KR101323174B1 - Sprinkler for Using Rainwater and solar energy - Google Patents

Abstract

The present invention relates to a sprinkler using rainwater and solar light, the solar energy is converted into electrical energy using a solar panel to control the sprinkler, on a rainy day by storing rainwater in a rainwater storage tank for an unavoidable reason Even if this is blocked, it is possible to provide rainwater and solar sprinklers that can be sprayed using stored rainwater.

Description

Sprinkler for Using Rainwater and Solar Energy

The present invention relates to a sprinkler using rainwater and sunlight, and more particularly, when rainwater is rained in rainy weather and the sun shines down strongly, the solar energy is converted into electrical energy by the solar panel and stored in a storage battery. The present invention relates to a sprinkler using rainwater and sunlight to spray rainwater collected by operating a motor.

Korea, which is recognized as a water shortage country, is in danger of falling into a water famine if there is no development of alternative water resources, but development of dams to secure water resources is limited due to environmental issues. As people's water consumption is gradually increasing, new alternative water resources are urgently needed. In addition, in Korea, in general, a lot of rain more than 1,200mm per year, but most of them are difficult to use and manage the water resources due to the rainfall trend concentrated in the rainy season. Therefore, in the situation where the problem of water shortage is expected to deepen, there is increasing interest in recycling and proper management of rainwater or surface water.

Generally, a sprinkler is a sprinkler that sprays water through a sprinkler head having a plurality of nozzles. The sprinkler is installed on a ceiling inside a building and used as a fixed fire fighting facility for extinguishing a fire. It is divided into outdoor sprinkler used to spray water quickly and evenly over a large area from the back.

Conventional sprinklers operate regardless of time and drying conditions, such as watering on rainy days or operating sprinklers even on rainy days due to user's carelessness.

In addition, in order to be able to spray work requires an external water supply source, there is a problem that the spraying work is not performed when the external water supply source is indispensable for reasons.

Therefore, an object of the present invention is to solve the problems of the above-described conventional sprinkler, the rain water is stored on rainy days, and rain water that can be sprayed by using rain water stored even if the external water supply is blocked for unavoidable reasons It is to provide a sprinkler using sunlight.

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

The sprinkler using the rainwater and sunlight of the present invention for achieving the above object, a sprinkler portion having a collecting pipe for moving the rainwater flowed from the top downward, and located below the sprinkler portion, through the collection pipe A rainwater storage tank for storing the incoming rainwater, a solar panel for converting the collected solar light into electrical energy, and the sprinkler unit supplying the changed electric energy to the sprinkler so as to scatter and spray rainwater stored in the rainwater storage tank. It includes a storage battery.

According to the present invention, the stored rainwater is recycled, which is environmentally friendly, and by using solar energy, rainwater is used as renewable energy, contributing to environmental conservation, and saving resources dependent on coal and oil.

1 is a perspective view showing a sprinkler using rainwater and sunlight according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along the line AA ′ of FIG. 1.
3 is a plan view showing a guide tube according to another embodiment of the present invention.
4 is a cross-sectional view taken along line AA ′ of FIG. 1.
5 is a state diagram using the sprinkler using rainwater and sunlight according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a sprinkler using rainwater and sunlight according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line AA 'shown in Figure 1, Figure 3 is another embodiment of the present invention It is the top view which showed the guide tube which concerns on an example.

1 to 3, the sprinkler 1000 using rainwater and sunlight according to an embodiment of the present invention has a sprinkler unit 100 having a collection pipe 110 for moving rainwater flowing from the upper side downward. And a rainwater storage tank 200 attached to the sprinkler unit 100 and storing rainwater flowing through the collection pipe 110, and a solar panel 300 for converting solar energy into electrical energy, and a sprinkler. The unit 100 includes a storage battery 122a for supplying the sprinkler unit 100 with electric energy changed so as to scatter and spray rainwater stored in the rainwater storage tank 200.

The sprinkler part 100 has a hemisphere shape so that the upper part is open and the body part 120 having the sprinkler 121 scattering and spraying rainwater on the side and the open upper part and the rainwater gathers to the center along the surface. A rainwater collection unit 130 including a first member 131 having a second member 132 extending horizontally from the end of the first member 131 to a side surface of the body and to which the solar panel 300 is attached; Include.

The body part 120 receives the rainwater from the motor 122 generating the rotational force, the rainwater storage tank 200, the rotating member 123 rotating by the rotational force, and the upper surface of the rotating member 123. Arranged, a plurality of guide pipes 124 to move the rainwater supplied by the centrifugal force generated by the rotation member 123 to the sprinkler 121, the rainwater storage tank 200 and the rotating member 123 A pump tube 125 forming a movement path between the liver, and a pump motor 126 pumping rainwater to the rotating member 123 through the pump tube 125.

The motor 122 is coupled to the lower center of the rotating member 123 using the pin member 122b. Then, the electrical energy generated by the solar panel 300 is converted into mechanical energy to rotate the rotating member 123. The motor 122 may be configured to receive electrical energy directly from the solar panel 300. By the way, in case of rainy or cloudy days or when the sunlight is weak and the electrical energy required for driving the motor 122 is not generated, the sprinkler unit 100 includes a storage battery 122a capable of storing electrical energy, and a solar panel. It is preferable to store the idle portion of the electrical energy generated from the 300 as the storage battery (122a).

The storage battery 122a is a rotating member 123 by the rotational force of the motor 122 by supplying the stored electrical energy to the motor 122 when the solar panel 300 does not generate enough electrical energy to drive the motor 122. Rotate

On the other hand, when the electrical energy is supplied directly from the solar panel 300 to the motor 122, the amount of electrical energy supplied according to the intensity of sunlight is changed, the driving of the motor 122 may be unstable, as a modified embodiment The solar panel 300 transmits electrical energy to the storage battery 122a without directly driving the motor 122, and takes a configuration of supplying electrical energy from the storage battery 122a to the motor 122, thereby providing a constant current to the motor. It is possible to take the configuration to supply to (122).

The rotating member 123 is disposed inside the body 120 and is coupled to the upper portion of the motor 122 using the pin member 122b. More specifically, it has the form of a dish, preferably circular, inclined toward the center so that rainwater is collected towards the center. In addition, a plurality of guide tubes 124 on the upper surface of the rotating member 123 is arranged to extend outward from the center of the rotating member in the shape of an umbrella. That is, each of the plurality of guide pipes 124, the inlet port 124a through which the rainwater moved through the pump tube 125 flows toward the center side, and the outlet port 124b through which the rainwater is discharged is the sprinkler 121 side. It is disposed on the rotating member 123 to face. In addition, the guide pipe 124 guides the rainwater toward the sprinkler 121 without splashing in all directions by centrifugal force due to the rotation of the motor 125.

Here, the guide tube 124 according to an embodiment of the present invention is shown as being arranged in a straight line of an umbrella shape toward the outside from the center of the rotating member 123, as another embodiment the guide tube is wider toward the end It is also possible to have a trumpet shape or to form a curved line. For example, it may be formed into a curved curve in the rotational direction or a curved curve in the opposite direction of rotation.

That is, as shown in (a) of FIG. 3, another embodiment of the guide tube 124_1 may be wider from the inlet 124a_1 to the outlet 124b_1. In this case, since the width of the discharge port 124b_1 through which the rainwater is discharged is wider than the inlet 124a_1 through which the rainwater flows, the spraying range of the rainwater due to the inertia of the rotating member 123_1 may be evenly sprayed.

Alternatively, as shown in FIG. 3B, in another embodiment of the guide tube 124_2, the guide tube 124_2 may be formed in a curved shape. The pipe connecting the inlet 124a_1 and the outlet 124b_1 has a curved shape, and when the rotating member 123_2 rotates, rainwater may be sprayed along the curved guide tube 124_2 to be sprayed at a longer distance. . The semi-circular guide tube 124_2 forms a curved surface in the same or opposite direction as the rotation direction of the rotating member 123_2, thereby making various rainwater discharge trajectories according to the combination of the centrifugal force and the curve of the guide. have.

That is, the shape of the guide tube 124 may be formed in various shapes other than the above, if the rain water can be discharged through the discharge port (124b_1).

One side of the pump tube 125 is inserted into the rainwater storage tank 200 to suck rainwater stored in the rainwater storage tank 200, and the other side is connected to the pump motor 126. Accordingly, the rainwater introduced through the rainwater collecting unit 130 is stored in the rainwater storage tank 200, and the rainwater stored in the rainwater storage tank 200 is moved to the rotating member 123 by pumping the pump motor 126. Let's do it.

Rainwater collection unit 130 is formed in a hemispherical shape as a whole and is disposed to cover the upper portion of the open body portion 120. In addition, a first member 131 having a wide open upper portion is formed to efficiently collect rainwater, and is composed of a solar panel 300 and a second member 132 having a rainwater detection sensor 400 attached to detect rainwater. .

The first member 131 has an open upper surface so that rainwater can be efficiently collected, and has a hemispherical shape so that rainwater gathers toward the center of the rainwater. In addition, the rainwater collected in the center flows to the collection pipe 110 through the discharge port 131a.

The second member 132 extends in the horizontal direction from the end of the first member 131 to the side of the body portion 120. In addition, the second member 132 is disposed at the position closest to the sky, so that the solar panel 300 converts solar energy into electrical energy so as to efficiently detect sunlight and rainwater, and a rainwater detection sensor that detects rainwater ( 400) is attached.

The solar panel 300 is closest to the sun so as to receive sunlight well, and attaches a top surface toward the sky of the second member 132 having a donut shape. In addition, since the size of the power generated according to the number of the solar panel 300 also varies, it is preferable that at least two or more are attached.

Also, although not shown in the drawings. The solar panel 300 is configured so that each solar panel 300 can move independently, so that the solar panel 300 is manually manipulated or directed to the sun for as much time as possible by the interlocking of the illumination sensor and the motor, thereby improving the light collection efficiency of the solar light. It can be increased further.

On the other hand, by combining the direction of each solar panel 300 in various ways to improve the light collection efficiency of the solar light, for example, three pairs of solar panels 300 are arranged to direct the average position of the sun in the morning, noon, afternoon As a result, even when the solar panel 300 is fixedly arranged, the light collection efficiency can be improved as compared with the case where the solar panel is arranged on a single plane.

For the solar panel 300 itself, a general known technique that can be adopted can be applied, and thus detailed description thereof will be omitted so as not to obscure the subject matter of the present invention.

Rainwater detection sensor 400 is a sensor for detecting rainwater whether rain or not or how much rain. When it rains, the sprinkler does not need to operate so that the motor 122 does not operate, and when it does not rain, the motor 122 can be operated at the discretion of the user. In addition, it is attached to the upper surface toward the sky of the second member 132 to facilitate the detection of rain.

The rainwater storage tank 200 is disposed below the sprinkler portion 100 and is preferably buried in the ground so that rainwater does not evaporate by strong sunlight. Therefore, it is possible to prevent rainwater from being evaporated by strong sunlight, protect external interference such as grass and twigs, and variously change the size and shape of the rainwater storage tank.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the operating relationship of the sprinkler using the rainwater according to the present invention will be described in detail.

4 is a cross-sectional view taken along line AA ′ of FIG. 1, and FIG. 5 is a state diagram of a sprinkler using rain water according to an embodiment of the present invention.

4 and 5, when it rains, the rainwater detection sensor 400 attached to the second member 132 of the rainwater collecting unit 130 detects rainwater.

When rainwater flows to the center along the surface of the first member 131 formed in the hemispherical shape of the rainwater collection unit 130, the rainwater moves to the collection pipe 110 through an outlet 131a formed at the center of the first member 131. do. Therefore, the rainwater flows into the rainwater storage tank 200 through the collection pipe 110 and is stored.

Subsequently, on a day when the sunlight falls strongly without the rain, the solar energy is converted into electrical energy by the plurality of solar panels 300 attached to the second member 132 of the rainwater collecting unit 130 and the motor 122. Is passed on.

The motor 122 converts electrical energy received from the solar panel 300 into mechanical energy.

In addition, electrical energy changed by the solar panel 300 is also stored in the storage battery 122a. The electrical energy stored in the battery 122a operates the pump motor 126. Subsequently, rainwater is introduced into one side of the pump pipe 125 inserted into the rainwater storage tank 200 through the pumping of the pump motor 126 and discharged to the other side located in the upper air of the rotating member 123. .

The discharged rain water falls on the center of the rotating member 123 coupled to the upper portion of the motor 122. Therefore, the rainwater dropped at the center of the rotating member 123 flows into the inlet 124a of the guide tube 124 by the centrifugal force generated by the rotational force of the motor 122, and the discharge port 124b along the guide tube 124. Emitted through.

Subsequently, the rainwater stored in the rainwater storage tank 200 may be sprayed to the outside through the sprinkler 121 through the above process.

As described above, the present invention relates to a sprinkler 1000 using rain water, and converts solar energy into electrical energy using the solar panel 300 to control the sprinkler unit 100 and rain water on rainy days. It can be stored in the rain water storage tank 200 may provide a sprinkler 1000 using rain water that can be sprayed by using the stored rain water even if the external water supply is blocked for unavoidable reasons.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

Sprinkler (1000) sprinkler unit 100 using rain water
Collection pipe 110, body 120
Sprinkler (121) Motor (122)
Storage battery 122a, pin member 122b
Rotating member (123) guide tube (124)
Inlet 124a Outlet 124a, 131a
Pump Pipe (125) Pump Motor (126)
Rainwater collection unit 130, the first member 131
Second member 132 rainwater storage tank 200
Solar Panels 300 Rainwater Detection Sensors 400

Claims (9)

delete delete A sprinkler portion having a collecting pipe for moving the rainwater flowing in from the upper portion downward;
A rainwater storage tank attached to the sprinkler portion and storing rainwater flowing through the collection pipe;
A solar panel generating electrical energy from sunlight and supplying the electrical energy to a motor of the sprinkler unit; And
A storage battery storing an excess of the electrical energy and supplying the stored electrical energy to the motor;
Including,
The sprinkler portion,
An upper part of the body part having a sprinkler spraying the rainwater on the side; And
The solar panel is attached to the open upper part and extends in the horizontal direction from the end of the first member to the first member having a hemispherical shape so that the rainwater is collected toward the center along the surface, and to the side of the body. It comprises a; rainwater collection unit consisting of a second member,
The body portion
A motor generating a rotational force;
A rotating member receiving the rainwater from the rainwater storage tank and rotating by the rotational force;
A plurality of guide tubes disposed on an upper surface of the rotating member and configured to move the supplied rainwater to the sprinkler by centrifugal force generated as the rotating member rotates.
Sprinkler using rainwater and sunlight, characterized in that it comprises.
The method of claim 3, wherein the rotating member,
It has a plate shape inclined toward the center so that the rain water is collected toward the center,
Each of the plurality of guide tubes,
The inlet port through which the rainwater flows in toward the central portion, and the outlet port through which the rainwater is discharged are attached to the rotating member so as to face the sprinkler port.
Sprinkler using rainwater and sunlight. The method of claim 3, wherein the rotating member,
It has a plate shape inclined toward the center so that the rain water is collected toward the center,
Each of the plurality of guide tubes,
The width of the rainwater flows toward the discharge port from which the rainwater is discharged, and the suction port is directed toward the central portion, and the discharge port is attached to the rotating member so as to face the sprinkler side.
Sprinkler using rainwater and sunlight.
The method of claim 3, wherein the rotating member,
It has a plate shape inclined toward the center so that the rain water is collected toward the center,
Each of the plurality of guide tubes,
It is formed in a semi-circular shape on the plane, and the inlet for the rainwater is introduced toward the central portion, and the outlet for the rainwater discharged is attached to the rotating member toward the sprinkler
Sprinkler using rainwater and sunlight.
The method of claim 3, wherein the body portion,
A pump pipe forming a moving passage between the rainwater storage tank and the rotating member; And a pump motor for pumping the rainwater through the pump tube to the rotating member.
Sprinkler using rainwater and sunlight.
A sprinkler portion having a collecting pipe for moving the rainwater flowing in from the upper portion downward;
A rainwater storage tank attached to the sprinkler portion and storing rainwater flowing through the collection pipe;
A solar panel generating electrical energy from sunlight and supplying the electrical energy to a motor of the sprinkler unit; And
A storage battery storing an excess of the electrical energy and supplying the stored electrical energy to the motor;
Including,
The sprinkler portion,
An upper part of the body part having a sprinkler spraying the rainwater on the side; And
The solar panel is attached to the open upper part and extends in the horizontal direction from the end of the first member to the first member having a hemispherical shape so that the rainwater is collected toward the center along the surface, and to the side of the body. It comprises a; rainwater collection unit consisting of a second member,
Rainwater detection sensor is installed on the second member
Sprinkler using rainwater and sunlight.
The method according to claim 3 or 8,
The solar panel is to move each panel independently according to the position of the sun.
Sprinkler using rainwater and sunlight.

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