CN220292657U - Warmhouse booth that heat preservation wall and land utilization are high - Google Patents

Abstract

The utility model relates to a thermal insulation wall and a greenhouse with high land utilization rate, which comprises a thermal insulation wall, a male wall component connected with the thermal insulation wall, a main beam supporting frame component for supporting the thermal insulation wall and the male wall component, a thermal insulation quilt arranged on the male wall component and a curtain rolling machine component for winding and unwinding the thermal insulation quilt. A thermal insulation wall comprising: the heat-insulating wall cotton quilts comprise a plurality of cotton quilting bags which are mutually and flexibly connected; the support component is used for supporting the heat-insulating wall cotton quilt; and the soft sleeve connecting assemblies are used for connecting and fixing the heat preservation wall cotton quilt and the supporting assemblies. The cotton quilt is characterized in that a polyester fiber sandwich net cloth material is adopted as a cotton quilt bag jacket, and a cotton quilt filled with polyester fiber cotton is adopted as an insulation layer; the steel structure is used as a greenhouse of the supporting component. The soil utilization rate is increased, the cultivation area is enlarged, and meanwhile, the functions of rain prevention, water prevention and heat preservation are achieved.

Description

Warmhouse booth that heat preservation wall and land utilization are high

Technical Field

The utility model relates to the technical field of greenhouses, in particular to a heat preservation wall and a greenhouse with high land utilization rate.

Background

Greenhouse, also known as greenhouse. Can transmit light, keep warm or heat, and is used for cultivating plants. In the seasons unsuitable for plant growth, the method can provide a greenhouse growth period and increase the yield, and is mostly used for cultivating or raising seedlings of vegetables, flowers, trees and other plants in low-temperature seasons. The variety of greenhouses is varied, and can be divided into various types according to different roof truss materials, lighting materials, appearance, heating conditions and the like. Meanwhile, for the agricultural planting industry, the greenhouse provides a relatively stable growing environment for crops, and the loss caused by natural disasters is reduced.

The existing single-roof greenhouse generally uses a soil wall as a rear wall, so that the soil wall is used for the greenhouse to destroy a cultivation layer, the occupied land area is large, the land utilization rate is low, and the greenhouse is easy to erode by rainwater in a region with large rainwater to cause collapse.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a cotton quilt which adopts a polyester fiber sandwich mesh fabric as a cotton quilt bag jacket and is filled with polyester fiber cotton as an insulation layer; the steel structure is used as a greenhouse of the supporting component. The soil utilization rate is increased, the cultivation area is enlarged, and meanwhile, the functions of rain prevention, water prevention and heat preservation are achieved.

In order to solve the problems, the utility model adopts the following technical scheme:

a thermal wall, comprising:

the heat-insulating wall cotton quilts comprise a plurality of cotton quilting bags which are mutually and flexibly connected;

the support assembly comprises a strip-shaped bottom support beam arranged on the ground and a plurality of upright posts arranged on the bottom support beam at intervals, wherein two adjacent upright posts are connected through a plurality of connecting beams which are arranged up and down;

the soft sleeve connecting assemblies are arranged at intervals on one side of the heat-insulating wall cotton quilt facing the supporting assembly and comprise strip-shaped soft sleeve bodies and connecting steel bars penetrating through the soft sleeve bodies, the soft sleeve bodies are fixedly arranged on the heat-insulating wall cotton quilt through soft sleeve connecting parts, and the length directions of the soft sleeve bodies are parallel to the length directions of the bottom supporting beams;

the soft sleeve body is provided with a plurality of soft sleeve openings at intervals, and the soft sleeve openings are used for exposing the connecting reinforcing steel bars so that the connecting reinforcing steel bars are fixedly connected with the bottom supporting beam or the connecting beam through binding bands.

As a preferable embodiment, the whole cotton-wadded quilt bag is in a strip shape, the length direction of the cotton-wadded quilt bag is parallel to the length direction of the bottom supporting beam, and two adjacent cotton-wadded quilt bags are flexibly connected through a soft connecting part.

As a preferred embodiment, the quilt bag comprises a quilt bag jacket made of polyester fiber sandwich mesh cloth and polyester fiber cotton filled in the quilt bag jacket.

As a preferred implementation mode, a plurality of connecting rings are arranged on the bottom supporting beam at intervals, the connecting rings correspond to soft sleeve openings arranged on soft sleeve connecting components at the bottom of the heat preservation wall cotton quilt, and the connecting rings are fixedly connected with connecting reinforcing steel bars of the soft sleeve connecting components at the bottom of the heat preservation wall cotton quilt through binding bands.

As a preferred implementation mode, a plurality of connecting beam fixing components are arranged on the upright at intervals, and each connecting beam fixing component comprises a mounting seat body, two mounting seat clamping plates oppositely arranged on one side of the mounting seat body facing the upright and two U-shaped screw components oppositely arranged on the mounting seat body; the mounting seat clamping plates are fixedly arranged on the upright posts, and the connecting beams are fixedly arranged between the two U-shaped screw assemblies and the mounting seat body.

As a preferred embodiment, a cotton quilt cover soil part is arranged at the lower end of the heat-insulating wall cotton quilt, and the cotton quilt cover soil part is buried underground for increasing the tightness of the heat-insulating wall;

one side of heat preservation wall cotton quilt lower extreme is provided with the earthing clamp plate, cotton quilt earthing portion is located between earthing clamp plate and the bottom supporting beam, the earthing clamp plate is used for the compaction soil in order to further increase the seal of heat preservation wall.

In addition, the greenhouse with high land utilization rate comprises the heat-insulating wall, a sunny side wall component connected with the heat-insulating wall, a main beam supporting frame component used for supporting the heat-insulating wall and the sunny side wall component, a heat-insulating quilt arranged on the sunny side wall component and a curtain rolling machine component used for winding and unwinding the heat-insulating quilt;

one end of the heat preservation quilt is lapped and arranged at the upper end of the heat preservation wall cotton quilt of the heat preservation wall.

As a preferred implementation mode, the upper end of the heat-insulating wall cotton quilt is fixedly connected with one end of the heat-insulating quilt through a magic tape assembly, a heat-insulating quilt pressing plate is pressed on the heat-insulating quilt, and the heat-insulating quilt pressing plate is positioned above the magic tape assembly.

The beneficial effects of adopting above-mentioned technical scheme to produce lie in:

the heat preservation wall of this application forms through heat preservation wall cotton quilt, soft cover coupling assembling and supporting component cooperation, for traditional earth wall structure, the heat preservation wall of this application is lighter, and occupation of land space is little, has increased the land utilization.

The cotton quilt bag of the heat preservation wall cotton quilt comprises a cotton quilt bag jacket made of polyester fiber sandwich mesh cloth and polyester fiber cotton filled in the cotton quilt bag, and has the functions of water resistance and rain resistance when being light and warm, and is small in supporting force provided by the land at the bottom of the heat preservation wall and not easy to collapse relative to a traditional earth wall structure.

The bottom of this application's heat preservation wall cotton quilt is provided with cotton quilt cover soil portion, and cotton quilt cover soil portion buries in the soil in order to increase the holistic seal of heat preservation wall, and the soil outside the heat preservation wall is equipped with the earthing clamp plate in order to compact the soil simultaneously to be pressed on the soil, has increased the holistic seal of heat preservation wall when avoiding the soil subsidence.

Drawings

Fig. 1 is a schematic view of a heat insulation wall structure according to an embodiment.

Fig. 2 is a schematic view of the structure of fig. 1 at another angle.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 2.

Fig. 5 is a schematic structural view of a greenhouse of an embodiment.

Fig. 6 is a schematic view of the structure of two adjacent quilt bags of the embodiment.

Wherein: 100. thermal insulation wall cotton quilt; 200. a main beam support frame assembly; 300. a male wall assembly; 400. a heat preservation quilt; 401. heat preservation quilt pressing plate; 500. a shutter assembly;

1. a cotton quilt bag; 1-1 cotton quilt bag jacket; 1-2 polyester fiber cotton; 1-3 soft connection parts;

2. a soft sleeve connecting component; 2-1 a soft sleeve connecting part; 2-2 soft sleeve body; 2-3 soft sleeve openings; 2-4 connecting steel bars;

3. a bottom support beam; 3-1 supporting beam body; 3-2 connecting rings; 3-3 supporting beam ground nails;

4. a column; 5. a connecting beam fixing assembly; 5-1 mounting base body; 5-2 mounting seat clamping plates; 5-3U screw assembly; 5-4 connecting beams;

6. a soil covering pressing plate; 7. hook-on surface of the magic tape; 8. and the cotton quilt is covered with a soil part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be clearly and completely described in connection with the following specific embodiments.

A heat retaining wall as shown in figures 1 to 4 and 6, comprising:

a heat-insulating wall cotton quilt 100, see fig. 1 and 2 (the figure is a unit node of a heat-insulating wall), which comprises a plurality of cotton quilt bags 1, wherein a plurality of cotton quilt bags 1 are arranged in a soft connection manner;

the support assembly, see figure 2, comprises an elongated bottom support beam 3 arranged on the ground and a plurality of upright posts 4 arranged on the bottom support beam 3 at intervals, wherein two adjacent upright posts are connected through a plurality of connecting beams 5-4 which are arranged up and down;

the soft sleeve connecting assemblies 2 are arranged at intervals on one side of the heat-insulating wall cotton quilt 100 facing the supporting assemblies, see fig. 2 to 4, and comprise long soft sleeve bodies 2-2 and connecting steel bars 2-4 penetrating through the soft sleeve bodies 2-2, the soft sleeve bodies 2-2 are arranged on the heat-insulating wall cotton quilt 100 through soft sleeve connecting parts 2-1 in a hot melting mode, and the length direction of the soft sleeve bodies 2-2 is parallel to the length direction of the bottom supporting beams 3;

the soft sleeve body 2-2 is provided with a plurality of soft sleeve openings 2-3 at intervals, and the soft sleeve openings 2-3 are used for exposing the connecting reinforcements 2-4 so that the connecting reinforcements 2-4 are fixedly connected with the bottom supporting beam 3 or the connecting beams 5-4 through binding bands.

The cotton quilt bag 1 is integrally in a strip shape, the length direction of the cotton quilt bag is parallel to the length direction of the bottom supporting beam 3, and two adjacent cotton quilt bags 1 are flexibly connected through the soft connecting part 1-3, so that the heat preservation wall cotton quilt can be bent according to the shape of the supporting component to be attached and fixed on the supporting component. In this embodiment, the two adjacent cotton quilts 1 are connected together by hot melt to form the flexible connection portion 1-3.

Preferably, the quilt bag 1 of the embodiment can be square pillow-shaped, a plurality of square pillow-shaped quilt bags 1 are spliced to form a complete rectangular insulation wall quilt 100, and the quilt belt bodies 1-1 of adjacent square pillow-shaped quilt belts 1 are connected by hot melting to form soft connection parts 1-3, so that the insulation wall quilt 100 is flexible as a whole.

Referring to fig. 6, the cotton quilt bag 1 comprises a cotton quilt bag cover 1-1 made of polyester fiber sandwich mesh cloth and polyester fiber cotton 1-2 filled in the cotton quilt bag cover 1-1.

Referring to fig. 2 to 4, a plurality of connection rings 3-2 are arranged on the bottom support beam 3 at intervals, the connection rings 3-2 correspond to the soft sleeve openings 2-3 arranged on the soft sleeve connection assembly 2 at the bottom of the heat preservation wall cotton quilt 100, and the connection rings 3-2 are fixedly connected with the connection steel bars 2-4 of the soft sleeve connection assembly 2 at the bottom of the heat preservation wall cotton quilt 100 through the binding bands. A plurality of connecting beam fixing assemblies 5 are arranged on the upright post 4 at intervals, and each connecting beam fixing assembly 5 comprises an installation seat body 5-1, two installation seat clamping plates 5-2 oppositely arranged on one side of the installation seat body 5-1 facing the upright post 4, and two U-shaped screw assemblies 5-3 oppositely arranged on the installation seat body 5-1; the mounting seat clamping plates 5-2 are fixedly arranged on the upright posts 4 through penetrating bolt assemblies, and the connecting beams 5-4 are fixedly arranged between the two U-shaped screw assemblies 5-3 and the mounting seat body 5-1.

The soft sleeve connecting component 2 and the supporting component are connected through the binding belt, so that the soft sleeve connecting component is convenient to detach and flexible to install.

Referring to fig. 1 and 2, the lower end of the insulation wall cotton quilt 100 is provided with a cotton quilt cover 8, and the cotton quilt cover 8 is buried underground to increase the tightness of the insulation wall, i.e. to eliminate the phenomenon of ventilation and air leakage at the bottom of the insulation wall. One side of the lower end of the heat-insulating wall cotton quilt 100 is provided with a soil covering pressing plate 6, the cotton quilt soil covering part 8 is positioned between the soil covering pressing plate 6 and the bottom supporting beam 3, and the soil covering pressing plate 6 is used for compacting the soil to further increase the tightness of the heat-insulating wall. In this embodiment, the earthing presser 6 and the bottom support beam 3 are both fixed on the ground by means of a ground spike assembly.

In this embodiment, the outside of the heat-insulating wall cotton quilt 100 is set to be white, the upper part of the inside of the heat-insulating wall cotton quilt 100 is set to be black so as to quickly raise the temperature in the greenhouse, and the lower part of the inside of the heat-insulating wall cotton quilt 100 is set to be white so as to avoid the death of plants close to the heat-insulating wall cotton quilt 100 due to high-temperature baking.

The greenhouse with high land utilization rate as shown in fig. 5 comprises the heat-insulating wall, a male wall assembly 300 connected with the heat-insulating wall, a main beam supporting frame assembly 200 for supporting the heat-insulating wall and the male wall assembly 300, a heat-insulating quilt 400 arranged on the male wall assembly 300 and a curtain rolling machine assembly 500 for rolling and unrolling the heat-insulating quilt 400. One end of the heat preservation quilt 400 is lapped and arranged at the upper end of the heat preservation wall cotton quilt 100 of the heat preservation wall. The upper end of the heat preservation wall cotton quilt 100 is fixedly connected with one end of the heat preservation quilt 400 through a magic tape assembly, a heat preservation quilt pressing plate 401 is pressed on the heat preservation quilt 400, and the heat preservation quilt pressing plate 401 is located above the magic tape assembly.

The thickness of the cotton quilt of the heat-insulating wall is about 20 cm, the thickness of the supporting component is 10 cm, the whole thickness of the heat-insulating wall is 30 cm, the existing soil wall generally occupies 5 m wide soil, as shown in fig. 5, a greenhouse with the length of 100 m and the width of 12 m can increase the using area of 470 m, and the land utilization rate is increased by 39%.

Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art may modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features thereof; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. A thermal insulation wall, comprising:

the heat preservation wall cotton quilts (100) comprise a plurality of cotton quilting bags (1), and the cotton quilting bags (1) are mutually and flexibly connected;

the support assembly comprises a strip-shaped bottom support beam (3) arranged on the ground and a plurality of upright posts (4) arranged on the bottom support beam (3) at intervals, wherein two adjacent upright posts are connected through a plurality of connecting beams (5-4) which are arranged up and down;

the soft sleeve connecting assemblies (2) are arranged at intervals on one side, facing the supporting assembly, of the heat-insulating wall cotton quilt (100), and comprise long soft sleeve bodies (2-2) and connecting steel bars (2-4) penetrating through the soft sleeve bodies (2-2), the soft sleeve bodies (2-2) are fixedly arranged on the heat-insulating wall cotton quilt (100) through soft sleeve connecting parts (2-1), and the length directions of the soft sleeve bodies (2-2) are parallel to the length directions of the bottom supporting beams (3);

the soft sleeve body (2-2) is provided with a plurality of soft sleeve openings (2-3) at intervals, and the soft sleeve openings (2-3) are used for exposing the connecting reinforcements (2-4) so that the connecting reinforcements (2-4) are fixedly connected with the bottom supporting beam (3) or the connecting beam (5-4) through binding bands.

2. The heat preservation wall according to claim 1, wherein the cotton quilt bags (1) are integrally long, the length direction of the cotton quilt bags is parallel to the length direction of the bottom supporting beam (3), and two adjacent cotton quilt bags (1) are flexibly connected through a soft connecting part (1-3).

3. A thermal insulation wall according to claim 1, wherein the cotton quilt bag (1) comprises a cotton quilt bag cover (1-1) made of polyester fiber sandwich mesh cloth and polyester fiber cotton (1-2) filled in the cotton quilt bag cover (1-1).

4. The heat preservation wall according to claim 1, wherein a plurality of connecting rings (3-2) are arranged on the bottom supporting beam (3) at intervals, the connecting rings (3-2) correspond to soft sleeve openings (2-3) arranged on the soft sleeve connecting assembly (2) at the bottom of the heat preservation wall cotton quilt (100), and the connecting rings (3-2) are fixedly connected with connecting steel bars (2-4) of the soft sleeve connecting assembly (2) at the bottom of the heat preservation wall cotton quilt (100) through the binding bands.

5. A heat insulation wall according to claim 1, wherein a plurality of connecting beam fixing assemblies (5) are arranged on the upright post (4) at intervals, and each connecting beam fixing assembly (5) comprises a mounting seat body (5-1), two mounting seat clamping plates (5-2) oppositely arranged on one side of the mounting seat body (5-1) facing the upright post (4) and two U-shaped screw assemblies (5-3) oppositely arranged on the mounting seat body (5-1); the mounting seat clamping plates (5-2) are fixedly arranged on the upright posts (4), and the connecting beams (5-4) are fixedly arranged between the two U-shaped screw assemblies (5-3) and the mounting seat body (5-1).

6. A heat preservation wall according to claim 1, characterized in that a cotton quilt cover (8) is arranged at the lower end of the heat preservation wall cotton quilt (100), and the cotton quilt cover (8) is buried underground for increasing the tightness of the heat preservation wall;

one side of heat preservation wall cotton quilt (100) lower extreme is provided with earthing clamp plate (6), cotton quilt earthing portion (8) are located between earthing clamp plate (6) and bottom supporting beam (3), earthing clamp plate (6) are used for the compaction soil in order to further increase the seal of heat preservation wall.

7. The greenhouse with high land utilization rate is characterized by comprising the heat preservation wall, a sunny side wall assembly (300) connected with the heat preservation wall, a main beam supporting frame assembly (200) for supporting the heat preservation wall and the sunny side wall assembly (300), a heat preservation quilt (400) arranged on the sunny side wall assembly (300) and a curtain rolling machine assembly (500) for collecting and releasing the heat preservation quilt (400);

one end of the heat preservation quilt (400) is lapped and arranged at the upper end of the heat preservation wall cotton quilt (100) of the heat preservation wall.

8. The greenhouse with high land utilization rate according to claim 7, wherein the upper end of the heat-insulating wall cotton quilt (100) is fixedly connected with one end of the heat-insulating quilt (400) through a magic tape assembly, the heat-insulating quilt (400) is provided with a heat-insulating quilt pressing plate (401) in a pressing mode, and the heat-insulating quilt pressing plate (401) is located above the magic tape assembly.