CN105145177B - A kind of greenhouse and its environment conditioning method in conjunction with cave dwelling - Google Patents

Abstract

The present invention relates to greenhouse engineering technical field more particularly to a kind of greenhouses and its environment conditioning method in conjunction with cave dwelling.A kind of greenhouse in conjunction with cave dwelling supports the support frame in greenhouse for the outer wall body with kiln body jointly and is layed in the light-transmissive cover of the outer surface of support frame including the kiln body with porous cave dwelling；There is courtyard vacant lot, support frame is set to courtyard vacant lot, and the outer wall body of support frame, light-transmissive cover and kiln body collectively forms plantation room, and plantation room is connected to multiple cave dwellings before kiln body；Wherein the hole of a hole cave dwelling is equipped with axial flow blower, imports in cave dwelling for that will plant indoor air, and the gas in cave dwelling is discharged to plantation room from the hole of another cave dwelling, forms gas exchanges.The present invention makes full use of the existing building structure of cave dwelling and thermal environment feature, and hothouse production expenditure of construction can be greatly reduced, and reduces environmental control of greenhouse energy consumption, cost, and greenhouse is made to keep the temperature condition of suitable for crop growth.

Description

A kind of greenhouse and its environment conditioning method in conjunction with cave dwelling

Technical field

The present invention relates to greenhouse engineering technical field more particularly to a kind of greenhouses and its environment conditioning side in conjunction with cave dwelling Method.

Background technique

Cave dwelling is the common traditional residential type in Loess Plateau, can by orographic condition, cave dwelling structure, construction material etc. It is divided into earth kiln, masonry arch kiln and interface kiln.Even to this day, not only as a kind of unique residential location, it is shown cave dwelling Be get along amiably and peacefully to this person Si over the past thousands of years the world unification it is beauty, local colour beauty.Cave dwelling has cool in summer and warm in winter, energy saving Save land, gather materials on the spot, is cheap, ecological, environmental protective many advantages, such as, these advantages be other modern buildings it is incomparable, However, due to cave dwelling itself that there are daylightings is poor, humidity is big, ventilation is unsmooth and easy hair disaster the defects of, in addition new building material, New technology it is increasingly developed, more and more cave dwellings are abandoned by people, certain areas abandon cave dwelling change one-storey house be even more be taken as The symbol shaken off poverty and set out on the road to prosperity.Soil body moisture absorption is obvious after cave dwelling is discarded, and soil body self weight and stress increase, and be easy to cause cave dwelling to collapse and causes Loess Landslide.Moreover, we more should be aware that Loess Plateau can be using fairly limited, the urban architecture, friendship of ploughing It is logical and constantly occupy agricultural land, it is such as able to achieve the utilization again of a large amount of cave dwellings, especially realizing has with agricultural production Machine combines, for keeping being of great significance for the whole ecological sustainable development in Loess Plateau.

Until 2013, development history protected horticulture in China area is up to 3,800,000 hectares, and annual value of production is up to 700,000,000,000 yuan or more, about Account for the 12% of the general production value of agriculture.Greenhouse industry has gradually become the main aspect of Chinese agricultural modernization, however and outdoor cropping It compares, Greenhouse Construction expense and environment conditioning energy consumption, cost are still relatively high.Greenhouse is built on the basis of cave dwelling, is filled Point utilize the existing building structure of cave dwelling and thermal environment adjusting function, will substantially by low temperature chamber produce build and environment conditioning at This, while Canal in Loess Area chamber planting area can be expanded, land utilization ratio is improved, is increased farmers' income.Chinese patent notification number CN203618464U discloses a kind of agricultural greenhouse cave dwelling, and greenhouse is shrouded above subsidence-type cave dwelling, only with The living environment that greenhouse improves subsidence-type cave dwelling greenhouse as the main purpose with agricultural production does not more make full use of discarded kiln The advantage in hole.

Summary of the invention

(1) technical problems to be solved

The greenhouse and its environment conditioning method that the object of the present invention is to provide a kind of in conjunction with cave dwelling, reduce hothouse production The environment conditioning energy consumption and cost of expenditure of construction and greenhouse.

(2) technical solution

The greenhouse that in order to solve the above-mentioned technical problems, the present invention provides a kind of in conjunction with cave dwelling, including with polychannel tunnel kiln The kiln body in hole supports the support frame in the greenhouse for the outer wall body with the kiln body jointly and is layed in the support rib The light-transmissive cover of the outer surface of frame；There is courtyard vacant lot, the support frame is set to the courtyard vacant lot, institute before the kiln body State support frame, light-transmissive cover and the kiln body outer wall body collectively form plantation room, the plantation room with it is described porous Cave dwelling connection；Wherein the hole of cave dwelling described in a hole is equipped with axial flow blower, described in importing the indoor air of plantation In cave dwelling, the gas in the cave dwelling is discharged to the plantation room from the hole of another cave dwelling, forms gas exchanges.

Wherein, it is equipped with passway on the wall among cave dwelling described in each adjacent two, realizes the company between porous cave dwelling It is logical.

Wherein, the greenhouse further includes surface air cooler, liquid storage pool and circulating pump, and the surface air cooler is set to for gas to be discharged The hole of cave dwelling, the surface air cooler are connected by circulating line with the liquid storage pool, and the circulating pump is set to the circulating line On.

Wherein, the axial flow blower and surface air cooler are divided into the hole of kiln body both ends cave dwelling.

Wherein, the hole of the cave dwelling is equipped with vent window, and the axial flow blower and surface air cooler are set on the vent window.

Wherein, the support frame shape is one-way slope arc surfaced, and the support frame is steel construction.

Wherein, the greenhouse further includes the heat preservation coating on the outside of the light-transmissive cover.

Wherein, the greenhouse further includes the ventilation opening set on the support frame top and/or side.

The present invention also provides a kind of environment conditioning methods in above-mentioned greenhouse in conjunction with cave dwelling, which is characterized in that including Following steps:

When the plantation indoor air temperature is raised or lowered to set temperature, the axial flow blower is opened, by the plantation Indoor Thermal or cold air import in cave dwelling, exchange heat with cave dwelling inner air and the soil body, are then discharged to institute by the surface air cooler State plantation room.

Wherein, the environment conditioning method in the greenhouse in conjunction with cave dwelling is further comprising the steps of:

When persistently exchange heat in the plantation room and cave dwelling, take a breath a period of time after, the temperature rises or decline in the cave dwelling When to the set temperature, the circulating pump is opened, the heat in cave dwelling or cold air will be entered by the surface air cooler and circulation Pump driving flow media heat exchange after be discharged to the plantation room, correspondingly, by heat storage in the liquid storage pool or will storage There are the heats in the liquid storage pool to be discharged into the plantation interior.

(3) beneficial effect

Above-mentioned technical proposal of the invention compared with prior art, has the advantages that

(1) greenhouse provided by the invention in conjunction with cave dwelling makes full use of the existing building structure of cave dwelling and hot ring Hothouse production expenditure of construction can be greatly reduced in border feature, reduce environmental control of greenhouse energy consumption, cost, and keeping greenhouse is suitable for making The temperature condition of object growth；

(2) by the way that in conjunction with cave dwelling, the self regulating and control ability of greenhouse thermal environment enhances, greenhouse off-period can be extended, had The gas concentration lwevel for helping maintain temperature, moisturizes and recycles, and reduces the generation of pest and disease damage, improves crop yield and product Matter；

(3) greenhouse of the invention is to be transformed on the basis of cave dwelling to cave dwelling, is used for agricultural production, can increase Loess Plateau chamber planting area expands Farm Land, improves land utilization ratio；

(4) under conditions of cultivated area is rare, construction material is short, energy supply is nervous, a large amount of cave dwellings are realized Utilization again, for keeping the sustainable development of the whole ecology in Loess Plateau significant.

Detailed description of the invention

Fig. 1 is the structural schematic diagram in greenhouse of the embodiment of the present invention in conjunction with cave dwelling；

Fig. 2 is the environment conditioning working principle diagram in greenhouse of the embodiment of the present invention in conjunction with cave dwelling.

In figure: 1: kiln body；101: the first cave dwellings；102: the second cave dwellings；103: third cave dwelling；2: earthing；3: outer wall body； 4: vent window；5: axial flow blower；6: surface air cooler；7: plantation room；8: support frame；9: light-transmissive cover；10: heat preservation coating； 11: ventilation opening；12: liquid storage pool；13: circulating line；14: circulating pump.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill people Member's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

As shown in Figure 1, the greenhouse that the present invention provides a kind of in conjunction with cave dwelling, including kiln body 1, support frame 8, light transmission is covered Cap rock 9 and axial flow blower 5.Kiln body 1 includes porous cave dwelling, and cave dwelling is preferably cave dwelling.There is courtyard vacant lot, branch before kiln body 1 Support bone frame 8 is set on courtyard vacant lot, supports greenhouse jointly for the outer wall body 3 with kiln body 1.Light-transmissive cover 9 is layed in branch The outer surface of support bone frame 8.The outer wall body 3 of support frame 8, light-transmissive cover 9 and kiln body 1 collectively forms plantation room 7, plants room 7 are connected to porous cave dwelling.Wherein the hole of a hole cave dwelling is equipped with axial flow blower 5, imports cave dwelling for that will plant the air in room 7 Interior, the gas in cave dwelling is discharged to plantation room 7 from the hole of another cave dwelling, forms gas exchanges.Preferably, each adjacent two kiln It is equipped with passway on wall between hole, so that interconnecting between cave dwelling.Kiln body 1 may include two holes, three holes or three holes The above cave dwelling, the length of kiln body 1 are preferably 30m~50m, to guarantee to have the outer wall body 3 of sufficient length to carry out Greenhouse Construction.Institute It is preferably located at the side that kiln body 1 faces south with falling through, support frame 8 is built can make on the courtyard vacant lot of side on the sunny side Greenhouse obtains more illumination.When kiln body 1 includes three hole cave dwelling, axial flow blower 5 is set to the hole of the first cave dwelling 101, axis stream The air for planting room 7 and heat are imported the first cave dwelling 101 by blower 5, and wind pressure increases in the first cave dwelling 101, are then flowed sequentially through Second cave dwelling 102 and third cave dwelling 103 are finally discharged in plantation room 7 by the hole of third cave dwelling 103, realize plantation room 7 The circulation of air and heat in interior air and heat and cave dwelling.It is realized in air and plantation room 7 in cave dwelling by axial flow blower 5 Air taken a breath and exchanged heat, make plant room 7 temperature be maintained within the temperature range of suitable crop growth.The present invention fills Divide and the existing building structure of cave dwelling and thermal environment feature is utilized, considerably reduces hothouse production expenditure of construction.

Preferably, surface air cooler 6, liquid storage pool 12 and circulating pump 14 are additionally provided in greenhouse, surface air cooler 6 is set to for gas to be discharged Cave dwelling hole, surface air cooler 6 is connected by circulating line 13 with liquid storage pool 12, and circulating pump 14 is set on circulating line 13.Axis stream wind Machine 5 and surface air cooler 6 are preferably divided into the cave dwelling at 1 both ends of kiln body, and the hole of remaining cave dwelling can be closed by setting door and window.Specifically Ground, when kiln body 1 includes three hole cave dwelling, surface air cooler 6 is installed on the hole of third cave dwelling 103, and liquid storage pool 12 is located at third cave dwelling In 103, as the energy storage carrier that supplement uses, when the energy of cave dwelling inner air is unable to satisfy plantation 7 environment conditioning of room When demand, stored energy is discharged by liquid storage pool 12 to meet the environmental demand of plantation room 7, the hole envelope of the second cave dwelling 102 Closing can guarantee all to pass through surface air cooler 6 when air is discharged in cave dwelling, and liquid storage pool 12 can store more energy.Circulating line 13 use PPR pipe, and PPR pipe belongs to energy-saving material, have environmental protection, high-strength light, corrosion-resistant, construction and maintenance simplicity, use the longevity Order the advantages that long.Using water as flow media in circulating line 13, the specific heat capacity of water is larger, quickly and effectively can be realized Amount storage and release.Surface air cooler 6 uses finned surface air cooler, it is ensured that the perturbation for carrying out air heat exchange is at Under turbulent condition, heat exchange efficiency is significantly improved.

Preferably, the hole of cave dwelling is equipped with vent window 4, and axial flow blower 5 and surface air cooler 6 are set on vent window 4.Specifically Ground, when cave dwelling is three, axial flow blower 5 is installed on the vent window 4 of the first cave dwelling 101, and surface air cooler 6 is installed on third cave dwelling On 103 vent window 4.

Preferably, support frame 8 uses steel construction, and steel construction has preferable plasticity and toughness, and bearing capacity is strong, structure Reliability is high and easily manufactured.Need to select the shape of structure type and greenhouse according to construction, the shape of support frame 8 is preferred Greenhouse for one-way slope arc surfaced, one-way slope arc surfaced is conducive to greenhouse lighting, accumulated rain water is avoided, especially in kiln body 1 Outer wall body 3 and 9 intersection of light-transmissive cover, accumulation of rainwater easily cause cave dwelling dampness to collapse, the structure of support frame 8 It can refer to the structure for selecting heliogreenhouse, attached-greenhouse or simple plastic greenhouse.

Preferably, light-transmissive cover 9 is the translucent materials such as plastic film, glass or PC plate, with guarantee greenhouse daylighting and Heat preservation.It is also provided with heat preservation coating 10 on the outside of light-transmissive cover 9, heat preservation coating 10 is layed in light transmission when low temperature and is covered The surface of cap rock 9, the heat preservation being mainly used under night or winter low temperature.It does not need to cover heat preservation using when heat preservation coating 10 Layer volume 10 is put in the junction at 8 top and the outer wall body 3 of kiln body 1 of support frame.

Preferably, the top and/or side of support frame 8 are equipped with ventilation opening 11, and ventilation opening 11 can be used for temperature when necessary Room and external environment carry out gravity-flow ventilation ventilation.

Specifically, the construction height of support frame 8 depends on the height of cave dwelling and the thickness of the earthing 2 above cave dwelling Degree, typically slightly above the height of cave dwelling, the construction height of support frame 8 are preferably 3.5m~4.5m.The span master of support frame 8 It to depend on 1 front courtyard of kiln body fall through the size on ground, while need to consider the thermal capacity of cave dwelling inner air, the soil body and liquid storage pool 12 It can satisfy heating and the cooling load requirements of plantation room 7.

As shown in Fig. 2, the environment conditioning method in the greenhouse that the present invention also provides a kind of in conjunction with cave dwelling, may include with Lower step:

Set temperature is arrived when the temperature rises in plantation room 7, at preferably 27 DEG C, opens axial flow blower 5, it will be in plantation room 7 Hot-air imports in cave dwelling, exchanges heat with cave dwelling inner air and the soil body, is then discharged to plantation room 7 by surface air cooler 6；Work as plantation It persistently exchanges heat, after a period of time of taking a breath in room 7 and cave dwelling, when the temperature rises in the cave dwelling to the set temperature, opens circulation Pump 14 is discharged to kind after the flow media heat exchange cooling that surface air cooler 6 and circulating pump 14 drive into the hot-air in cave dwelling Room 7 is planted, and by heat storage in liquid storage pool 12.

When mercury dropped is to set temperature in plantation room 7, at preferably 13 DEG C, axial flow blower 5 is opened, it will be empty inside cave dwelling The heat that gas, the soil body store is discharged into plantation room 7, improves the temperature of plantation room 7；When plantation room 7 and cave dwelling in persistently heat exchange, It takes a breath after a period of time, when temperature is reduced to the set temperature in cave dwelling, circulating pump 14 is opened, into the Cryogenic air in cave dwelling It is discharged to plantation room 7 after the flow media heat exchange heating that surface air cooler 6 and circulating pump 14 drive, will be stored in liquid storage pool 12 Heat be discharged into plantation room 7 in.

Environmental control of greenhouse method provided by the invention takes full advantage of cave dwelling building structure and thermal environment feature, mentions The self regulating and control ability of greenhouse thermal environment has been risen, has extended greenhouse off-period, is conducive to maintain stable gas concentration lwevel, has been increased Add Water Cycle to utilize, reduces the generation of pest and disease damage.When meeting with extreme weather, it is temporary that indoor removable plant can will be planted It is transferred in cave dwelling, to prevent crop lethal disaster.

In conclusion the greenhouse and its environment conditioning method of the present invention in conjunction with cave dwelling reduces Greenhouse Construction expense With and production energy consumption, improve the self regulating and control ability of greenhouse thermal environment.Since the present invention can extend greenhouse off-period, Carbon dioxide can be manually increased in production process, maintains stable gas concentration lwevel, improve crop yield and quality；It is logical Crossing surface air cooler condensation or other recycling evaporation water measures being arranged can moisturize and recycle.Realize exhaust gas cave dwelling again It utilizes, expands Canal in Loess Area chamber planting area, be dedicated to solving a systems such as Canal in Loess Area environment, soil, the energy, vegetable supply Column problem.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features； And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (9)

1. a kind of greenhouse in conjunction with cave dwelling, which is characterized in that including the kiln body with porous cave dwelling, for the kiln body Outer wall body supports the support frame in the greenhouse jointly and is layed in the light-transmissive cover of the outer surface of the support frame；Institute There is courtyard vacant lot before stating kiln body, the support frame is set to the courtyard vacant lot, the support frame, light-transmissive cover and institute The outer wall body for stating kiln body collectively forms plantation room, and the plantation room is connected to the porous cave dwelling；Wherein cave dwelling described in a hole Hole be equipped with axial flow blower, for the indoor air of the plantation to be imported in the cave dwelling, the gas in the cave dwelling from The hole of another cave dwelling is discharged to the plantation room, forms gas exchanges, on the wall among cave dwelling described in each adjacent two Equipped with passway, the connection between porous cave dwelling is realized.

2. the greenhouse according to claim 1 in conjunction with cave dwelling, it is characterised in that: the greenhouse further includes surface air cooler, stores Liquid pool and circulating pump, the surface air cooler are set to the hole for the cave dwelling of gas to be discharged, and the surface air cooler passes through circulation pipe Road is connected with the liquid storage pool, and the circulating pump is set to the circulating line.

3. the greenhouse according to claim 2 in conjunction with cave dwelling, it is characterised in that: the axial flow blower and surface air cooler set up separately In the hole of kiln body both ends cave dwelling.

4. the greenhouse according to claim 2 in conjunction with cave dwelling, it is characterised in that: the hole of the cave dwelling is equipped with ventilation Window, the axial flow blower and surface air cooler are set on the vent window.

5. the greenhouse according to claim 1 in conjunction with cave dwelling, it is characterised in that: the support frame shape is one-way slope Arc surfaced, the support frame are steel construction.

6. the greenhouse according to claim 1 in conjunction with cave dwelling, it is characterised in that: the greenhouse further includes set on described Heat preservation coating on the outside of light coating.

7. the greenhouse according to claim 1 in conjunction with cave dwelling, it is characterised in that: the greenhouse further includes being set to the branch The ventilation opening of support bone frame top and/or side.

8. a kind of environment conditioning method in the greenhouse in conjunction with cave dwelling as claimed in claim 2, which is characterized in that including following Step:

When the plantation indoor air temperature is raised or lowered to set temperature, the axial flow blower is opened, the plantation is indoor Heat or cold air import in cave dwelling, exchange heat with cave dwelling inner air and the soil body, are then discharged to described kind by the surface air cooler Plant room.

9. environment conditioning method according to claim 8, which is characterized in that further comprising the steps of:

When persistently exchange heat in the plantation room and cave dwelling, take a breath a period of time after, the temperature rises or drops to institute in the cave dwelling When stating set temperature, the circulating pump is opened, the heat in cave dwelling or cold air will be entered and driven by the surface air cooler and circulating pump It is discharged to the plantation room after dynamic flow media heat exchange, correspondingly, heat storage in the liquid storage pool or will be stored in It is indoor that heat in the liquid storage pool is discharged into the plantation.