KR101293752B1 - A rainwater utilization system for protected horticulturea - Google Patents

Abstract

PURPOSE: A rainwater usage system for a greenhouse is provided to collect rainwater and remove foreign substances, and to re-use the rainwater cultivating plants. CONSTITUTION: A water collecting unit (110) includes a first water collecting pipe (111) firstly collecting rainwater and a second water collecting pipe (112) secondly collecting the rainwater. An initial rain water discharge unit (120) selectively opens and closes a flow path of branched pipe (122) located on a guide-discharging pipe (121) for separating and discharging initial rain water. A storage unit (130) includes a storage tank (131) for storing a predetermined amount of rainwater, and a rainwater supplying unit (132) connected to the storage tank for supplying the rainwater to crops. A controller detects a rainfall signal of a rainfall sensor, and determines the opening and closing of the flow path. [Reference numerals] (AA,BB,CC,DD,EE) Rainwater

Description

Greenhouse rainwater utilization system {a rainwater utilization system for protected horticulturea}

The present invention relates to a system for using rainwater provided in a greenhouse, and more particularly to a rainwater use system for greenhouses that can be used to grow crops after collecting rainwater falling to the greenhouse roof to filter out impurities.

Recently, due to the extreme weather and heavy rains and droughts, regional water conservation measures are urgently needed to solve the water shortage problem.

Among them, there is increasing interest in storing and using rainwater in such a way that the scarce water can be easily obtained without destroying the environment.

Korean Patent Application No. 10-2008-73091 and Korean Patent Application No. 10-2006-124437 disclose a rainwater recycling system for collecting and purifying rainwater that falls on green buildings or buildings.

In addition to water supply, such rainwater reuse has various effects such as groundwater cultivation, flood control, water resource conservation, river pollution reduction, and river ecosystem conservation.

In particular, agricultural and horticultural cultivation farmers in coastal and reclaimed lands suffer from crop cultivation due to high groundwater and high salt concentrations.In some areas, the cultivation of facilities due to water pollution in large cities or near large cities In difficult areas, it was difficult to stably supply crop water.

In addition, in order to receive water for crop cultivation from a water supply source such as a reservoir, there is a problem in that construction cost and maintenance maintenance cost are excessively required because a watering facility must be installed up to the crop cultivation farm.

The present invention is to solve the problems as described above, the purpose is to remove the impurities contained in the collected rainwater while collecting the rainwater falling on the roof of the greenhouse installed in the crop cultivation farm and then to recycle to the crop cultivation water It is intended to provide a practical rainwater utilization system.

As a specific means for achieving the above object, the present invention, in the system using rainwater rained on the roof of at least one greenhouse, is installed along the lower end of the roof 1 to collect the rainwater dropped to the roof first A water collecting unit having a plurality of secondary water collecting pipes, and having an inlet end disposed below the outlet end of the water collecting pipe, the secondary water collecting pipes collecting secondary rainwater; An initial excellent discharge unit configured to selectively open and close the flow path of the branch pipe provided in the guide discharge pipe having the inlet end disposed below the outlet end of the secondary collection pipe and branch discharge the initial excellent rain for a predetermined time through the branch pipe; A storage unit having at least one storage tank for storing a predetermined amount of rainwater discharged through an outlet end of the guide discharge pipe, and having a rainwater supply pipe connected to the storage tank to supply rainwater to crops in the greenhouse; And a control unit for receiving the detection signal of the rainfall sensor installed outside of the greenhouse to determine whether each flow path of the branch pipe and the guide discharge pipe is opened or closed.

Preferably, the initial excellent discharge unit rotates the first motor to rotate the first valve to open and close the internal flow path of the branch pipe branched from the guide discharge pipe, and to rotate the second valve to open and close the internal flow path of the guide discharge pipe. And a second motor, wherein the first motor and the second motor are selectively operated by a control signal of the controller.

Preferably, the storage unit further comprises a water level sensor electrically connected to the control unit for detecting the level of rainwater stored in the storage tank, and a temperature sensor for detecting the temperature of the stored rainwater.

More preferably, the storage tank includes a heating unit for directly or indirectly heating rainwater stored in the storage tank based on the rainwater temperature measured by the temperature sensor detecting the stored rainwater temperature.

Preferably, further comprising a filtration unit for filtering foreign matter contained in the rain water between the initial excellent discharge portion and the storage portion, wherein the filtration portion is filled in the rain water discharged from the guide discharge pipe of the initial excellent discharge portion, it is contained in the rain water to be filled It includes a filtration tank having a filtration layer to filter the foreign matter and the filtration discharge pipe for connecting the storage tank and the filtration irradiated to discharge the filtered rain water.

More preferably, the filtration layer is a pearlite layer or an activated carbon layer.

Preferably, the rainwater supply pipe for supplying the water stored in the storage tank to the greenhouse is provided with at least one control valve to control the rainwater supply amount, the control unit is detected by the soil moisture sensor for detecting the moisture of the soil in which the crop is grown The amount of rainwater supplied to the crop cultivation soil of the greenhouse through the rainwater supply pipe according to the water content of the soil is controlled.

The present invention as described above has the following effects.

(1) When rainwater is collected according to the rainfall, the initial rainfall is stored in the storage tank and discharged to the outside through branch pipes that are selectively opened so as not to be supplied to the crops. Since it is possible to prevent the rainwater suitable for crop cultivation smoothly supplied to the crops planted in the greenhouse to maintain a stable growth of the crop, thereby improving the yield of the crop.

(2) The stable supply of rainwater for crop cultivation at facility horticulture, where groundwater depletion and water pollution are severe, can solve the difficulties of facility horticultural farmers and reduce farm household income and greenhouse gases.

1 is an overall configuration diagram showing a rainwater use system for a greenhouse according to a preferred embodiment of the present invention.
Figure 2 is a detailed view showing the initial excellent discharge portion employed in the greenhouse rainwater using system according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Greenhouse rainwater use system 100 according to a preferred embodiment of the present invention, as shown in Figures 1 and 2, while collecting rainwater rained down to the roof of at least one greenhouse (H) provided to the facility cultivation farm The initial rainwater having a high content of the discharger is discharged to the outside, and includes a collecting unit 110, the initial excellent discharge unit 120, the storage unit 130 and the control unit 140 to recycle to crop cultivation water.

The water collecting unit 110 is provided with a plurality of primary water collecting pipes 111 along the lower end of the roof of the greenhouse to collect rainwater falling down to the roof of the greenhouse H at the right and left sides of the roof.

The primary collecting pipe 111 may be disposed between the roofs of the greenhouses H adjacent to each other to collect rainwater flowing down from the inclined roof, and the primary collecting pipe 111 may collect the collected water. It is preferable to be inclined at a predetermined angle toward the secondary collecting pipe 112, which will be described later, so as to naturally drain the outlet side.

The secondary water collecting pipe 112 may be provided as a drip pipe disposed at the lower end of the outlet end of the primary water collecting pipe 111 to collect rainwater secondary, and installed at a predetermined height vertically from the ground ( 113 may be fixed on the top.

The secondary collection pipe 112 is also preferably disposed at an angle to the initial excellent discharge portion 120 side to naturally drain the collected rainwater to the outlet end side.

The initial excellent discharge unit 120 is provided with a guide discharge pipe 121 of a predetermined length in which the inlet end is arranged or connected to the lower end of the outlet end of the secondary collection pipe, the initial excellent excellent middle of the length of the guide discharge pipe 121 It is provided with at least one branch pipe 122 to the branch drainage treatment to the outside.

Accordingly, by selectively opening the flow path of the branch pipe 122 branched from the guide discharge pipe 121, the initial excellent water having a high impurity content is discharged to the outside for a predetermined time, and after a certain time, the flow path is closed and closed.

The initial excellent discharge unit 120 and the first motor 123 to rotate the first valve 123a to open and close the internal flow path of the branch pipe 122 branched from the guide discharge pipe 121, and the guide discharge pipe And a second motor 124 for rotating the second valve 124b to open and close the internal flow path of the 121.

The first motor 123 and the second motor 124 are connected to the control panel 141 of the control unit 140 to be selectively operated by a control signal transmitted from the control panel 141.

In addition, the branch pipe 122 is connected to the discharge water storage tank 125 in which the initial discharge water is temporarily stored, and the initial excellent water stored in the discharge water storage tank 125 is discharged to the drainage passage 127 through the drain pipe 126. Is processed.

The storage unit 130 has at least one storage tank 131 for storing a predetermined amount of rain water discharged through the outlet end of the guide discharge pipe 121, the storage tank 131 is inside the greenhouse (H) Is connected to the plurality of rainwater supply pipe 132 to supply rainwater to the crops grown in.

In addition, the storage tank 131 is provided with a water level sensor 133 for detecting the water level of the stored rainwater, and a temperature sensor 134 for detecting the temperature of the stored rainwater, and thus the water level sensor 133 and the temperature sensor 134 is electrically connected to the control panel 141 of the controller 140 to transmit the detected water level value and temperature value.

Accordingly, the water level and temperature of the rain water stored in the storage tank 131 are measured by the water level sensor 133 and the temperature sensor 134 from time to time and transmitted to the controller 140.

Here, the storage tank 131 is shown and described as being provided as a cylindrical ground water storage tank installed on the bottom surface of the outside of the greenhouse, but is not limited thereto, so as to have a plurality of rainwater storage space using a building material such as formwork. It may be provided as a rectangular ground water storage tank having a partition wall or an underground water storage tank formed in a predetermined depth in the bottom surface and molded into concrete to store rainwater.

The storage tank 131 may be provided with a sterilization treatment device for generating ozone to sterilize microorganisms contained in the stored rainwater.

In addition, between the initial excellent discharge unit 120 and the storage 130 is preferably provided with a filtration unit 150 to filter the foreign matter contained in the rain water discharged into the storage tank.

The filtration unit 150 is filled with rainwater discharged from the guide discharge pipe 121 of the initial excellent discharge unit 120, the filtration such as perlite layer, activated carbon layer and the like to filter the foreign matter contained in the filled rainwater And a filtration tank 151 having a layer, and the filtration tank 151 is connected to the storage tank 131 through a filtration discharge pipe 152.

The control unit 140 includes a control panel 141 electrically connected to the rainfall sensor 142 installed outside the greenhouse (H) to receive the rainfall detection signal by the rainfall sensor 142 to the branch pipe It is determined whether or not the flow path opening and closing of the 122 and the guide discharge pipe 121 are opened or closed.

The controller 140 is electrically connected to the water level sensor 133 and the temperature sensor 134 provided in the storage tank 131 of the storage unit 130 to the rainwater level and rainwater temperature of the storage tank 131. Information is obtained.

Accordingly, the controller 140 operates the first motor 123 to open when the rainfall sensor 142 detects the rainfall, thereby rotating the first valve 123a in the opening direction to flow through the branch pipe 122. On the other hand, the second motor 124 is closed to operate the second valve 124a in the closing direction to close the flow path of the guide discharge pipe 121.

In this case, the rainwater collected together with the impurities remaining on the roof of the greenhouse during the initial rainfall is not supplied directly to the storage tank 131 of the storage 130 through the guide discharge pipe 121 and opened in the discharge water storage tank 125. ) Is supplied and stored.

Subsequently, after a predetermined time, the control unit 140 returns the first valve 123a to the closed direction, closes the flow path of the branch pipe 122, and simultaneously returns the second valve 124a to the open direction. By opening the flow path of the guide discharge pipe 121 to supply rain water having a low recycling content and high recyclability to the storage tank 131 of the storage unit 130 to be stored.

On the other hand, the storage tank 131 is the storage tank 131 to have a temperature suitable for the growth of crops planted in the greenhouse on the basis of the rain water temperature measured by the temperature sensor 134 for detecting the stored rain water temperature. It is preferable to include a heating unit 135 provided on an outer surface of the storage tank 131 directly to indirectly heat the stored rainwater or disposed inside the storage tank 131 to directly heat the rainwater.

The heating unit 135 is provided as an electric resistance heater that is electrically connected to the control panel 141 electrically connected to the temperature sensor 134 to generate resistance heat when the power is applied, or heat by igniting gas or oil. It may be provided as a burner heater for generating a.

Accordingly, the rainwater supplied to the crop in winter can prevent the crop from being stressed due to cold water temperature, thereby increasing crop yield and stably increasing crop yield.

In addition, the rainwater supply pipe 132 for supplying the water stored in the storage tank 131 to the greenhouse is provided with a control valve (132a) to adjust the rainwater supply amount, the control unit 140 controls the moisture of the soil in which the crop is grown. It is electrically connected to the soil moisture sensor 136 to detect.

Accordingly, the rainwater supply amount supplied to the crop cultivation soil of the greenhouse through the rainwater supply pipe 132 may be appropriately adjusted according to the moisture content of the soil detected by the soil moisture sensor 136.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

H: greenhouse 110: water collecting part
111: 1st collection pipe 112: 2nd collection pipe
120: excellent initial discharge unit 121: guide discharge pipe
122: branch pipe 123: the first motor
124: second motor 125: discharge water storage tank
130: storage unit 131: storage tank
132: rainwater supply pipe 133: water level sensor
134: temperature sensor 135: heating
140: control unit 141: control panel

Claims (7)

In a system using rainwater that rains on the roof of at least one greenhouse,
Secondary homes are provided along the lower end of the roof and are provided with a plurality of primary water collecting pipes for collecting rainwater dropped to the roof first, and an inlet end is disposed below the outlet end of the water collecting pipes to collect rainwater secondly. A water collecting unit having a water pipe;
An initial excellent discharge unit configured to selectively open and close the flow path of the branch pipe provided in the guide discharge pipe having the inlet end disposed below the outlet end of the secondary collection pipe and branch discharge the initial excellent rain for a predetermined time through the branch pipe;
A storage unit having at least one storage tank for storing a predetermined amount of rainwater discharged through an outlet end of the guide discharge pipe, and having a rainwater supply pipe connected to the storage tank to supply rainwater to crops in the greenhouse; And
Receiving a detection signal of the rain sensor installed outside the greenhouse to determine whether the opening and closing of each flow path of the branch pipe and the guide discharge pipe; Rainwater utilization system for a greenhouse comprising a. The method of claim 1,
The initial excellent discharge unit may include a first motor for rotating the first valve to open and close the internal flow path of the branch pipe branched from the guide discharge pipe, and a second motor for rotating the second valve to open and close the internal flow path of the guide discharge pipe. Including;
And the first motor and the second motor are selectively operated by a control signal of the controller. The method of claim 1,
The storage unit further comprises a water level sensor electrically connected to the control unit for detecting the level of rain water stored in the storage tank, and a temperature sensor for detecting the temperature of the stored rain water. The method of claim 3,
The storage tank uses a greenhouse rainwater, characterized in that it comprises a heating unit for directly or indirectly heating rainwater stored in the storage tank based on the rainwater temperature measured by the temperature sensor for detecting the stored rainwater temperature. system. The method of claim 1,
Further comprising a filtration unit for filtering the foreign matter contained in the rain water between the initial excellent discharge portion and the storage portion,
The filtration unit is filled with rain water discharged from the guide discharge pipe of the initial excellent discharge portion, the filter tank having a filtration layer to filter the foreign matter contained in the rain water to be filled and the rain water filtered by connecting the storage tank and the filtration probe Greenhouse rainwater using system comprising a filtration discharge pipe for discharging the water. The method of claim 5,
The filtration layer is a rainwater use system for a greenhouse, characterized in that the pearlite layer or activated carbon layer. The method of claim 1,
The rainwater supply pipe for supplying the water stored in the storage tank to the greenhouse is provided with at least one control valve to control the rainwater supply amount,
The control unit controls the rainwater supply amount supplied to the crop cultivation soil of the greenhouse through the rainwater supply pipe in accordance with the water content of the soil detected by the soil moisture sensor for detecting the moisture of the soil in which the crop is grown. Utilization system.

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