CN210610476U - Strawberry greenhouse frame - Google Patents

Abstract

The utility model discloses a strawberry warmhouse booth skeleton, including a plurality of main tributary vaulting poles that set up side by side, the main tributary vaulting pole has the end of extending of slope downwarping, in the other end structure of main tributary vaulting pole have be down V type and downwardly extending interior pole and outer pole, extend the end stretch into corresponding department soil first in advance dig the ditch inslot and through concrete placement and with the soil anchor, the tip of interior pole and outer pole stretches into corresponding department soil second in advance dig the ditch inslot and through concrete placement and with the soil anchor, it has the first heat preservation that can roll up to cover between the outer pole of a plurality of main tributary vaulting poles, it has the second heat preservation that can roll up to cover between the interior pole of a plurality of main tributary vaulting poles. The utility model has the characteristics of need not to get soil on the spot and build the big-arch shelter wall body and destroy strawberry planting department soil structure, and stable in structure is convenient for the big-arch shelter and is fully ventilated. The utility model is suitable for a technical field that strawberry greenhouse planted.

Description

Strawberry greenhouse frame

Technical Field

The utility model belongs to the technical field of strawberry greenhouse plants, specifically speaking relates to a strawberry greenhouse skeleton.

Background

The existing strawberry greenhouse building mostly adopts the nearby soil borrowing to build greenhouse walls, however, the nearby soil borrowing can cause the soil for planting strawberries to be damaged, and the strawberry greenhouse building can be recovered and is suitable for the growth of the strawberries within more than five years. The authorization notice number is: the utility model discloses a CN 208047483U's utility model discloses a heat preservation greenhouse, this kind of greenhouse overcome the condition of taking earth on the spot and building the big-arch shelter wall body, but its defect that exists is: the fixing between the soil and the soil is poor, and the structure is unstable in severe weather such as strong wind due to the detachable form of each part; secondly, under the condition of high temperature in summer and the like, because the heat insulation materials in the greenhouse wall are not easy to take out, the ventilation is blocked by the greenhouse wall, the greenhouse cannot be fully ventilated, and particularly, the growth of plants in the greenhouse is influenced because the wind direction flows from the greenhouse wall to the greenhouse.

SUMMERY OF THE UTILITY MODEL

The utility model provides a need not to get soil on the spot and build big-arch shelter wall body and destroy strawberry cultivation department soil structure, and stable in structure is convenient for the strawberry warmhouse booth skeleton of big-arch shelter abundant ventilation.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a strawberry greenhouse big-arch shelter skeleton, includes a plurality of main tributary vaulting poles that set up side by side, the main tributary vaulting pole has the crooked extension end of slope downwarping, construct interior pole and the outer pole that is the type of falling V and downwardly extending in the other end of main tributary vaulting pole, the extension end stretches into in the first ditch groove of digging in advance of corresponding department soil and through concrete placement and with the soil anchor, the tip of interior pole and outer pole stretches into in the corresponding department soil second ditch groove of digging in advance and through concrete placement and with the soil anchor, it has the first heat preservation that can roll up to cover between the outer pole of a plurality of main tributary vaulting poles, it has the second heat preservation that can roll up to cover between the interior pole of a plurality of main.

Furthermore, a plurality of first fixing plates are constructed at the end part of the extending end, the plurality of first fixing plates are arranged at intervals along the extending direction of the extending end, and the first fixing plates extend into the first pre-excavated grooves and are anchored with the poured concrete.

Furthermore, a plurality of second fixing plates are constructed at the end part of the outer rod, the second fixing plates are arranged at intervals along the extending direction of the outer rod, and the second fixing plates extend into the second pre-excavated grooves to be anchored with the poured concrete.

Furthermore, a plurality of third fixing plates are constructed at the end part of the inner rod, the third fixing plates are arranged at intervals along the extending direction of the inner rod, and the third fixing plates extend into the second pre-digging grooves and are anchored with the poured concrete.

Furthermore, a plurality of fixing lugs are arranged on the main support rod at intervals along the extension direction of the main support rod, and a plurality of cross braces are respectively connected to the plurality of main support rods through the fixing lugs aligned with each other.

Furthermore, first heat preservation layer includes that a plurality of is followed the array direction of main tributary vaulting pole and can dismantle the first heat preservation cotton curtain of connection in proper order, each first heat preservation cotton curtain is laid in the outer pole is kept away from one side of interior pole, and the top of each first heat preservation cotton curtain with the upper end of outer pole links firmly, and the lower extreme of first heat preservation cotton curtain extends to ground along the extending direction of outer pole.

Furthermore, the second heat preservation layer comprises a plurality of second heat preservation cotton curtains which are sequentially detachably connected along the arrangement direction of the main support rods, each second heat preservation cotton curtain is laid on one side, away from the outer rod, of the inner rod, the top end of each second heat preservation cotton curtain is fixedly connected with the upper end of the inner rod, and the lower end of each second heat preservation cotton curtain extends to the ground along the extension direction of the inner rod.

Furthermore, a sunshade cloth which can be covered to the extending end from the shed roof is rolled on the shed roof, a layer of film is laid between the shed roof and the extending end, and a ventilation opening is reserved at the position, located on the shed roof, of the film.

The utility model discloses owing to adopted foretell structure, it compares with prior art, and the technical progress who gains lies in: the utility model discloses constitute by a plurality of main tributary vaulting poles that set up side by side, every main tributary vaulting pole has the crooked extension end of slope downwarping, construct at the other end of main tributary vaulting pole and be the interior pole and the outer pole that fall V-arrangement and downwardly extending, the extension end stretches into in the first pre-excavated slot of corresponding department soil and through concrete placement and with soil anchor, the tip of interior pole and outer pole stretches into in the second pre-excavated slot of corresponding department soil and through concrete placement and with soil anchor, because extension end, outer pole and interior pole all through concrete placement and anchor in soil like this, make main tributary vaulting pole and soil firm the connection, avoided under the bad weather, if by strong wind, damage deformation such as snow; and the utility model discloses it has the first heat preservation that can roll up to cover between a plurality of above-mentioned outer poles, it has the second heat preservation that can roll up to cover between a plurality of above-mentioned interior poles, outer pole and interior pole constitute the outer wall support and the interior wall support of big-arch shelter wall body respectively side by side like this, first heat preservation adheres to on the outer wall support, the second heat preservation adheres to on the interior wall support, and become outer wall and interior wall respectively, so, slow down the heat exchange between the internal and external environment of canopy, and when the temperature is higher in the canopy, only need to roll up first heat preservation and second heat preservation to different heights as required, in order to realize the internal temperature of canopy fully ventilate and the heat exchange with external environment, and then avoid the big-arch shelter wall body to obstruct, can't ventilate fully, lead to the plant growth in the canopy receiving the; to sum up, the utility model has the characteristics of need not to borrow on the spot and build the big-arch shelter wall body and destroy strawberry cultivation department soil structure, and stable in structure is convenient for the big-arch shelter fully ventilated.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic partial structure diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of the embodiment of the present invention for removing the poured concrete;

FIG. 3 is a schematic view of the structure of FIG. 2 from another angle;

FIG. 4 is a schematic structural view of the main support rod and the cross brace of the present invention;

fig. 5 is a schematic structural diagram of the main support rod according to an embodiment of the present invention.

Labeling components: 1-main supporting rod, 2-outer rod, 3-inner rod, 4-first fixing plate, 5-second fixing plate, 6-third fixing plate, 7-fixing lug, 8-second heat insulation layer, 9-first heat insulation layer, 10-second pre-dug groove, 11-first pre-dug groove, 12-soil, 13-film, 14-sun-shading cloth, 15-ventilation opening and 16-cross support.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the invention.

The utility model discloses a strawberry greenhouse shed framework, as shown in figures 1-5, comprising a first heat preservation layer 9, a second heat preservation layer 8 and a plurality of main support rods 1, wherein the main support rods 1 are arranged side by side, each main support rod 1 is provided with an extending end which is inclined and bent downwards, an inner rod 3 and an outer rod 2 which are in an inverted V shape and extend downwards are welded at the other end of the main support rod 1, a first pre-dug groove 11 is dug at the soil 12 corresponding to the extending end, the extending end extends into the first pre-dug groove 11, the end fixing of the extending end is realized by pouring concrete and filling the first pre-dug groove 11, a second pre-dug groove 10 is dug at the soil 12 corresponding to the end of the inner rod 3 and the outer rod 2, the end of the inner rod 3 and the outer rod 2 extends into the second pre-dug groove 10, and the end fixing of the inner rod 3 and the outer rod 2 is realized by pouring concrete and filling the second pre-dug groove 10, this results in an improved integrity of the multiple main support rods 1. The first heat-insulating layer 9 covers the outer sides of the parallel outer rods 2 and can be manually rolled, and the second heat-insulating layer 8 covers the inner sides of the parallel inner rods 3 and can be manually rolled. The principle of the utility model is that: because the extension end, the outer rod 2 and the inner rod 3 are all anchored in the soil 12 through concrete pouring, the main support rod 1 is stably connected with the soil 12, and the deformation caused by damage of strong wind, snow and the like in severe weather is avoided; just the utility model discloses it has the first heat preservation 9 that can roll up to cover between foretell a plurality of outer poles 2, it has the second heat preservation 8 that can roll up to cover between foretell a plurality of interior poles 3, outer pole 2 and interior pole 3 constitute the outer wall support and the interior wall support of big-arch shelter wall body respectively side by side like this, first heat preservation 9 is attached to on the outer wall support, second heat preservation 8 is attached to on the interior wall support, and become outer wall and interior wall respectively, thus, the heat exchange between with external environment in the canopy has been slowed down, and when the canopy temperature is higher, only need to roll up different heights with first heat preservation 9 and second heat preservation 8 according to the demand, in order to realize the canopy temperature fully with external environment ventilation and heat exchange, and avoid the big-arch shelter wall body to obstruct, unable abundant ventilation, lead to the plant growth in the canopy and receive the influence.

As a preferred embodiment of the present invention, as shown in fig. 5, a plurality of first fixing plates 4 are welded to the end of the extending end, these first fixing plates 4 are disposed at intervals along the extending direction of the extending end, and the first fixing plates 4 extend into the first pre-excavated groove 11 and are anchored with the poured concrete. A plurality of second fixing plates 5 are welded at the end part of the outer rod 2, the second fixing plates 5 are arranged at intervals along the extending direction of the outer rod 2, and the second fixing plates 5 extend into the second pre-dug grooves 10 and are anchored with the poured concrete. A plurality of third fixing plates 6 are welded at the end part of the inner rod 3, the third fixing plates 6 are arranged at intervals along the extending direction of the inner rod 3, and the third fixing plates 6 extend into the second pre-dug grooves 10 and are anchored with the poured concrete. Therefore, the stability of the extension end, the end part of the outer rod 2 and the end part of the inner rod 3 and concrete is improved. And in order to improve the integrity between the main support rods 1 and facilitate the installation of lighting fixtures and the like, as shown in fig. 4, a plurality of fixing lugs 7 are fastened to the main support rods 1 at intervals along the extending direction thereof, and a plurality of cross braces 16 are respectively fixedly connected to the main support rods 1 through each set of mutually aligned fixing lugs 7.

As a preferred embodiment of the present invention, as shown in fig. 3, the first heat-insulating layer 9 includes a plurality of first heat-insulating cotton curtains that can be sequentially detached along the arrangement direction of the main support rod 1, each first heat-insulating cotton curtain is laid on one side of the outer rod 2 away from the inner rod 3, and the top end of the first heat-insulating cotton curtain is fixedly mounted on the upper end of the outer rod 2, the lower end of the first heat-insulating cotton curtain extends to the ground along the extending direction of the outer rod 2, and the edges of the adjacent first heat-insulating cotton curtains are adhered together by self-adhesion. As shown in fig. 2, the second heat preservation layer 8 includes a plurality of second heat preservation cotton curtains which are detachably connected in sequence along the arrangement direction of the main support rod 1, each second heat preservation cotton curtain is laid on one side of the inner rod 3 far away from the outer rod 2, the top end of each second heat preservation cotton curtain is fixedly mounted at the upper end of the inner rod 3, the lower end of each second heat preservation cotton curtain extends to the ground along the extending direction of the inner rod 3, and the edges of the adjacent second heat preservation cotton curtains are adhered together through self-adhesion. Like this, according to the demand with the cotton curtain of first heat preservation and the cotton curtain separation of second heat preservation with adjacent cotton curtain of first heat preservation and second heat preservation, later, with the cotton curtain rolling of first heat preservation and second heat preservation to make it and ground separation and expose the breach, so that exchange with external heat in the canopy, and do benefit to the ventilation.

As a preferred embodiment of the present invention, as shown in fig. 1, a sunshade cloth 14 is rolled on the ceiling, the sunshade cloth 14 is generally made of cotton curtain, the sunshade cloth 14 can be covered by the ceiling to the sunshade cloth 14 of the extension end, a layer of film 13 is laid between the ceiling and the extension end, and a ventilation opening 15 is reserved at the position of the film 13 on the ceiling. When the sunshade cloth 14 is rolled up and exposed out of the ventilation opening 15, on one hand, ventilation can be achieved, and on the other hand, sufficient lighting of strawberries in the shed can be achieved; when the sunshade cloth 14 is rolled and covers the ventilation opening 15, the strawberries in the greenhouse can be fully daylighted, and meanwhile, the heat in the greenhouse is prevented from being dissipated to the external environment.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the protection of the claims of the present invention.

Claims (8)

1. The utility model provides a strawberry warmhouse booth skeleton which characterized in that: the main support rods are provided with extending ends which are obliquely bent downwards, inner rods and outer rods which are inverted V-shaped and extend downwards are constructed at the other ends of the main support rods, the extending ends extend into first pre-excavated grooves of soil at corresponding positions and are anchored with the soil through concrete pouring, the end parts of the inner rods and the outer rods extend into second pre-excavated grooves of the soil at corresponding positions and are anchored with the soil through concrete pouring, first heat-preserving layers which can be rolled up are covered between the outer rods of the main support rods, and second heat-preserving layers which can be rolled up are covered between the inner rods of the main support rods.

2. The strawberry greenhouse shed framework of claim 1, wherein: and a plurality of first fixing plates are constructed at the end part of the extending end, the first fixing plates are arranged at intervals along the extending direction of the extending end, and the first fixing plates extend into the first pre-dug groove to be anchored with the poured concrete.

3. The strawberry greenhouse shed framework of claim 1, wherein: and a plurality of second fixing plates are constructed at the end part of the outer rod, the second fixing plates are arranged at intervals along the extension direction of the outer rod, and the second fixing plates extend into the second pre-dug grooves to be anchored with the poured concrete.

4. The strawberry greenhouse shed framework of claim 1, wherein: and a plurality of third fixing plates are constructed at the end part of the inner rod, the plurality of third fixing plates are arranged at intervals along the extending direction of the inner rod, and the third fixing plates extend into the second pre-dug grooves to be anchored with the poured concrete.

5. The strawberry greenhouse shed framework of claim 1, wherein: a plurality of fixing lugs are arranged on the main support rod at intervals along the extension direction of the main support rod, and a plurality of cross braces are respectively connected to the plurality of main support rods through the fixing lugs aligned with each other.

6. The strawberry greenhouse shed framework of claim 1, wherein: the first heat preservation layer comprises a plurality of first heat preservation cotton curtains which are sequentially detachably connected along the arrangement direction of the main support rods, the first heat preservation cotton curtains are laid on one side, away from the inner rod, of the outer rod, the top end of each first heat preservation cotton curtain is fixedly connected with the upper end of the outer rod, and the lower end of each first heat preservation cotton curtain extends to the ground along the extending direction of the outer rod.

7. The strawberry greenhouse shed framework of claim 1, wherein: the second heat preservation layer comprises a plurality of second heat preservation cotton curtains which are sequentially detachably connected along the arrangement direction of the main support rods, each second heat preservation cotton curtain is laid on one side, away from the outer rod, of the inner rod, the top end of each second heat preservation cotton curtain is fixedly connected with the upper end of the inner rod, and the lower end of each second heat preservation cotton curtain extends to the ground along the extending direction of the inner rod.

8. The strawberry greenhouse shed framework of claim 1, wherein: the sunshade cloth which can be covered to the extending end from the shed roof is rolled on the shed roof, a layer of film is laid between the shed roof and the extending end, and a ventilation opening is reserved at the position, located on the shed roof, of the film.

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