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KR-102964636-B1 - Greenhouse with rotary panels

KR102964636B1KR 102964636 B1KR102964636 B1KR 102964636B1KR-102964636-B1

Abstract

The present invention provides a greenhouse equipped with a rotatable panel that can improve thermal insulation performance by forming the composite panel as a vinyl member made of polyethylene (PE), a thermal insulation member made of polycarbonate (PC), or acrylic (PMMA), and can reduce energy consumption by configuring the composite panel to be rotatable on a frame section so that the composite panel can be rotated as needed to block outdoor heat on hot days and reflect indoor heat to keep it indoors on cold days. The present invention comprises a frame section (200) installed on the ground and composed of a plurality of horizontal frames (210) and vertical frames (220); a composite panel (300) installed on the inner side of the frame section (200) and formed to form an outer wall; and a rotatable member (400) positioned between the frame section (200) and the composite panel (300) for rotating the composite panel (300). The above composite panel (300) is characterized by comprising: a frame body (310) formed in a rectangular shape, having the rotating member (400) coupled to the outside and formed in an inner insertion groove (311) along the inner perimeter; and a composite member (320) coupled to the inner insertion groove (311) formed inside the frame body (310).

Inventors

  • 송수빈
  • 윤성환

Dates

Publication Date
20260512
Application Date
20240715

Claims (5)

  1. A frame section (200) installed on the ground and composed of a plurality of horizontal frames (210) and vertical frames (220); A composite panel (300) installed on the inner side of the above-mentioned frame part (200) and formed to form an outer wall; It includes a rotating member (400) positioned between the frame part (200) and the composite panel (300) for rotating the composite panel (300); The above composite panel (300) is, A frame body (310) formed in a rectangular shape, having the rotating member (400) coupled to the outer side and formed in an inner insertion groove (311) along the inner circumference; It includes a composite member (320) coupled to an inner insertion groove (311) formed inside the above-mentioned frame body (310), and The above rotating member (400) is, It includes an upper body (410) coupled to the above frame part (200) and a lower body (420) coupled to the above composite panel (300), The upper body (410) above is, It has a flat plate portion (411) formed in a flat plate shape, and has a protruding portion (413) that protrudes upward from the center side of the flat plate portion (411) and has an insertion hole (412) formed inside. The above lower body (420) is, A greenhouse having a rotatable panel characterized by having a flat plate portion (421) formed in a flat plate shape, and an insertion hole (422) that protrudes upward from the center side of the flat plate portion (421) and is inserted into an insertion hole (412) formed in a protrusion (413) of the upper body (410).
  2. In Article 1, The above composite member (320) is, A thermal insulation member (322) having a coating portion (321) coated on the inside; A vinyl member (323) installed spaced apart from the above-mentioned insulating member (322); A space member (325) installed between the insulation member (322) and the vinyl member (323) to form a spaced-apart space (324) between the insulation member (322) and the vinyl member (323); A greenhouse with a rotating panel characterized by including a sealing member (326) formed on the outer side of the space member (325) to prevent moisture from penetrating into the spaced-out space (324).
  3. In Article 2, The above insulating member (322) is, It is composed of either polycarbonate (PC) or acrylic (PMMA), and The above vinyl member (323) is, A greenhouse equipped with a rotating panel characterized by being made of polyethylene (PE).
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  5. In Article 1, The frame body (310) of the above composite panel (300) has an outer insertion groove (312) formed along the perimeter on the outer side, and A greenhouse having a rotatable panel, characterized by including a sealing member (500) inserted into the outer insertion groove (312) of the frame body (310) of the composite panel (300) to ensure airtightness with the frame part (200).

Description

Greenhouse with rotary panels The present invention relates to a greenhouse equipped with a rotatable panel, and more specifically, to a greenhouse equipped with a rotatable panel that can improve thermal insulation performance by forming the composite panel as a vinyl member made of polyethylene (PE), polycarbonate (PC), or acrylic (PMMA), and can reduce energy consumption by configuring the composite panel to be rotatable on a frame so that the composite panel can be rotated as needed to block outdoor heat on hot days and reflect indoor heat to keep it indoors on cold days. Generally, a greenhouse is formed by installing a frame structure and covering the outer surface of the frame with glass, plastic, or vinyl. A greenhouse refers to a structure intended for the cultivation of crops, such as plants, regardless of the season or external environmental conditions, by creating a growth environment separated from the external environment. Recently, the development of greenhouses equipped with various sensors—that is, smart farms—has increased, and accordingly, the full automation of greenhouses is also becoming popularized. As such greenhouses have been proposed in various ways, the glass greenhouse of Patent Document 1 is characterized by comprising: an outer wall made of double-layered glass panels and having a dye-sensitized solar cell mounted on one side; a storage system for storing electrical energy generated from the dye-sensitized solar cell; a power control system for supplying electrical energy transmitted from the storage system to an electrical device; a dust measuring means installed at one end of the interior of the solar energy greenhouse to measure dust and output an alarm signal if it exceeds a standard; and an odor coating device electrically connected to the dust measuring means and outputting an odor to the outside according to a control signal from the dust measuring means. However, the aforementioned conventional technology had a problem in that the consumption of energy sources to operate the devices configured to control light, temperature, humidity, etc., inside the greenhouse increased. FIG. 1 is a perspective view of a greenhouse equipped with a rotatable panel according to a preferred embodiment of the present invention. FIG. 2 is a cross-sectional view of a composite panel in a greenhouse equipped with a rotatable panel according to a preferred embodiment of the present invention. FIG. 3 is a drawing showing the state of heat reflection according to the position of the insulating member of the composite panel in a greenhouse equipped with a rotatable panel according to a preferred embodiment of the present invention. FIGS. 4a and 4b are drawings showing the combined configuration of a frame part, a composite panel, and a rotating member in a greenhouse equipped with a rotating panel according to a preferred embodiment of the present invention. FIG. 5 is a drawing showing a sealing member formed between a frame part and a composite panel in a greenhouse equipped with a rotatable panel according to a preferred embodiment of the present invention. FIGS. 6a and 6b are drawings showing the rotational direction of a composite panel in a greenhouse equipped with a rotatable panel according to a preferred embodiment of the present invention. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings, and in FIGS. 1 to 6b, the same reference numerals are used for components that perform the same function. Meanwhile, in the drawings and detailed description, detailed descriptions and drawings of specific technical configurations and operations of elements not directly related to the technical features of the present invention have been omitted, and only the technical configurations related to the present invention have been briefly illustrated or described. Referring to FIGS. 1 to 6b, a greenhouse (100) equipped with a rotating panel according to a preferred embodiment of the present invention comprises a frame part (200), a composite panel (300), a rotating member (400), and a sealing member (500). The frame section (200) forms the entire framework of the greenhouse (100) and is composed of a horizontal frame (210) and a vertical frame (220) so that a space for plant cultivation can be formed inside. Meanwhile, in a greenhouse (100) equipped with a rotating panel according to a preferred embodiment of the present invention, the frame portion (100) may be formed in a cuboid shape formed by a horizontal frame (210) and a vertical frame (220), but as shown in FIG. 1, it may be formed in a shape having a roof by adding an inclined frame (230) to the top. At this time, the greenhouse (100) formed in a cuboid shape may be configured in a modular manner, with multiple units expanding left and right or up and down. The horizontal frame (210) and vertical frame (220) of the frame section (200) are formed in a frame shape so that a