KR101923137B1 - Eco-friendly rooftop construction apparatus of architecture - Google Patents

Abstract

The present invention relates to an apparatus for constructing an eco-friendly rooftop of a building. More specifically, the present invention makes it possible to construct an eco-friendly rooftop on the rooftop of the building by a simple method, makes it possible to store excellent water on the entire rooftop of the building, and enables the water to be always supplied to a vegetation layer smoothly so that vegetation can be smoothly performed. On the other hand, a supporting block is stably supported on a rooftop bottom unit of the building.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an eco-

The present invention relates to an eco-friendly roof construction apparatus for a building in the field of building technology, and more particularly, to an eco-friendly rooftop construction apparatus capable of constructing an eco-friendly rooftop on a roof of a building, In addition, the water can be supplied to the vegetation layer smoothly at all times so that the vegetation can be smoothly performed. Meanwhile, in order to stably support the support block on the roof top of the building, .

In recent years, much attention has been focused on greening the rooftop as a way to solve the ecological problems of the city. Here, rooftop greening refers to the planting of a planting base including a soil layer on a non-flooded structure such as a building and a civil structure. This means that it is useful in a city where a green space can not be secured It has an important meaning to utilize abandoned rooftop space.

Therefore, the rooftop greening is to create a soil layer in which plant roots can grow according to the influence of climate of the planting area, which can maintain the growth of the plant well and minimize the load on the building It is important.

Therefore, various methods of recording lightweight artificial soils using only or mixed lightweight and minimizing the depth of soil layer within the range of possible growth have been suggested. However, this method can not be applied to the rooftop greening technology of Germany without experimental verification And it is not possible to apply it to other areas because of the environmental condition. So far, it has been very negative and negative position on the rooftop greening of existing buildings.

A rooftop aging structure is disclosed in Korean Patent No. 10-1484641 (Feb.

However, such a conventional rooftop aging structure has a problem that it is difficult to stably support the vertical vegetation block together with the floor block while being easily shaken by an external force because the support block can not be stably supported on the roof bottom of the building.

Korea Patent Registration No. 10-1484641 (Feb. 21, 2015) 'Roof Aging Structure'

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an eco-friendly rooftop on a roof of a building in an easy manner, The present invention provides an eco-friendly rooftop construction apparatus for a building, which enables the water to be smoothly supplied to the vegetation layer at all times so that the vegetation can be smoothed smoothly while the support block is stably supported on the rooftop of the building will be.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention provides a water treatment system comprising: a water storage tank (10) formed in a whole space formed through a roof bottom part and a side wall part of a building; A floor block 20 positioned upwardly spaced from the bottom of the water storage tank 10; A support block 30 having an upper end fixed to the floor block 20 to support the floor block 20 at a predetermined distance from the bottom of the water storage tank 10; A vegetation layer 50 located on the upper surface of the floor block 20 to provide vegetation to plants; And a wick member (60) extending from the water storage tank (10) to the vegetation layer (50) so as to supply water of the water storage tank (10) to the vegetation layer (50) , A plurality of fitting grooves (21) are formed on the upper surface and a fitting protrusion (22) is formed on the lower surface; The support block 30 is opened in an upward direction so that its interior is hollow and a plurality of water protrusions 31 through which the water of the water storage tank 10 flows are formed at a lower end of the support block 30, (20) of the base (20); The core member 60 is extended and fixed to the vegetation layer 50 through the bottom block 20 through the bottom surface of the support block 30 so as to clean the outer surface without being exposed to the outside; And a vertical vegetation block 40 having a plurality of planting holes 42 formed in the side walls thereof is formed in the lower end portion of the vertical vegetation block 40. Further, The fitting protrusion 41 of the vertical vegetation block 40 is inserted into the fitting groove 21 of the floor block 20 or the other vertical vegetation adjacent to the lower side of the floor block 20 in a downward direction so as to secure the vegetation space in a three- The vertical vegetation block 40 is filled with culture soil 43 and the core member 60 is inserted through the lower surface of the support block 30 The present invention provides an eco-friendly roof installation apparatus of a building, which extends through the floor block (20) and the vertical vegetation block (40) and extends to the inside of the uppermost vertical vegetation block (40) The block 30 is mounted on the roof top of the building The supporting part 100 is connected to the outside of the supporting block 30 and is mounted on a roof top of the building while being supported by the roof of the building, Support means (110) for stably supporting the support block (30); A pressing member 120 coupled between the supporting means 110 and the supporting block 30; And binding means (130) for pressing the pressing member (120) from the supporting means (110) to bind the supporting means (110) to the supporting block (30) A seating ring 111 which is coupled to the outside of the supporting block 30 and is seated on the roof bottom of the building; A support tube 112 extending upward from an inner periphery of the seat ring 111; And a support ring 113 extending from the upper portion of the support pipe 112 in the direction of the support block 30 and having the compression member 120 disposed therebetween To provide an eco-friendly roof-top construction apparatus of a building.

According to the present invention, first, since the water tank is formed in the entire space formed through the roof bottom portion and the side wall portion, water such as rainwater can be stored on the entire roof of the building, and the green space, the artificial pond, It is possible to have continuous rooftop greening without extra watering.

Second, members such as a floor block, a support block, and a vertical vegetation block can be assembled with each other, so that a rooftop greening construction becomes very convenient, and since these members can be standardized and marketed, Rooftop greening can be done easily.

Thirdly, fishes and aquatic plants can be raised in the water storage space formed on the rooftop so that a nature-friendly environment can be created in the city center. The water storage tank is provided on the roof to obtain the effect of heat insulation and heat radiation, When recording is performed simultaneously, the effect of thermal energy such as heat insulation and heat radiation can be doubled.

Fourth, since the support block is stably supported on the roof bottom of the building, the vertical vegetation block can be stably supported together with the floor block.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a cross-sectional view of an eco-friendly roof construction apparatus of a building according to the present invention.
2 is a perspective view illustrating a floor block in an eco-friendly roof construction apparatus of a building according to the present invention.
3 is a perspective view showing a support block in an environmentally friendly roof construction apparatus of a building according to the present invention.
4 is a perspective view showing a vertical vegetation block in an eco-friendly roof construction apparatus according to the present invention.
5 is a cross-sectional view illustrating a state in which a floor block and a support block are coupled to each other in an eco-friendly roof construction apparatus of a building according to the present invention.
6 is a cross-sectional view illustrating a state in which a floor block, a support block, and a vertical vegetation block are coupled to each other in an eco-friendly roof construction apparatus of a building according to the present invention.
7 is a cross-sectional view showing a drainage part in an environmentally friendly roof construction apparatus of a building according to the present invention.
And
8 is a cross-sectional view illustrating a state in which a supporting portion is provided in an eco-friendly roof construction apparatus of a building according to the present invention.

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

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Since the present invention uses the later-described Literature No. 1484641 as it is, all the features of the device configuration described below can be understood as those described in Japanese Patent No. 1484641. [

However, in the present invention, the 'rooftop greening structure' among the structures disclosed in the above-mentioned Japanese Patent No. 1484641 is replaced with 'an environmentally friendly rooftop construction apparatus of a building' and a structure for supporting the support block stably on the roof bottom of the building And a description of its operation is further included, and this part constitutes the most essential constitutional feature.

Therefore, the device structure, characteristics, and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent No. 1484641, and the structure related to the main features of the present invention will be described in detail at the rear end.

1 to 7, an eco-friendly roof construction apparatus of a building according to the present invention is intended to record and construct the roof of a building in a simple manner. The roof structure of the building includes a roof 10 and a sidewall And the floor block 20, the support block 30 and the vertical vegetation block 40 are assembled to each other to be installed in the water storage tank 10.

A waterproof layer 11 is formed on the roof bottom and side walls of the building through a waterproof coating or a waterproof foam to protect the water stored in the water storage tank 10 and the water level of the water storage tank 10 is maintained constant A water level control tube 13 having a plurality of drain holes 12 formed therein is detachably fitted in a vertical direction so as to be detachable from a drain pipe 14 formed at the bottom of the roof.

The water level control pipe 13 and the drain pipe 14 may be screwed in a state of interposing the packing 15 therebetween so as to prevent leakage between the water level control pipe 13 and the drain pipe 14. [

A plurality of fitting grooves 21 are formed on the upper surface of the floor block 20 so as to be spaced upward from the bottom of the water storage tank 10 with the fitting protrusions 22 formed thereon.

The upper end of the support block 30 is connected to the upper end of the floor block 20 in a state where the upper end of the support block 30 is opened in the upward direction and the lower end of the support block 30 has a plurality of water protrusions 31, And is fitted in the fitting protrusion 22 so that the floor block 20 is spaced apart from the bottom of the water storage tank 10 at a predetermined interval.

The floor block 20 is provided with a vegetation layer 50 filled with general soil or artificial soil so that plants planted thereon can be grown and a support block 30 is provided at an outer end of the floor block 20 So as to form a boundary structure for partitioning the vegetation layer 50 and other parts.

The core member 60 is extended and fixed to the vegetation layer 50 through the floor block 20 through the lower surface of the support block 30 so that water in the reservoir 10 can be supplied to the vegetation layer 50. [ The core member 60 may be formed of a nonwoven fabric or the like. However, in consideration of the efficiency of moisture absorption, the core member 60 is preferably composed of at least one selected from among loess, zeolite, bentonite and vermiculite And it is possible to apply them in tubular cages at the time of construction so as not to scatter them.

The vertical vegetation block 40 is opened in an upward direction and has an inner hollow shape. A plurality of fitting protrusions 41 are formed at the lower end to allow water to pass therethrough, and a plurality of planting holes 42 are formed at the side walls. The fitting protrusions 41 of the vertical vegetation block 40 are fitted to the fitting grooves 21 of the floor block 20 or the upper part of another vertical vegetation block 40 adjacent to the lower side in the downward direction, The culture soil 43 is filled in the block 40 and the wick 60 penetrates through the floor block 20 and the vertical biopsy block 40 through the lower surface of the support block 30 to the vertical vegetation block 40 To the inside of the uppermost vertical vegetation block 40.

A portion of the upper surface of the floor block 20 where there is no vegetation layer constitutes a walking passage 70 and a portion of the water storage tank 10 where the floor block 20 is not provided is a pond 80, As shown in FIG.

Although not shown in the drawing, an inspection port for maintenance of the water storage tank 10 can be detachably installed in the vicinity of the floor block 20, and water in the water storage tank 10 can be connected to the vegetation layer 50 or A water supply pipe, a pump, and the like may be constructed so as to perform forced water supply to the upper portion of the vertical vegetation block 40.

In constructing the eco-friendly rooftop construction apparatus of the present invention, first, a waterproof layer 11 is formed by coating a roof top and sidewalls of a building with a waterproof coating or a waterproof cloth, and a water pipe 14 formed on the roof, A plurality of support blocks are arranged and a floor block is placed thereon to assemble the fitting protrusions of the bottom of the floor block so as to fit inside the upper part of the supporting block, As shown in FIG.

In this case, the height of the water level control pipe 13, that is, the capacity of the water storage tank 10 should be properly designed in consideration of the durability of the roof of the building. When cleaning or repairing the water storage tank 10, (14) and discharges all the water in the water storage tank (10) through the water discharge pipe (14).

In addition, the floor block 20 may be formed on the entire roof surface, or a part of the floor may be constructed to form a pond 50 without a floor block 20.

After the floor block 20 is fixed, the boundary structure for forming the vegetation layer 50 is fixed on the floor block 20. The supporting block 30 is fixed to one end of the floor block 20 without a separate boundary structure. The support block 30 may be formed as a boundary structure and the vegetation layer 50 may be formed by filling the inside of the support block 20 with general soil or artificial soil.

Before the vegetation layer 50 is formed on the floor block 20, a planting rope or the like is installed on the floor block 20 so as to prevent the roots of the plant from falling down below the floor block 20.

When the fitting protrusion 22 of the floor block 20 is inserted into the supporting block 30, the fitting groove 21 of the floor block 20 and the fitting protrusion 22 are vertically connected to each other The core member 60 is inserted into the support block 30 and then the vegetation layer 50 is formed on the upper side of the floor block 20 so that the core member 60 does not protrude from the floor It can be firmly held between the fitting groove 21 of the block 20 and the fitting projection 22. Although not shown in the drawing, a check hole is formed in the floor block 20 to prevent clogging of the water storage tank 10 To be checked.

When the water level rises as the water tank 10 is filled with water, the rainwater in the drain pipe 12 of the water level control pipe 13 is discharged to the outside of the building without being drained to the outside of the building, So that the water level of the water storage tank 10 can be kept constant at all times.

The water in the water storage tank 10 is supplied to the support protrusions 31 of the support block 30 through the support protrusions 31, The water in the water storage tank 10 is continuously sucked through the core member 60 because the core member 60 is positioned to the inside of the support block 30 and is immersed in the water, The vegetation can be continuously maintained without any additional water and since the core member 60 is located inside the support block 30, It is possible to protect the core member 60 through the support block 30 to prevent breakage of the core member 60 and to prevent water from the water reservoir 10 to the vegetation layer 50 There is an advantage that the supply can be always made stable.

A portion of the floor block 20 other than the vegetation layer 50 naturally forms the gait passage 70 to manage the plant or take a walk. In a portion of the water storage tank 10 where the floor block 20 is not formed The water stored is exposed to the outside and can naturally form the pond 80 and the aquatic plants and fish can be raised in the pond 80 to create a natural environment in the city center.

The vertical vegetation block 40 can be installed in the upper part of the floor block 20 so that the vegetation can be planted thereon so that three-dimensional greening can be performed on a roof having limited space. The upper surface of the vertical block 40 is sandwiched by the fitting protrusions 41 of the lower surface of the vertical vegetation block 40 in the fitting groove 21 formed on the upper surface of the floor block 20, The vertical vegetation block 40 can be easily fixed in multiple stages by sandwiching the vertical vegetation block 40.

The vertical block 40 is constructed so that the support block 30 is positioned on the lower surface of the floor block 20 and the hole is formed in the floor block 20 and the vertical vegetation block 40, Through the lower surface of the support block 30 to the inside of the uppermost vertical vegetation block 40 of the multi-stage vertical vegetation block 40 through the floor block 20 and the multi-stage vertical vegetation block 40 It is possible to stably hold the core member 60 through the floor block 20 and the multi-stage vertical vegetation block 40 without a separate fixing member, and when the vertical vegetation block 40 is stacked And the culture soil 43 may be filled in the inside thereof.

Since a plurality of planting holes 42 are formed on the side wall of the vertical vegetation block 40, leaf holders, various plants, trees of small size and the like can be planted by inserting a holder containing plant grains into the planting holes 42 The water of the water storage tank 10 can be supplied to the upper portion of the vertical vegetation block 40 through the core member 60 and the water supply protrusions 41 of the vertical vegetation block 40 are vertically penetrated Even if the vertical vegetation block 40 is constructed to have a high height, moisture can be freely moved through the fitting protrusions 41, and the roots of the plants can be vertically transferred to other vertical vegetation blocks 40) so that the growth of plants cultivated in the planting holes 42 can be made more smooth and robust.

The core member 60 applied to the vertical vegetation block 40 is also preferably formed of a wicky material such as loess, zeolite, bentonite, or vermiculite rather than a fiber material such as a nonwoven fabric. In the case of a fibrous wick such as a nonwoven fabric The water uptake height due to the capillary phenomenon is only 40 cm. In the case of the core soil, the water of the water storage tank 10 can be lifted up to 3 m or more according to the diameter thereof so that the vertical vegetation The vegetation of the plant planted in the block 40 can be smoothly performed.

Although it is not shown in the drawings, it is obvious that a water supply pipe and a pump can be configured to supply water of the water storage tank 10 to the upper part of the vertical vegetation block 40, It will be possible to obtain the necessary power through self-development.

In the present invention, as shown in FIG. 8, the structure of the support portion 100 for supporting the support block 30 stably on the roof bottom of the building is further realized.

The support part 100 prevents the support block 30 from being shaken by an external force or the like so that the vertical vegetation block 40 can be stably supported together with the floor block 20.

The supporting part 100 is coupled to the outside of the supporting block 30 and is supported by a support means 110 for supporting the supporting block 30 from the roof bottom part of the building while being mounted on the roof bottom part of the building, 110 and the support block 30 so that the support means 110 is coupled to the support block 30 by pressing the press member 120 from the support means 110 130).

The supporting means 110 includes a seating ring 111 which is seated on the roof bottom of the building while being coupled to the outside of the supporting block 30, a supporting tube 112 extending upward from the inner periphery of the seating ring 111, And a support ring 113 extending from the upper portion of the support tube 112 in the direction of the support block 30 and in which the press member 120 is disposed between the support block 30 and the support ring 113. [

The seat ring 111 is seated on the roof bottom of the building with the waterproof layer 11 formed on the roof top of the building.

The inner periphery of the seating ring 111 has the same shape as the supporting block 30, and the outer periphery may have a circular or rectangular shape.

The support means 110 may further include a plurality of weight weights 114 disposed on the upper portion of the seating ring 111.

The weights 114 are arranged along the upper periphery of the seat ring 111 so that the support means 110 can be stably mounted on the roof of the building.

It is preferable that the weight 114 is integrally formed so as not to be separated from the seat ring 111.

The support ring 113 has the same inner shape as the support block 30 and has the same outer periphery as the outer periphery of the seating ring 111.

The support tube 112 has a rectangular tube shape having upper and lower openings, and integrally connects the seat ring 111 and the support ring 113.

The support means 110 may further include a plurality of fasteners 115 for fastening the support tube 112 to the support block 30.

A plurality of fasteners 115 are disposed along the periphery of the support pipe 112 and are formed of bolts having threads on the outer circumferential surface thereof. The fasteners 115 are screwed to the support pipe 112, (112) can be stably fixed to the support block (30).

Accordingly, the support means 110 is coupled to the outside of the support block, while being stably mounted on the roof bottom of the building, thereby preventing the support block 30 from being swayed forward, backward, leftward, rightward, .

The pressing member 120 is coupled to the outside of the supporting block 30 so as to be positioned between the supporting ring 113 and the supporting block 30 and is preferably made of silicon or rubber.

The pressing member 120 is formed with a pair of protrusions 121 extending along the outer circumference and the inner circumference of the supporting ring 113 is fitted between the pair of protrusions 121.

The compression member 120 is coupled between the support ring 113 and the support block 30 to prevent the upper portion of the support means 110 from contacting the support block 130. [

The binding means 130 includes a pair of support bars 131 extending upward from both sides of the upper portion of the support ring 113, a control bar 132 rotatably screwed to the support bar 131, And a control lever 134 provided at the other end of the control bar 132 to transmit the rotational force to the control bar 132. The control lever 132 is provided at one end of the control rod 132, do.

The support bars 131 are integrally formed on both sides of the upper portion of the support ring 113 and are formed with fastening holes 131a through which the control bar 132 is screwed.

The adjustment bar 132 is screwed into the fastening hole 131a so that one end of the adjustment bar 132 faces the support block 30.

The control bar 132 is provided with the control lever 134 at the other end and the presser plate 133 is provided at one end of the control bar 132 and moves to the support block 30 according to the tightening rotation of the control lever 134, Is pressed onto the support block 30.

Accordingly, the binding means 130 can bind the support means 110 to the support block 30, and can bind the press member 120 to the support block 30.

Therefore, the support block 100 can prevent the support block 30 from being shaken by an external force or the like, so that the vertical vegetation block 40 can be stably supported together with the floor block 20.

10: Water tank 11: Waterproof layer
12: Drain 13: Level control tube
14: Water pipe 15: Packing
20: floor block 21: fitting groove
22, 41: insertion protrusion 30: support block
31: water protrusion 40: vertical vegetation block
42: Planting hole 43: Coating soil
50: vegetation layer 60: core member
70: a walkway 80: a pond
100: support part 110: support means
120: compression member 130: binding means
131: support bar 132: control bar
133: pressing plate 134: adjusting lever

Claims (1)

A water storage tank (10) formed in the entire space formed through the roof bottom part and the side wall part of the building; A floor block 20 positioned upwardly spaced from the bottom of the water storage tank 10; A support block 30 having an upper end fixed to the floor block 20 to support the floor block 20 at a predetermined distance from the bottom of the water storage tank 10; A vegetation layer 50 located on the upper surface of the floor block 20 to provide vegetation to plants; And a wick member (60) extended from the water storage tank (10) to the vegetation layer (50) so as to supply water of the water storage tank (10) to the vegetation layer (50)
The floor block 20 has a plurality of fitting grooves 21 formed on the upper surface thereof and a fitting protrusion 22 formed on the lower surface thereof. The support block 30 is opened in an upward direction so that its interior is hollow and a plurality of water protrusions 31 through which the water of the water storage tank 10 flows are formed at a lower end of the support block 30, (20) of the base (20);
The core member 60 is extended and fixed to the vegetation layer 50 through the bottom block 20 through the bottom surface of the support block 30 so as to clean the outer surface without being exposed to the outside;
And a vertical vegetation block 40 having a plurality of planting holes 42 formed in the side walls thereof is formed in the lower end portion of the vertical vegetation block 40. Further, The fitting protrusion 41 of the vertical vegetation block 40 is inserted into the fitting groove 21 of the floor block 20 or the other vertical vegetation adjacent to the lower side of the floor block 20 in a downward direction so as to secure the vegetation space in a three- The vertical vegetation block 40 is filled with culture soil 43 and the core member 60 is inserted through the lower surface of the support block 30 Wherein the vertical block (40) extends through the floor block (20) and the vertical vegetation block (40) to the inside of the uppermost vertical vegetation block (40) of the vertical vegetation block (40)
Further comprising a support (100) for stably supporting the support block (30) on the roof top of the building,
The support part (100)
Supporting means (110) coupled to the outside of the supporting block (30) and stably supporting the supporting block (30) from the roof bottom of the building while being seated on the roof bottom of the building;
A pressing member 120 coupled between the supporting means 110 and the supporting block 30; And
And binding means (130) for pressing the pressing member (120) from the supporting means (110) to bind the supporting means (110) to the supporting block (30)
The support means (110)
A seating ring 111 which is coupled to the outside of the supporting block 30 and is seated on the roof bottom of the building;
A support tube 112 extending upward from an inner periphery of the seat ring 111;
A support ring 113 extending from the upper portion of the support tube 112 in the direction of the support block 30 and having the compression member 120 disposed between the support block 112 and the support block 30;
A plurality of weight weights 114 arranged in a plurality of positions along the upper circumference of the seating ring 111 so that the supporting means 110 stably stays on the roof bottom of the building;
A plurality of support tubes 112 are disposed along the circumference of the support tube 112 while being screwed to the support tube 112 to press the support block 30 in accordance with the tightening rotation, A plurality of fasteners 115 which are fixedly secured to the base member 110;
The pressing member 120 includes a pressing member
A pair of protrusions 121 extending along the outer circumference are formed and an inner circumference of the support ring 113 is fitted between the pair of protrusions 121,
The binding means (130)
A pair of support bars 131 extending upward from both sides of the support ring 113;
A control bar 132 rotatably threaded to the support bar 131;
A compression plate 133 provided at one end of the control bar 132 and in contact with the compression member 120; And
And an adjusting lever (134) provided at the other end of the adjusting bar (132) and transmitting a rotational force to the adjusting bar (132)
The regulating lever 134,
Wherein the compression plate 133 is pressed to the support block 30 while advancing to the support block 30 together with the control bar 132 according to the tightening rotation.

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