KR101019776B1 - Moisture restoring system of vegetation block - Google Patents

Abstract

PURPOSE: A water supplying system of a vegetation block is provided to effectively grow plants inside the vegetation block, and to smooth watering processes for each vegetation block. CONSTITUTION: A water supplying system of a vegetation block comprises the following: a draining pipe(10) for draining rain water; a rain water inlet pipe(20) installed on one inner side of the draining pipe; a distribution pipe(30) connected to the rain water inlet pipe; plural branch pipes(35) included in the distribution pipe to distribute water to plural water storage tanks(40); and a water absorbing rod(50) for supplying the water to soil.

Description

Moisture restoring system of vegetation block}

The present invention relates to a water supply system of a vegetation block, and more particularly, water is distributed to a plurality of reservoir tanks embedded in soil by recovering water flowing into a rainwater drainage pipe installed on a roof or a bridge of a building. And it is related to the water supply system of the vegetation block so that the water is supplied to the depth of the soil by the water supply means using the principle of osmotic pressure in the reservoir tank so that even vegetation block with less inflow of rainwater is achieved.

In general, as the habitat space of plants is reduced due to the buildings made of concrete structures or incisions made by various civil works, the natural environment is reduced. In recent years, in order to improve the natural environment, It can be used to change the landscape of the plant.

In the case of the vegetation block made of such concrete, the stability of the structure can be improved and the landscaping can be made in various forms, whereas the vegetation block has difficulty in vegetation of plants such as being affected by drought due to the low inflow of rainwater. .

The present invention connects the rainwater inlet pipe to one side of the rainwater drainage pipe installed on the roof of the building or the lower part of the bridge in order to solve this problem, the water in each of the plurality of reservoir tanks buried in the soil through the rainwater inlet pipe One end of the water absorption rod, which is made of a material capable of absorbing water, is connected to the inside of the water storage tank, and the other end of the water absorption rod is installed inside the soil of the vegetation block on the outside of the water storage tank. It is to provide a water supply system of the vegetation block by the osmotic pressure principle that water absorbed from the water storage tank by the absorption rod is absorbed into the soil by the osmotic principle to continuously supply water to the plant.

The present invention is a drain pipe line for draining rainwater, rainwater inlet pipe installed on one side of the drainage pipe so that a portion of rainwater flows in, and the other end of the rainwater inlet pipe and the distribution pipe is installed on the outside of the drainage pipe and The distribution pipe is provided with a plurality of branch pipes so that water is distributed to a plurality of storage tanks for storing water, and the water of the storage tank is absorbed with a water absorption rod and then a vegetation block by a water absorption rod. It is characterized by a vegetation block's water supply system, which allows it to be absorbed into the soils in the soil so that the plants can be continuously moisturized.

The present invention recovers the rainwater drained through the drainage pipe so that the storage tank is naturally watered, and even when the reservoir tank is filled up to the upper part, the water in the tank is absorbed in close contact with the water induction pipe. Since the water is not suddenly sent by the rainwater in the drainage pipe is a means of allowing the water to drain to the bottom of the drainage pipe without any further water flowing into the rainwater inlet pipe is naturally controlled.

In addition, the water stored in the water storage tank is absorbed by the water absorption rod, and then the osmotic pressure is transmitted to the other end of the water absorption rod outside the water storage tank so that the water is gradually absorbed into the soil which is in contact with the water absorption rod. As it is possible to continuously supply moisture to plants, it is possible to reliably plant vegetation planted on vegetation blocks that are installed on terrain that is difficult to supply water without using separate power, as in the prior art. It is effective to make landscapes.

Figure 1 is a partially cut perspective view showing a landscaping embodiment of the vegetation block applied to the water supply system of the present invention.
Figure 2 is a perspective view showing the main components of the water supply system of the present invention.
Figure 3 is a longitudinal cross-sectional view showing the configuration of the water supply system of the present invention.
Figure 4 is an enlarged partial cross-sectional view showing the main components of the water supply system according to the present invention.
Figure 5 is an embodiment showing that the water is supplied to the plant by the water supply system according to the present invention.
Figure 6 is an embodiment showing that water is absorbed into the soil by the water absorption rod of the water supply system according to the present invention.
Figure 7 is a perspective view illustrating a state in which a water absorption rod is installed on the upper surface of the water storage tank according to the present invention.
8 is a perspective view showing an embodiment in which a water absorbing member is coated on a water absorbing rod according to the present invention;
Figure 9 is a perspective view showing an embodiment in which the porous tube is coupled to the water absorption rod according to the present invention.
10 is a perspective view showing that the storage tank is assembled to the vegetation block according to the present invention.
11 is a cross-sectional view showing that the storage tank is connected to the vegetation block in accordance with the present invention.
12 is a cross-sectional view showing a state in which the reservoir tank is connected to the vegetation block in accordance with the present invention.
Figure 13 is a perspective view showing that a plurality of connections are installed in the lateral direction of the vegetation block according to the present invention.
14 is a perspective view showing another embodiment of the water supply system of the present invention.
Figure 15 is a longitudinal cross-sectional view showing another embodiment of the water supply system of the present invention.

Hereinafter, the preferred embodiment of the present invention will be described in detail. In the following description of the present invention, if it is determined that the detailed description of the related known function or the like may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The water supply system of the vegetation block according to the present invention is made of concrete, etc., without using power to the plant 70 planted in the vegetation block 60, which is provided with the vegetation space portion 62 and installed in multiple stages. The use of rainwater to provide a continuous supply of moisture.

In addition, the water supply system of the present invention can be secured by using the drainage pipe 10 installed in the vertical direction of the roof of the building or the lower part of the bridge and the rainwater is collected to one side and then drained a large amount of rainwater. It is desirable to.

Drainage pipe 10 in which rainwater is drained, rainwater inflow pipe 20 installed at one side of the drainage pipe 10 to allow a portion of rainwater to flow in, and the other end of the rainwater inflow pipe 20 is a drainage pipe. It is connected to the distribution pipe 30 is installed on the outside of the furnace 10, the distribution pipe 30 is provided with a plurality of branch pipes 35, the water is stored in a plurality of storage tanks 40 so that the water is stored The water in the reservoir tank 40 is absorbed by the water absorbing rod 50 and then absorbed into the soil 65 in the vegetation block 60 by the water absorbing rod 50 to maintain the plant. It is characterized in that to supply moisture.

The rainwater inflow pipe 20 has a diameter smaller than that of the drainage pipe 10 so that some of the rainwater drained in the form of falling in the vertical direction of the drainage pipe 10 flows in and the remaining water is drained downward. It is provided as, the inlet 21 of the rainwater inlet pipe 20 is formed upwards to allow the rainwater falling into the inlet and the outlet 22 of the rainwater inlet pipe 20 is formed downward so that the introduced water is distributed pipe It is to be supplied smoothly to (30).

The water storage tank 40, the water induction pipe 42 is fitted with a branch pipe 35 and the water absorption rod 50 on one side of the enclosure shape is made of concrete or synthetic resin and the inside of the water storage tank 40 It is connected to pass through so that the water can be filled up to the upper layer of the reservoir tank 40 so as to ensure the maximum storage capacity.

The water induction pipe 42 penetrates inward from one side of the water storage tank 40 so as to absorb the water in the water storage tank 40 by the water absorption rod 50.

And since the water storage tank 40 is installed in each of the plurality of vegetation blocks 60 are arranged in multiple stages at the front end of the support surface 44a and the support surface 44a extending horizontally on one side of the water storage tank 40. An assembly connection portion 44 having a locking step 44b bent downward is provided, and is fitted into an insertion hole 61 formed at a lower portion of the vegetation block 60 so that the water storage tank 40 can be installed. It is preferable to be able to maintain the state fixed to 60.

The water absorption rod 50 is to be installed in one or more storage tank 40, a plurality of storage tank 40 is installed to enable a large amount of water supply to one vegetation block or a plurality of vegetation blocks Of course, it can be used to provide moisture to the (60).

The water absorption rod 50 is made of a material such as a sponge with good water absorption, one end of the longitudinal direction is in close contact with the water induction pipe 42 is to absorb the water of the water storage tank 40 The water absorption rod 50 on the outside of the water storage tank 40 is protruded so as to be in the shape of the soil to be filled in the vegetation block 60 so that the water in the water storage tank 40 to the water absorption rod 50 By osmotic action by so that it can be absorbed into the soil (65).

In addition, the water absorbing rod 50 is coated with a water-permeable member 52 made of a non-woven fabric or the like around the water absorbing rod 50 to prevent deformation of the soil or deteriorate the water absorbing force. The porous tube made of 54 is coupled to be able to smoothly perform the water passing function while maintaining the stability of the formation.

And the water absorption rod 50, as well as the upper surface of the reservoir tank 40 can be used in connection with the side of the reservoir tank 40, as shown in Figure 14 and 15, the lower portion of the reservoir tank (not shown) Of course).

The vegetation block 60, the coupling pin 63 is formed in each of the upper and lower ends of the coupling step (63a) formed on both sides of the coupling pins corresponding to the coupling groove (63) to connect the fitting pin ( 64) by allowing the plurality of vegetation blocks 60 to be connected in the lateral direction so that the plurality of vegetation blocks 60 can be easily and firmly installed.

When described in detail by the accompanying drawings an embodiment according to the water supply system of the vegetation block of the present invention as follows.

The present invention is installed in the vertical direction of the roof of the building or the lower part of the bridge due to rain, the drainage is made in the form of falling in the vertical direction through the drainage pipe 10 in which a large amount of rainwater is drained, but some rainwater is drained The water flows into the rainwater inflow pipe 20 installed in the interior of the water 10 and is distributed to the plurality of storage tanks 40 connected to the plurality of branch pipes 35 through the distribution pipe 30.

When the water introduced by the rainwater inlet pipe 20 is stored in the reservoir tank 40 and is filled up to the upper portion, the water is no longer introduced into the reservoir tank 40, which is that of the reservoir tank 40. Since the water absorption rod 50 such as a sponge is closely adhered to the water induction pipe 42 through which water is supplied, rain water of the drainage pipe 10 is prevented because the water absorption rod 50 is not drastically transmitted. Rainwater inflow pipe 20 is a water supply is naturally controlled by the means to allow the drainage to the lower portion of the drainage pipe 10 without the inflow.

And the water stored in the storage tank 40 is absorbed by the water absorption rod 50 is transferred to the water absorption rod 50 on the outside to the storage tank 40 to the water planted in the vegetation block 60 One end of the water absorption rod 50 to supply the water is absorbed in the water storage tank 40, and then the water is pumped in the direction of the other end of the water absorption rod 50 on the outside to the water storage tank 40 by osmotic pressure As a means for gradually absorbing water into the soil in contact with the absorbing rod 50, it is possible to continuously supply moisture to the plant.

That is, in the present invention, the rainwater is naturally stored in the plurality of storage tanks 40 using the drainage pipe 10 through which the rainwater is drained, and then the storage tank 40 supplies water to the soil in the vegetation block 60. However, the water in the reservoir tank 40 is absorbed by the water absorption rod 50 so that the water can be properly absorbed into the soil through the water absorption rod 50, so that it is difficult to supply water without using a separate power. Plants planted in the vegetation block 60 is installed on the terrain to ensure that the vegetation reliably.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: drainage pipe 20: rainwater inlet pipe
21: inlet 22: outlet
30: distribution pipe 35: branch pipe
40: reservoir tank 42: water induction pipe
44: assembly connection 44a: support surface
44b: locking step 50: water absorption rod
52: water passing member 54: porous tube
60: vegetation block 61: insertion hole
62: vegetation space 63: coupling groove
63a: coupling step 64: connecting pin
66: Tosa 70: Plant

Claims (10)

A drain pipe line 10 through which rainwater is drained,
A rainwater inflow pipe 20 installed at a diameter smaller than the drainage pipe 10 on one side of the drainage pipe 10 so that a portion of rainwater flows in;
The other end of the rain water inlet pipe 20 is connected to the distribution pipe 30 is installed on the outside of the drainage pipe 10,
The distribution pipe 30 is provided with a plurality of branch pipes 35 so that the water is distributed to a plurality of storage tanks 40 for storing water,
The water in the reservoir tank 40 is absorbed by the water absorption rod 50 and then absorbed into the soil 65 in the vegetation block 60 by the water absorption rod 50 to continuously supply water to the plant. The water supply system of the vegetation block, characterized in that to enable.
delete The method of claim 1,
The rainwater inlet pipe 20, the inlet port 21 is formed upward and the outlet port 22 is formed downward so that rain water falling from the drainage pipe 10 can be introduced into the distribution pipe 30 Water supply system of vegetation block, characterized in that to be supplied to.
The method of claim 1,
The water storage tank 40, the water induction pipe 42 is fitted with a branch pipe 35 and the water absorption rod 50 on one side of the enclosure shape is made of concrete or synthetic resin and the inside of the water storage tank 40 Connected to penetrate the water supply system of the vegetation block, characterized in that the water to be filled up to the upper layer of the reservoir tank (40).
The method of claim 4, wherein
The water induction pipe 42 is connected to penetrate inward from one side of the storage tank 40, the vegetation block, characterized in that to absorb the water of the storage tank 40 by the water absorption rod 50 Moisture supply system.
The method of claim 1,
The reservoir tank 40 is provided with an assembly connecting portion 44 is formed with a support surface (44a) extending horizontally on one side of the lower side and a locking step (44b) is bent downwardly at the tip of the support surface (44a) is formed. The water supply system of the vegetation block, characterized in that it is fitted into the insertion hole 61 formed in the lower portion of the vegetation block (60).
The method of claim 1,
The water absorption rod 50, one end of the longitudinal direction is in close contact with the water induction pipe 42 is to be able to absorb the water of the water storage tank 40, the water outside the water storage tank 40 Absorption rod (50) is protruding to extend the water supply system of the vegetation block, characterized in that the shape so as to fit into the soil to be filled in the vegetation block (60).
The method of claim 1,
A water supply system of the vegetation block, characterized in that it further comprises a coating of the water-permeable member 52 made of a nonwoven fabric or the like around the water absorbing rod (50).
The method of claim 1,
The water supply system of the vegetation block, characterized in that it further comprises that the porous tube 54 made of synthetic resin and the like around the water absorbing rod (50).
The method of claim 1,
The vegetation block 60, the coupling pin 63 is formed in each of the upper and lower ends of the coupling step (63a) formed on both sides of the coupling pins corresponding to the coupling groove (63) to connect the fitting pin ( 64) the water supply system of the vegetation block, characterized in that the plurality of vegetation block 60 to be connected to the installation side.

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