KR101363041B1 - Energy saving greenhouse - Google Patents

Abstract

The present invention relates to an energy saving vinyl house.
An energy-saving vinyl house according to the present invention comprises a vinyl house having a space formed therein; A lifting device formed on the cover part; It is configured to include a cultivation port which is raised to be coupled to the cover by the elevating device or lowered to be separated from the cover.
According to this, it is possible to concentrate heat energy by limiting and cultivating high-temperature cultivated crops in an elevated cultivation port, thereby preventing unnecessary waste of energy, thereby reducing costs, and cultivating crops on the ground. Since the space utilization of the plastic house can be increased, it is possible to maximize agricultural profits.

Description

Energy saving vinyl house {ENERGY SAVING GREENHOUSE}

The present invention relates to an energy-saving vinyl house, and more particularly, the high temperature cultivated crops can be cultivated in a port lifted by an elevating device, and room temperature crops can be cultivated on the ground to increase the space utilization of the vinyl house, It relates to an energy-saving plastic house that can reduce energy waste by maintaining high temperature conditions in a limited space for crops only.

In general, the plastic house (greenhouse) is to play a role to create a suitable environment for the growth of crops through the internal warming, it is widely used in winter as well as summer.

The plastic house, which is generally known, has arch frames (hereinafter referred to as "slide frames") which are erected in a plurality of rows at regular intervals in the longitudinal direction on the ground, and the upper or side portions of the arch frames are longitudinally held. At least one longitudinal straight frame (hereinafter referred to as a "vertical frame") that interconnects, and a plastic cover covering the bow and vertical frame to cover the bow and bell frame to keep the interior warm.

Therefore, the vinyl house configured as described above can be easily installed at low cost, and can sufficiently obtain a warming effect by using a vinyl cover having excellent cold blocking ability.

Therefore, most farms are growing crops using plastic houses because of the advantages of easy construction and sufficient thermal effect.

These greenhouses keep the indoor temperature high by solar heat, but the temperature decreases at night or in the winter when the sun is not available. Therefore, heating facilities such as boilers or stoves are used to maintain the indoor temperature of the greenhouse at a level suitable for crop growth. It will run.

In order to prevent the warmth of the inside of the house from being taken out at night or in winter, a heat insulating cover made of heat-insulating fabric or non-woven fabric may be covered on the outer surface of the plastic house, and in some cases, horizontally above the inside of the plastic house. Curtains are provided with thermal curtains that open and close.

By the way, even if the conventional vinyl house hits the insulation cover or insulation curtain, the space required for heating is enclosed by the insulation cover or insulation curtain, so that almost all of the interior of the vinyl house or the ceiling part of the upper portion of the insulation curtain is excluded. As such, a large amount of heat is required to heat a large space, and heating costs are very high.

Therefore, various technologies for reducing energy are being studied, and as a prior art, Korean Patent No. 10-0262766 has been disclosed.

However, there is a problem that it is difficult to solve the heavy burden of heating costs yet.

The present invention has been made to solve the above problems of the prior art, cultivation of high-temperature cultivation in the port lifted by the lifting device, can be grown at room temperature crops in the ground can increase the space utilization of the plastic house The aim is to provide an energy-saving vinyl house that can reduce energy waste by maintaining high temperature conditions in a limited space only for high temperature crops.

The object of the present invention is a vinyl house having a space formed therein, which is formed in the ceiling, the lower portion of the cover portion; A lifting device formed on the cover part; It can be achieved by the energy-saving vinyl house, characterized in that it comprises a cultivation port which is raised to be coupled to the cover by the elevating device or lowered to be separated from the cover.

The elevating device includes a drive motor mounted to an upper end of the cover part; A winch connected to the pulley of the driving motor and rotating; It comprises a connecting means wound on the winch and supported by a plurality of rollers connected to the cultivation port.

The cover portion and the cultivation port includes a heating means.

The heat generating means is composed of an electric heater or a planar heating element formed on the inner surface of the cover portion.

The heating means is composed of a hot water tank or a heating wire embedded in the cultivation port.

The cultivation port is formed with a water supply pipe in the lower portion so that water is made toward the ground.

According to the present invention, by limiting the cultivation of the high-temperature cultivation crop in the cultivation port to be elevated, it is possible to concentrate the heat energy, to prevent unnecessary energy waste, and to obtain a cost saving effect, and also to cultivate crops on the ground Since it can increase the space utilization of the plastic house, there is an effect to maximize the agricultural profits.

1 is a perspective view showing an energy-saving vinyl house according to the present invention.
2 and 3 is a front view showing the operation of the energy-saving vinyl house according to the present invention.
4 to 6 is a front view showing another embodiment of the energy-saving vinyl house according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an energy-saving vinyl house according to the present invention, Figures 2 and 3 is a front view showing the operation of the energy-saving vinyl house according to the present invention, Figures 4 to 6 according to the present invention Front view showing another embodiment of an energy-saving vinyl house.

As shown in Figures 1 to 3, the energy-saving vinyl house (A) according to the present invention, is formed on the ceiling, the lower cover portion 2 is opened; An elevating device 4 formed on an upper portion of the cover part 2; It is configured to include a cultivation port (6) is raised by the elevating device (4) to be coupled to the cover portion 2 or lowered to be separated from the cover portion (2).

The vinyl house (A) is composed of a plurality of frames 100 installed on the ground, and a vinyl or glass plate attached to the plurality of frames 100 to be cut off from the outside, the upper ceiling forms a dome shape, The space 300 is formed.

On the inner surface of the plastic house (A) is formed a plantation 200 for growing crops. The crop of the plantation 200 is selected a crop which is easy to grow even in a relatively low temperature or room temperature environment.

On the other hand, crops of the cultivation port 6 are selected to grow at high temperatures.

On the other hand, the cover portion 2 is installed on the ceiling, the lower portion is opened and consists of a substantially rectangular parallelepiped.

And the cultivation port (6) is made of an approximately rectangular parallelepiped with the upper part opened so as to be coupled through the opening of the lower part of the cover part (2).

Therefore, the cultivation port 6 is combined with the cover part 2 to form a closed box shape, and its inner space may be isolated from the inner space 300 of the plastic house.

In addition, the cultivation port 6 can be combined with or separated from the cover part 2 by lifting and lowering by the elevating device 4 so that the manager periodically or after planting a plant in the cultivation port 6 to maintain the growth state. It was easy to confirm.

In addition, a water supply pipe 400 is formed at the lower portion of the cultivation port 6, that is, water is supplied toward the cultivation site 200.

The water supply pipe 400 is preferably equipped with a shower head so that water is widely sprayed.

Meanwhile, the elevating device 4 includes a driving motor 42 mounted on an upper end of the cover part 2; A winch 44 connected to the pulley of the driving motor 42 to rotate; It is configured to include a connecting means 46 wound on the winch 44 and supported by a plurality of rollers 500 and connected to the cultivation port 6.

The connecting means 46 is selected from a wire, a rope, a chain or the like. And in the case of wire or rope is vertically converted from the winch 44 arranged horizontally is connected to the side of the cultivation port (6), so that the roller 500 is mounted on the bent portion to prevent the occurrence of friction of the bent portion do.

That is, it is wound on the roller 500 so that a wire or a rope is arrange | positioned.

The elevating device 4 is configured such that the plurality of elevating devices 4 are arranged at regular intervals on the cover 2 by forming the drive shafts 48 of the winch 44 to be long. The load generated during the lifting operation can be evenly distributed.

On the other hand, as shown in Figures 2 and 3, the cover portion 2 and the redistribution port 6 is provided with a heat generating means 8 to supply heat therein.

In other words, the cultivation port (6) is intended to cultivate high-temperature crops, so that the heating means (8) is separately provided to maintain the internal environment at a high temperature.

The heating means 8 can be proposed in various embodiments.

Specifically, as shown in FIG. 4, the heat generating means 8 includes a planar heating element 81 formed on the inner surface of the cover part 2.

Alternatively, as shown in Figure 5, the heat generating means 8 is composed of a hot water tank 82 embedded in the cultivation port (6).

The hot water tank 82 is a hot water is stored, and the steam discharge pipe 822 is formed for discharging steam to heat the culture soil, so that the steam discharge pipe 822 is buried in the culture soil so that the steam discharged through it to heat the culture soil. In addition, the inner environment of the cultivation port 6 can be maintained at a high temperature and high humidity state as it can also act as a source of moisture.

Alternatively, as shown in Figure 6, the heat generating means 8 is made of a heating heating wire 84 for embedding in the cultivation port (6).

Referring to the operation and effects of the present invention configured as described above are as follows.

First, the controller (not shown) is operated to drive the lifting device 4 to lower the cultivation port 6. Manipulate it to about the waist of the worker.

Then, in the cultivation port (6) contains a culture soil suitable for the characteristics of the crop, and after selecting the desired high temperature crops are planted.

When the planting work of the cultivation port 6 is completed, the lifting device 4 is driven to raise the cultivation port 6 and coupled to be inserted into the cover part 2, as shown in FIG. 3.

Preferably it is enough that the top of the cultivation port 6 is inserted into the cover (2).

Thereafter, the controller 500 is operated to turn on the heat generating means 8 so as to generate heat, and to maintain proper humidity.

Therefore, high-temperature crops can be grown only in the cultivation port (6), which is a limited space, so that heat loss to the outside can be reduced as much as possible, and energy savings can be expected.

On the other hand, the plantation 200 formed on the ground in the plastic house (A) can be grown by planting crops that can grow sufficiently at low or normal temperatures.

Therefore, it is possible to cultivate multiple plants in a single plastic house (A) can increase the space utilization, and can also expect energy savings, thereby maximizing agricultural profits.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

2 cover 4 lifting device
6: cultivation port 42: driving motor
44: winch 46: connecting means
81: planar heating element 82; Hot water tank
84: heating wire

Claims (7)

In the plastic house with a space formed inside,
A cover part 2 formed on the ceiling and having an open bottom;
A lifting device 4 formed on the cover part 2;
Energy-saving vinyl house, comprising: a cultivation port (6) is raised by the lifting device (4) to be coupled with the cover portion (2) or lowered to be separated from the cover portion (2).
The method of claim 1,
The lifting device 4,
A drive motor 42 mounted to an upper end of the cover part 2;
A winch 44 connected to the pulley of the driving motor 42 to rotate;
Energy-saving plastic house, characterized in that it comprises a; winch 44 is wound on a plurality of rollers (500) connected to the connecting means 46 connected to the cultivation port (6).



The method of claim 1,
Energy-saving vinyl house, characterized in that the water supply pipe 400 is formed in the cultivation port (6) to the water supply toward the plantation (200).
The method of claim 1,
Energy-saving vinyl house, characterized in that the cover portion (2) and the cultivation port (6) includes a heat generating means (8) to supply heat therein.
5. The method of claim 4,
The heat generating means 8
Energy-saving vinyl house, characterized in that the planar heating element (81) formed on the inner surface of the cover portion (2).
5. The method of claim 4,
The heating means (8) is an energy-saving vinyl house, characterized in that the hot water tank (82) or heating heating wire (84) embedded in the cultivation port (6). The method according to claim 6,
The hot water tank 82 is hot water is stored, energy-saving vinyl house, characterized in that the steam discharge pipe 822 is formed for discharging steam to heat the culture soil.

Images