CN203788811U - Multi-layer energy-saving vegetable greenhouse - Google Patents

Abstract

The utility model discloses a multi-layer energy-saving vegetable greenhouse. The multi-layer energy-saving vegetable greenhouse comprises a main beam, vertical supporting columns, a top film and a greenhouse framework, one ends of the vertical supporting columns are fixed to the ground, the other ends of the vertical supporting columns are perpendicularly connected with the main beam, the connecting positions of the vertical supporting columns and the main beam are connected in a binding mode through iron wires, the greenhouse framework is erected at the bottom end of the top film, the greenhouse framework is connected with the top film in a binding mode through a wire line, the top film is a double-layer transparent heat preservation film, the top film comprises an inner film, an outer film and a ventilation window, a top film framework is arranged between the inner film and the outer film, the main beam is arranged below the inner film, and the ventilation window is arranged on the top of the top film. The multi-layer energy-saving vegetable greenhouse has the advantages that the problems that according to an existing plastic greenhouse universal coverage single-layer plastic thin film, the heat preservation performance is poor, more heat in the greenhouse is radiated, the production technology of a double-layer plastic film is complex, and cost is high are solved, meanwhile, the heat preservation effect is obvious, the structure is simple, and the illumination is sufficient.

Description

A kind of multi-layer energy-saving green house of vegetables

Technical field

The utility model relates to agriculture vegetable greenhouse plantation equipment technical field, and espespecially a kind of booth, is specifically related to a kind of multi-layer energy-saving green house of vegetables.

Background technology

Along with the serious demand of present society for yield of vegetables, in order to meet demand so the needs of vast social groups, improve growing vegetables output.But, in the time of growing vegetables, along with going from bad to worse of environment causes the output degradation of vegetables, cannot reach the demand of vast social groups.Therefore, in order to meet the demand greenhouse gardening technology of vast social groups, just appear in daily plantation apparatus field, the equipment the most often using in green house of vegetables planting technology is called green house of vegetables.Green house of vegetables is a kind of framework structure of film with outstanding heat-insulating property, and it occurs that the people that make can have vegetables in improper season.General green house of vegetables is used the skeleton of bamboo structure or steel construction, is covered with one or more layers thermal insulation plastic film above, has so just formed a greenhouse space.Adventitia stops the loss of the carbonic acid gas that inner vegetable growth produces well, makes in canopy, to have good heat insulation effect.

Green house of vegetables of the prior art generally covers single layer plastics films, owing to covering, single layer plastics films heat-insulating property is poor, heat loss is more in booth, so need to cover straw mat, cotton-wadded quilt or cardboard at ceiling at night, all will open every day, to cover the amount of labour used more.There is afterwards human hair to understand double-plastic, double-plastic complex manufacturing, cost is higher, is difficult for universal.

Utility model content

For above-mentioned technical problem, the utility model provides the existing plastic tunnel of a kind of solution generally to cover single layer plastics films, heat-insulating property is poor, in booth, heat loss is more, double-plastic complex manufacturing, the problem that cost is higher, simultaneously the multi-layer energy-saving green house of vegetables of remarkable, the simple in structure illumination abundance of heat insulation effect.

For solving the problems of the technologies described above, the utility model provides a kind of multi-layer energy-saving green house of vegetables, comprise girder, perpendicular pillar, teleblem and big-canopy framework, ground is fixed in described perpendicular pillar one end, the perpendicular pillar other end is connected with girder is vertical, described perpendicular pillar is bundled and is connected by iron wire with girder junction, and described big-canopy framework sets up and teleblem bottom, and described big-canopy framework is bundled and is connected by silk thread with teleblem; Described teleblem is Double-layered transparent insulation film, and described teleblem comprises inner membrance, adventitia and transom; Teleblem skeleton is set between described inner membrance and adventitia, and described inner membrance below arranges girder, and described teleblem top is provided with transom.

Further preferably, described transom is clear glass skylight.

Further preferably, described perpendicular pillar arranges refracting telescope towards place, booth inner side.

Further preferably, between described inner membrance and adventitia, be spaced apart 10 ~ 150mm.

Further preferably, described teleblem skeleton is triangle metal supporting frames.

Further preferably, described big-canopy framework is semicircle skeleton, and described booth frame material is that bamboo cane, stone column or metal material are wherein a kind of.

Further preferably, described big-canopy framework is arranged at inner membrance below, and described big-canopy framework is bundled and is connected by silk thread with inner membrance.

The utility model compared with prior art has following beneficial effect:

1., the utility model is simple in structure, equipment cost is cheap, easy to use, be convenient to promote the use of.

2., the utlity model has stronger heat insulation effect, can absorb simultaneously light make light booth inner produce to collect be convenient to vegetable growth, moreover booth teleblem is difficult for occurring deformation long perfomance life.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment, to the accompanying drawing of required use in embodiment be done to simple introduction below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the utility model structural representation;

1-girder, the perpendicular pillar of 2-, 3-adventitia, 4-inner membrance, 5-transom, 6-refracting telescope, 7-teleblem skeleton, 8-big-canopy framework in figure.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making under creative work prerequisite, and the every other embodiment obtaining, belongs to the utility model protection domain.

embodiment 1

A kind of multi-layer energy-saving green house of vegetables as shown in Figure 1, comprise girder 1, perpendicular pillar 2, teleblem and big-canopy framework 8, ground is fixed in described perpendicular pillar 2 one end, perpendicular pillar 2 other ends are connected with girder 1 is vertical, described perpendicular pillar 2 is bundled and is connected by iron wire with girder 1 junction, described big-canopy framework 8 sets up and teleblem bottom, and described big-canopy framework 8 is bundled and is connected by silk thread with teleblem; Described teleblem is Double-layered transparent insulation film, and described teleblem comprises inner membrance 4, adventitia 3 and transom 5; Between described inner membrance 4 and adventitia 3, teleblem skeleton 7 is set, described inner membrance 4 belows arrange girder 1, and described teleblem top is provided with transom 5; Described transom 5 is clear glass skylight; Described perpendicular pillar 2 arranges refracting telescope 6 towards place, booth inner side; Between described inner membrance 4 and adventitia 3, be spaced apart 10 ~ 150mm; Described teleblem skeleton 7 is triangle metal supporting frames; Described big-canopy framework 8 is semicircle skeleton, and described big-canopy framework 8 materials are that bamboo cane, stone column or metal material are wherein a kind of; Described big-canopy framework 8 is arranged at inner membrance 4 belows, and described big-canopy framework 8 is bundled and is connected by silk thread with inner membrance 4.

As described in Figure 1, teleblem skeleton 7 is set between inner membrance 4 and adventitia 3 can make the heat insulation effect booth of the prior art of comparing more effective, under using for a long time, do not need the width carrying out between manual adjustment inner membrance 4 and adventitia 3 to guarantee booth thermal insulation effect simultaneously, moreover can prevent the risk that adventitia 3 comes off; Big-canopy framework 8 is set below inner membrance 4, the shape that has guaranteed inner membrance 4 is difficult for producing deformation, simultaneously by being used in conjunction with each other of big-canopy framework 8 and teleblem skeleton 7, long-time uniformity and adventitia 3 difficult drop-offs that can also guarantee gap between inner membrance 4 and adventitia 3 when reaching stronger heat insulation effect that use of teleblem can guaranteed.

As described in Figure 1, by the teleblem top at booth, offering clear glass skylight can also make booth inner air and outer air reach circulation when increasing light transmission capacity, thereby guaranteed the fresh of the inner vegetables of booth, moreover, at perpendicular pillar 2, towards place, booth inner side, refracting telescope 6 is set, the long-living refraction effect of light that light is injected by booth teleblem and transom 5, thereby make booth internal light more converge the dead angle that there will not be conventional sunlight to irradiate, be beneficial to the growth of vegetables, particularly applicable in the time of rainy weather.

In above description, a lot of details have been set forth so that fully understand the utility model.But above description is only preferred embodiment of the present utility model, the utility model can be implemented to be much different from alternate manner described here, so the utility model is not subject to the restriction of disclosed concrete enforcement above.Any skilled personnel are not departing from technical solutions of the utility model scope situation simultaneously, all can utilize method and the technology contents of above-mentioned announcement to make many possible changes and modification to technical solutions of the utility model, or be revised as the equivalent embodiment of equivalent variations.Every content that does not depart from technical solutions of the utility model,, all still belongs in the scope of technical solutions of the utility model protection any simple modification made for any of the above embodiments, equivalent variations and modification according to technical spirit of the present utility model.

Claims (7)

1. a multi-layer energy-saving green house of vegetables, comprise girder (1), perpendicular pillar (2), teleblem and big-canopy framework (8), ground is fixed in described perpendicular pillar (2) one end, perpendicular pillar (2) other end and vertical connection of girder (1), described perpendicular pillar (2) is bundled and is connected by iron wire with girder (1) junction, described big-canopy framework (8) sets up and teleblem bottom, and described big-canopy framework (8) is bundled and is connected by silk thread with teleblem; It is characterized in that: described teleblem is Double-layered transparent insulation film, described teleblem comprises inner membrance (4), adventitia (3) and transom (5); Between described inner membrance (4) and adventitia (3), teleblem skeleton (7) is set, described inner membrance (4) below arranges girder (1), and described teleblem top is provided with transom (5).

2. multi-layer energy-saving green house of vegetables according to claim 1, is characterized in that: described transom (5) is clear glass skylight.

3. multi-layer energy-saving green house of vegetables according to claim 1, is characterized in that: described perpendicular pillar (2) arranges refracting telescope (6) towards place, booth inner side.

4. multi-layer energy-saving green house of vegetables according to claim 1, is characterized in that: between described inner membrance (4) and adventitia (3), be spaced apart 10 ~ 150mm.

5. multi-layer energy-saving green house of vegetables according to claim 1, is characterized in that: described teleblem skeleton (7) is triangle metal supporting frames.

6. multi-layer energy-saving green house of vegetables according to claim 1, is characterized in that: described big-canopy framework (8) is semicircle skeleton, and described big-canopy framework (8) material is that bamboo cane, stone column or metal material are wherein a kind of.

7. multi-layer energy-saving green house of vegetables according to claim 1, is characterized in that: described big-canopy framework (8) is arranged at inner membrance (4) below, and described big-canopy framework (8) is bundled and is connected by silk thread with inner membrance (4).