CN204860333U - Photovoltaic power generation glasshouse system - Google Patents

Abstract

The utility model provides a photovoltaic power generation glasshouse system, greenhouse system be including a plurality of glasshouse big -arch shelters of setting in a row, its characterized in that, warmhouse booth include the base, and vertical left stand and the right stand of being fixed with on the base is controlled and be equipped with the crossbeam frame between the stand, is equipped with a plurality of photovoltaic power generation glass roofs on the crossbeam frame, still is equipped with bearing structure between roof and the crossbeam frame, the roof includes photovoltaic power generation glass substrate and printing opacity base plate that the chevron shape set up, and top joint longeron connection is passed through to the upper end of photovoltaic power generation glass substrate and printing opacity base plate, and photovoltaic power generation glass substrate's lower extreme links to each other with the water drainage tank who sets up at left stand top, the lower extreme of printing opacity base plate links to each other with support column or the right stand of locating on the crossbeam frame that hang down. The utility model has the advantages of reasonable structure design, effective coordination photovoltaic power generation and irradiant relation, vegetation nature is good, and photovoltaic power generation glass substrate installation fastness is good, and factor of safety is high.

Description

Photovoltaic generation glass greenhouse system

Technical field

The utility model relates to a kind of photovoltaic generation glass greenhouse system, belongs to agricultural greenhouse apparatus field.

Background technology

Green house is the basis of modern agriculture, and the development of modern agriculture be unable to do without the development of green house, has multi-functional modern greenhouse booth, and its floor space is wide, and the energy expended every day is that electricity is more by it, considerably increases the operating cost of Greenhouse System.Therefore photovoltaic generation is incorporated in green house, can generate electricity, the operating cost of Greenhouse System can be reduced again, it is a developing direction of existing green house or system, but photovoltaic substrate has to greenhouse sunlight the effect of blocking, cause certain influence to plant growth, therefore how coordinating Generate, Generation, Generator photograph is a difficult problem.The photovoltaic substrate mounting means of prior art adopts common two ends longeron in addition, the mounting means of photovoltaic generation substrate is placed between longeron, this kind of mode installs simple and fast, cost is lower, but it is not firm that it causes in glass substrate installation, safety coefficient is lower, the fault that glass substrate crashes easily occurs, even occurred the accident that overall ceiling caves in.

As shown in Figure 1, it simply adopts top clamping longeron to the mounting means of prior art, and drain ditch, both sides is installed as the mode on fixing base.This kind of mode is installed simply, and material is economized most, but safety coefficient is very low, and its photovoltaic generation glass substrate cannot regulate simultaneously.The relation of illumination and generating cannot be coordinated.

Summary of the invention

The purpose of this utility model is to solve the deficiencies in the prior art, provides a kind of photovoltaic generation glass greenhouse system.This Greenhouse System reasonable in design, the relation of effective coordination photovoltaic generation and illumination, plant growth is good, and photovoltaic generation glass substrate installation fastness is good, and safety coefficient is high.

The utility model solves the technical scheme that its technical problem adopts:

Photovoltaic generation glass greenhouse system, above-mentioned Greenhouse System comprises the multiple glass greenhouse booths set in a row, it is characterized in that, above-mentioned green house comprises pedestal, pedestal is vertically fixed with left column and right column, be provided with cross beam frame between left and right pillar, above-mentioned cross beam frame is provided with multiple photovoltaic generation glass roof, is also provided with supporting construction between above-mentioned roof and cross beam frame; Above-mentioned roof comprises photovoltaic generation glass substrate and the transparent substrates of herringbone setting, and photovoltaic generation glass substrate is connected by top clamping longeron with the upper end of transparent substrates, and the lower end of photovoltaic generation glass substrate is connected with the rhone being arranged on left column top; The lower end of transparent substrates is connected with the support column be located on cross beam frame or right column.

As preferably, above-mentioned top clamping longeron is also hinged with cover plate, above-mentioned cover plate is turnover is arranged on transparent substrates overhead, and above-mentioned cover plate is provided with transparent glass substrate or photovoltaic generation glass substrate.

As preferably, above-mentioned supporting construction comprises left cant beam and right cant beam, and left cant beam is connected by gate longitudinal beam connected with the upper end of right cant beam, and longitudinal beam connected supports and is fixed on the bottom of above-mentioned clamping longeron; The lower end of left cant beam is fixed on left column, and right cant beam is fixed on above-mentioned right column or above-mentioned support column.

As preferably, between above-mentioned left cant beam and photovoltaic generation glass substrate, be also provided with false longeron, between above-mentioned right cant beam and transparent substrates, be also provided with above-mentioned false longeron.

As preferably, above-mentioned left cant beam or be also provided with power transmission pillar between above-mentioned right cant beam and cross beam frame.

As preferably, any photovoltaic generation glass substrate or transparent substrates lower end are provided with the rhone of draining.

As preferably, or above-mentioned photovoltaic generation glass substrate upper end and clamping longeron are hinged, and above-mentioned photovoltaic generation glass substrate can rotate around clamping longeron.

Beneficial effect

The utility model has reasonable in design, the relation of effective coordination photovoltaic generation and illumination, and plant growth is good, and photovoltaic generation glass substrate installation fastness is good, and safety coefficient is high.

Accompanying drawing explanation

Fig. 1 prior art scheme of installation.

Fig. 2 is photovoltaic generation Greenhouse System schematic diagram of the present utility model.

Fig. 3 is green house sectional structure schematic diagram.

Fig. 4 is partial structurtes enlarged drawings.

Embodiment

Below by specific embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.

Embodiment 1:

As shown in the figure, photovoltaic generation glass greenhouse system, Greenhouse System comprises the multiple glass greenhouse booths set in a row, it is characterized in that, green house comprises pedestal, pedestal is vertically fixed with left column 1 and right column 2, is provided with cross beam frame 3 between left and right pillar, cross beam frame 3 is provided with multiple photovoltaic generation glass roof 4, is also provided with supporting construction between roof 4 and cross beam frame 3; Roof comprises photovoltaic generation glass substrate 41 and the transparent substrates 42 of herringbone setting, photovoltaic generation glass substrate 41 is connected by top clamping longeron 43 with 42 upper ends of transparent substrates, and the lower end of photovoltaic generation glass substrate 41 is connected with the rhone 5 being arranged on left column 1 top; The lower end of transparent substrates 42 is connected with the support column 31 be located on cross beam frame 3 or right column 2.

As preferred embodiment of the present utility model, top clamping longeron 43 is also hinged with cover plate 44, cover plate 44 is turnover is arranged on transparent substrates 42 overhead, and cover plate 44 is provided with transparent glass substrate or photovoltaic generation glass substrate.

As preferred embodiment of the present utility model, supporting construction comprises left cant beam 61 and right cant beam 62, and left cant beam 61 is connected by gate longitudinal beam connected 63 with the upper end of right cant beam 62, and longitudinal beam connected 63 supports and is fixed on the bottom of clamping longeron 43; The lower end of left cant beam 61 is fixed on left column 1, and right cant beam 62 is fixed on right column 2 or support column 31.Arrange multiple left cant beam and right cant beam in the below of photovoltaic generation glass substrate, photovoltaic generation glass substrate can better be supported and be fixed.Stressed for part decomposing in left and right cant beam and other attaching parts of bottom can be gone by the longeron of top clamping simultaneously 43, and the accident probability of ceiling total collapse reduces greatly.

As preferred embodiment of the present utility model, be also provided with false longeron 64 between left cant beam 61 and photovoltaic generation glass substrate 41, between right cant beam and transparent substrates, be also provided with false longeron 64.By using false longeron 64, the below of photovoltaic generation glass substrate can have better supporting role, prevents photovoltaic generation glass substrate from occurring crashing or the accident that drops.

As preferred embodiment of the present utility model, left cant beam 61 or be also provided with power transmission pillar 65 between right cant beam 62 and cross beam frame 3.Have power conduction, make stressed more even, overall steadiness is better, and safety coefficient is higher.

As preferred embodiment of the present utility model, any photovoltaic generation glass substrate 41 or transparent substrates 42 lower end are provided with the rhone of draining.

Embodiment 2

In conjunction with the embodiments 1, now, cover plate 44 is provided with photovoltaic generation glass substrate.Photovoltaic generation glass substrate 41 upper end and clamping longeron 43 are hinged, and photovoltaic generation glass substrate 41 can rotate around clamping longeron 43.

Under this kind of mode, the photovoltaic generation glass substrate of gable roof's clamping longeron 43 both sides all can overturn to be opened, when side needs illumination time, by this sidelight volt power generating glass substrate overturn to vertical position or other angles.The generating efficiency of such photovoltaic generation glass substrate can be utilized more fully, also can not have influence on the illumination that plant needs simultaneously.Generating and illumination is made to obtain optimum balance.

Above-described embodiment is one of the present utility model preferably scheme, also has other variant and remodeling under the prerequisite not exceeding the technical scheme described in claim.

Claims (7)

1. photovoltaic generation glass greenhouse system, described Greenhouse System comprises the multiple glass greenhouse booths set in a row, it is characterized in that, described green house comprises pedestal, pedestal is vertically fixed with left column (1) and right column (2), be provided with cross beam frame (3) between left and right pillar, described cross beam frame (3) is provided with multiple photovoltaic generation glass roof (4), is also provided with supporting construction between described roof (4) and cross beam frame (3); Described roof comprises photovoltaic generation glass substrate (41) and the transparent substrates (42) of herringbone setting, photovoltaic generation glass substrate (41) is connected by top clamping longeron (43) with the upper end of transparent substrates (42), and the lower end of photovoltaic generation glass substrate (41) is connected with the rhone (5) being arranged on left column (1) top; The lower end of transparent substrates (42) is connected with the support column (31) be located on cross beam frame (3) or right column (2).

2. photovoltaic generation glass greenhouse system according to claim 1, it is characterized in that, described top clamping longeron (43) is also hinged with cover plate (44), described cover plate (44) is turnover is arranged on transparent substrates (42) overhead, and described cover plate (44) is provided with transparent glass substrate or photovoltaic generation glass substrate.

3. photovoltaic generation glass greenhouse system according to claim 1, it is characterized in that, described supporting construction comprises left cant beam (61) and right cant beam (62), left cant beam (61) is connected by gate longitudinal beam connected (63) with the upper end of right cant beam (62), and longitudinal beam connected (63) supports and is fixed on the bottom of described clamping longeron (43); The lower end of left cant beam (61) is fixed on left column (1), and right cant beam (62) is fixed on described right column (2) or described support column (31).

4. photovoltaic generation glass greenhouse system according to claim 3, it is characterized in that, also be provided with false longeron (64) between described left cant beam (61) and photovoltaic generation glass substrate (41), between described right cant beam and transparent substrates, be also provided with described false longeron (64).

5. photovoltaic generation glass greenhouse system according to claim 3, is characterized in that, described left cant beam (61) or be also provided with power transmission pillar (65) between described right cant beam (62) and cross beam frame (3).

6. photovoltaic generation glass greenhouse system according to claim 1, is characterized in that, any photovoltaic generation glass substrate (41) or transparent substrates (42) lower end are provided with the rhone of draining.

7. photovoltaic generation glass greenhouse system according to claim 1, it is characterized in that, or described photovoltaic generation glass substrate (41) upper end and clamping longeron (43) are for hinged, described photovoltaic generation glass substrate (41) can rotate around clamping longeron (43).