovoltaic module (11) of the second layer photovoltaic module (12) is located at the second described relative position.
7. photovoltaic container as claimed in claim 6, it is characterised in that
Support frame as described above (2) is provided with line slide rail (6), and support frame as described above (2) passes through the line slide rail (6) and described second
Each row's photovoltaic module in layer photovoltaic module (12) is connected, with to each row's photovoltaic module in the second layer photovoltaic module (12)
It is oriented to;
Wherein, each row's photovoltaic module in the second layer photovoltaic module (12) passes through screw-nut structure (5) and the branch
Support (2) is connected, and to be driven by the screw-nut structure (5), makes the second layer photovoltaic module (12) relatively described first
Layer photovoltaic module (11) is located at the first described relative position and the second described relative position.
8. photovoltaic container as claimed in claim 7, it is characterised in that
Often row photovoltaic module in the second layer photovoltaic module (12) includes at least one photovoltaic module unit (120);
The photovoltaic module unit (120) includes keel (7) and the photovoltaic module (1) on the keel;
The keel (7) respectively with the nut platform (51) of the screw-nut structure (5) and the line slide rail (6)
Sliding block (61) is connected.
9. photovoltaic container as claimed in claim 4, it is characterised in that
Support frame as described above (2) has at least two layers in a vertical direction;
There is interval on vertical, each layer photovoltaic module is set correspondingly between adjacent two layers of support frame as described above (2)
Different layers in support frame as described above (2).
10. photovoltaic container as claimed in claim 9, it is characterised in that
Each layer of support frame as described above (2) includes the frame structure being formed by connecting at grade by multiple connecting rods;
Wherein, two adjacent story frame structures are fixedly connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621442867.3U CN206318263U (en) | 2016-12-26 | 2016-12-26 | Photovoltaic container |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621442867.3U CN206318263U (en) | 2016-12-26 | 2016-12-26 | Photovoltaic container |
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CN206318263U true CN206318263U (en) | 2017-07-11 |
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CN201621442867.3U Active CN206318263U (en) | 2016-12-26 | 2016-12-26 | Photovoltaic container |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106586310A (en) * | 2016-12-26 | 2017-04-26 | 珠海格力电器股份有限公司 | Photovoltaic container |
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2016
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106586310A (en) * | 2016-12-26 | 2017-04-26 | 珠海格力电器股份有限公司 | Photovoltaic container |
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