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KR-102958778-B1 - Condensation Recycling System for Glass Greenhouse

KR102958778B1KR 102958778 B1KR102958778 B1KR 102958778B1KR-102958778-B1

Abstract

The present invention relates to a condensation water recycling system for a glass greenhouse, and more specifically, to a condensation water recycling system for a glass greenhouse that recycles condensation water generated in large quantities from roof glass or air conditioners of a building such as a glass greenhouse and enables its use for crop cultivation inside the glass greenhouse. The present invention for this purpose comprises: a gutter (14) provided on the lower side of the lower corner portion of the inclined roof glass (12) where condensation water generated from the inclined roof glass (12) of the glass greenhouse (10) is concentrated, and a roof glass lower condensation water collection pipe section (30) that collects and moves the condensation water falling along the inclined roof glass (12) into the gutter (14); and a gutter lower condensation water collection pipe section (40) that collects the condensation water generated on the lower outer surface of the gutter (14) by closely providing a water receiving body (21) on the middle lower outer side along the longitudinal direction of the gutter (14) to collect and move the condensation water into the water receiving body (21). A condensation water recycling system for a glass greenhouse is provided, characterized by comprising: a water pipe body (26) provided on the lower front outer side of the air conditioner (25) to collect condensation water generated from the air conditioner (25) installed inside the glass greenhouse (10), and an air conditioner condensation water collection pipe section (50) that collects and moves the condensation water inside the water pipe body (26); a condensation water tank section (60) in which condensation water moving along the roof glass lower condensation water collection pipe section (30), the gutter lower condensation water collection pipe section (40), and the air conditioner condensation water collection pipe section (50) is collected; and a condensation water treatment section (70) that purifies the condensation water supplied and moved into the glass greenhouse (10) through the condensation water tank section (60).

Inventors

  • 배두직
  • 류광섭
  • 이재혁

Assignees

  • 대영지에스 주식회사

Dates

Publication Date
20260507
Application Date
20250613

Claims (5)

  1. A gutter (14) is provided on the lower side of the lower corner of the inclined roof glass (12) where condensation water generated from the inclined roof glass (12) of the glass greenhouse (10) is concentrated, and a roof glass lower condensation water collection pipe (30) collects and moves the condensation water falling along the inclined roof glass (12) into the gutter (14); A gutter lower condensation water collection pipe section (40) that collects condensation water generated on the lower outer surface of the gutter (14) by closely attaching a water receiving body (21) to the middle lower outer side along the longitudinal direction of the gutter (14) to collect and move the condensation water into the water receiving body (21); An air conditioner condensation water collection pipe section (50) is provided with a channel body (26) on the lower front outer side of the air conditioner (25) to collect condensation water generated from the air conditioner (25) installed inside the glass greenhouse (10), and to collect and move the water inside the channel body (26); the channel body (26) is formed in an open “∪” shape at the top, and so that the condensation water generated and falling from the air conditioner (25) does not flow into the bottom side of the air conditioner (25), the upper end of the channel body (26) is located on the inner side of the front lower corner of the air conditioner (25), and the upper end of the other end is located on the front outer side of the air conditioner (25). A condensation tank section (60) in which condensation water is collected moving along the above-mentioned roof glass lower condensation water collection pipe section (30), gutter lower condensation water collection pipe section (40), and air conditioner condensation water collection pipe section (50); It comprises a condensation water treatment unit (70) that purifies the condensation water supplied and moved into the glass greenhouse (10) through the above condensation water tank unit (60); A moving guide (27) is provided that is simultaneously in close contact with the upper inner surface of one end of the above-mentioned water pipe body (26) and the bottom side of the air conditioner (25), so that condensation water falling to the front lower end of the air conditioner (25) moves along the moving guide (27) and flows into the water pipe body (26). The above-mentioned moving guide (27) has an inwardly curved groove (27a) formed from the front lower part of the air conditioner (25) to the middle side of the inner surface of the water pipe (26), so that condensation water can flexibly fall and move along the inwardly curved groove (27a). A condensation water recycling system for a glass greenhouse, characterized in that a condensation prevention member (29) is provided on the other end of the above-mentioned water pipe body (26) to prevent condensation water from escaping, wherein the condensation prevention member (29) is formed in a shape symmetrical to the movement guide member (27), and the condensation prevention member (29) has an inwardly curved groove (27a) opposite to the movement guide member (27) to prevent condensation water from escaping to the outer ground (2) side of the water pipe body (26), and the condensation prevention member (29) is formed to protrude at a position higher than the ground (2) from the upper end of the other end of the water pipe body (26) to prevent condensation water from escaping.
  2. In paragraph 1, A condensation water recycling system for a glass greenhouse, characterized in that a support beam (13) is provided along the lower edge of the inclined roof glass (12), the gutter (14) is formed in an open “∪” shape to accommodate the lower surface of the support beam (13), and a first movable pipe (15) is connected to the gutter (14) so as to communicate with the inner lower surface of the gutter (14).
  3. In paragraph 2, A condensation water recycling system for a glass greenhouse, characterized in that the above-mentioned water receiving body (21) is formed in an open “∪” shape to accommodate the lower surface of the gutter (14), and the above-mentioned water receiving body (21) is configured to be fixed by hooking onto a ring portion (24) formed at the lower end of a clip (23) that is in close contact with the surface of the gutter (14).
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Description

Condensation Recycling System for Glass Greenhouse The present invention relates to a condensation water recycling system for a glass greenhouse, and more specifically, to a condensation water recycling system for a glass greenhouse that recycles condensation water generated in large quantities from roof glass or air conditioners of a building such as a glass greenhouse and enables its use for crop cultivation inside the glass greenhouse. Recently, the most significant and important issue worldwide is environmental problems. In particular, the issue of water scarcity is being highlighted; however, not only is it difficult to secure stable water resources due to extreme weather events and global warming, but water quality is also becoming severely polluted by wastewater and domestic sewage generated as industries become highly developed, and water shortages are occurring as groundwater is being depleted. Meanwhile, although Korea has long been recognized as having abundant water resources, the steep terrain prevents rainwater from accumulating, leading to rapid water loss; consequently, Korea is currently classified by the UN as a water-scarce country. Consequently, systems to collect and recycle rainwater are being developed. This water shortage phenomenon also applies to glass greenhouses used for crop cultivation, and rainwater recycling systems for buildings such as glass greenhouses are being developed as described above. However, in addition to rainwater, large amounts of condensation are generated from roof glass and air conditioning units in glass greenhouses, yet systems to recycle this water have not yet been developed. FIG. 1 is an exemplary diagram of the overall configuration of a condensation water recycling system for a glass greenhouse according to the present invention. FIG. 2 is an exemplary diagram of the configuration of a condensation water collection pipe section under the roof glass according to the present invention. FIG. 3 is an exemplary diagram of the configuration of the lower gutter condensation water collection piping section according to the present invention. FIG. 4 is an exemplary embodiment of FIG. 3. FIG. 5 is an exemplary diagram of the configuration of the condensation water collection piping section of an air conditioner according to the present invention. FIG. 6 is an exemplary embodiment of FIG. 5. The specific details for implementing the present invention will be explained in more detail below with reference to the attached drawings. The present invention relates to a condensation water recycling system for glass greenhouses that recycles condensation water generated in large quantities from roof glass or air conditioners of buildings such as glass greenhouses, and enables its use for crop cultivation within the glass greenhouse. With reference to FIG. 1, the present invention for this purpose comprises a roof glass lower condensation water collection pipe section (30), a gutter lower condensation water collection pipe section (40), an air conditioner condensation water collection pipe section (50), a condensation water tank section (60), and a condensation water treatment section (70). In the configuration of the present invention, as shown in FIG. 2, the roof glass lower condensation water collection pipe section (30) is configured such that a gutter (14) is provided on the lower side of the lower corner of the sloping roof glass (12) where condensation water generated from the sloping roof glass (12) of the glass greenhouse (10) is concentrated, and the condensation water falling along the sloping roof glass (12) is collected and moved into the gutter (14). As an example, a metal support beam (13) is provided along the lower corner of the inclined roof glass (12) to support the roof glass (12). At this time, the gutter (14) is formed in an open “∪” shape to accommodate the lower surface of the support beam (13), and a first movable pipe (15) is connected to the gutter (14) so as to communicate with the inner lower surface of the gutter (14). In addition, it is more preferable to have an unillustrated second movable pipe (16) having a cross-sectional area larger than that of the first movable pipe (15) at the end of the first movable pipe (15) to move and collect condensation water that condenses from the inclined roof glass (12) and moves through the inside of the gutter (14). Meanwhile, as shown in FIG. 3, the lower gutter condensation water collection pipe section (40) is configured to collect condensation water generated on the lower outer surface of the gutter (14) by having a water receiving body (21) closely attached to the lower outer side along the length direction of the gutter (14) to collect and move the condensation water into the water receiving body (21). As an example, as shown in FIG. 4, the water receiving body (21) is formed in an open “∪” shape to accommodate the lower surface of the gutter (14), and the water receiving body (21) is configured t