CN204859064U - Be used for complemental distributed power station of farming light - Google Patents

Abstract

The utility model relates to a be used for complemental distributed power station of farming light, it is including laying the photovoltaic module board at top outside warmhouse booth sunny side, the warmhouse booth peripheral hardware have be used for right the switch board managed is carried out in the electricity generation of photovoltaic module board lower part in the switch board is equipped with the inlet wire room, and the upper portion in the switch board is equipped with and is used for the photovoltaic inverter for the alternating current with photovoltaic module board output DC conversion. The utility model discloses distributed power station and agricultural production combine to realize the dual income of the agricultural and the energy, be independent distributed with DC distribution room, AC distribution room and dc -to -ac converter installation room in the switch board in addition, the switch board falls to the ground installation, places outside warmhouse booth, avoids warm moisture in the warmhouse booth physically to electrical components's corruption, also avoids the wall built -up to install the demand to the holding surface, more makes things convenient for the site operation to save construction period, does not influence the change of hot house.

Description

For the distributed power station of agriculture light complementation

Technical field

The utility model relates to a kind of distributed power station, and especially a kind of distributed power station for the complementation of agriculture light, belongs to the technical field of photovoltaic plant.

Background technology

Current China agricultural greenhouse area ranks first in the world, and modern agricultural production be unable to do without large-scale universal and the construction of heliogreenhouse, hot house.And the fast development of agricultural greenhouse, often connect in flakes, area is very large.Existing photovoltaic plant can take certain cultivated area when building, and causes construction cost large.

Summary of the invention

The purpose of this utility model overcomes the deficiencies in the prior art, and provide a kind of distributed power station for the complementation of agriculture light, its compact conformation, reducings the construction costs, and wide accommodation is safe and reliable.

According to the technical scheme that the utility model provides, the described distributed power station for the complementation of agriculture light, comprise the photovoltaic module plate being laid on the outer top of warmhouse booth sunny side, the power distribution cabinet for managing the generating of described photovoltaic module plate is had at warmhouse booth peripheral hardware, bottom in described power distribution cabinet is provided with basement, and the top in power distribution cabinet is provided with for photovoltaic module plate is exported the photovoltaic DC-to-AC converter that direct current is converted to alternating current.

Described photovoltaic DC-to-AC converter is positioned at inverter installation room, is also provided with DC distribution room and AC distribution room between inverter installation room and basement, and described DC distribution room, AC distribution room are distributed in the sustained height of power distribution cabinet side by side; DC distribution indoor are provided with the DC switch for connecting photovoltaic module plate and photovoltaic DC-to-AC converter, are provided with the alternating-current switch for being connected with the ac output end of photovoltaic DC-to-AC converter in AC distribution indoor.

Described DC distribution indoor are provided with data acquisition module, are provided with communication module in AC distribution indoor.

Before inverter installation room, be provided with form, be provided with binding post in AC distribution indoor.

Advantage of the present utility model: at the photovoltaic module plate of the roofing light-permeable of warmhouse booth, to produce electric energy for warmhouse booth by photovoltaic module plate, and can realize grid-connected.Distributed power station and agricultural production are combined, to realize the dual income of agricultural and the energy; Be independent distribution in addition in power distribution cabinet by DC distribution room, AC distribution room and inverter installation room, power distribution cabinet lands installation, be placed on outside warmhouse booth, avoid warm moisture body in warmhouse booth to the corrosion of electric elements, also the demand of wall built-up installation to supporting surface is avoided, more convenient site operation saves the construction period, does not affect the replacing of hot house.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Description of reference numerals: 1-warmhouse booth, 2-photovoltaic module plate, 3-photovoltaic DC-to-AC converter, 4-power distribution cabinet, 5-form, 6-binding post, 7-DC distribution room, 8-AC distribution room, 9-basement, 10-data acquisition module, 11-communication module, 12-DC switch and 13-alternating-current switch.

Embodiment

Below in conjunction with concrete drawings and Examples, the utility model is described in further detail.

As shown in Figure 1: in order to the construction cost of photovoltaic plant can be reduced, improve accommodation, the utility model comprises the photovoltaic module plate 2 being laid on the outer top of warmhouse booth 1 sunny side, the power distribution cabinet 4 for managing the generating of described photovoltaic module plate 2 is had at warmhouse booth 1 peripheral hardware, bottom in described power distribution cabinet 4 is provided with basement 9, and the top in power distribution cabinet 4 is provided with for photovoltaic module plate 2 being exported the photovoltaic DC-to-AC converter 3 that direct current is converted to alternating current.

Particularly, the top of warmhouse booth 1 has the ability supporting photovoltaic module plate 2, and photovoltaic module plate 2 is placed on the top of the outer sunny side of warmhouse booth 1, and fixes with warmhouse booth 1, is mainly convenient to the irradiation that photovoltaic module plate 2 receives sunlight more.During concrete enforcement, according to the photosensitive vegetable variety of plantation in warmhouse booth 1, the photovoltaic module plate 2 of corresponding light transmittance can be selected, to avoid the growth affecting vegetables in warmhouse booth 1 after photovoltaic module plate 2 is laid at warmhouse booth 1 top.The direct current that photovoltaic module plate 2 exports is connected with photovoltaic DC-to-AC converter 3 by the connecting line of basement 9, and DC inverter is alternating current by photovoltaic DC-to-AC converter 3, to provide the illumination of warmhouse booth 1, ventilate and the use such as to heat.

Further, described photovoltaic DC-to-AC converter 3 is positioned at inverter installation room, between inverter installation room and basement 9, be also provided with DC distribution room 7 and AC distribution room 8, described DC distribution room 7, AC distribution room 8 are distributed in the sustained height of power distribution cabinet 4 side by side; Being provided with in DC distribution room 7 for connecting photovoltaic module plate 2 and the DC switch 12 of photovoltaic DC-to-AC converter 3, in AC distribution room 8, being provided with the alternating-current switch 13 for being connected with the ac output end of photovoltaic DC-to-AC converter 3.

Be provided with data acquisition module 10 in described DC distribution room 7, in AC distribution room 8, be provided with communication module 11.Before inverter installation room, be provided with form 5, in AC distribution room 8, be provided with binding post 6.

In the utility model embodiment, inverter installation room is positioned at the top of power distribution cabinet 4, and DC distribution room 7, AC distribution room 8 are positioned at the zone line of power distribution cabinet 4, and basement 9 is positioned at the bottom of power distribution cabinet 4.Photovoltaic DC-to-AC converter 3 can be observed by form 5, separate between inverter installation room, DC distribution room 7, AC distribution room 8 and basement 9.

The output of photovoltaic module plate 2 by component palette connecting line access basement 9, and then accesses in the DC switch 12 in DC distribution room 7, then is connected with photovoltaic DC-to-AC converter 3 by inverter connecting line, realizes the connection of photovoltaic module plate 2 and photovoltaic DC-to-AC converter 3.The output of photovoltaic module plate 3 exports connecting line by inverter and is connected with the alternating-current switch 13 in AC distribution room 8, alternating-current switch 13 is provided with binding post 6, binding post 6 can connect power supply output line, in power supply output line access basement 9, with with the illumination in warmhouse booth 1, to ventilate and the electric power system such as to heat is connected, can for the illumination in warmhouse booth 1, to ventilate and the system such as to heat provides power supply needed for work.In addition, the electric energy that power supply output line can also produce accesses utility grid.During concrete enforcement, remote monitoring and centralized management can be realized by data acquisition module 10 and communication module 11, the concrete enforcement structure of data acquisition module 10, communication module 11 can be selected as required, is specially known by the art personnel, repeats no more herein.

The utility model, at the photovoltaic module plate 2 of the roofing light-permeable of warmhouse booth 1, to produce electric energy for warmhouse booth 1 by photovoltaic module plate 2, and can realize grid-connected.Distributed power station and agricultural production are combined, to realize the dual income of agricultural and the energy; Be independent distribution in addition in power distribution cabinet 4 by DC distribution room 7, AC distribution room 8 and inverter installation room, power distribution cabinet 4 lands installation, be placed on outside warmhouse booth 1, avoid warm moisture body in warmhouse booth 1 to the corrosion of electric elements, also the demand of wall built-up installation to supporting surface is avoided, more convenient site operation saves the construction period, does not affect the replacing of hot house.

Claims (4)

1. the distributed power station for the complementation of agriculture light, it is characterized in that: comprise the photovoltaic module plate (2) being laid on the outer top of warmhouse booth (1) sunny side, the power distribution cabinet (4) for managing the generating of described photovoltaic module plate (2) is had at warmhouse booth (1) peripheral hardware, bottom in described power distribution cabinet (4) is provided with basement (9), and the top in power distribution cabinet (4) is provided with for photovoltaic module plate (2) is exported the photovoltaic DC-to-AC converter (3) that direct current is converted to alternating current.

2. the distributed power station for the complementation of agriculture light according to claim 1, it is characterized in that: described photovoltaic DC-to-AC converter (3) is positioned at inverter installation room, between inverter installation room and basement (9), be also provided with DC distribution room (7) and AC distribution room (8), described DC distribution room (7), AC distribution room (8) are distributed in the sustained height of power distribution cabinet (4) side by side; Being provided with in DC distribution room (7) for connecting photovoltaic module plate (2) and the DC switch (12) of photovoltaic DC-to-AC converter (3), in AC distribution room (8), being provided with the alternating-current switch (13) for being connected with the ac output end of photovoltaic DC-to-AC converter (3).

3. the distributed power station for the complementation of agriculture light according to claim 2, is characterized in that: be provided with data acquisition module (10) in described DC distribution room (7), be provided with communication module (11) in AC distribution room (8).

4. the distributed power station for the complementation of agriculture light according to claim 2, is characterized in that: before inverter installation room, be provided with form (5), is provided with binding post (6) in AC distribution room (8).