CN107040191A - Photovoltaic container system - Google Patents

Abstract

The invention discloses a photovoltaic container system. The photovoltaic container system comprises a photovoltaic container (1), a first photovoltaic assembly (2) arranged at the top of the photovoltaic container (1) and an auxiliary photovoltaic assembly arranged on at least one side of the photovoltaic container (1) in a foldable mode, wherein one end of the auxiliary photovoltaic assembly is supported on the photovoltaic container (1), and the other end of the auxiliary photovoltaic assembly is provided with a supporting portion supported on a working face. According to the photovoltaic container system, the number of the photovoltaic plates paved on the top of the container can be effectively increased, and the photovoltaic capacity of the container is improved.

Description

Photovoltaic container system

Technical field

The present invention relates to technical field of photovoltaic power generation, in particular to a kind of photovoltaic container system.

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 under adverse circumstances The high praise of field worker.The size of container has certain specification, and limited case top area causes the paved surface of photovoltaic panel Product is restricted, it is impossible to reach the photovoltaic capacity of the demand of satisfaction.

The scheme taken at present is that the photovoltaic module formed from photovoltaic panel is started with, in container top mounting framework, from And the photovoltaic bracket of telescopic double-layer is formed, increase the laying quantity of photovoltaic panel.However, due to weight of photovoltaic module itself Than larger, the bearing capacity of photovoltaic bracket is it is difficult to ensure that support is required.The top surface area of container is inherently limited, designs this Telescopic photovoltaic bracket and additional drive device can bring very many other problems again, and (such as container is born responsibility to be become again Shape, attachment device installation site not enough etc.).Another is all to hang up photovoltaic in the side surface of container than relatively straightforward scheme Plate, so as to increase photovoltaic panel laying quantity, but this scheme can increased photovoltaic panel quantity than the first scheme less, no Only influence attractive in appearance, and very big safety issue can be brought.Therefore, one kind being lacked in the prior art can have on container top Effect increase photovoltaic panel lays the container system of quantity.

The content of the invention

A kind of photovoltaic container system is provided in the embodiment of the present invention, photovoltaic panel laying can be effectively increased on container top Quantity, improves the photovoltaic capacity of container.

To achieve the above object, the embodiment of the present invention provides a kind of photovoltaic container system, including photovoltaic container, setting Photovoltaic container top the first photovoltaic module and be arranged on can taking down the exhibits photovoltaic container at least side fill-in light Component is lied prostrate, one end of auxiliary photovoltaic module is supported on photovoltaic container, and the other end is provided with the support being supported on working face Portion.

Preferably, auxiliary photovoltaic module includes the second photovoltaic module and for being arranged on the opposite sides of photovoltaic container Three photovoltaic modulies, the first end of the second photovoltaic module is supported on photovoltaic container, and the second end of the second photovoltaic module is provided with First supporting part, the first end of the 3rd photovoltaic module is supported on photovoltaic container, and the second end of the 3rd photovoltaic module is provided with Second supporting part.

Preferably, photovoltaic container top is provided with line slideway, the second photovoltaic module and the 3rd photovoltaic module are slided It is arranged on line slideway.

Preferably, the bottom of the second photovoltaic module and the 3rd photovoltaic module is provided with what is be slidably matched with line slideway Sliding block.

Preferably, the first supporting part and the second supporting part are support bar, the bottom of support bar is provided with roller.

Preferably, the first supporting part can be arranged on to folding and unfolding one end of the remote photovoltaic container of the second photovoltaic module, Second supporting part can be arranged on to folding and unfolding one end of the remote photovoltaic container of the 3rd photovoltaic module.

Preferably, the second photovoltaic module and the 3rd photovoltaic module are arranged on the first photovoltaic module.

Preferably, between the second photovoltaic module and photovoltaic container and between the 3rd photovoltaic module and photovoltaic container Telescoping drive mechanism is provided with, one end of telescoping drive mechanism is fixedly connected on photovoltaic container, and the other end is connected to it On corresponding photovoltaic module.

Preferably, telescoping drive mechanism is gear-rack drive mechanism, electric putter, hydraulic push rod or air pressure push rod.

Preferably, the second photovoltaic module and the 3rd photovoltaic module are located on same mounting surface, the second photovoltaic module and the The length sum of three photovoltaic modulies is less than or equal to the length of photovoltaic container.

Apply the technical scheme of the present invention, photovoltaic container system includes photovoltaic container, is arranged on photovoltaic container top First photovoltaic module in portion and be arranged on can taking down the exhibits photovoltaic container at least side auxiliary photovoltaic module, aid in photovoltaic One end of component is supported on photovoltaic container, and the other end is provided with the supporting part being supported on working face.Aid in photovoltaic module It is arranged on photovoltaic container with can directly taking down the exhibits, and outer end is provided with supporting part, supporting part can be with photovoltaic container together Auxiliary photovoltaic module is played a supporting role, after auxiliary photovoltaic module expansion, the laying number of photovoltaic panel can be effectively increased Amount, increases the photovoltaic capacity of photovoltaic container, and can share gravity by supporting part, it is to avoid auxiliary photovoltaic module completely by The container top that photovoltaic container load-bearing is caused weigh deformation the problem of, when need to auxiliary photovoltaic module transport when, can So that auxiliary photovoltaic module is stowed on photovoltaic container, space hold is saved, transport is easy to implement, cost of transportation is reduced.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the photovoltaic container system of the embodiment of the present invention；

Fig. 2 is the partial enlargement structural representation of the photovoltaic container system of the embodiment of the present invention；

Fig. 3 is that the photovoltaic container system of the embodiment of the present invention is in the structural representation of collapsed state；

Fig. 4 is that the photovoltaic container system of the embodiment of the present invention is in the structural representation of deployed condition.

Description of reference numerals：1st, photovoltaic container；2nd, the first photovoltaic module；3rd, the second photovoltaic module；4th, the 3rd photovoltaic group Part；5th, the first supporting part；6th, the second supporting part；7th, line slideway；8th, sliding block；9th, roller.

Embodiment

The present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings, but not as the limit to the present invention It is fixed.

With reference to shown in referring to Fig. 1 to Fig. 4, embodiments in accordance with the present invention, photovoltaic container system, it is characterised in that bag Photovoltaic container 1 is included, first photovoltaic module 2 at the top of photovoltaic container 1 is arranged on and is arranged on photovoltaic packaging with can taking down the exhibits The auxiliary photovoltaic module of at least side of case 1, one end of auxiliary photovoltaic module is supported on photovoltaic container 1, and the other end is set There is the supporting part being supported on working face.

Auxiliary photovoltaic module is arranged on photovoltaic container in which can directly take down the exhibits, and outer end is provided with supporting part, supporting part Together auxiliary photovoltaic module can be played a supporting role with photovoltaic container 1, after auxiliary photovoltaic module expansion, Ke Yiyou The laying quantity of effect increase photovoltaic panel, increases the photovoltaic capacity of photovoltaic container, auxiliary can be additionally shared by supporting part The gravity of photovoltaic module, it is to avoid the auxiliary photovoltaic module container top caused by photovoltaic container load-bearing completely is weighed the asking of deformation Auxiliary photovoltaic module, when needing to transport auxiliary photovoltaic module, can be stowed on photovoltaic container, save empty by topic Between take, be easy to implement transport, reduction cost of transportation.

After photovoltaic module expansion is aided in, because the auxiliary seldom part of photovoltaic module is supported on photovoltaic container 1, It is most of to be arranged on by supporting part outside photovoltaic container 1, therefore, it is possible to form occlusion area on the periphery of photovoltaic container 1, Certain shaded effects are played, interim outdoor rest area and behaviour area can be formed.

In the present embodiment, auxiliary photovoltaic module includes being arranged on the second photovoltaic group of the opposite sides of photovoltaic container 1 The photovoltaic module 4 of part 3 and the 3rd, the first end of the second photovoltaic module 3 is supported on photovoltaic container 1, and the of the second photovoltaic module 3 Two ends are provided with the first supporting part 5, and the first end of the 3rd photovoltaic module 4 is supported on photovoltaic container 1, the 3rd photovoltaic module 4 The second end be provided with the second supporting part 6.

Auxiliary photovoltaic module is set by the opposite sides in photovoltaic container 1 respectively, can not only further expand light The top of volt container 1 utilizes area, increases the laying quantity of photovoltaic panel, improves the photovoltaic capacity of container, and can make The both sides space of photovoltaic container is more fully utilized, and causes point of the auxiliary photovoltaic module on photovoltaic container 1 Cloth is more symmetrical, is more uniformly stressed.

It is of course also possible to which the surrounding in photovoltaic container 1 is respectively provided with auxiliary photovoltaic module, now need to make what is be arranged in pairs Shifted to install above and below auxiliary photovoltaic module, more fully to utilize the headroom of photovoltaic container 1, and when shrinking So that overall volume is smaller.Every a pair of photovoltaic modulies include two auxiliary photovoltaics of the opposite sides positioned at photovoltaic container 1 Component.

The top of photovoltaic container 1 is provided with line slideway 7, and the second photovoltaic module 3 and the 3rd photovoltaic module 4 are slidably arranged in On line slideway 7.Can be to the second photovoltaic module 3 and the 3rd photovoltaic module 4 at the top of photovoltaic container 1 by line slideway 7 Slip form good guide effect, it is ensured that the accuracy of the glide direction of the second photovoltaic module 3 and the 3rd photovoltaic module 4.

The bottom of second photovoltaic module 3 and the 3rd photovoltaic module 4 is provided with the sliding block 8 being slidably matched with line slideway 7. Second photovoltaic module 3 and the 3rd photovoltaic module 4 are realized by sliding block 8 with line slideway 7 to be slidably matched, and can avoid the second photovoltaic The photovoltaic module 4 of component 3 and the 3rd is directly slidably matched caused skimming wear with line slideway 7, to the He of the second photovoltaic module 3 3rd photovoltaic module 4 forms effective protection, it may also be ensured that the second photovoltaic module 3 and the 3rd photovoltaic module 4 are in photovoltaic container 1 Top steadily stretch and shrink.

First supporting part 5 and the second supporting part 6 are support bar, and the bottom of support bar is provided with roller 9.In support bar Bottom sets roller 9, can be reduced when the second photovoltaic module 3 and the 3rd photovoltaic module 4 deploy between support bar and ground The expansion difficulty of frictional force, the second photovoltaic module 3 of reduction and the 3rd photovoltaic module 4.

Specifically, the first supporting part 5 can be arranged on to folding and unfolding the one of the remote photovoltaic container 1 of the second photovoltaic module 3 End, the second supporting part 6 can be arranged on to folding and unfolding one end of the remote photovoltaic container 1 of the 3rd photovoltaic module 4, can pass through first The supporting part 6 of supporting part 5 and second is engaged with photovoltaic container 1, the support better to each auxiliary photovoltaic module formation, tool There is more support performance.

In the present embodiment, the second photovoltaic module 3 and the 3rd photovoltaic module 4 are arranged on the first photovoltaic module 2, when When two photovoltaic modulies 3 and the 3rd photovoltaic module 4 are packed up, it is stacked on the first photovoltaic module 2.It is of course also possible in the first light Sliding space is set between volt component 2 and the top of photovoltaic container 1, the second photovoltaic module 3 and the 3rd photovoltaic module 4 are slided It is dynamic to be arranged in sliding space.

It is all provided between second photovoltaic module 3 and photovoltaic container 1 and between the 3rd photovoltaic module 4 and photovoltaic container 1 Telescoping drive mechanism is equipped with, one end of telescoping drive mechanism is fixedly connected on photovoltaic container 1, it is right that the other end is connected to its institute On the photovoltaic module answered.The automation to the second photovoltaic module 3 and the 3rd photovoltaic module 4 can be realized by telescoping drive mechanism The regulation difficulty of extension and contraction control, further the second photovoltaic module 3 of reduction and the 3rd photovoltaic module 4, improves photovoltaic container system Intelligence degree.

Telescoping drive mechanism is gear-rack drive mechanism, electric putter, hydraulic push rod or air pressure push rod.

Preferably, the second photovoltaic module 3 and the 3rd photovoltaic module 4 are located on same mounting surface, the second photovoltaic module 3 and the The length sum of three photovoltaic modulies 4 is less than or equal to the length of photovoltaic container 1.

Certainly, above is the preferred embodiment of the present invention.It should be pointed out that for those skilled in the art For, on the premise of its general principles are not departed from, some improvements and modifications can also be made, these improvements and modifications It is considered as protection scope of the present invention.

Claims (10)

1. a kind of photovoltaic container system, it is characterised in that including photovoltaic container (1), be arranged on the photovoltaic container (1) First photovoltaic module (2) at top and be arranged on can taking down the exhibits the photovoltaic container (1) at least side auxiliary photovoltaic Component, one end of the auxiliary photovoltaic module is supported on the photovoltaic container (1), and the other end, which is provided with, is supported on working face On supporting part.

2. photovoltaic container system according to claim 1, it is characterised in that the auxiliary photovoltaic module includes being arranged on The second photovoltaic module (3) and the 3rd photovoltaic module (4) of the opposite sides of the photovoltaic container (1), the second photovoltaic group The first end of part (3) is supported on the photovoltaic container (1), and the second end of second photovoltaic module (3) is provided with first Supporting part (5), the first end of the 3rd photovoltaic module (4) is supported on the photovoltaic container (1), the 3rd photovoltaic group Second end of part (4) is provided with the second supporting part (6).

3. photovoltaic container system according to claim 2, it is characterised in that set at the top of the photovoltaic container (1) There is line slideway (7), second photovoltaic module (3) and the 3rd photovoltaic module (4) are slidably arranged in the line slideway (7) on.

4. photovoltaic container system according to claim 3, it is characterised in that second photovoltaic module (3) and described The bottom of 3rd photovoltaic module (4) is provided with the sliding block (8) being slidably matched with the line slideway (7).

5. photovoltaic container system according to claim 2, it is characterised in that first supporting part (5) and described Two supporting parts (6) are support bar, and the bottom of the support bar is provided with roller (9).

6. the photovoltaic container system according to any one of claim 2 to 5, it is characterised in that first supporting part (5) one end of the remote photovoltaic container (1) of second photovoltaic module (3), described second can be arranged on to folding and unfolding Support part (6) can be arranged on to folding and unfolding one end of the remote photovoltaic container (1) of the 3rd photovoltaic module (4).

7. the photovoltaic container system according to any one of claim 2 to 5, it is characterised in that the second photovoltaic group Part (3) and the 3rd photovoltaic module (4) are arranged on first photovoltaic module (2).

8. the photovoltaic container system according to any one of claim 2 to 5, it is characterised in that the second photovoltaic group Between part (3) and the photovoltaic container (1) and between the 3rd photovoltaic module (4) and the photovoltaic container (1) Telescoping drive mechanism is provided with, one end of the telescoping drive mechanism is fixedly connected on the photovoltaic container (1), the other end It is connected on the photovoltaic module corresponding to it.

9. photovoltaic container system according to claim 8, it is characterised in that the telescoping drive mechanism is rack-and-pinion Drive mechanism, electric putter, hydraulic push rod or air pressure push rod.

10. photovoltaic container system according to claim 2, it is characterised in that second photovoltaic module (3) and described 3rd photovoltaic module (4) is located on same mounting surface, the length of second photovoltaic module (3) and the 3rd photovoltaic module (4) Spend the length that sum is less than or equal to the photovoltaic container (1).