CN201146719Y - Assembled energy-saving day-light greenhouse - Google Patents

Abstract

The utility model belongs to a structural improvement of a greenhouse, in particular relates to a fabricated energy-saving sunlight greenhouse which comprises a backroom roofing, an arched lighting cambered surface arch centre, an insulated quilt and a quilt winding machine. A complex greenhouse film is arranged on the arched lighting cambered surface arch centre; ventilating devices at the top and the bottom of the greenhouse are respectively arranged at the upper part and the lower part of the arched lighting cambered surface arch centre; the inside of the back wall is respectively provided with an interface layer made of heat insulating material, the inner wall of the back wall is a plain brick wall with pointing joints, and the outer wall of the back wall is a plain brick wall with plasterer; the backroom roofing is a polyphenyl plate, the inner and the outer surfaces of which is provided with waterproof reinforcing plies. The arch centre is formed by hot galvanizing steel tubes through being connected by galvanized bolts. The insulated quilt includes four layers, wherein, the upper and the lower surface layers are waterproof oxford fabric; the second layer is made of PE sheets; the third layer is a polyester filament felt. The fabricated energy-saving sunlight greenhouse is applicable to the energy-saving sunlight greenhouse used for construction in Kashgar region of Xinjiang. The greenhouse can take full advantage of local optothermal resources to provide favorable environment for protected cultivation in winter, spring and autumn.

Description

The assembled energy-saving greenhouse by solar heat

Technical field

The utility model relates to a kind of agricultural facility, belongs to the improvement of green house structure, particularly the assembled energy-saving greenhouse by solar heat.

Background technology

In recent years, Xinjiang region industrialized agriculture development rapidly, to the end of the year 2005 full boundary protection ground area under cultivation reach 2.5 ten thousand hm ², its medium temperature chamber's area reaches 1.5 ten thousand hm ², mainly based on growing vegetables, and developing towards directions such as woods fruit, edible mushrooms, area enlarges year by year, and production system forms gradually.Kaxgar Prefecture is in transforming agricultural production, greatly develop industrialized agriculture based on energy saving sunlight greenhouse, booth, having formed with a liang county (Kashgar, Shufu County, Shulei County) and Yecheng, Shache county, Zepu is the center, the two big industrialized agriculture development zones of concentrating relatively in each county of the radiation whole district, industrialized agriculture has become one of Kaxgar Prefecture five big leading industrys.As emerging high-efficiency agriculture industry, production scale is in rapid expansion, and industrialized agriculture also marched toward towards Central and South Asia market, adjust breed structure, optimize regional layout, improve output and quality, the new stage of increase productivity effect.

The Kashi area exists many contradictions and problem when greatly developing industrialized agriculture.Because Kashi area industrialized agriculture is started late, the professional and technical personnel is deficient relatively.(energy saving sunlight greenhouse design in interior ground mostly designs and builds according to the limit minimum air temperature and the geographical environment of this locality the structure of ground energy saving sunlight greenhouse in the construction of energy saving sunlight greenhouse is just indiscriminately imitated fully, mostly build and be thin body of wall, short adverse grade greenhouse), thermal isolation and heat storage ability, economic benefit be not high greatly to have reduced the enthusiasm that local peasant is developed industrialized agriculture.

Summary of the invention

The purpose of this utility model is to provide a kind of assembled energy-saving greenhouse by solar heat, be suitable for building the energy saving sunlight greenhouse that uses in the Kashi area, this greenhouse can make full use of local photo-thermal resource, for local winter, spring and autumn facility cultivation good environment is provided.

The utility model is achieved in that a kind of assembled energy-saving greenhouse by solar heat, comprise back roofing, arch daylighting cambered surface bow member, thermal insulation quilt and Cover roller, composite greenhouse film is arranged on the bow member of arch daylighting cambered surface, greenhouse top portion ventilation device and bottom, greenhouse ventilation unit are separately positioned on the upper and lower of arch daylighting cambered surface bow member, inside at the back wall is being provided with the intermediate layer that is made of insulation material respectively, the interior wall of back wall is the plain brick wall of jointing, and the exterior wall of back wall is the plain brick wall of plastering; Back roofing is for being provided with the waterproof reinforced layer on the inside and outside surface of styrofoam; Bow member is connected and composed by galvanized bolt by hot-dip galvanized steel pipe; Thermal insulation quilt is divided into four layers, and upper and lower surface is two-layer to be the waterproof oxford, and the second layer is made of the PE sheet material, and the 3rd layer is the polyester filament felt.

Adopt the assembled energy-saving greenhouse by solar heat of said structure design, be suitable for building in the Kashi area.The utility model is according to Kashi area geographical environment and light and heat condition, can make full use of local photo-thermal resource, saves cost to greatest extent, for local facility cultivation crop provides optimum growing environment.

Description of drawings

The utility model is described in further detail below in conjunction with accompanying drawing.

Accompanying drawing is a cross-sectional view of the present utility model.

Embodiment

A kind of assembled energy-saving greenhouse by solar heat, as shown in drawings, comprise back roofing, arch daylighting cambered surface bow member, thermal insulation quilt 5 and Cover roller, composite greenhouse film is arranged on the bow member of arch daylighting cambered surface, and greenhouse top portion ventilation device 4 and bottom, greenhouse ventilation unit 1 are separately positioned on the upper and lower of arch daylighting cambered surface bow member; Greenhouse top portion ventilation device 4 is for being provided with the skylight in the arch of ridge one side bow member, the volume film that on the skylight, is provided with, it is fixed on the ridge connecting plate with jump ring on one side, and its another side is fixed on the crank-operated sliding roof film rolling rob with clip, and the skylight film rolling rob matches with the skylight; Greenhouse bottom ventilation unit 1 is being provided with draw-in groove in the arch of bow member bottom vent window being set on the periphery of vent window, the insulation film that matches with vent window is fixed in the draw-in groove on the vent window by jump ring.

Inside at the back wall is being provided with the intermediate layer 7 that is made of insulation material respectively, and insulation material is the stalk of wheat straw or chopping.The interior wall 8 of back wall is the plain brick wall of jointing, the plain brick wall of exterior wall 9 for plastering of back wall; Back roofing 6 is for being provided with the waterproof reinforced layer on the inside and outside surface of styrofoam; Bow member is connected and composed by galvanized bolt by hot-dip galvanized steel pipe; Thermal insulation quilt 5 is divided into four layers, and upper and lower surface is two-layer to be the waterproof oxford, and the second layer is made of the PE sheet material, and the 3rd layer is the polyester filament felt.Back roofing is according to Kashi area geographical environment and illumination condition design, and the elevation angle of back roofing is 32 °-38 °, and the front roof angle of arch daylighting cambered surface is 24 °-31 °; Thickness of wall body calculates with reference to Kaxgar Prefecture climatic characteristic process: the thickness of interior wall 8 is 240mm, and the thickness in intermediate layer 7 is 180-220mm, and the thickness of exterior wall 9 is 240mm.Bow member connects and composes through galvanized bolt by arching up and encircleing down by herringbone card 2 and drag link, and three road drag links of installation are fixed in the arch by two arch cards 3 between arch and the following arch.Composite greenhouse film is fixed on the bow member by film-clamping groove and jump ring.

The utility model be particularly suitable for 35 ° 28 '～40 ° 16 of north latitude ' Kashi area build and use, under influence that does not run into diastrous weather and correct management, the minimum air temperature can maintain more than 10 ℃ in the greenhouse, and the consecutive low temperature time is no more than 1 hour.

During concrete enforcement, at first determine the orientation of greenhouse by solar heat, for the Kashi area, the orientation of greenhouse by solar heat is defined as south by west 10 degree.Should consider local geographical environment when determining the orientation, accomplish both to guarantee light transmissivity of Sunlight Greenhouse, can maximally utilise the soil again.Dig foundation ditch according to the design drawing unwrapping wire behind the smooth intact soil.The size repetition measurement that is no less than three times should be arranged during this time, and finding has the place that is not inconsistent with drawing should search reason.Should get in touch communication with the designer in the time of can't solving.

After managing or the Construction Party checks the designing requirement of foundation ditch size conforms, require to build by laying bricks or stones ground to designed elevation (note: need make greenhouse ground absolute altitude unanimity) according to drawing.Treat that ground parches and maintenance is built the greenhouse body of wall by laying bricks or stones according to designing requirement to official hour, when every increases of building wall 50cm, the straw after the intermediate course wall adds wheat straw or cuts through hand hay cutter, and tamping after making interlayer be full of.When body of wall is built to 1.7 meters, make sandwich wall top water-proofing treatment with brick capping sandwich wall and at the bonnet film that binds.When wall behind the greenhouse is built to 1.8 meters, place built-in fitting according to design drawing, built-in fitting is put straight, pre-buried firm with building with putting.The east in greenhouse, Western Hills wall are built by laying bricks or stones according to the appearance and size of arch bar in the design drawing and are built by laying bricks or stones, and the intermediate course bonnet film that binds is done the processing of plastering after the water-proofing treatment of top.

The wall built-in fitting is pre-buried behind the greenhouse finish after according to the pre-buried forward foot in a step built-in fitting of design drawing requirement, note the position and the absolute altitude of forward foot in a step built-in fitting, its absolute altitude should be consistent with wall behind the greenhouse and gable basis absolute altitude, error is no more than 20mm.The pre-buried concrete of the forward foot in a step can weld and install arch bar after reaching design label and regulation curing time.The assembling of arch bar should be assembled in the process of greenhouse building wall, should assemble each parts of first group of arch bar in strict accordance with design drawing, and connecting bolt and self threading pin are fastening to put in place.All the other arch bars should be assembled as template with first group of arch bar, find will in time proofread and correct when size has deviation.Arch bar after assembling is welded on the built-in fitting of front and back to both sides in the middle of the greenhouse, and backguy welding during welding keeps arch bar front and back position unanimity.After the arch bar welding is finished the ridge connecting plate is installed, will be guaranteed the linearity (guaranteeing that forward and backward built-in fitting of arch bar and ridge are in the same plane) on the arch bar North and South direction during installation.Drag link is installed, the approximate location of the elongated three road drag links that connect as one according to design drawing is through between the upper and lower arch of greenhouse arch bar, fixes due to greenhouse arch (can adjust the flexural deformation that arch bar removes forward and backward built-in fitting and ridge place this moment) with two arches.

Roofing behind the greenhouse is installed after the drag link installation, behind the greenhouse that will make according to design drawing roofing fixedly band iron be fixed on the arch bar adverse grade with bolt and self threading pin.The specification of inner surface being done water-proofing treatment is 18kg/m ³The thick styrofoam of 100mm with bolt on the roofing of back, guarantee that the gap is as far as possible little between each plate, be convenient to waterproof.After having fixed the benzene plate, benzene plate outer surface is made water-proofing treatment.Fixing of draw-in groove, the draw-in groove at ridge place is fixed in ridge connecting plate place with self threading pin, and the draw-in groove on the greenhouse gable is fixed on the cement face of gable top with expansible stopper.The draw-in groove of top and bottom ventilating system is fixed in the arch of greenhouse arch bar with special mould clamp according to designing requirement.The canopy film should be selected in calm noon when installing.

Before the button film, film is separated into 3 parts, the reduction mode be laterally to reduce, the lateral length of film and the film consistent size of purchasing: about 2 meters of first part of film width is used for the top ventilation system in greenhouse; Second part of film width is 0.8 meter, is used for the bottom, greenhouse and makes windbreak usefulness; The remainder film is greenhouse mid portion printing opacity and uses as end ventilating system.Will distinguish one from the other the in addition positive and negative of film, the one side that word generally arranged are as the criterion with the operation instruction of film outwardly.Horizontal one side of first part of film is fixed on the ridge connecting plate with jump ring, and another side is fixed on the common skylight film rolling rob with clip; Horizontal one side of second part of film is fixed in the about 0.6 meter horizontal draw-in groove of the bow member forward foot in a step with jump ring, again the plastic foil of front roof pin is embedded in the soil.Horizontal one side of the 3rd part of film is fixed in the about 1.5 meters horizontal draw-in groove in ridge place, and another side and second part of film overlap joint are gone up and are got final product.

East, Western Hills wall are fixed film fixing tight with draw-in groove, jump ring, prevent that winter, hot gas distributed, and in order to insulation, are strained and fixed with film-pressing line or No. 10 iron wires between per two arch bars then.For the thermal insulation quilt that is applied to this patent Cover roller, earlier begin to push down thermal insulation quilt during installation with the buttonhole of the screw bolt passes thermal insulation quilt on the greenhouse spine connecting plate and then with the thermal insulation quilt press strip from greenhouse one end, tighten with wing nut at last, arrive the other end in greenhouse always.With one positive one anti-two film-pressing lines thermal insulation quilt is coupled together then, when connecting, notice that the front of thermal insulation quilt should link to each other successively, should positive and negatively not link to each other successively.Installing adjacent two thermal insulation quilts in back should be that one in west is pushed down one in the east, to prevent that winter, northwester led the junction of quilts to be blown into inside, greenhouse from two.Determine the piece number of this connection thermal insulation quilt according to the length in greenhouse.With the bottom of thermal insulation quilt from volume shop axle down by rolling then, note the glacing flatness of volume shop axle, adjust evenly the back and thermal insulation quilt be fixed on the volume shop spool with the thermal insulation quilt clamp.The thermal insulation quilt clamp is fixed one for per 0.5 meter, adds several admittedly thermal insulation quilt clamps near motor output shaft end, volume shop.

Claims (8)

1, a kind of assembled energy-saving greenhouse by solar heat, comprise back roofing, arch daylighting cambered surface bow member, thermal insulation quilt (5) and Cover roller, composite greenhouse film is arranged on the bow member of arch daylighting cambered surface, it is characterized in that: greenhouse top portion ventilation device (4) and greenhouse bottom ventilation unit (1) are separately positioned on the upper and lower of arch daylighting cambered surface bow member, inside at the back wall is being provided with the intermediate layer (7) that is made of insulation material respectively, the interior wall of back wall (8) is the plain brick wall of jointing, the plain brick wall of the exterior wall of back wall (9) for plastering; Back roofing (6) is for being provided with the waterproof reinforced layer on the inside and outside surface of styrofoam; Bow member is connected and composed by galvanized bolt by hot-dip galvanized steel pipe; Thermal insulation quilt (5) is divided into four layers, and upper and lower surface is two-layer to be the waterproof oxford, and the second layer is made of the PE sheet material, and the 3rd layer is the polyester filament felt.

2, assembled energy-saving greenhouse by solar heat according to claim 1 is characterized in that: insulation material is the stalk of wheat straw or chopping.

3, assembled energy-saving greenhouse by solar heat according to claim 1, it is characterized in that: greenhouse top portion ventilation device (4) is for being provided with the skylight in the arch of ridge one side bow member, the volume film that on the skylight, is provided with, it is fixed on the ridge connecting plate with jump ring on one side, its another side is fixed on the crank-operated sliding roof film rolling rob with clip, and the skylight film rolling rob matches with the skylight.

4, assembled energy-saving greenhouse by solar heat according to claim 1, it is characterized in that: greenhouse bottom ventilation unit (1) is for being provided with vent window in the arch of bow member bottom, on the periphery of vent window draw-in groove is being set, the insulation film that matches with vent window is fixed in the draw-in groove on the vent window by jump ring.

5, assembled energy-saving greenhouse by solar heat according to claim 1, it is characterized in that: bow member by arch and down arch connect and compose through galvanized bolt by herringbone card (2) and drag link, arch and the three road drag links of installing between the arch down block (3) by two arches and are fixed in the arch.

6, assembled energy-saving greenhouse by solar heat according to claim 1 is characterized in that: the elevation angle of back roofing (6) is 32 °-38 °, and the front roof angle of arch daylighting cambered surface is 24 °-31 °.

7, assembled energy-saving greenhouse by solar heat according to claim 1 is characterized in that: the thickness of interior wall (8) is 240mm, and the thickness of intermediate layer (7) is 180-220mm, and the thickness of exterior wall (9) is 240mm.

8, assembled energy-saving greenhouse by solar heat according to claim 1, it is characterized in that: composite greenhouse film is fixed on the bow member by film-clamping groove and jump ring.

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