CN210987319U - Novel constant-vegetable non-Xinjiang heat storage module sunlight greenhouse - Google Patents

Abstract

The utility model discloses a novel constant vegetable non-Xinjiang heat storage module sunlight greenhouse, which not only solves the traditional waterlogging problem but also realizes the heat preservation function, the waterlogging is solved by a non-underdigging mode, in particular, the device does not need to underdig soil to realize the pre-embedding of a rainproof membrane, but realizes the storage and the use of the rainproof membrane through a rolling machine, the waterlogging caused by the traditional underdigging and the pre-embedding of a greenhouse membrane is avoided, the heat preservation function is realized through a heat preservation material and a heat storage module, in particular, the heat preservation of the heat preservation material of a rock wool board consisting of cement guniting, fiber non-woven fabric, 10 silk PO membrane, a heat preservation quilt, 10 silk PO membrane, a limit non-woven fabric and steel wires and the heating of the heat storage module consisting of a mixture of 20 percent perlite and 80 percent plain soil are arranged, the heat preservation of the inside of the whole greenhouse is realized, and the heat storage module continuously transfers heat into the heat insulation material, so that the heat insulation effect of the greenhouse is good.

Description

Novel constant-vegetable non-Xinjiang heat storage module sunlight greenhouse

Technical Field

The utility model relates to a relevant technical field of warmhouse booth particularly, relates to a novel heat accumulation module sunlight greenhouse of permanent vegetables without jiang.

Background

The current greenhouse topography is below the ground level, raining is easy to waterlog, the civil engineering north wall occupies a large area which occupies about 50% of the whole greenhouse area, and the utilization rate is low.

Aiming at the problems in the related art, an effective solution is not provided at present, so that a novel greenhouse is provided, on one hand, the effect of the civil construction sunlight greenhouse is realized, waterlogging is not easy to occur, and meanwhile, the utilization rate is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel heat accumulation module sunlight greenhouse of permanent vegetables no Xinjiang to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a novel constant-vegetable non-Jiang heat storage module sunlight greenhouse comprises an outdoor terrace, wherein the soil surface of the outdoor terrace is tamped by using plain soil, a plurality of gable embedded piers are embedded in the tamped plain soil, stand embedded piers are also embedded in one side of each gable embedded pier, a tinned steel pipe side wall stand is mounted at the top of each gable embedded pier, an upper chord is mounted at the top of each tinned steel pipe side wall stand, the upper chord is arranged along the shed surface, a lower chord is arranged at the bottom side of the upper chord, a web member is connected between the upper chord and the lower chord, a plurality of tinned steel pipes are mounted on the web member, the tinned steel pipes are arranged along the shed surface in a staggered mode, the tinned steel pipe stands are mounted at the top of the upright embedded piers, a heat insulation material and a heat storage module are filled between the tinned steel pipe stands and the inner wall of the upper chord, and a sling is connected between the tinned steel pipe stands and the lower chord, fixedly connected with round steel between the top of hanging wire and the bottom of lower chord member, the top of last chord member is installed and is rolled up a curtain machine hack lever, it is fixed in on the back wall through the back wall mounting to roll up a curtain machine hack lever, roll up and install a curtain machine on the curtain machine hack lever, roll up and be connected with the rainproof cover on the power unit of curtain machine after the rainproof cover covers the upper chord member, utilize the press mold soil to cover its edge, wherein the slope of press mold soil is outside the canopy.

Furthermore, a layer of fine aggregate concrete is laid on the top of the gable embedded pier, and perlite plain soil is doped in the fine aggregate concrete and compacted.

Further, solid bricks are further installed at the bottoms of the two ends of the upper chord and are located between the plain soil and the fine aggregate concrete.

Furthermore, a plurality of air vents are formed in the top of the upper chord, and a 40-mesh insect-proof net is arranged at the air vents.

Furthermore, the heat preservation material is a rock wool board and consists of cement guniting, fiber non-woven fabrics, a 10-filament PO film, a heat preservation quilt, a 10-filament PO film, limiting non-woven fabrics and steel wires from top to bottom, and the bottoms of the steel wires are fixed on a steel wire ground anchor and are buried in soil.

The heat storage module is a mixture consisting of 20% of perlite and 80% of plain soil.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the design of the utility model not only solves the traditional waterlogging problem, but also realizes the heat preservation function, the waterlogging is solved by a non-underdigging mode, in particular, the device does not need to underdig soil to realize the pre-burying of the rain-proof film, but the storage and the use of the rainproof film are realized through the curtain rolling machine, the traditional method of digging downwards and embedding the greenhouse film to cause waterlogging is avoided, the heat preservation function is realized through the heat preservation material and the heat storage module, particularly, through the heat preservation of the heat accumulation module of the rock wool board that sets up by cement whitewashing, fibre non-woven fabrics, 10 silk PO membrane, heat preservation quilt, 10 silk PO membrane, spacing non-woven fabrics, steel wire are constituteed the insulation material of the rock wool board and is become by 20% pearlite and 80% plain soil, realize the inside heat preservation of whole big-arch shelter, and what the heat accumulation module lasted conducts heat in to the insulation material for the heat preservation of greenhouse is effectual.

2. The heat insulation material and the heat storage module are fixed through the steel wire and the ground steel wire anchor, and the stability of the whole device is further guaranteed.

3. This design adopts pre-buried mode to realize the pre-buried mound of gable and the pre-buried mound of stand, and this installation that is convenient for tinned steel pipe side wall stand and tinned steel pipe stand is fixed, still need not take whole wall setting as the reliance on the basis that whole device is firm, and it is big just to have avoided certain wall area, and its utilization ratio is more high-efficient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a west vertical surface of a solar greenhouse with a novel constant vegetable-free heat storage module according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an east side elevation of a solar greenhouse with a novel constant vegetable-Sinkiang heat storage module according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a construction structure of a solar greenhouse with a constant-vegetable non-Xinjiang heat storage module according to an embodiment of the present invention;

fig. 4 is a schematic view of a gable structure construction of a constant-vegetable non-Xinjiang novel thermal storage module sunlight greenhouse according to an embodiment of the present invention.

Reference numerals:

1. an outdoor terrace; 2. plain soil; 3. embedding piers in the gable wall; 4. the side wall upright post of the tinned steel pipe; 5. fine stone concrete; 6. hoisting wires; 7. an upper chord; 8. a web member; 9. a lower chord; 10. a rear wall fixing member; 11. an air outlet; 12. tinned steel pipes; 13. a tinned steel tube upright post; 14. a thermal insulation material; 15. a heat storage module; 16. solid bricks; 17. a roller shutter frame rod; 18. a roller shutter machine; 19. a rain-proof film; 20. embedding piers in the stand columns; 21. film pressing soil; 22. and (4) round steel.

Detailed Description

The following, with reference to the drawings and the detailed description, further description of the present invention is made:

referring to fig. 1-4, a solar greenhouse with novel constant vegetable non-Jiang heat storage module according to an embodiment of the present invention comprises an outdoor terrace 1, wherein the soil surface of the outdoor terrace 1 is tamped by using plain soil 2, a plurality of gable embedded piers 3 are embedded in the tamped plain soil 2, one side of each gable embedded pier 3 is also embedded with a column embedded pier 20, a tinned steel tube side wall column 4 is installed on the top of each gable embedded pier 3, an upper chord 7 is installed on the top of each tinned steel tube side wall column 4, the upper chord 7 is installed along the greenhouse surface, the bottom side of the upper chord 7 is provided with a lower chord 9, a web member 8 is connected between the upper chord 7 and the lower chord 9, a plurality of tinned steel tubes 12 are installed on the web member 8, the tinned steel tubes 12 are staggered along the greenhouse surface, the top of each gable embedded pier 20 is installed with a tinned steel tube column 13, and a heat storage module 15 and a heat insulation material 14 are filled between the inner wall of the most side steel tube column 13 and the upper chord, be connected with hanging wire 6 between tinned steel pipe stand 13 and the lower chord 9, fixedly connected with round steel 22 between the top of hanging wire 6 and the bottom of lower chord 9, curtain machine hack lever 17 is installed at the top of upper chord 7, curtain machine hack lever 17 is fixed in on the back wall through back wall mounting 10, install curtain machine 18 on the curtain machine hack lever 17, be connected with waterproofing membrane 19 on the power unit of curtain machine 18, after the upper chord 7 is covered at waterproofing membrane 19, utilize press mold soil 21 to cover its edge, wherein press mold soil 21's slope is outside the canopy.

In addition, a layer of fine aggregate concrete 5 is laid on the top of the gable embedded pier 3, perlite plain soil is doped in the fine aggregate concrete 5 and compacted, solid bricks 16 are further installed at the bottoms of two ends of the upper chord 7 and are located between the plain soil 2 and the fine aggregate concrete 5, a plurality of air discharging openings 11 are formed in the top of the upper chord 7, a 40-mesh insect-proof net is arranged at the air discharging openings 11, the heat preservation material 14 is a rock wool board and consists of cement gunite, fiber non-woven fabric, 10-filament PO film, heat preservation quilt, 10-filament PO film, limiting non-woven fabric and steel wires from top to bottom, the bottoms of the steel wires are fixed on steel wire ground anchors and are embedded into soil, and the heat storage module 15 is a mixture consisting of 20% of perlite and 80% of plain soil, and the proportion can be correspondingly expanded according to requirements.

Through the above technical scheme of the utility model, at first select suitable outdoor flat ground 1 address, weed and level outdoor flat ground 1 around the clearance, if basement design elevation if not fall on old soil layer, should deepen and dig, ram plain soil 2 branch two steps to design elevation, at pre-buried mound 3 of a plurality of gable of plain soil 2 department and the pre-buried mound 20 of stand, pre-buried steel wire ground anchor is spare around the pre-buried mound 20 of stand, install tinned steel pipe side wall stand 4 and tinned steel pipe stand 13 on pre-buried mound 3 of gable and the pre-buried mound 20 of stand respectively, and bury graticule concrete 5 in tinned steel pipe side wall stand 4 and the junction of tinned steel pipe stand 13 and pre-buried mound 3 of gable and the pre-buried mound 20 of stand, further make it firm, with last chord member 7, web member 8 and lower chord member 9 install in tinned steel pipe side wall stand 4's top can, can realize hack lever 17 after the skeleton installation finishes, The installation of curtain rolling machine 18 and rain-proof membrane 19 still installs insulation material 14 and heat accumulation module 15 to between tinned steel pipe stand 13 and upper chord 7 inner wall one side, and wherein insulation material 14's steel wire structure then with steel wire ground anchor fix and bury ground for the device is more firm.

In the above embodiment, the following points are worth noting: 1. all component materials are Q235-B grade steel, the sizes of the components in the drawing are the minimum sizes, and the sizes can be properly enlarged according to the local material market; 2. the pipe fitting to be bent is bent by a special bending machine, if a local bending machine is not used, when manual bending is adopted, the inside of the steel pipe before bending is filled with coarse sand, and the pipe fitting is prevented from being bent flat during bending; 3. after the welding of the nodes is finished, the impurities are cleaned up and the rust-proof paint is coated, and the fireproof grade of the member is processed according to the building requirements.

To sum up, with the help of the above technical solution of the present invention, the design of the present invention not only solves the traditional problem of waterlogging but also realizes the heat preservation function, the problem of waterlogging is solved by non-underdigging, specifically, the present device does not need to underdig soil to realize the pre-embedding of the rainproof film, but realizes the storage and use of the rainproof film 19 through the rolling machine 18, the traditional underdigging and pre-embedding of greenhouse film leading to waterlogging is avoided, the heat preservation function is realized through the heat preservation material and the heat storage module, specifically, the heat preservation of the heat preservation material 14 of the rock wool board composed of steel wires, the heat preservation module 15 of the mixture composed of 20% perlite and 80% plain soil is realized through the arranged cement slurry spraying, the fiber non-woven fabric, the 10 silk PO film, the heat preservation of the heat preservation quilt, the 10 silk PO film, the heat preservation quilt, the heat preservation module 14 continuously transfers heat to the heat preservation material, so that the heat preservation effect of the greenhouse is good. The thermal insulation material 14 and the heat storage module 15 are fixed through steel wires and ground steel wire ground anchors, and the stability of the whole device is further guaranteed. This design adopts pre-buried mode to realize the pre-buried mound 3 of gable and the pre-buried mound 20 of stand, and this installation that is convenient for tinned steel pipe side wall stand 4 and tinned steel pipe stand 13 is fixed, still need not take whole wall setting as the reliance on the basis that whole device is firm, and this has just avoided certain wall area big, and its utilization ratio is more high-efficient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The solar greenhouse with the constant vegetable and non-Xinjiang novel heat storage modules is characterized by comprising an outdoor terrace (1), wherein plain soil (2) is tamped on the soil surface of the outdoor terrace (1), a plurality of gable embedded piers (3) are embedded in the tamped plain soil (2), stand embedded piers (20) are also embedded in one side of each gable embedded pier (3), each gable embedded pier (3) is provided with a tinned steel pipe side wall stand (4) at the top, an upper chord (7) is installed at the top of each tinned steel pipe side wall stand (4), the upper chord (7) is arranged along the shed surface, a lower chord (9) is arranged on the bottom side of the upper chord (7), a web member (8) is connected between the upper chord (7) and the lower chord (9), a plurality of tinned steel pipes (12) are installed on the web member (8), and the tinned steel pipes (12) are arranged in a staggered manner along the shed surface, tinned steel tube stand (13) is installed at the top of the pre-buried mound of stand (20), and most avris it has insulation material (14) and heat accumulation module (15) to fill between the inner wall of tinned steel tube stand (13) and last chord member (7), is connected with suspender (6) between tinned steel tube stand (13) and lower chord member (9), fixedly connected with round steel (22) between the top of suspender (6) and the bottom of lower chord member (9), roll up curtain machine hack lever (17) is installed at the top of last chord member (7), roll up curtain machine hack lever (17) and be fixed in the back wall through back wall mounting (10) on the back wall, install on curtain machine hack lever (17) rain-proof membrane (19), be connected with on the power unit of curtain machine (18) and roll up behind last chord member (7) of rain-proof membrane (19) cover its edge department with press mold soil (21), wherein the film pressing soil (21) is inclined towards the outside of the greenhouse.

2. The solar greenhouse with the constant-vegetable and non-Xinjiang heat storage modules as claimed in claim 1, wherein a layer of fine aggregate concrete (5) is laid on the top of the gable embedded pier (3), and perlite and plain soil are doped in the fine aggregate concrete (5) and compacted.

3. The solar greenhouse with novel constant-vegetable-property and non-Xinjiang heat storage module as claimed in claim 2, wherein the bottom of the two ends of the upper chord (7) is further provided with solid bricks (16) between the plain soil (2) and the fine aggregate concrete (5).

4. The solar greenhouse with novel constant-vegetable-property and non-Xinjiang heat storage modules as claimed in claim 1, wherein the top of the upper chord (7) is provided with a plurality of air vents (11), and the air vents (11) are provided with 40-mesh insect screens.

5. The solar greenhouse with novel constant-vegetable-property and non-Jiang heat storage module as claimed in claim 1, wherein the heat insulation material (14) is a rock wool board, which is composed of cement gunite, fiber non-woven fabric, 10-filament PO film, heat insulation quilt, 10-filament PO film, limiting non-woven fabric and steel wire, and the bottom of the steel wire is fixed on a steel wire ground anchor and buried in the soil.

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