CN109348926A - A kind of three-dimensional more floor greenhouse methods of construction of Tulou formula - Google Patents

Abstract

The invention discloses a kind of methods of construction of the three-dimensional more floor greenhouses of Tulou formula, belong to greenhouse technical field.This method utilizes the common greenhouse tube material of short distance, according to integral tension mechanics principle, scientific utilization three-legged structure, honeycomb, the compound constructing technology of space truss structure, in conjunction with the barrel-shaped appearance of Tulou, the flooring of internal floor is built using contour helical manner, create the farming space of multi-level spiral tread formula, realize the verticalization spatialization development that greenhouse utilizes, reach and saves soil raising space utilization rate and realize that greenhouse micro climate regulates and controls energy-saving, realize the effect of greenhouse diversification multifunctional application, it is total innovation of the greenhouse field in structure and moulding.

Description

A kind of three-dimensional more floor greenhouse methods of construction of Tulou formula

Technical field

The invention belongs to chamber facilities.It is related to a kind of Tulou type novel greenhouse structure and spiral more floor solid treads is created New method is built, realizes the diversification of the three-dimensional and greenhouse purposes in greenhouse farming space, reaches the energy-saving effect of greenhouse regulation, Be it is a kind of it is suitable production, life, ecological multifunction application novel greenhouse.

Background technique

In recent years, installation agriculture technology development in China's is swift and violent, especially northern vegetables production area, and the construction of greenhouse is made For the important means of farmer richness, builds greenhouse development planting industry, aquaculture and mushroom industry, greenhouse and have become agriculture The critical facility of industry high level transition.It but is essentially all the common heliogreenhouse of northern area, south based on following several greenhouses The simple arched shed and lew of side, there are also the higher glasshouse of facility configuration level, beam-connected greenhouse etc., the constructions in these greenhouses All be by arch and it is linear characterized by, it is difficult to realize the very largeization building of greenhouse space, it is even more impossible to realize greenhouse farming space Three-dimensional hierarchical application, hothouse production service efficiency is low, and either plantation or cultivation is limited to plane expansion.

With the proposition and fast development in recent years of urban agriculture, either still practices, be proposed not in concept Carry out agriculture developing direction, be exactly verticalization and three-dimensional, to realize maximally utilizing for unit area farming yield, referred to as Vertical farm and vertical agricultural, allow agricultural production to be expanded from plane to the direction of space utilization extension and develop, effectively solve city The soil system of agricultural development limits problem, because plane is limited, and the utilization in space is unlimited.In this background, respectively Research Center in one's power enterprise all put into one after another vertical agricultural in the developmental research on vertical farm, world facilities horticulture in 2015 Conference is held in Britain, it is determined that with the vertical agriculture forum being the theme with vertical agricultural, domestic and international expert designs greatly in succession The vertical farm conception of amount, but be substantially based on ecological storied building formula building, it can not be as the agricultural production facility of low cost Using, and be the farming utilization of the cultivation based on indoor light filling type with building skin phenotype mostly, because of conventional greenhouse at present Facility cannot achieve the utilization of high spaciousization and multiple stratification, be limited to the intensity and the anti-snow shock resistance of wind resistance of facility.

Realize that the three-dimensional of facility vertically changes utilization, it is necessary to which development cost is low, and intensity is big, space utilization rate is high, combats a natural disaster The strong novel greenhouse facility of evil property weather.By the inspiration of Chinese traditional architecture Earth Building in Fujian, it is a kind of to make full use of space Have the ancient architecture of powerful wind resistance shock resistance again, can where one's clan lives in a building such as bucket, or even the village in entire village The people can live in concentrated communities in a Tulou, and the building of tub can generate windproof effect, and high wind can be surround by Tulou And mistake, along with the mode for creating space floor all uses wood material and joinery and its construction, to be formed powerful similar existing For the mechanics construction of Integral house, shock resistance is had more than conventional storied building structure, so Tulou exceedes thousand and stands erect, has protected a generation Another generation Hakka becomes a big characteristic of this area's building.Sufficiently use for reference the construction features of Tulou, scientific utilization modern times steel knot Structure technology builds up the integral tension steel construction of tool Tulou function and built-in spiral terraced fields, reselection chamber covering material such as film, sun The materials such as tabula rasa or glass, build up tool good transparency, farming face make spiral multilayer layout based on the function of agricultural use way Greenhouse.It realizes the system verticalization building in farming space in land area of one unit, and warm indoor climate is allowed to regulate and control more It is intensive with it is energy saving, build up tool shelter function and the multi-purpose greenhouse that all has of breeding function, be a Great span of chamber facility technology.

Summary of the invention

It is single for current greenhouse technology type, individual demand and the implacable production of highly efficient space utilization Status, uses for reference Tulou appearance and function, helix principle, the integral tension theory of mechanics of steel construction, and exploitation provides a kind of " Tulou The method of construction of formula stereoscopic multi-layer greenhouse ", the vertical three-dimensional multiple stratification realizing greenhouse farming and utilizing, environment conditioning are intensive The high efficiency multi-purpose greenhouse greenhouse of energy-saving, to enrich current greenhouse type and meet the diversification need of production and living ecology It asks.

The object of the invention is achieved through the following technical solutions.

The three-dimensional more floor greenhouse methods of construction of Tulou formula, comprising the following steps:

A, the landform and area for building plot according to schedule determine that the peripheral diameter in Tulou greenhouse encloses diameter, and needle with interior The number of plies of greenhouse spiral terraced fields, every layer of height and total height are determined to the purposes in Tulou greenhouse；

B, according to construction requirements carry out Tulou greenhouse layout design, including overhead guard, the interior vertical steel structure enclosed, periphery hang down Straight steel structure, the contour helix steel structure terraced fields of coiling, vent window open up layout, entrance gate opens up position and size；

C, the blanket surface product in Tulou greenhouse is calculated according to layout design figure and determine the material of covering, including farming ladder The areal calculation and material of face lay-up select；

D, the total length of tubing needed for being calculated according to the figure in Tulou greenhouse, the tubing quantity that need to be purchased with determination, and to figure Data analysis is carried out, the material classification inventory of variety classes, quantity, different length (retaining four figures after decimal point) is organized into； The digital coding of different length material is carried out in conjunction with the line chart in drawing；

E, the installation of Tulou greenhouse steel structure skeleton is successively installed down the overhead guard from greenhouse top, coiling it is contour The vertical steel structure of vertical steel structure, periphery that the installation of helix steel structure terraced fields is enclosed in is installed together, tread and inner peripheral it Between with hanging point connect or combine welding manner reinforce；

F, the covering sunlight board or awning film in Tulou greenhouse；

G, the vent window in Tulou greenhouse is respectively arranged on the vertical plane of inner peripheral vertical steel structure, makees push-and-pull design；

H, the laying of spiral tread；

I, entrance gate opens up, and external door is opened in peripheral vertical plane, inside door is opened in inside door vertical plane, is entered in Tulou The channel of heart courtyard.

As the improvement of the above method, the pipe material selection hot galvanized steel pipe, the specification of pipe is caliber 2.5cm, wall thickness 0.17mm, and be seamless pipe, to prevent cracking when punch process；

Component processing is carried out according to the bill of materials, component processing uses punching machine impact style, and the aperture of punching is 12.5mm, Pipe end is arc-shaped, wedgewise after punching press, and length of material is subject in hole away from and inventory and installation diagram being combined to carry out tubing Number, to install；

Tulou greenhouse steel structure bone skeleton installation using twist screw rod by the way of install, using electric wrench reference installation diagram, It is hanging in conjunction with tackles；

The sunlight board covering is typically chosen U-shape lock button sunlight board；The awning film is preferably selected thicker last a long time Film imported, covering method are fixed by card slot；

Depending on the quantity of every layer of Tulou vent window is because of the size and ventilation requirement of Tulou, window generallys use the glass that aluminium closes frame Glass window makees push-and-pull design；

Spiral tread tread is laid with to be laid with using wire netting laying or plank, and wire netting laying translucency is good, can be abundant Using diffused light, more making full use of for effectively solar radiation is realized in greenhouse, although plank is laid with and is more conducive to management and walks about, layer Between there are light-blocking problem, for or plant that happiness is shady higher for layer height, it is preferred to use plank is laid with.

As a further improvement of the foregoing solution: overhead guard described in step B, the interior vertical steel structure enclosed, peripheral vertical steel Structure, helix steel structure terraced fields design, all three-legged structures, honeycomb, space truss structure compound structure, formed tool The space interlayer of 0.5-0.8m thickness.The vertical steel structure of the vertical steel structure and periphery that enclose in described is all by outer three-legged structure, interior honeycomb Structure, space truss structure connect composition by several common screw rods, and the outer three-legged structure is made of several three root canals materials Triangle be spliced by several screw rods；If the interior honeycomb passes through spiral shell by the hexagon that several six roots of sensation tubing form Bar is spliced；The space truss structure is spliced by the space truss that several seven root canals materials form by screw rod.It is described Seven pipe structures of space truss are open: one end of the first tubing connects with one end of the second tubing and third tubing respectively It connects, the other end of the second tubing is successively connect with the 4th tubing, the 5th tubing；The other end of third tubing is successively managed with the 6th Material, the connection of the 7th tubing.

The beneficial effects of the present invention are:

(1) the integral tension greenhouse of Tulou formula has powerful wind resistance resistance to compression and shock resistance.

(2) contour screw type terraced fields building mode is used, it is bigger than the horizontal slice mode farming surface area of contour, And light-blocking minimum diffused light is more made full use of, and realizes the raising of the several times utilization rate of unit area arable land upper space.

(3) the farming surface area for being several times as much as traditional greenhouse is created by spiral terraced fields mode, more conducively greenhouse is intensive Management and regulation, the greenhouse of same spatial volume plays energy conservation due to the raising of farming surface area indirectly on environment conditioning Effect.

(4) greenhouse overhead guard and inner peripheral all use truss structure between this, and interior cellular inner membrance card may be implemented and cover, to reach To double film heat insulation effects.

It is innovated by Tulou greenhouse technology, provides Practical energy-saving with the development and application of vertical agricultural for future vertical farm Greenhouse platform is the important technology innovation of greenhouse domain level constraintsization development.

Detailed description of the invention

Fig. 1-a, Fig. 1-b, the plot plane of Fig. 1-c embodiment of the present invention, spiral terraced fields layer high layout, greenhouse appearance facade Figure；

The greenhouse entirety CAD line chart of Fig. 2 embodiment of the present invention；

The three-dimensional model diagram in the greenhouse of Fig. 3 embodiment of the present invention；

The greenhouse overhead guard figure of Fig. 4 embodiment of the present invention；

The inside and outside vertical plane structural schematic diagram in the greenhouse of Fig. 5 embodiment of the present invention；

Triangle, interior honeycomb, space truss structure figure outside the greenhouse of Fig. 6 embodiment of the present invention；

Fig. 7-a, Fig. 7-b spiral terraced fields structural schematic diagram of the embodiment of the present invention；

The door and window in the greenhouse of Fig. 8 embodiment of the present invention opens up schematic diagram；

The greenhouse three-legged structure installation diagram of Fig. 9 embodiment of the present invention；

The honeycomb installation diagram in Figure 10 embodiment of the present invention greenhouse；

The space truss installation diagram in Figure 11 embodiment of the present invention greenhouse；

Figure 12 embodiment of the present invention greenhouse spiral tread three-legged structure installation diagram；

Figure 13 embodiment of the present invention greenhouse cocke-stair space of planes truss installation diagram；

Figure 14 embodiment of the present invention greenhouse spiral tread honeycomb installation diagram；

Figure 15 Keelof green house scheme of installation of the embodiment of the present invention；

Spiral tread scheme of installation in Figure 16 embodiment of the present invention；

Figure 17 interior joint scheme of installation of the embodiment of the present invention；

Figure 18 embodiment of the present invention medium temperature chamber's sunlight board covers schematic diagram；

Figure 19 embodiment of the present invention greenhouse carries out Integral suspension type scheme of installation using long-armed crane；

Spiral terraced fields are laid with wire netting schematic diagram in Figure 20 embodiment of the present invention；

Figure 21 present invention installs the photo in kind built up using above-mentioned steps.

The greenhouse using renderings that Figure 22 the method for the present invention is built.

Specific embodiment

The preferred embodiment of the present invention is described in detail with reference to the accompanying drawing, so that advantages and features of the invention energy It is easier to be readily appreciated by one skilled in the art, so as to make a clearer definition of the protection scope of the present invention.

It is as follows below with reference to Fig. 1-Figure 21 illustrated embodiments:

By taking 40 meters of diameter take up an area 1256 square metres of Tulou greenhouse as an example, such as Figure 20

Its construction step is as follows:

1) proposed to set 40 meters of peripheral diameter, 24 meters of diameter are inside enclosed, tread is 6.8 meters wide, and interlayer is 0.6 meter thick, such as Fig. 1- A, cocke-stair surface layer is 4.5 meters high, such as Fig. 1-b, make three-layer disc around Tulou greenhouse, 2.5 meters of height of greenhouse overhead guard, greenhouse top is always a height of 16 meters, such as Fig. 1-c.

2) Tulou greenhouse steel structure line chart (Fig. 2) and threedimensional model (Fig. 3) are drawn using CAD graphics software, including overhead guard is (such as Fig. 4) and inner peripheral vertical plane (such as Fig. 5) (by outer three-legged structure 2, interior honeycomb 1, space truss structure 3, such as Fig. 6), cocke-stair Face steel structure (Fig. 7-a, Fig. 7-b) and surrounding vent window 5, discrepancy gate 4 etc., such as Fig. 8.

3) coding mark is carried out to greenhouse steel structure part using CAD software and cleaning records the length of every root timber material, respectively It is fabricated to installation diagram, including outer three-legged structure installation diagram (such as Fig. 9), interior honeycomb installation diagram (such as Figure 10), space truss dress Figure (such as Figure 11), spiral terraced fields installation diagram and material in-process inventory (part inventory sees below list), wherein spiral tread assembles Figure include upper tread three-legged structure and with inner peripheral vertical plane hanging point installation diagram (such as Figure 12), space truss installation diagram (Figure 13), bee Nest structural assembly diagram (Figure 14).

4) calculating greenhouse Weight of steel using CAD software is 27788m tubing, increases by 10% loss, intends buying 30566m25# hot dip galvanizing pipe, thickness of pipe wall 1.7mm；Punch process is carried out according to the length of in-process inventory and number using punching machine, In writing corresponding coding with mark on every root timber material after processing, lookup when facilitating installation.

5) installation (Figure 15) of Keelof green house, first gets out installation tool, such as strut 6, tackles 7 and electric wrench； It is start of installation from the top of greenhouse overhead guard, successively successively installs down, when installation is to spiral tread, companion inner peripheral steel structure one Installation (Figure 16) is played, is lifted by crane with strut cucurbit when installation, installation position is allowed to rise from the ground, convenient stubborn screw rod installation.

6) installation (Figure 17) of greenhouse node is used in combination according to installation diagram successively toward corresponding component materials are penetrated on screw rod 8 Electric wrench tightening nuts 9 are noted that material both ends must be padded with gasket 10, and material 11 is sandwiched among gasket, could be reached in this way To good fastening effect.

7) when installing Keelof green house, if plan selects awning film as covering material, it is necessary to while carrying out card slot peace Dress, need the installation card line of rabbet joint position (peripheral vertical plane card slot and it is interior enclose vertical plane card slot, need to also be in interior bee if double films need to be covered Card slot is installed on nest), with self-tapping screw or fastener fit on card slot, such installation effectiveness is higher, without operation of climbing to a higher point, greenhouse Total a height of 16m can carry out film covering when installation to half height, need overlay film operation of climbing to a higher point after avoiding whole build up, influence Safety；If installing sunlight board, plate is carried out using U-shaped latch type sunlight board and longitudinally fastens installation (Figure 18).

8) more spacious in the infield in Tulou greenhouse, facilitate loop wheel machine to use, can be carried out using long-armed crane whole Suspension type installs (Figure 19), greatly improves installation effectiveness；Conventional installation can only surround lifting installation using strut and cucurbit, with The number of plies to be installed to increase, is continuously increased strut and lifting reed calabash quantity, when lifting, installation position is liftoff, and other positions can land, To increase greenhouse stability and save cucurbit quantity.

9) after installing Keelof green house and tread according to installation diagram, the wire netting that can carry out tread is laid with (Figure 20) or wood The laying of plate plate, and the installation of aluminum alloy frame windowpane is carried out to reserved ventilation window, the entrance gate of setting can also Equally to install glass sliding door or automatically-controlled door.

The present invention installs the photo in kind such as Figure 21 built up using above-mentioned steps.

One embodiment using renderings such as Figure 22 of greenhouse that the method for the present invention is built.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (8)

1. the three-dimensional more floor greenhouse methods of construction of Tulou formula, which comprises the following steps:

A, the landform and area for building plot according to schedule determine that the peripheral diameter in Tulou greenhouse encloses diameter with interior, and for soil The purposes in building greenhouse determines the number of plies of greenhouse spiral terraced fields, every layer of height and total height；

B, the layout design that Tulou greenhouse is carried out according to construction requirements, including overhead guard, the interior vertical steel structure enclosed, peripheral vertical steel Structure, the contour helix steel structure terraced fields of coiling, vent window open up layout, entrance gate opens up position and size；

C, the blanket surface product in Tulou greenhouse is calculated according to layout design figure and determine the material of covering, including farming tread paving If the areal calculation and material of object select；

D, the total length of tubing needed for being calculated according to the figure in Tulou greenhouse, the tubing quantity that need to be purchased with determination, and figure is carried out Data analysis, is organized into the material classification inventory of variety classes, quantity, different length (retaining four figures after decimal point)；It ties again Close the digital coding that the line chart in drawing carries out different length material；

E, the installation of Tulou greenhouse steel structure skeleton is successively installed the overhead guard from greenhouse top, the contour spiral of coiling down The vertical steel structure of vertical steel structure, periphery that the installation of line steel structure terraced fields is enclosed in is installed together, is used between tread and inner peripheral Hanging point connection combines welding manner to reinforce；

F, the covering sunlight board or awning film in Tulou greenhouse；

G, the vent window in Tulou greenhouse is respectively arranged on the vertical plane of inner peripheral vertical steel structure, makees push-and-pull design；

H, the laying of spiral tread；

I, entrance gate opens up, and external door is opened in peripheral vertical plane, inside door is opened in inside door vertical plane, is to enter Tulou center day The channel of well.

2. the three-dimensional more floor greenhouse methods of construction of Tulou formula according to claim 1, it is characterised in that:

The pipe material selection hot galvanized steel pipe, the specification of pipe is caliber 2.5cm, wall thickness 0.17mm, and is seamless pipe, with erosion control It cracks when pressure processing；

Component processing is carried out according to the bill of materials, component processing uses punching machine impact style, and the aperture of punching is 12.5mm, pipe end Head is arc-shaped, wedgewise after punching press, and length of material is subject in hole away from and inventory and installation diagram being combined to compile tubing Number, to install；

Tulou greenhouse steel structure bone skeleton installation using twist screw rod by the way of install, using electric wrench reference installation diagram, in conjunction with Tackles are hanging；

The sunlight board covering is typically chosen U-shape lock button sunlight board；The awning film is preferably selected the thicker import lasted a long time Film, covering method are fixed by card slot；

Depending on the quantity of every layer of Tulou vent window is because of the size and ventilation requirement of Tulou, window generallys use the glass that aluminium closes frame Window makees push-and-pull design；

Spiral tread tread is laid with to be laid with using wire netting laying or plank, and wire netting laying translucency is good, can make full use of Diffused light realizes that effectively solar radiation more makes full use of in greenhouse, although plank is laid with and is more conducive to management and walks about, interlayer deposited For light-blocking problem, higher for layer height or happiness shade plant, it is preferred to use plank is laid with.

3. the three-dimensional more floor greenhouse methods of construction of Tulou formula according to claim 1, it is characterised in that: step B institute Overhead guard, the interior vertical steel structure enclosed, the vertical steel structure of periphery, the design of helix steel structure terraced fields stated, all three-legged structures, honeycomb The compound structure of structure, space truss structure forms the space interlayer of tool 0.5-0.8m thickness.

4. the three-dimensional more floor greenhouse methods of construction of Tulou formula according to claim 3, which is characterized in that enclosed in described Vertical steel structure and periphery vertical steel structure all passed through by outer three-legged structure, interior honeycomb, space truss structure it is several common Screw rod connect composition, the outer three-legged structure is spliced by the triangle that several three root canals materials form by several screw rods； If the interior honeycomb is spliced by the hexagon that several six roots of sensation tubing form by screw rod；The space truss structure by The space truss of several seven root canals material compositions is spliced by screw rod.

5. the three-dimensional more floor greenhouse methods of construction of Tulou formula according to claim 4, which is characterized in that the space Seven pipe structures of truss are open: one end of the first tubing is connect with one end of the second tubing and third tubing respectively, The other end of second tubing is successively connect with the 4th tubing, the 5th tubing；The other end of third tubing successively with the 6th tubing, The connection of seven tubing.

6. the three-dimensional more floor greenhouse methods of construction of Tulou formula according to claim 2, it is characterised in that: described twists Approach screw installation is exactly according to the coding of the every node of installation diagram, by gasket-tubing-gasket-nut order by component materials It is inserted in screw rod, and is tightened with electric wrench.

7. according to right want 2 described in the three-dimensional more floor greenhouse methods of construction of Tulou formula, it is characterised in that: the tread It is connect between inner peripheral with hanging point, i.e. the nearly interior interior honeycomb joint enclosed with nearly peripheral helix node and inner peripheral vertical plane of tread It is attached using closest approach principle with cellular node between point, the load-bearing fulcrum as spiral tread.

8. the three-dimensional more floor greenhouse methods of construction of Tulou formula according to claim 2, it is characterised in that: the iron wire Net laying is set, and mesh specification is 5cmX8cm, with a thickness of the foot-operated net of 5-6mm.