CN205623500U - Wire rope draws a novel antithetical couplet photovoltaic green house to one side - Google Patents

Abstract

The utility model provides a wire rope draws a novel antithetical couplet photovoltaic green house to one side, relates to agriculture equipment technical field. The outer front and back of warmhouse booth of every big -arch shelter unit is equipped with the southern anti -wind post of one row of east west trend, northern anti -wind post, and stand upper portion is equipped with southern suspension cable, the northern suspension cable of north and south trend, and the suspension cable is not more than 45 with the stand contained angle, and the reinforcement is connected with the ground in the suspension cable bottom, and south, north anti -wind post upper portion are equipped with the crossbeam, prop up supporting beam, southern sloping, northern sloping and guiding gutter, set up the purlin on the southern sloping, install photovoltaic module on the purlin, link to each other through allying oneself with a structure between every big -arch shelter unit. The utility model discloses reinforcing big -arch shelter wind resistance, wire rope is to photovoltaic green house's the more reliable effective and long service life of fixed supporting role, can build the photovoltaic big -arch shelter of width more than 10 meters, the saving steel use, help promoting economic benefits, simple structure, the equipment is convenient, practices thrift working costs and arable land, no stand is convenient for produce, and the construction is convenient fast, uses the wire rope who accords with special treatment.

Description

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse

Technical field

This utility model relates to agricultural equipment technical field, particularly to a kind of wire rope inclined-pulling Novel connected light Volt agricultural greenhouse.

Background technology

China's facilities horticulture engineering develops rapidly in recent years, and the China that is planted in of greenhouse vegetable develops rapidly, But traditional heliogreenhouse and hot house exist great deficiency and profile is single, such as, China in the winter time Most area, the temperature in daytime heliogreenhouse is the highest, temperature required beyond plant growing, and night Low temperature is the most freezing or affects the growth of plant, for meeting the demand of plant growing at night, it is necessary to use tradition The energy such as coal stove or electric furnace etc. be greenhouse heating, this method not only adds production cost, also gives and uses Make troubles；Traditional heliogreenhouse or hot house appearance forrns are single, are arranged on sightseeing tour and demonstration Scenic spot lacks novelty, proposes new requirement to industry.

Photovoltaic agricultural greenhouse, a kind of applied solar energy cell panel is as ceiling, needed for providing for agricultural greenhouse Electric power, but blocking of the photovoltaic module above photovoltaic green-house can stop being emitted directly toward of sunray, makes big In canopy, Activities of Some Plants can not accept uniform illumination the most completely, affects photosynthesis and the growth cycle of plant.

Utility model content

The purpose of this utility model is to overcome above the deficiencies in the prior art, it is provided that a kind of wire rope inclined-pulling is novel A connection photovoltaic agricultural greenhouse.This utility model be the technical scheme is that a kind of steel for achieving the above object Cord oblique pull Novel connected photovoltaic agricultural greenhouse, it is characterised in that: outside the warmhouse booth of each booth unit Side is provided with wind-resistant column structure, and photovoltaic structure is installed on the top of wind-resistant column structure, between wind-resistant column structure and ground Connecting steel wire ropes suspension cable structure.

Further, described wind-resistant column structure includes the most identical southern wind-resistant column and north wind-resistant column, south wind resistance Post is positioned at the front outside of warmhouse booth, and north wind-resistant column is positioned at the rear outside of warmhouse booth, and south wind-resistant column resists with north Wind post is east-west.

Further, described south wind-resistant column, north wind-resistant column are 1.5-2.5m with the difference in height of warmhouse booth.

Further, described wire rope inclined stayed structure includes the southern suspension cable being south-north direction and north oblique pull Rope, the upper and lower end of south suspension cable connects south wind-resistant column and ground respectively, between south suspension cable and south wind-resistant column Angle 0-45 °, the upper and lower end of north suspension cable connects north wind-resistant column and ground, north suspension cable and north respectively Angle between wind-resistant column 0-45 °.

Further, described photovoltaic structure include photovoltaic module, crossbeam, support beam, south cant beam, north cant beam, Purlin, the two ends of crossbeam connect south wind-resistant column, the upper end of north wind-resistant column respectively, and the top of crossbeam sets up south Cant beam, north cant beam, south cant beam with north cant beam be herringbone set up, south cant beam, north cant beam and crossbeam between connect It is connected to support beam, south cant beam sets up the purlin perpendicular with south cant beam, installation photovoltaic component on purlin.

Further, described south wind-resistant column upper end and south cant beam between, north wind-resistant column upper end with north cant beam Between be equipped with guiding gutter, the inner side top edge of guiding gutter with south cant beam, north cant beam lower end be connected.

Further, described structure includes the northern wind-resistant column of previous booth unit, previous booth list Guiding gutter between northern wind-resistant column and the north cant beam of unit, horizontal suspension cable, the northern wind resistance of previous booth unit Post is as the southern wind-resistant column of later booth unit, between northern wind-resistant column and the north cant beam of previous booth unit The outer upper of guiding gutter be connected with the lower end of the southern cant beam of later booth unit, horizontal suspension cable is even It is connected between the top of two adjacent booth unit.

This utility model uses a kind of new reinforcing mode, strengthens booth wind resistance, makes steel wire rope to photovoltaic agriculture The fixing supporting role of sparetime university's canopy is more reliable effective and the time in service life is long, can realize the use of more than 25 years Life-span；Large span, can build the photovoltaic agricultural greenhouse of 10 meters and above width；Saving steel uses, cost Substantially prior art builds 3rd/1st to four/3rd of equal area booth, contributes to promoting economic effect Benefit；Simple in construction, easy to assembly, it is easy to produce without column, constructs quick and convenient, high intensity, the long-life, Use the steel wire rope meeting special handling.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse.

Fig. 2 is the structural representation of two wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouses arranged side by side.

In figure: south suspension cable 1, south wind-resistant column 2, photovoltaic module 3, south cant beam 4, purlin 5, north cant beam 6, Guiding gutter 7, crossbeam 8, support beam 9, north suspension cable 10, north wind-resistant column 11, warmhouse booth 12, level Suspension cable 13.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described further, but utility model is not limited to be embodied as Example.

Embodiment 1

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse as shown in Figure 1, the temperature of each booth unit The outside of room booth 12 is provided with wind-resistant column structure, and photovoltaic structure is installed on the top of wind-resistant column structure, and wind-resistant column is tied Connecting steel wire ropes suspension cable structure between structure and ground.

Described wind-resistant column structure includes the most identical southern wind-resistant column 2 and north wind-resistant column 11, south wind-resistant column 2 In the front outside of warmhouse booth 12, north wind-resistant column 11 is positioned at the rear outside of warmhouse booth 12, south wind-resistant column 2 It is east-west with north wind-resistant column 11, south wind-resistant column 2, north wind-resistant column 11 and the height of warmhouse booth 12 Difference is 1.5m.

Described wire rope inclined stayed structure includes the southern suspension cable 1 being south-north direction and north suspension cable 10, south The upper and lower end of suspension cable 1 connects south wind-resistant column 2 and ground respectively, south suspension cable 1 and south wind-resistant column 2 it Between angle be 0, the upper and lower end of north suspension cable 10 connects north wind-resistant column 11 and ground, north suspension cable respectively Angle between 10 and north wind-resistant column 11 is 0.

Described photovoltaic structure includes photovoltaic module 3, crossbeam 8, support beam 9, south cant beam 4, north cant beam 6, purlin Bar 5, the two ends of crossbeam 8 connect south wind-resistant column 2, the upper end of north wind-resistant column 11, the top of crossbeam 8 respectively Erection has southern cant beam 4, north cant beam 6, and south cant beam 4 sets up in herringbone with north cant beam 6, south cant beam 4, north It is connected between cant beam 6 with crossbeam 8 and has support beam 9, south cant beam 4 sets up the purlin perpendicular with south cant beam 4 5, installation photovoltaic component 3 on purlin 5, south wind-resistant column 2 upper end and south cant beam 4 between, north wind-resistant column 11 Upper end and north cant beam 6 between be equipped with guiding gutter 7, the inner side top edge of guiding gutter 7 with south cant beam 4, north The lower end of cant beam 6 is connected.

Described structure includes the northern wind-resistant column 11 of previous booth unit, the north of previous booth unit resists Guiding gutter 7 between wind post 11 and north cant beam 6, horizontal suspension cable 13, the northern wind resistance of previous booth unit Post 11 is as the southern wind-resistant column 2 of later booth unit, and the northern wind-resistant column 11 of previous booth unit is oblique with north The outer upper of the guiding gutter 7 between beam 6 is connected with the lower end of the southern cant beam 4 of later booth unit, Horizontal suspension cable 13 is connected between the top of two adjacent booth unit.

This utility model uses a kind of new reinforcing mode, strengthens booth wind resistance, makes steel wire rope to photovoltaic agriculture The fixing supporting role of sparetime university's canopy is more reliable effective and the time in service life is long, can realize the use of more than 25 years Life-span；Large span, can build the photovoltaic agricultural greenhouse of 10 meters and above width；Saving steel uses, cost Substantially prior art builds 3rd/1st to four/3rd of equal area booth, contributes to promoting economic effect Benefit；Simple in construction, easy to assembly, it is easy to produce without column, constructs quick and convenient, high intensity, the long-life, Use the steel wire rope meeting special handling.

Embodiment 2

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse Each part described in the present embodiment and company Connecing relation identical with described in embodiment 1, different technical parameters is: south wind-resistant column 2, north wind-resistant column 11 It is 2m with the difference in height of warmhouse booth 12；Angle between south suspension cable 1 and south wind-resistant column 2 is 30 °； Angle between north suspension cable 10 and north wind-resistant column 11 is 30 °.

Embodiment 3

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse Each part described in the present embodiment and company Connecing relation identical with described in embodiment 2, different technical parameters is: south wind-resistant column 2, north wind-resistant column 11 It is 2.5m with the difference in height of warmhouse booth 12；Angle between south suspension cable 1 and south wind-resistant column 2 is 45 °； Angle between north suspension cable 10 and north wind-resistant column 11 is 45 °.

Of the present utility model ultimate principle and principal character, those skilled in the art have more than been shown and described It should be recognized that this utility model is not restricted to the described embodiments, the above embodiments and description describe only It is that principle of the present utility model is described, on the premise of without departing from this utility model spirit and scope, this practicality Novel having various changes and modifications, these changes and improvements both fall within the scope that this utility model is claimed In, this utility model claims scope and is defined by appending claims and equivalent.

Claims (7)

1. a wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse, it is characterised in that: each booth The outside of the warmhouse booth (12) of unit is provided with wind-resistant column structure, the top peace of wind-resistant column structure Dress photovoltaic structure, connecting steel wire ropes suspension cable structure, Mei Ge great between wind-resistant column structure and ground It is connected by a connection structure between canopy unit.

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse the most according to claim 1, It is characterized in that: described wind-resistant column structure includes that the most identical southern wind-resistant column (2) resists with north Wind post (11), south wind-resistant column (2) is positioned at the front outside of warmhouse booth (12), north wind-resistant column (7) the rear outside of warmhouse booth (12), south wind-resistant column (2) and north wind-resistant column (11) it are positioned at It is east-west.

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse the most according to claim 2, It is characterized in that: described south wind-resistant column (2), north wind-resistant column (11) and warmhouse booth (12) Difference in height be 1.5-2.5m.

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse the most according to claim 1, It is characterized in that: described wire rope inclined stayed structure includes being the southern suspension cable of south-north direction (1) with north suspension cable (10), the upper and lower end in south suspension cable (1) connects south wind resistance respectively Post (2) and ground, angle 0-45 ° between south suspension cable (1) and south wind-resistant column (2), The upper and lower end in north suspension cable (10) connects north wind-resistant column (11) and ground, north oblique pull respectively Angle 0-45 ° between rope (10) and north wind-resistant column (11).

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse the most according to claim 1, It is characterized in that: described photovoltaic structure include photovoltaic module (3), crossbeam (8), support beam (9), South cant beam (4), north cant beam (6), purlin (5), the two ends of crossbeam (8) connect south respectively Wind-resistant column (2), the upper end in north wind-resistant column (11), the top of crossbeam (8) sets up has south tiltedly Beam (4), north cant beam (6), south cant beam (4) sets up in herringbone with north cant beam (6), south It is connected and has support beam (9) between cant beam (4), north cant beam (6) and crossbeam (8), southern cant beam (4) purlin (5) that upper erection is perpendicular with south cant beam (4), purlin installs light on (5) Photovoltaic assembly (3).

6. according to arbitrary described a kind of wire rope inclined-pulling Novel connected the photovoltaic agriculture of claim 2 to 5 Sparetime university's canopy, it is characterised in that: between upper end and south cant beam (4) of described south wind-resistant column (2), It is equipped with guiding gutter (7), water conservancy diversion between upper end and north cant beam (6) in north wind-resistant column (11) The inner side top edge of groove (7) is connected with the lower end in south cant beam (4), north cant beam (6).

A kind of wire rope inclined-pulling Novel connected photovoltaic agricultural greenhouse the most according to claim 1, It is characterized in that: described structure include previous booth unit northern wind-resistant column (11), Guiding gutter (7) between the northern wind-resistant column (11) of previous booth unit and north cant beam (6), Horizontal suspension cable (13), the northern wind-resistant column (11) of previous booth unit is big as later The southern wind-resistant column (2) of canopy unit, the northern wind-resistant column (11) of previous booth unit and north cant beam (6) outer upper of the guiding gutter (7) between and the southern cant beam (4) of later booth unit Lower end be connected, horizontal suspension cable (13) be connected to two adjacent booth unit top it Between.