CN205407698U - Photovoltaic module unit and photovoltaic ecological greenhouse - Google Patents

Abstract

The utility model provides a photovoltaic module unit and photovoltaic ecological greenhouse, its power transmission is convenient, be convenient for photovoltaic module unit and dismantlement. A photovoltaic ecological greenhouse, including be used for setting up the supporting rack of subaerial formation supporting, one or a plurality of install in photovoltaic module unit on the supporting rack, the photovoltaic module unit includes the support, locates photovoltaic module on the support, the support portable and can set up with breaking away from in on the supporting rack, the photovoltaic module unit still including set up in the transmission device of support lower part, transmission device has the setting and is in the support lower part and with photovoltaic module is electricity first contact even mutually, braced frame is last be provided with with work as first contact matched with second contact when the installation of photovoltaic module unit targets in place, first contact with the second contact meets the company of electric shock in order to incite somebody to action photovoltaic module's electric energy output.

Description

Photovoltaic module unit and photovoltaic Ecological Greenhouse

Technical field

This utility model relates to a kind of photovoltaic module unit and 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 plants such as the lower section Planting Crops of solar photovoltaic assembly, flowers, Chinese herbal medicine, or cultivation domestic birds and animals Aquatic product etc., if additionally light transmittance can also be regulated according to the quantity of illumination needed for vegeto-animal variety classes or different growth phases, then can the utilization rate in bigger raising sunlight and soil.

And one of measure regulating light transmittance is to move photovoltaic module to change its quantity or spacing.In prior art, the electric energy of each photovoltaic module is directly exported by the cable that the electric energy transmission of photovoltaic module is usually in the rosette being connected to the photovoltaic module back side, being subject to the restriction of the aspects such as length of cable, this connected mode makes photovoltaic module be not easy to mobile or dismounting.

Utility model content

For the problems referred to above, the purpose of this utility model is to provide a kind of photovoltaic module unit and photovoltaic Ecological Greenhouse, and the transmission of its electric power is convenient, be easy to photovoltaic module unit moves and dismantle.

For solving above-mentioned technical problem, the technical solution adopted in the utility model is:

A kind of photovoltaic module unit, including the support on the bearing support for being arranged on photovoltaic plant or photovoltaic Ecological Greenhouse, the photovoltaic module be located on described support, this photovoltaic module unit also includes the transmission mechanism being arranged at described support bottom, described transmission mechanism has for the first contact being electrically connected that contacts with bearing support, and described first contact is arranged on described support bottom and is electrically connected mutually with photovoltaic module to export the electric energy of described photovoltaic module.

Preferably, described transmission mechanism includes the metal contact being movably disposed at described support bottom, and described first contact is formed on the one end of described metal contact, and the other end of described metal contact is electrically connected by wire and described photovoltaic module.

More preferably, described transmission mechanism also includes the insulation crust being fixedly connected on the hollow of described support bottom, described metal contact is slidably disposed in described insulation crust, one end of described insulation crust offers the through hole stretched out for described first contact, the other end of described insulation crust offers the through hole passed for described wire, and promising described contact is set between described insulation crust and described metal contact stretches out the elastic component that elastic force is provided.

The another technical scheme that this utility model adopts is:

A kind of photovoltaic Ecological Greenhouse, including for arranging the bearing support forming supporting on the ground, one or more is installed on the photovoltaic module unit on described bearing support, described photovoltaic module unit includes support, it is located at the photovoltaic module on described support, described support is removable and is arranged on described bearing support separatably, described photovoltaic module unit also includes the transmission mechanism being arranged at described support bottom, described transmission mechanism has the first contact being arranged on described support bottom and being electrically connected mutually with described photovoltaic module, described support framework is provided with the second contact matched with described first contact, when described photovoltaic module unit is installed and is put in place, described first contact and described second contact contact and are electrically connected to export the electric energy of described photovoltaic module.

Preferably, described transmission mechanism includes the metal contact being movably disposed at described support bottom, and described contact is formed on the one end of described metal contact, and the other end of described metal contact is electrically connected by wire and described photovoltaic module.

More preferably, described transmission mechanism also includes the insulation crust being fixedly connected on the hollow of described support bottom, described metal contact is slidably disposed in described insulation crust, one end of described insulation crust offers the through hole stretched out for described first contact, the other end of described insulation crust offers the through hole passed for described wire, and promising described contact is set between described insulation crust and described metal contact stretches out the elastic component that elastic force is provided.

Further, described elastic component is the stage clip being arranged between described the other end of described metal contact and the described other end of described insulation crust.

In a specific embodiment, described bearing support offers the chute matched with described metal contact, and described second contact is located in described chute, and described one end of described metal contact is inserted in described chute slidably.

Preferably, being provided with guiding surface in described chute, described guiding surface tilts to extend to described second contact from the end of chute in the way of being gradually distance from described support.

It is highly preferred that described guiding surface is two and lays respectively at the opposite sides of described second contact.

This utility model adopts technique scheme, have the advantage that on the support of photovoltaic module unit compared to existing technology and contact is set, being contacted with bearing support by the contact on support is electrically connected thus being exported by the electric energy of photovoltaic module, not by the restriction of length of cable, photovoltaic module unit freely can move on bearing support or dismantle, the photovoltaic module quantity making photovoltaic Ecological Greenhouse is adjustable, accurately regulates according to irradiation best needed for crops.

Accompanying drawing explanation

Fig. 1 is the partial schematic diagram of photovoltaic Ecological Greenhouse of the present utility model；

Fig. 2 is the structural representation of transmission mechanism of the present utility model；

Fig. 3 is chute schematic diagram of the present utility model；

Fig. 4 is the metal contact of the present utility model operating diagram in chute.

In above-mentioned accompanying drawing:

1, bearing support；11, guide rail；12, chute；120, the second contact；121, guiding surface；122, guiding surface；13, the second wire；130, the second union joint；

2, photovoltaic module unit；21, support；22, photovoltaic module；

210, insulation crust；211, metal contact；2110, the first contact；212, the first wire；213, the first union joint；214, stage clip.

Detailed description of the invention

Advantage of the present utility model and feature below in conjunction with accompanying drawing, preferred embodiment of the present utility model be described in detail, so that can be easier to be understood by those skilled in the art.

With reference to shown in Fig. 1, photovoltaic Ecological Greenhouse includes bearing support 1 and one or more photovoltaic module unit 2.The lower end of bearing support 1 is fixedly installed on the ground for forming supporting, and photovoltaic module unit 2 is arranged on the upper end of bearing support 1.The photovoltaic module 22 that photovoltaic module unit 2 includes support 21 that is removable and that be arranged on bearing support 1 separatably, is located at support 21 upper end.Photovoltaic module unit 2 also include being located at support 21 bottom for photovoltaic module 22 is produced the transmission mechanism that electric energy transfers out.

Shown in Fig. 2-4, transmission mechanism includes the insulation crust 210 being fixedly installed on the hollow of support 21 bottom, the metal contact 211 being movably disposed in insulation crust 210.One end of metal contact 211 has the first contact 2110, the other end and the first wire 212 be electrically connected.One end of insulation crust 210 offers and is available for the through hole that the first contact 2110 is stretched out, the other end offers the through hole passed for the first wire 212.The elastic component driving metal contact 211 opposing insulation shell 210 to slide it is provided with between metal contact 211 and insulation crust 210, specifically, fixing connection one fastening ring plate on the above-mentioned other end of insulation crust 210, the stage clip 214 of driving metal contact 211 action it is provided with between the above-mentioned other end and the metal ring plate of metal contact 211, stage clip 214 is compressive state, stretches out offer elastic force for the first contact 2110.The one end of the first wire 212 is fixedly connected with the first union joint 213, and the first union joint 213 offers screw thread, and the above-mentioned other end of metal contact 211 offers the screwed hole matched, and the first union joint 213 is connected with metal contact 211 by screw thread.The other end of first wire 212 and the rosette of photovoltaic module 22 are electrically connected.

Bearing support 1 has multiple bearing support 21 guide rail 11 slided for support 21, and on guide rail 11, compartment of terrain is provided with multiple chute 12 matched with metal contact 211.The bottom land of chute 12 is provided with the second contact 120 matched with the first contact 2110.Specifically, one end and second union joint 130 of one second wire 13 are fixedly connected, second union joint 130 offers screw thread, second union joint 130 is connected by screw thread and guide rail 11, and second the end of union joint 130 extend the bottom land place of chute 12, second contact 120 is formed at the end of the second union joint 130, and the other end and the external electrical network of the second wire 13 connect.The above-mentioned one end of metal contact 211 is inserted in chute 12 slidably, and when the first contact 2110 and the second contact 120 contact conducting, photovoltaic module unit 2 is installed and put in place.

Being provided with guiding surface 121,122 in chute 12, guiding surface 121,122 is sentenced the mode being gradually distance from support 21 and is tilted to extend from the end of chute 12 to the second contact 120.Guiding surface 121,122 is two and lays respectively at the opposite sides of the second contact 120.Along with photovoltaic module unit 2 slides on guide rail 11, metal contact 211 is inserted in chute 12, and under the effect of the guiding surface 121 of side, stage clip 214 discharges gradually, promoting metal contact 211 to slide in and out, to when moving to the second 120 place, contact, the first contact 2110 mutually pushes against with the second contact 120 and contacts to turn on realization electrical connection, photovoltaic module unit 2 is installed and is put in place, by the electric energy output that photovoltaic module 22 is produced by first wire the 212, second wire 13；When needs remove photovoltaic module unit 2, photovoltaic module unit 2 continues to move to along guide rail 11, and under the effect of the guiding surface 122 of opposite side, metal contact 211 bounces back in insulation crust 210 gradually, and stage clip 214 is compressed.

Above-described embodiment is only for illustrating technology of the present utility model design and feature; it it is a kind of preferred embodiment; its object is to allow person skilled in the art will appreciate that content of the present utility model and to implement according to this, protection domain of the present utility model can not be limited with this.All equivalences made according to spirit of the present utility model change or modify, and all should be encompassed within protection domain of the present utility model.

Claims (10)

1. a photovoltaic module unit, including the support on the bearing support for being arranged on photovoltaic plant or photovoltaic Ecological Greenhouse, the photovoltaic module be located on described support, it is characterized in that: this photovoltaic module unit also includes being arranged at the transmission mechanism of described support bottom, described transmission mechanism has for the first contact being electrically connected that contacts with bearing support, and described first contact is arranged on described support bottom and is electrically connected mutually with photovoltaic module to export the electric energy of described photovoltaic module.

2. photovoltaic module unit according to claim 1, it is characterized in that: described transmission mechanism includes being movably disposed at the metal contact of described support bottom, described first contact is formed on the one end of described metal contact, and the other end of described metal contact is electrically connected by wire and described photovoltaic module.

3. photovoltaic module unit according to claim 2, it is characterized in that: described transmission mechanism also includes being fixedly connected on the insulation crust of the hollow of described support bottom, described metal contact is slidably disposed in described insulation crust, one end of described insulation crust offers the through hole stretched out for described first contact, the other end of described insulation crust offers the through hole passed for described wire, and promising described contact is set between described insulation crust and described metal contact stretches out the elastic component that elastic force is provided.

4. a photovoltaic Ecological Greenhouse, including for arranging the bearing support forming supporting on the ground, one or more is installed on the photovoltaic module unit on described bearing support, described photovoltaic module unit includes support, it is located at the photovoltaic module on described support, it is characterized in that: described support is removable and is arranged on described bearing support separatably, described photovoltaic module unit also includes transmission mechanism, described transmission mechanism has the first contact being arranged on described support bottom and being electrically connected mutually with described photovoltaic module, described bearing support is provided with the second contact matched with described first contact, when described photovoltaic module unit is installed and is put in place, described first contact and described second contact contact and are electrically connected to export the electric energy of described photovoltaic module.

5. photovoltaic Ecological Greenhouse according to claim 4, it is characterized in that: described transmission mechanism includes being movably disposed at the metal contact of described support bottom, described first contact is formed on the one end of described metal contact, and the other end of described metal contact is electrically connected by wire and described photovoltaic module.

6. photovoltaic Ecological Greenhouse according to claim 5, it is characterized in that: described transmission mechanism also includes being fixedly connected on the insulation crust of the hollow of described support bottom, described metal contact is slidably disposed in described insulation crust, one end of described insulation crust offers the through hole stretched out for described first contact, the other end of described insulation crust offers the through hole passed for described wire, and promising described contact is set between described insulation crust and described metal contact stretches out the elastic component that elastic force is provided.

7. photovoltaic Ecological Greenhouse according to claim 6, it is characterised in that: described elastic component is the stage clip being arranged between described the other end of described metal contact and the described other end of described insulation crust.

8. the photovoltaic Ecological Greenhouse according to any one of claim 5-7, it is characterized in that: described bearing support offers the chute matched with described metal contact, described second contact is located in described chute, and described one end of described metal contact is inserted in described chute slidably.

9. photovoltaic Ecological Greenhouse according to claim 8, it is characterised in that: being provided with guiding surface in described chute, described guiding surface tilts to extend to described second contact from the end of chute in the way of being gradually distance from described support.

10. photovoltaic Ecological Greenhouse according to claim 9, it is characterised in that: described guiding surface is two and lays respectively at the opposite sides of described second contact.