KR102114528B1 - Energy collection device for air purification in planted water - Google Patents

Abstract

The present invention relates to an energy collection device for reforestation in afforestation water, and is provided with a photovoltaic device which is a renewable energy in addition to an area of a collection device equipped with driving means to capture fresh air emitted from garden water or forest water. It is to provide a role to enhance the efficiency of the land.
In general, the area required for the solar power generation equipment provided by the reforestation industry and the new and renewable business for indoor purification is to be used separately, so it is necessary to reinforce economic efficiency compared to the area used, especially in the country where the national land is narrow. Is required to provide a collaborative business.
The leaves 66 of the branch 60 of the planted tree 55, which grows from the ground connected to the circumference of the building 50 provided with the blast furnace interior 62, and inhales the air ejected from the leaves 66 A flexible suction pipe 75 through which the suction port 68 is penetrated, and a connection pipe 62 for supplying the suction pipe 75 from one side to the indoor 62;
Surrounding the outer space of the branch (60) and the leaf (66), in order to maintain the inner space (45), the branch (60) of the branch (60) to protrude while being fixed in the ground (52), the outer section of the boiled water (55) Supported in a horizontal state between a plurality of support pillars 54 and a pier frame 58 connected to each other in the upper and lower sections between the support pillars 54 and the support pillars 54 so as to be fixed in a rectangular shape from the outside. Consist of a support column block (90) reinforced with a beam (53), and a cover (38) for the cover (52) through which the mesh (49) penetrates to loosely wrap the plurality of support columns (54) and support beams (53). In the air collecting device,
A jacket for the cover with the protruding rib 47 protruding outwardly from the upper and lower sides of the support pillar 54, the fixing portion 88 fixed to the protruding rib 47, and the fixing portion 88 (38) a support rod 82 fixed to the outside of the support pillar 54, and a support beam 53 provided on the lower side of the support rod 82 to fix the lower end of the jacket 38 The binding portion 88 and the jacket 38 that is fixedly provided in the binding portion 88 are provided to be folded so that the jacket is folded as a plurality of bent portions 67 formed so as to alternately fold the plurality of bent portions 67. And the assembly with the assembly 38 'provided by folding the upper end of the jacket 38 with the support rod 82 adjacent to the bent portion 67 and the coupling ring 84. Support rods 76 inserted into the entire section of the upper end of the jacket 38 by insertion into the sphere 38 ', and driven to each other in accordance with the support rods 82 in the section of the support rod 76 The clamping ring 84 is assembled to the bent portion 67 so as to be combined, and the take-up rope 87 fixed to the support rod 76 is wound with a control device of the take-up roller 102 to support the column pillar 90 ) To wrap the outer section, and protrude a separate projecting beam 81 at the upper end of the support pillar block 90, provided that the solar power module 100 is installed on the projecting beam 81. It is an invention.

Description

Energy collection device for air purification in planted water {Omitted}

The present invention relates to an energy collecting device for air purification in afforested water, and an area of a collecting device equipped with a driving means to collect fresh air emitted from garden water or forested water, as well as a photovoltaic device as renewable energy. It provides a role to enhance the efficiency of the land.

      In general, the area required for the solar power generation equipment provided by the reforestation industry and the new and renewable business for indoor purification is to be used separately, so it is necessary to reinforce economic efficiency compared to the area used, especially in the country where the national land is narrow. Is required to provide a collaborative business.

Due to global warming or the development of industrial society, the source of air pollution caused by skin diseases such as atopy in indoor areas living in urban areas, and fine dust scattered in the air due to global warming have become a big problem in living, so we will solve this problem in the future. To this end, indoor trees such as broad-leaved trees are provided, but efforts are being made to purify the air.

  This requires a convergent and effective power generation system in a country with a small land area, but the creation of a forest area is a factor that causes forest destruction, and this requires a system that ensures the development of afforestation, water, etc. in addition to photovoltaic power generation. to be.

This means that sunlight from the air affects the effect of photosynthesis depending on the amount of sunlight on the tree, such as granulated water.

   The sunlight shining on afforestation trees grown in blast furnace orchards or mountainous regions is to install a photovoltaic panel provided at predetermined intervals to allow the amount of sunlight to be maintained by maintaining the vegetation interval of the planted water, which is the photovoltaic panel As for the material of the solar panel, it is necessary to install the photovoltaic power plant on the transparent plate and install it as a support column as a support column as a support pillar for light weight and reinforcement of solar irradiation in a shaded area covered with a metal plate.

   In addition, the boiled water boiled in the coastal region of the dry region is the condensation of evaporated water vapor in the region where the lake and ocean are adjacent to the terrain.

 In addition, the control of air circulation in the window of the room provided in the rural house or facility house uses the curtain as a drive up and down, but trees planted in garden trees, forests, or recreational forest areas can be planted outdoors. In many cases, it is difficult to assemble and remove the curtain for the collecting device.

Easy driving device for the jacket installed in accordance with the purpose of planting or environmentally purifying the planted water in the collection driving device and installing the collection driving device for fresh air radiating from the leaves of the tree in the process of cultivating garden or forest water In addition, it is to provide new and renewable power with sunlight reflected from the upper side of the assembly water as the installation of a protruding beam. This is an invention for indoor air purification by providing renewable power generation as well as supplying eco-friendly air to indoors by providing automatic driving by adopting a sensor that detects changes in climate and weather.

   In addition, fruit trees cultivated in orchards are caused by typhoons and hail caused by climate change, causing fruit trees to fall, causing massive damage to local farmers. Therefore, it is to provide a simple installation and a quick release of a protective film for a cover for reducing the damage of algae in the orchard or lost water, or a simple installation of a solar power module.

    Therefore, the present invention is equipped with a new and renewable energy generating device (solar power module) on the upper side of the frame supporting the cylindrical curtain (hereinafter referred to as a jacket) by assembling, as an installation on the upper end of a section where trees are vegetated, It is an invention provided by the activation of tourism and recreation areas as a new renewable energy generation and air purification that are converged with each other in a rugged mountain area where it is difficult to connect electricity.

  In addition, by providing a condensation network of water vapor on the frame on which the photovoltaic module is installed, water is supplied to a buried bed buried like a root to provide a reinforcing effect of afforestation business, especially during a drought.

The leaf 66 of the branch 60 of the planted tree 55, which grows from the ground connected to the circumference of the building 50 provided with the indoor 62, so as to inhale air ejected from the leaf 66 A flexible suction pipe 75 through which the suction port 68 is penetrated, and a connecting pipe 62 for supplying the suction pipe body 75 to one side of the room 62,

  Surrounding the outer space of the branch (60) and the leaf (66), in order to maintain the inner space (45), the branch (60) of the branch (60) so as to protrude while being fixed in the ground (52), the outer section of the boiled water (55) Supported in a horizontal state between a plurality of support pillars 54 and a pier frame 58 connected to each other in the upper and lower sections between the support pillars 54 and the support pillars 54 so as to be fixed in a rectangular shape from the outside. Consist of a support column block (90) reinforced with a beam (53), and a cover (38) for the cover (52) through which the mesh (49) penetrates to loosely wrap the plurality of support columns (54) and support beams (53). In the air collecting device,

Jacket for the cover from the upper and lower sides of the support pillar 54, the protruding ribs 47 projecting outwardly, the binding portion 88 fixed to the protruding ribs 47, and the binding portion 88 Fixing the lower end of the jacket 38 to the support rod 82 and the support beam 53 provided on the lower side of the support rod 82 to combine the 38 to surround the outer side of the support pillar 54 The binding portion 88 protruding outwardly to be provided, and the jacket 38 that is fixedly provided in the binding portion 88 are provided with a plurality of bent portions 67 formed to be folded alternately, so that the jacket is opened and closed. To the support rod 82 and to the bent portion 67 of the jacket 38 adjacent to it with a coupling ring 84, and fold the upper end of the jacket 38 to assemble the support rod 76. Coupling ring for 84, and the support rod 76 is inserted into the entire section of the upper end of the jacket 38 by inserting into the coupling ring 84, the support In the section of the rod 76, the coupling ring 84 which is assembled to the bent portion 67 so as to be engaged with each other in accordance with the support rod 82 and the take-off rod 87 fixed to the support rod 76 are taken out. The invention is provided so as to adjust the section in which the jacket 38 wraps the outer section of the support pillar block 90 by winding it with the control device of the roller 102.

  In addition, the support rod 82 and the adjacent bent portion 67 and the coupling ring 84 are combined with a reinforcing offset jacket 96 provided in the upper and lower sections of the bent state of the jacket 38 to reinforce durability. Let me do it,

 The coupling ring 84 is provided with an assembly rib 86 in the hinge 106 to separate and assemble,

The projecting beam 51 is projected to the upper end of the support pillar block 90, but the invention is provided by installing the solar power module 79 on the projecting beam 51.

In addition, the jacket 38 is provided as a second jacket 38 ', and the second jacket 38' minimizes the size of the second mesh 49 'to minimize external air movement,

Loosely assembled with the second support rod (82 ') and the coupling ring (84) fixedly projecting to the protruding rib (47') projecting into the inner space (a) fixedly from the upper and lower sides of the support pillar (54), , Driving the take-off line 87 projecting fixedly to the support rod 76 assembled to the upper end of the second jacket 38 'in connection with the take-up roller 102, and the jacket 38 and the By driving the two jackets 38 'reversely to each other, the blowing air collection is adjusted in the inner section (a) of the support pillar block 90,

 The condensation port 73 provided at the upper end of the photovoltaic power generation module 79 has a water condensation network 89 formed thereon, and the water condensation network 89 has a root at the bottom end of the water condensation network 89. 64) is an invention that provides water to the buried bed (85) buried.

  In addition, the upper end of the support pillar block 90 is to divide the protruding beam 51 to the front and rear sides, and to the protruding beam 51 of the front side to be coupled with a hinge 106, the protruding beam 81 of the rear side A curved beam 153 that protrudes into a curved line, and a spring 108 assembled to support the curved beam 153 by inserting it into a coupling port 110 penetrated at both sides of the photovoltaic module 79, The end of the curved beam 153 is provided with an end rib 111 to reinforce the durability by the instantaneous wind,

The support pillar block 90 is provided with a plurality of support pillar blocks 90 'at predetermined intervals (a), but the photovoltaic module installed by connecting the support pillar blocks 90, 90' 79 ').

The present invention is a fusion of a device for collecting fresh air emitted from the leaves of afforestation projects that require a wide area and a photovoltaic device that requires a large amount of land. to be. This is installed in the area of the area where the trees are vegetation, which is equipped with a new and renewable energy generating device (solar power module) at the upper end of the frame where the cylindrical flexible jacket is assembled to the outside of the planted water. The development of new and renewable energy provides the effect of providing a wide range of recreational and fine dust solving areas.

In addition, the invention is intended to enhance practical economics by preventing damage to product quality caused by damage of algae to fruits.

1 is a partial perspective view of a conventionally provided main portion
Figure 2 is a partial perspective view of the main portion provided in the present invention
Figure 3 is a partially enlarged schematic diagram of the main part of Figure 2
Figure 4 is a perspective view of an embodiment of the main portion in Figure 3
Figure 5 is a cross-sectional view taken along line AA in Figure 4
Figure 6 is an enlarged view of the use state for the main portion in Figure 4
Figure 7 is a driving state diagram for the main portion in Figure 6
Figure 8 is a state of use of an embodiment of the main portion in Figure 6
Figure 9 is an exemplary view of the operational use state in Figures 6 and 7
Figure 10 is a horizontal cross-sectional view of the main portion in Figure 9
Figure 11 is a cross-sectional view of another state embodiment of the main parts of the present invention
12 is a partial perspective view of one embodiment of a main portion in FIG.
Figure 13 is a partial perspective view of another embodiment of the main portion in Figure 12
14 is a cross-sectional view of an embodiment in use for the main part of FIG. 13;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in accordance with an embodiment practically the most preferred embodiment in the field construction.

That is, FIG. 1 is a partial perspective view of a main portion provided in the prior art, FIG. 2 is a partial perspective view of a main portion provided in the present invention, FIG. 3 is a partially enlarged schematic view of the main portion of FIG. 2, and FIG. 4 is in FIG. 3 5 is a cross-sectional view taken along line AA of the main part in FIG. 4, FIG. 6 is an enlarged view of a use state for the main part in FIG. 4, and FIG. 7 is a driving state diagram for the main part in FIG. , FIG. 8 is a use state diagram of an embodiment of the main part in FIG. 6.

Also, Fig. 9 is an exemplary view of the operation and use state in Figs. 6 and 7, and Fig. 10 is a sectional view in a horizontal state with respect to the main portion in Fig. 9.

11 is a cross-sectional view of another state embodiment of the main part of the present invention, FIG. 12 is a partial perspective view of one embodiment of the main part in FIG. 11, and FIG. 13 is a partial perspective view of another embodiment of the main part in FIG. 14 is a cross-sectional view of an embodiment in use with respect to the main portion of FIG. 13;

 Therefore, in the fresh air emitted during the process of cultivating garden water or planted water, it contains water, oxygen, and anions that emit, and has high filtering of fine dust, thereby purifying indoor air of buildings.

  In addition, among fruit trees planted in orchards, the fruit formed in apples, pears, peaches, etc. is often damaged by strong winds or cold seas blowing in the process of growth.

In addition, the construction of a photovoltaic power generation complex on land, etc., usually by installing a photovoltaic panel fixed on the ground, is a high-loss power generation system in Korea where the land area is small, and is also installed on the roof area of buildings. Structural problems occur in the expansion, and it is a reality that is a factor of forest destruction to create in a forest area, and this is a reality that requires a photovoltaic power generation and a system that ensures the development of afforestation and water.

  Therefore, the present invention is an invention for providing a photovoltaic device at the upper end of the support pillar block 90, and to provide for indoor air purification and renewable energy generation as well as saving on land demand.

The leaves 66 of the branches 60 of the plantation tree 55 that grow from the ground to the ground so as to be connected indoors of the blast furnace building 50, and at predetermined intervals to inhale fresh air ejected from the leaves 66 A flexible suction tube 75 through which a plurality of suction ports 68 are penetrated is fixed by winding the leaf 66 of the branch 60, but is supplied to the interior of the building 50 from one side of the suction tube 75 It is provided with a connecting pipe 62 to allow, but the fresh air discharged from the leaf is supplied by the operation of the suction pump (not shown).

  Here, the fresh air discharged from the leaf 66 has high flexibility to prevent the wind from blowing or scattering to the outer space around it, and a passage through which air is finely passed (hereinafter referred to as a mesh) (49) A continuously formed curtain (hereinafter referred to as a jacket) 38 is surrounded by the outer space of the leaf 66 growing on the branch 60, and the inner space collecting the fresh air discharged from the leaf 66 ( 45) to be used as a cover jacket 38 to form.

  This is fixed in the underground edge 52 which is the outer edge section around the pillar 63 of the planted tree 55, and a plurality of supporting pillars 54 to be fixed in the rectangle from the outside of the branches 60 and fruit trees 69. And, between the support pillars 54, the bridge frame 58 connected to each other in the upper and lower sections, and between the support pillars 54, a support pillar block 90 reinforced with a horizontal support beam 53 And, it was provided as an air collecting device consisting of a jacket for cover 38 through which the mesh 49 is penetrated so as to be loosely wrapped outside the plurality of support pillars 54 and support beams 53.

Here, the structure of the support beam 53 forming the structure of the support pillar block 90 supporting the jacket 38 wrapped around the outer section of the boiled water 55 is used in a cylindrical, hexagonal or square structure in cross section. In the present invention, the structure of the quadrangle will be mainly described.

In addition, the provision of the support rod 82, which will be described later, is preferably provided on the outside of the support pillar 54, but is provided by further providing a plurality of pieces at uniform intervals as necessary.

 Here, an embodiment in which the flexible and yet easy to use in the field for the jacket 38 through which the mesh 49 for controlling the air passage is penetrated will be described with reference to the accompanying drawings,

In the binding portion 88 protruding outward so as to fix the lower end of the jacket 38 assembled from the support beams 53 provided on the upper and lower sides of the support pillar 54, and the binding portion 88 The support rod 82 for coupling the jacket 38 for the cover to surround the outside of the support pillar 54, and the lower side of the jacket 38 in the fixed beam 53 provided at the lower side of the support rod 82 The jacket is folded in an alternating shape as the binding portion 88 for fixing the end and a bent portion 67 formed to be folded in a plurality of alternating shapes in the jacket 38 provided as fixed in the binding portion 88 It is provided so that the inner space (a) is opened and closed to the outer space (b). Here, the opening and closing process of the jacket 38 is preferably provided as a motor connected by driving of a control device that detects a timer and a driving time and weather, not shown.

In addition, a description of a driving device between the jacket 38 and the support rod 82 is provided to provide a driving device for pulling and descending from the upper end of the jacket 38, illustrated in the accompanying drawings to FIG. As shown, the support rod 82 is coupled to the bent portion 67 of the adjacent jacket 38 with a coupling ring 84, and the upper end of the jacket 38 is folded to assemble the support rod 76 It is provided with a coupling ring (84) provided to be, and a support rod (76) inserted into the entire section of the upper end of the jacket (38) by insertion into the coupling ring (84).

Here, in order to reinforce the fluidity by loose coupling with each other in the process of being drawn and lowered in accordance with the support rod 82 adjacent to the support rod 76,

In the section of the support rod 76, the coupling ring 84 is assembled to the bent portion 67 so as to be engaged with each other in accordance with the support rod 82, and the take-off lip 87 fixed to the support rod 76 is provided. It is an invention in which the jacket 38 is wrapped around the control device of the take-up roller 102 connected to the control device (not shown) so as to adjust the section surrounding the outer section of the support pillar block 90.

In addition, in the jacket 38, while covering the outer section of the boiled water 55, the support rod 76 is inserted into the entire section of the upper end of the jacket 38 by inserting into the coupling ring 84 to open and close driving And, in the section of the support rod 76, the upper and lower sections of the jacket 38 are bound to each other so as to loosely assemble the coupling ring 84 to the bent portion 67 which is driven to match the support rod 82 to be driven with each other. Given, when used as a take-off drive of the take-off road 76, the bending part 67 provided on the support rod 82 and the jacket 38 is loosely assembled and driven upwards and downwards for long-term durability. The invention is to provide a reinforcing offset jacket (96) provided in the upper and lower sections of the folded state of the jacket (38) to be coupled with the coupling ring (84).

Here, the coupling ring 84 has an assembly rib on the hinge 106 so as to easily separate and assemble the structure assembled to enclose the support pillar block 90 by driving the jacket 42 provided in the jacket 38 ( 86).

  A plurality of support pillars 54 are assembled in the upper and lower sections, and the piers frame 58 is fixed between the support pillars 54 by connecting them to each other. A reinforced support pillar block 90 for reinforcing, and a separate projecting beam 51 is projected at an upper end of the support pillar block 90, but a solar power module 79 is applied to the projecting beam 51. It is an invention provided as an installation.

In addition, the jacket 38 is loosely coupled to move in the upper and lower sections to the fixed support rod 82 from the protruding rib 47 protruding from the upper and lower sides of the support pillar 54 to the outer space b, the protruding A protruding rib 47 'protruding from the rib 47 to the inner space a is provided, and a second supporting rod 82' is fixed to the protruding rib 47 ', but the second supporting rod is provided. In 82 ', the structure of the jacket 38 is provided with a second jacket 38' coupled in the reverse direction, but the size of the mesh 49 provided in the jacket 38 coupled in the reverse direction is minimized to the outside. It almost blocks the movement of air, and provides fresh air emitted from the leaves at night, to be supplied to the room 62.

Here, the second support rod (82 ') which is fixedly projected to the protruding rib (47') protruding into the inner space (a) from the upper and lower sides of the supporting column (54) and the coupling ring (84) are loosely assembled. In the meantime, the support rod 76 assembled to the upper end of the second jacket 38 'and the take-off rope 87 projecting fixedly to the support rod 76 are not shown as a linkage to the take-up roller 102. By driving the control device, the driving of the jacket 38 and the second jacket 38 'is driven in reverse to each other, thereby collecting the draft air during the day or collecting the blown air at night in the inner section (a) of the support pillar block 90. It is an invention provided to control.

  In addition, as an invention for providing the reinforcement of the present invention according to the place that reinforces the simmering effect by providing a support pillar block 90 to the boiled water 50 which is the main part of the present invention,

Winds formed according to the conditions of the temperature from the coastal area formed near the plantation or the direction of the water source are relatively high, so the water is developed by condensation in the desert or dry areas at dawn. Therefore, in the present invention, as an invention for reinforcing the collection of water in a forested forest area, as shown in the accompanying drawings,

 The condensation port 73 is formed at the upper end of the photovoltaic power generation module 79 so as to be collected in accordance with the wind blowing in the water, but the lower end of the water condensation network 89 It is an invention to provide a boiled bed 85 buried as a root 64 with a water collecting pipe 92 provided in the fertilizer to reinforce afforestation effect.

In addition, the area of the installed photovoltaic module 79 is provided in a predetermined area in the air to reinforce the photovoltaic power generation, and is provided to prevent hail damage or reduce thermal damage to heat waves.

 In addition, when a typhoon or strong wind generated by climate change occurs, the tilt angle for the photovoltaic module 79 installed to be inclined in the upper section of the plantation water 55 is driven in a horizontal state and blown in a horizontal direction. Giving is an invention that reduces damage to strong winds,

At the upper end of the support pillar block 90, while protruding beams 51 are divided into front and rear sides, the protruding heights are differentially inclined, and the protruding beams 51 on the front side are combined with hinges 106. , A curved beam 153 that rotates the inclination horizontally around the hinge 106 provided on the front side, and projects the rear side projecting beam 81 into a curve, and the curved beam 153 to the solar power module A spring 108 assembled to be supported by insertion through a coupling hole 110 penetrating both sides of the edge of 79, and an end rib 111 at the end of the curved beam 153, thereby providing durability by instantaneous wind. It is an invention provided to reinforce.

  In addition, the feature of the present invention is the provision of a predetermined space (a) on the support pillar block (90) in which the assembly water (55) is planted, and a space for the sun is provided, so that it is boiled as a composition of a residential area or farming workshop. Explaining the invention to increase economic income for several regions,

 A photovoltaic module that constructs a plurality of support pillar blocks 90 'at a predetermined space or interval (a), but connects the support pillar blocks 90, 90' As provided with (79 '), it is an invention provided by providing a photovoltaic module (79') in which a building space for facilities is provided.

  In addition, although the configuration and operation of the present invention have been described by way of example, the present invention is not limited to this, and changes and modifications within the scope of the present invention will also fall within the scope of the present invention.

38; Jacket 42 for cover: Jacques 47; Protruding rib
49: mesh 50: building 52; Underground 53; Support beam
54; Support pillar 55; Chorimsoo 58; Pier Frame 64: Root
60; Eggplant 65; Frame block 66; Leaf 67: bend
69; Boiled water 73: Condensation port 75: Suction tube 76: Support rod
79: Solar power module 81: Projection beam 82: Support rod
84: coupling ring 85: Sookdae 86: assembly rib 87: intake rope
88: binding portion 89: water condensation network 90: support pillar block
106: hinge 108: spring 110: joint 153: curved beam

Claims (4)

The leaf 66 of the branch 60 of the planted tree 55, which grows from the ground connected to the circumference of the building 50 provided with the indoor 62, so as to inhale air ejected from the leaf 66 A flexible suction pipe 75 through which the suction port 68 is penetrated, and a connecting pipe 62 for supplying the suction pipe body 75 to one side of the room 62,
Surrounding the outer space of the branch (60) and the leaf (66), in order to maintain the inner space (45), the branch (60) of the branch (60) so as to protrude while being fixed in the ground (52), the outer section of the boiled water (55) Supported in a horizontal state between a plurality of support pillars 54 and a pier frame 58 connected to each other in the upper and lower sections between the support pillars 54 and the support pillars 54 so as to be fixed in a rectangular shape from the outside. Consist of a support column block (90) reinforced with a beam (53), and a cover (38) for the cover (52) through which the mesh (49) penetrates to loosely wrap the plurality of support columns (54) and support beams (53). In the air collecting device,
Jacket for the cover from the upper and lower sides of the support pillar 54, the protruding ribs 47 projecting outwardly, the binding portion 88 fixed to the protruding ribs 47, and the binding portion 88 Fixing the lower end of the jacket 38 to the support rod 82 and the support beam 53 provided on the lower side of the support rod 82 to combine the 38 to surround the outer side of the support pillar 54 The binding portion 88 protruding outwardly to be provided, and the jacket 38 provided fixedly in the binding portion 88 are provided with a plurality of bent portions 67 formed to be folded alternately so that the jacket is opened and closed. To the support rod 82 and to the bent portion 67 of the jacket 38 adjacent to it with a coupling ring 84, and fold the upper end of the jacket 38 to assemble the support rod 76. Coupling ring for 84, and the support rod 76 is inserted into the entire section of the upper end of the jacket 38 by inserting into the coupling ring 84, the support In the section of the rod 76, the coupling ring 84 which is assembled to the bent portion 67 so as to be engaged with each other in accordance with the support rod 82 and the take-off rod 87 fixed to the support rod 76 are taken out. Energy collecting device for air purification in boiled water that is provided to adjust the section that the jacket (38) wraps around the outer section of the support pillar block (90) by winding it with the control device of the roller (102). According to claim 1,
The support rod 82 and the adjacent bent portion 67 and the coupling ring 84 are combined with a reinforcing offset jacket 96 provided in the upper and lower sections of the jacket 38 to reinforce durability. give,
The coupling ring 84 is provided with an assembly rib 86 in the hinge 106 to separate and assemble,
A support beam block (90) in which a support beam (53) for fixing the connection between the plurality of support columns (54) is connected to each other, and a projecting beam (51) protrude to an upper end of the support column block (90). Note, the energy collecting device for air purification in the boiled water provided by installing the photovoltaic module (79) on the projecting beam (51). According to claim 2,
The jacket 38 is provided as a second jacket 38 ', and the size of the second mesh 49' is minimized in the second jacket 38 'to minimize external air movement.
Loosely assembled with the second support rod (82 ') and the coupling ring (84) fixedly projecting to the protruding rib (47') projecting into the inner space (a) fixedly from the upper and lower sides of the support pillar (54), , Driving the take-off bar (87) projecting fixedly to the support bar (76) assembled at the upper end of the second jacket (38 ') in connection with the take-up roller (102), and the jacket (38) and the The driving of the two jackets 38 'is reversed to each other, thereby controlling the draft in the daytime or the blowing of air at night in the inner section (a) of the support pillar block 90,
The condensation port 73 provided at the upper end of the photovoltaic module 79 is formed with a water vapor condensation network 89 and a water collecting pipe 92 provided at the bottom end of the water vapor condensation network 89 with roots ( 64) energy collection device for air purification from boiled water that provides water to the buried bed (85) buried. The method according to claim 1 or 2,
At the upper end of the support column block 90, the protruding beam 51 is divided into front and rear sides, and the protruding beam 51 at the front side is coupled with a hinge 106, but the protruding beam 51 at the rear side is curved. A curved beam 153 that protrudes to and a spring 108 assembled to support the curved beam 153 by inserting it into a coupling port 110 penetrated at both sides of the photovoltaic module 79, and The end rib 111 provided at the end of the curved beam 153 reinforces the durability due to the instantaneous wind,
The support pillar block 90 is provided with a plurality of support pillar blocks 90 'at predetermined intervals (a), but the photovoltaic module installed by connecting the support pillar blocks 90, 90' 79 ') is an energy collection device for purifying air from afforestation water.

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