KR20220063957A - Semi-basement type vinyl greenhouse - Google Patents

Abstract

The present invention relates to a semi-underground plastic greenhouse to save energy and to improve productivity. According to the present invention, the semi-underground plastic greenhouse comprises: an underground part (110) forming a retaining wall (111) with four sides made of soil by digging to form a depth of 1.5 to 2 m from the ground; a ground part (120) forming a frame (122) on the upper part of the underground part (122) and covering the underground part (110) with plastic film; a first installation part (130) burying a base in the ground of the underground part (110) to be install the same vertically and for a plurality of the first installation parts to be arranged along the retaining wall (111) of four sides; a second installation unit (140) coupled to the first installation unit (130), provided with a certain length toward the front of the retaining wall (111) and for a plurality of the second installation unit to be arranged in multiple stages in the longitudinal direction of the first installation unit (130); and a crop bed (150) seated horizontally on the second installation unit (140) and accommodating soil between the retaining wall (111) and the same to plant crops.

Description

Semi-basement greenhouse {SEMI-BASEMENT TYPE VINYL GREENHOUSE}

The present invention relates to a semi-subterranean plastic house, and more particularly, by constructing a semi-subterranean greenhouse for plant cultivation and allowing the roots of plants to settle underground through an underground retaining wall, energy saving and productivity are reduced. It is about a semi-underground greenhouse that can be improved.

In general, a greenhouse is a greenhouse constructed so that the amount of light, temperature, humidity, etc. can be artificially controlled so as to be suitable for cultivation of crops.

A plastic house is largely composed of a skeleton material made of steel or PVC pipe, and a covering material made of vinyl chloride and polyethylene film.

A typical vinyl house forms an upper structure using an arch-shaped pipe and buries both ends in the ground, or builds a skeleton by combining an arch pipe with a separate support pipe, and forms a structure by airtightly covering the outside with a covering material do.

On the other hand, recently, a plant cultivation system in the form of a plant factory capable of mass production of agricultural products is being distributed, and various cooling and heating devices, temperature and humidity control devices, etc. are provided inside the plastic house and a multi-stage crop bed is installed configure to do

For example, in Korea Registered Utility Model No. 20 - 0350441, there is a structure that faces the greenhouse door of the greenhouse and is constructed using building materials that have been insulated with lightweight panels, a bed facility installed to grow crops in the greenhouse, and a bed facility Including a bed stacking means for stacking in three or four layers, etc., inside the structure, a heating and cooling device, artificial lighting, and a humidity maintenance device are further installed to satisfy the conditions for continuous growth of vegetables and flowers. It constitutes an all-weather greenhouse device.

Korean Patent No. 10 - 1436149 discloses a cultivation room with a transparent roof on the top, a support tray installed inside the cultivation room to support a planting container in which plants are planted, and heating the walls and floor of the cultivation room to control the temperature. The support tray is provided with a heating means to be installed at regular intervals, the support tray is fixed to the posts and installed horizontally, a bed installed to be slidably movable on the guide rail and the planting container is seated, a bed To configure a plant cultivation greenhouse having a heating unit for transferring heat to the planting container by heating.

In Korea Patent No. 10-1028827, there is a fluid supply source installed on the outside of the house body, at least one installed on the house body and connected to the fluid supply source, and the fluid supplied from the fluid supply source by sucking air inside the house body from the lower side and It includes a fan coil oil for heat exchange, and a geothermal heat exchange unit for heating and cooling the soil by a heat exchange pipe buried in the soil at the bottom of the house body or in the soil accommodated in the bed, and the geothermal heat exchange unit is buried in the soil at the bottom of the house body or in the soil accommodated in the bed. The heating and cooling system of the plastic house is composed of a heat exchange pipe and a heat blocking member that covers the soil on the floor or the soil accommodated in the bed to prevent the heat inside the soil from being blocked to the outside.

Korea Registered Utility Model No. 20 - 0350441 (2004.05.14) Korean Patent Registration No. 10 - 1436149 (2014.09.01) Korean Patent Registration No. 10 - 1028827 (2011.04.12) Korean Patent Registration No. 10-0586300 (06.07. 2006)

The plastic house to which the prior art as described above is applied builds a skeleton using a pipe on the ground, forms a structure by covering the vinyl, and includes various cooling and heating devices and a crop bed equipped with a heating means on the bed stacking means. Set up and configure to grow crops.

However, since it is difficult to expect a large thermal insulation effect in summer or winter with only the polyethylene film in the thermal insulation power of the plastic house, there is a problem in that energy efficiency is greatly reduced. Therefore, it is necessary to build a double or triple tunnel or install a separate thermal cover to drive it.

In particular, in the conventional plastic house, since the crop bed is built on the ground in the plastic house, the soil dries easily and is vulnerable to external temperature, so there is a problem in that a lot of energy is consumed for temperature and humidity control.

Accordingly, the present invention was invented to solve the problems of the prior art as described above,

An underground part 110 excavating to form a depth of 1.5 to 2 m from the ground 121 to form a retaining wall 111 whose slope is made of soil;

A ground portion 120 provided to cover the underground portion 110 by forming a frame 122 on the ground 121 at the upper portion of the underground portion 110 and covering the underground portion 110 with a vinyl film;

A first installation part 130 for burying the base in the ground of the underground part 110 and installing it vertically and arranging a plurality of them along the slope retaining wall 111;

A second installation part 140 coupled to the first installation part 130 and provided with a predetermined length toward the front of the retaining wall 111 and disposing a plurality of them in multiple stages in the longitudinal direction of the first installation part 130;

It includes a crop bed 150 that is seated horizontally on the second installation unit 140 and receives soil between the retaining wall 111 and planting crops.

In addition, the first installation part 130 is disposed along the slope retaining wall 111 at intervals of 1 m,

The second installation part 140 is configured by combining the plurality of first installation parts 130 so as to be positioned at the same height for each stage.

In addition, between the first installation part 130 and the retaining wall 111, by configuring a fence network 160 in the form of a mesh through which the roots of crops can pass, the purpose of saving energy and improving productivity is achieved. It is possible.

The present invention is a semi-subterranean plastic house, which is configured to form a semi-subterranean structure and allow the roots of plants to settle underground through an underground retaining wall, different from the conventional structure in which a plastic house is built on an open field and planted by installing a crop bed on the ground. to provide.

Therefore, the present invention has the advantage of being able to significantly increase the energy efficiency of cooling and heating since it is possible to maintain a constant indoor temperature by minimizing the influence of the external temperature according to the change of seasons compared to the conventional plastic house.

In addition, since the present invention uses subterranean soil compared to the conventional soil accommodated in a crop bed, the temperature and humidity of the soil can be stably controlled, so that energy saving effects can be expected according to workability and temperature and humidity control.

In addition, according to the present invention, since plants can take root underground through the underground retaining wall, it is effective for the growth and development of crops and can improve productivity, and there is an advantage in that the durability of the structure can be secured in an environment-friendly manner.

1 is a perspective view of a semi-underground plastic house according to the present invention.
Figure 2 is a front view of the semi-underground plastic house according to the present invention.
Figure 3 is a perspective view of the main part of the semi-underground plastic house according to the present invention.
4 is an exploded perspective view of a semi-underground plastic house according to the present invention.
5 is an exemplary view of the use of a semi-underground plastic house according to the present invention.

Hereinafter, the configuration and operation according to a preferred embodiment of the semi-underground plastic house of the present invention will be described in detail with reference to the accompanying drawings. In the following description, detailed descriptions of parts that can be easily implemented by those skilled in the art may be omitted.

1 is a perspective view of a semi-underground plastic house according to the present invention, FIG. 2 is a front view of a semi-underground plastic house according to the present invention, FIG. 3 is a perspective view of the main part of a semi-underground plastic house according to the present invention, and FIG. An exploded perspective view of the house, Figure 5 shows an exemplary view of the use state of the semi-underground plastic house according to the present invention.

The semi-subterranean plastic house to which the technology of the present invention is applied is a semi-subterranean method of constructing a plastic house that is conventionally formed by constructing a structure on the ground for plant cultivation, and the roots of plants are settled underground through an underground retaining wall. Note that it is about a semi-underground vinyl house that is configured to be possible.

For this, the semi-underground plastic house of the present invention is largely an underground part 110 , an above-ground part 120 , and a first installation part 130 , a second installation part 140 , and a crop bed 150 installed in the underground part 110 . It comprises and is specifically as follows.

The underground part 110 is excavated to form a depth of 1.5 to 2 m from the ground 121 to form a retaining wall 111 whose slope is made of soil.

The underground part 110 is formed in a tetrahedral shape vertically forming the retaining wall 111 . Compared to the conventional plastic house planting crops directly on the ground 121 or arranging a crop bed on the ground 121, in the present invention, a retaining wall ( 111) is formed.

Since the underground part 110 forms an internal space surrounded by the retaining wall 111 underground, the influence of the external temperature is minimized and the temperature is maintained at a level of 5° by geothermal heat.

The above-ground part 120 is configured to cover the underground part 110 by forming a frame 122 on the ground 121 at the upper part of the underground part 110 and covering the underground part 110 with a vinyl film.

The above-ground part 120 is provided with a conventional arch-shaped pipe frame 122 installed on the upper part of the underground part 110, but its height is formed lower than that of a conventional plastic house to minimize the exposed part, and a predetermined entrance is provided on one side. prepare

The pipe of the above-ground part 120 is selectively applied to a structure for supporting by binding to the upper end of the first installation part 130, which will be described later, or by embedding it in the ground at the upper end of the retaining wall 111 of the underground part 110 to support it. You can do it.

The first installation part 130 is vertically installed by embedding the base in the ground of the underground part 110 , and is configured to be disposed along the slope retaining wall 111 .

The first installation part 130 is installed at a height corresponding to the depth of the retaining wall 111 and is disposed along the slope retaining wall 111 at intervals of 1 m to form the foundation of the structure of the underground part 110 .

On one side of the first installation part 130 , a second installation part 140 to be described later in the longitudinal direction of the individual first installation part 130 is provided to be coupled thereto.

On the other side of the first installation part 130, a fence network 160, which will be described later, is coupled to a plurality of first installation parts 130 arranged at regular intervals.

A predetermined bracket may be mounted on the upper end of the first installation part 130 so that the pipe end of the above-ground part 120 can be coupled thereto.

The first installation part 130 is configured to stably reinforce the support structure by installing a predetermined pile 131 on the inside of the retaining wall 111 and fixing the first installation part 130 with a rope.

The second installation part 140 is coupled to the first installation part 130 and provided with a predetermined length toward the front of the retaining wall 111 , but configured to arrange a plurality of them in multiple stages in the longitudinal direction of the first installation part 130 . do.

The second installation part 140 is provided in the form of a bracket coupled to the first installation part 130 by a predetermined fastening means or a rod shape coupled by welding.

The second installation part 140 is formed of, for example, a metal material such as stainless steel to prevent corrosion by moisture and durability to a level capable of supporting the weight of the crop bed 150 and the soil and crops accommodated therein, but 1 It is configured to be coupled at an angle inclined at 50 to 60° with respect to the installation unit 130 .

The second installation part 140 is coupled to be positioned at the same height for each stage in the first installation part 130 where a plurality of them are disposed. Accordingly, the following crop beds 150 are provided to be horizontally seated on the second installation parts 140 positioned at the same stage where they are coupled to the plurality of first installation parts 130 .

The crop bed 150 is horizontally seated on the second installation part 140 and configured to plant crops by accommodating the soil between the retaining wall 111 and the retaining wall 111 .

The crop bed 150 is formed in a horizontal plate shape so as to be seated over the second installation part 140 provided for each of the first installation parts 130 in the horizontal direction.

The crop bed 150 is formed in a standard corresponding to the horizontal length of the slope retaining wall 111 and the length of the second installation part 140 . Due to the inclination angle of the second installation part 140 , the crop bed 150 is also inclined at 50 to 60° with respect to the first installation part 130 , so that between the retaining wall 111 and the crop bed 150 . Form a receiving space for planting soil and crops.

The crop bed 150 is easy to control the moisture contained in the soil and is made of a nature-friendly wood material. It is configured to be reliably accommodated.

The crop bed 150 forms a predetermined gap between the retaining wall 111 and the retaining wall 111 by the first installation part 130 to allow drainage, and if necessary, a drain hole is added on the crop bed 150 . can be formed with

On the other hand, between the first installation part 130 and the retaining wall 111 is provided with a fence network 160 in the form of a mesh through which the roots of crops can pass.

The fence network 160 prevents soil and soil from flowing into the underground part 110 from the retaining wall 111, and the roots of the crops planted in the crop bed 150 pass through the fence network 160 to the retaining wall 111. Provided so that it can grow underground.

Looking at the schematic usage state of the semi-underground plastic house to which the technology of the present invention is applied having the configuration as described above is as follows. Since the following description is given by way of preferred embodiments of the present invention, the present invention is not limited by the following examples, and it will be natural that various modifications may be provided without departing from the scope of the present invention. .

As shown in FIG. 1, the semi-underground plastic house according to the present invention has an underground part 110 that forms a depth of 1.5 to 2 m with respect to the ground 121, and a frame 122 that covers the upper part of the underground part 110, and It consists of a ground part 120 made of a covering material.

The first installation parts 130 are installed in the underground part 110 at intervals of 1 m along the slope retaining wall 111 made of soil, and a fence network 160 is installed between the retaining wall 111 and the first installation part 130 . this is provided

A crop bed 150 formed in a horizontal plate shape is provided on the second installation unit 140 coupled to the first installation unit 130 and arranged in upper and lower stages.

The crop bed 150 is tilted at an angle of 50 to 60° from the retaining wall 111 by the second installation unit 140 and is inclinedly seated, and the interior space accommodates good quality soil for planting crops. .

That is, the semi-underground plastic house according to the present invention forms a structure in which the crop bed 150 is provided along the slope of the basement 110 rather than the ground.

5, when a crop is planted in the soil accommodated in the crop bed 150 provided in multiple stages along the slope, the roots grow toward the retaining wall 111 during the growth process and pass through the fence network 160. will extend out into the ground.

Therefore, the crop can grow by receiving nutrients from the soil accommodated in the crop bed 150 and the soil of good quality underground, and the entire slope of the underground part 110 is structurally stabilized by the roots of the crop. do.

The semi-subterranean plastic house according to the present invention as described above minimizes the influence of the external temperature due to seasonal changes compared to the conventional plastic house, so that the indoor temperature of the underground part 110 can be naturally maintained constant at about 5 ° C. , since the underground soil is used compared to the soil accommodated in the conventional crop bed, it is possible to stably control the temperature and humidity of the soil, thereby significantly increasing the energy efficiency.

In addition, in the present invention, since plants can take root underground through the underground part 110 and the retaining wall 111, it is effective for the growth and development of crops, can improve productivity, and can secure the durability of the structure in an environment-friendly way. have an effect

110: underground
111: retaining wall
120: above ground
121: ground
122: frame
130: first installation part
140: second installation part
150: crop bed
160: fence network

Claims (3)

An underground part 110 excavating to form a depth of 1.5 to 2 m from the ground 121 to form a retaining wall 111 whose slope is made of soil,
A ground portion 120 provided to cover the underground portion 110 by forming a frame 122 on the ground 121 at the upper portion of the underground portion 110 and covering the underground portion 110 with a vinyl film;
A first installation part 130 for burying a base in the ground of the underground part 110 and installing it vertically and arranging a plurality of them along the slope retaining wall 111;
A second installation part 140 coupled to the first installation part 130 and provided with a predetermined length toward the front of the retaining wall 111 and disposing a plurality of them in multiple stages in the longitudinal direction of the first installation part 130;
Semi-subterranean vinyl house comprising a crop bed (150) which is seated horizontally on the second installation part (140) and receives soil between the retaining wall (111) to plant crops. The method of claim 1,
The first installation part 130 is disposed along the slope retaining wall 111 at intervals of 1 m,
The second installation part 140 is a semi-underground plastic house, characterized in that it is configured by combining the plurality of first installation parts 130 to be positioned at the same height for each stage. The method of claim 1,
Semi-underground vinyl house, characterized in that it is provided with a mesh-type fence network 160 through which the roots of crops can pass between the first installation part 130 and the retaining wall 111 .

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