CN205196490U

CN205196490U - Ecological big -arch shelter of photovoltaic

Info

Publication number: CN205196490U
Application number: CN201521070609.2U
Authority: CN
Inventors: 王柏兴; 倪志春; 许志翔; 胡亚益; 严煜
Original assignee: Zhongli Talesun Solar Co Ltd
Current assignee: Suzhou Talesun Solar Technologies Co Ltd
Priority date: 2015-12-21
Filing date: 2015-12-21
Publication date: 2016-05-04
Anticipated expiration: 2025-12-21

Abstract

The utility model provides an ecological big -arch shelter of photovoltaic, its adjustable quantity of illumination that gets into photovoltaic module below. An ecological big -arch shelter of photovoltaic, include the support, at least one fixed set up in the horizontal pole of support upper end, the multiseriate photovoltaic module support that sets up along the lateral separation, install in each respectively multiseriate photovoltaic module on the photovoltaic module support, photovoltaic module's below is formed with the space that is used for planting the plant or breeds the animal, it gets into to have the sunshine of confession between the photovoltaic module the space in space, each the lower tip of photovoltaic module support can follow lateral sliding ground connect in the horizontal pole is in order to adjust adjacent two sizes that are listed as the space between photovoltaic module.

Description

Photovoltaic Ecological Greenhouse

Technical field

The utility model relates to a kind of photovoltaic Ecological Greenhouse.

Background technology

At present, solar photovoltaic assembly is applied to absorbing solar energy and being converted into electric energy.And be not utilized effectively by the soil below solar photovoltaic assembly.If sunlight can be made to be shining into below solar photovoltaic assembly, and the plant such as below Planting Crops, flowers, Chinese herbal medicine of solar photovoltaic assembly, or cultivation domestic birds and animals aquatic products etc., if the quantity of illumination needed for vegeto-animal variety classes or Different growth phases light transmittance can also be regulated in addition, then can the availability in larger raising sunlight and soil.

Utility model content

For the problems referred to above, the purpose of this utility model is to provide a kind of photovoltaic Ecological Greenhouse, its adjustable quantity of illumination entered below photovoltaic module.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of photovoltaic Ecological Greenhouse, comprise support, at least one be fixedly installed on described pedestal upper end portion cross bar, transversely spaced multiple row photovoltaic module support, be installed on multiple row photovoltaic module on the described photovoltaic module support of each row respectively, the below of described photovoltaic module is formed with the space for planting plants or cultivated animals, have the space entering described space for sunlight between described photovoltaic module, the bottom of each described photovoltaic module support transversely can be slidably connected to described cross bar to regulate the size in the space between adjacent two row photovoltaic modulies.

Preferably, described cross bar offers the horizontal guide groove extended transversely, the bottom of described photovoltaic module support is inserted in described horizontal guide groove slidably.

More preferably, described cross bar is multiple, multiple described cross bar longitudinally interval is arranged, each photovoltaic module support of the described photovoltaic module support of each row is connected to each described cross bar respectively slidably, each described cross bar offers a described horizontal guide groove, the bottom being connected to each photovoltaic module support of same described cross bar is inserted in described horizontal guide groove all slidably.

More preferably, described cross bar is multiple, multiple described cross bar longitudinally interval is arranged, each photovoltaic module support of the described photovoltaic module support of each row is connected to each described cross bar respectively slidably, each described cross bar is offered respectively with the described photovoltaic module support of each row described horizontal guide groove one to one, the bottom of each photovoltaic module support is inserted in a corresponding described horizontal guide groove respectively slidably.

More preferably, the horizontal locking member for the two being locked is provided with between described cross bar and described photovoltaic module.

Preferably, the described photovoltaic module support of each row is made up of some photovoltaic module supports be longitudinally intervally arranged respectively, this photovoltaic Ecological Greenhouse also comprises the multiple vertical pole assemblies be connected between each row photovoltaic module and Ge Lie photovoltaic module, each described vertical pole assembly is fixedly connected with the top of every row photovoltaic module support respectively, and the described photovoltaic module of each row longitudinally can be slidably connected to each described vertical pole assembly respectively.

More preferably, described vertical pole assembly offers the longitudinal guide groove extended longitudinally, the whole photovoltaic modulies often arranging described photovoltaic module are inserted in described longitudinal guide groove all slidably.

More preferably, described vertical pole assembly offers the mounting groove that multicomponent is not corresponding with the described photovoltaic module of each row, many groups of described mounting grooves extend longitudinally and interval setting, and each photovoltaic module often arranging described photovoltaic module is inserted in mounting groove described in corresponding a group respectively slidably.

Preferably, described support comprises the strut of multiple vertical setting, and multiple described strut is embarked on journey and arow arrangement, and described space is formed between described photovoltaic module and described strut, and described cross bar is fixedly connected on the top of a line strut.

More preferably, the height of described strut is 2 ~ 3 meters.

The utility model adopts technique scheme, tool has the following advantages compared to existing technology: by transverse shifting photovoltaic module support, the row distance of adjustable each row photovoltaic module, and then regulate the illumination entered in the space of animal and plant growth bright, regulate light transmittance, the quantity of illumination needed for vegeto-animal variety classes and Different growth phases can regulate the size in space, utilize luminous energy substantially.

Accompanying drawing explanation

Fig. 1 is the front view of a kind of photovoltaic Ecological Greenhouse of the present utility model;

Fig. 2 is the upward view of a kind of photovoltaic Ecological Greenhouse of the present utility model;

Fig. 3 is the left view of a kind of photovoltaic Ecological Greenhouse of the present utility model;

Fig. 4 is the right view of a kind of photovoltaic Ecological Greenhouse of the present utility model;

Fig. 5 is the partial enlarged drawing at A place in Fig. 1;

Fig. 6 is the cutaway view at C-C place in Fig. 5;

Fig. 7 is the connection diagram of photovoltaic module support of the present utility model and cross bar;

Fig. 8 is the partial enlarged drawing at B place in Fig. 3;

Fig. 9 is the cutaway view at D-D place in Fig. 8;

Figure 10 is the connection diagram of photovoltaic module of the present utility model and a kind of first vertical pole;

Figure 11 is the partial schematic diagram of another kind of photovoltaic Ecological Greenhouse of the present utility model;

Figure 12 is the structural representation of another kind of first vertical pole of the present utility model.

In above-mentioned accompanying drawing:

1, support; 11, strut;

2, cross bar; 21, horizontal guide groove;

3, photovoltaic module support; 31, brace;

4, horizontal locking member;

5, vertical pole assembly; 501, longitudinal guide groove; 502, mounting groove; 51, the first vertical pole; 52, the second vertical pole;

6, photovoltaic module; 61, frame body; 62, slide block;

7, longitudinal locking member.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, can be easier to make advantage of the present utility model and feature be understood by those skilled in the art.That addresses in the utility model is horizontal and vertically according to the custom of those skilled in the art and conveniently describes and define, and does not limit concrete direction, e.g., corresponds respectively to the direction in Fig. 2 shown in arrow.

Embodiment 1

Fig. 1 is to Figure 10 shows that a kind of photovoltaic Ecological Greenhouse of the present utility model.Shown in composition graphs 1 to Figure 10, this photovoltaic Ecological Greenhouse comprises support 1, multiple cross bar 2, multiple photovoltaic module support 3, multiple vertical pole assembly 5 and multiple photovoltaic module 6.

Support 1 comprises multiple strut 11 being vertically setting, multiple strut 11 is embarked on journey and arow is arranged, form the arrangement of similar array, be formed with multirow strut 11 and multiple row strut 11, multirow strut 11 is longitudinally arranged at equal intervals, often row strut 11 comprises some supports 1 transversely arranged at equal intervals, to form above-mentioned multiple row strut 11.The height of each strut 11 is 2 ~ 3 meters, is preferably 2.5 meters.The lower end of each strut 11 abuts ground respectively for forming stable support to the superstructure of photovoltaic Ecological Greenhouse.

Each cross bar 2 extends transversely, and multiple cross bar 2 is arranged correspondingly with multirow strut 11, and namely the number of cross bar 2 is identical with the line number of strut 11.Each cross bar 2 is fixedly connected with the upper end of the strut 11 of corresponding a line respectively, and multiple cross bar 2 is longitudinally arranged at equal intervals.

Each cross bar 2 is respectively equipped with a line photovoltaic module support 3, and the upper end of photovoltaic module support 3 is used for installation photovoltaic component 6, and the lower end of photovoltaic module 6 can transversely be slidably connected to cross bar 2.Particularly, cross bar 2 offers the horizontal guide groove 21 extended transversely, the lower end of photovoltaic module support 3 is plugged in horizontal guide groove 21 slidably.Be provided with horizontal locking member 4 between the lower end of cross bar 2 and photovoltaic module support 3, specific in the present embodiment, horizontal locking member 4 is screw.When photovoltaic module 6 lateral adjustments puts in place, tighten screw and cross bar 2 and photovoltaic module support 3 are locked.

Identical and the respectively corresponding setting in column of the quantity of the photovoltaic module support 3 on each cross bar 2, to form multiple row photovoltaic module support 3, each row photovoltaic module support 3 comprises some longitudinally spaced photovoltaic module supports 3 respectively.Multiple row photovoltaic module support 3 is transversely arranged at equal intervals, and multiple photovoltaic module supports 3 of each row photovoltaic module support 3 are longitudinally arranged respectively at equal intervals.Horizontal guide groove 21 on each cross bar 2 can be one and lateral direction penetrating cross bar 2 or length are slightly shorter than the length of cross bar 2, often the lower end of whole photovoltaic module supports 3 of row photovoltaic module support 3 is inserted in this horizontal guide groove 21 all slidably, is arranged so that the row between multiple row photovoltaic module support 3 are larger apart from adjustable range like this; Or, the quantity of the horizontal guide groove 21 on each cross bar 2 and interval identical with the columns of photovoltaic module support 3 is arranged, often each photovoltaic module support 3 of row photovoltaic module support 3 is inserted in a horizontal guide groove 21 respectively slidably, and when arranging like this, the row of multiple row photovoltaic module support 3 are relatively little apart from adjustable range.

Each vertical pole assembly 5 extends longitudinally, and multiple vertical pole assembly 5 and multiple row photovoltaic module support 3 are arranged correspondingly, and namely the number of vertical pole assembly 5 is identical with the columns of photovoltaic module support 3.Each vertical pole assembly 5 is fixedly connected with the top of corresponding one photovoltaic module support arranged 3 respectively.Each vertical pole assembly 5 is respectively equipped with the photovoltaic module 6 that row longitudinally arrange, each photovoltaic module 6 can longitudinally be connected with vertical pole assembly 5 respectively slidably, in the present embodiment, the often number of photovoltaic module support 3 that comprises more than every row photovoltaic module support 3 of the number of photovoltaic module 6 that comprises of row photovoltaic module 6.

Particularly, vertical pole assembly 5 offers the longitudinal guide groove 501 extended longitudinally, longitudinal guide groove 501 longitudinally through vertical pole assembly 5 or be slightly shorter than the length of vertical pole assembly 5.Photovoltaic module 6 has frame and is installed on the solar battery sheet in frame, and the frame of photovoltaic module 6 is plugged in longitudinal guide groove 501 slidably.Be provided with longitudinal locking member 7 between vertical pole assembly 5 and frame, specific in the present embodiment, longitudinal locking member 7 is screw.When longitudinally adjustment puts in place photovoltaic module 6, tighten screw by vertical pole assembly 5 and frame locking.

In order to make the connection of photovoltaic module 6 more firm, vertical pole assembly 5 comprises the first vertical pole 51 and the second vertical pole 52 all extended longitudinally, one sidepiece of the frame of photovoltaic module 6 can longitudinally connect slidably with the first vertical pole 51, and a relative sidepiece of the frame of photovoltaic module 6 can longitudinally connect slidably with the second vertical pole 52.The frame of photovoltaic module 6 comprises frame body 61 and the slide block 62 be slidably disposed in longitudinal guide groove 501, and frame body 61 offers spacing hole, and slide block 62 is fixedly connected with frame body 61 by the screw being inserted in spacing hole.

The top of the photovoltaic module support 3 in the present embodiment has transversely downward-sloping gradually brace 31.The top of the first vertical pole 51 and brace 31 is fixedly connected, and the bottom of the second vertical pole 52 and brace 31 is fixedly connected, and makes photovoltaic module 6 tilt to the angle being more conducive to accept sunshine.

The space for Planting Crops or flowers or Chinese herbal medicine or cultivation domestic birds and animals aquatic products etc. is formed between the below of photovoltaic module 6, each strut 11, photovoltaic module 6 is embarked on journey and arrangement in column, i.e. array distribution, between each row photovoltaic module 6, there is space, also have space between each row photovoltaic module 6, sunlight exposes to the lighting requirements of plant in space in meeting spatial or animal by space.The row of each row photovoltaic module support 3 are apart from the adjustable row of each row photovoltaic module 6 that make apart from adjustable, the longitudinal pitch (line-spacing) of each photovoltaic module 6 on each row photovoltaic module support 3 is also adjustable, can according to the lighting requirements of animals and plants different phase and the demand to photovoltaic module 6 charge capacity, the photovoltaic module support 3 of transverse shifting wherein several row or all row, and/or, vertically move the wherein several or all photovoltaic modulies 6 on wherein several row or all row photovoltaic module supports 3, to regulate the row of photovoltaic module 6 distance and/or line-spacing to change pore size, thus adjustment light transmittance, balance vegeto-animal lighting requirements and the demand to photovoltaic module 6 charge capacity, maximizedly utilize luminous energy, obtain optimal effectiveness.

Embodiment 2

Figure 11 is to Figure 12 shows that another kind of photovoltaic Ecological Greenhouse of the present utility model.This embodiment is substantially with embodiment 1, and difference is:

In conjunction with shown in Figure 11 to Figure 12, vertical pole assembly 5 offers the mounting groove 502 that multicomponent is not corresponding with each photovoltaic module 6, each photovoltaic module 6 frame is plugged in one group of corresponding mounting groove 502 respectively.Each group of mounting groove 502 interval is arranged and elongated slot for extending longitudinally, each photovoltaic module 6 frame is plugged in the mounting groove 502 of corresponding a group respectively slidably, photovoltaic module 6 can be allowed longitudinally to finely tune, be convenient to install, the length of mounting groove 502 is substantially equal to the moveable distance of photovoltaic module 6.In the present embodiment, often organizing mounting groove 502 is two longitudinally interval settings.

Above-described embodiment is only for illustrating technical conceive of the present utility model and feature; it is a kind of preferred embodiment; its object is to person skilled in the art can be understood content of the present utility model and implement according to this, protection domain of the present utility model can not be limited with this.All equivalences done according to Spirit Essence of the present utility model change or modify, and all should be encompassed within protection domain of the present utility model.

Claims

1. a photovoltaic Ecological Greenhouse, it is characterized in that: comprise support, at least one is fixedly installed on the cross bar in described pedestal upper end portion, transversely spaced multiple row photovoltaic module support, be installed on the multiple row photovoltaic module on the described photovoltaic module support of each row respectively, the below of described photovoltaic module is formed with the space for planting plants or cultivated animals, there is between described photovoltaic module the space entering described space for sunlight, the bottom of each described photovoltaic module support transversely can be slidably connected to described cross bar to regulate the size in the space between adjacent two row photovoltaic modulies.

2. photovoltaic Ecological Greenhouse according to claim 1, is characterized in that: described cross bar offers the horizontal guide groove extended transversely, and the bottom of described photovoltaic module support is inserted in described horizontal guide groove slidably.

3. photovoltaic Ecological Greenhouse according to claim 2, it is characterized in that: described cross bar is multiple, multiple described cross bar longitudinally interval is arranged, each photovoltaic module support of the described photovoltaic module support of each row is connected to each described cross bar respectively slidably, each described cross bar offers a described horizontal guide groove, the bottom being connected to each photovoltaic module support of same described cross bar is inserted in described horizontal guide groove all slidably.

4. photovoltaic Ecological Greenhouse according to claim 2, it is characterized in that: described cross bar is multiple, multiple described cross bar longitudinally interval is arranged, each photovoltaic module support of the described photovoltaic module support of each row is connected to each described cross bar respectively slidably, each described cross bar is offered respectively with the described photovoltaic module support of each row described horizontal guide groove one to one, the bottom of each photovoltaic module support is inserted in a corresponding described horizontal guide groove respectively slidably.

5. photovoltaic Ecological Greenhouse according to claim 2, is characterized in that: be provided with the horizontal locking member for the two being locked between described cross bar and described photovoltaic module.

6. photovoltaic Ecological Greenhouse according to claim 1, it is characterized in that: the described photovoltaic module support of each row is made up of some photovoltaic module supports be longitudinally intervally arranged respectively, this photovoltaic Ecological Greenhouse also comprises the multiple vertical pole assemblies be connected between each row photovoltaic module and Ge Lie photovoltaic module, each described vertical pole assembly is fixedly connected with the top of every row photovoltaic module support respectively, and the described photovoltaic module of each row longitudinally can be slidably connected to each described vertical pole assembly respectively.

7. photovoltaic Ecological Greenhouse according to claim 6, is characterized in that: described vertical pole assembly offers the longitudinal guide groove extended longitudinally, and the whole photovoltaic modulies often arranging described photovoltaic module are inserted in described longitudinal guide groove all slidably.

8. photovoltaic Ecological Greenhouse according to claim 6, it is characterized in that: described vertical pole assembly offers the mounting groove that multicomponent is not corresponding with the described photovoltaic module of each row, many groups of described mounting grooves extend longitudinally and interval setting, and each photovoltaic module often arranging described photovoltaic module is inserted in mounting groove described in corresponding a group respectively slidably.

9. photovoltaic Ecological Greenhouse according to claim 1, it is characterized in that: described support comprises the strut of multiple vertical setting, multiple described strut is embarked on journey and arow arrangement, described space is formed between described photovoltaic module and described strut, and described cross bar is fixedly connected on the top of a line strut.

10. photovoltaic Ecological Greenhouse according to claim 9, is characterized in that: the height of described strut is 2 ~ 3 meters.