JP6807566B2 - Rainwater watering system - Google Patents

Description

The present invention relates to a rainwater sprinkling system that stores rainwater and sprinkles the stored rainwater on a solar panel, a roof of a building, or the like to perform cleaning, temperature adjustment, or the like.

In recent years, in ordinary households, solar panels that generate electricity by sunlight are installed on the roof or in the garden to reduce power consumption and commercialize power. Since this solar panel generates electricity by receiving sunlight, if dust or dead leaves adhere to the surface and the surface becomes dirty, the amount of light decreases and the amount of power generation decreases. Therefore, it is necessary to clean the surface of the solar panel, and various cleaning devices have been conventionally developed. These cleaning devices are common in that they use a cleaning liquid, use cleaning members such as rollers and blades, and use moving means for moving the cleaning members on the solar panel.

For example, the cleaning device described in Patent Document 1 includes a tank for storing the cleaning liquid, a nozzle for discharging the cleaning liquid to the surface of the solar panel, and a rubber or the like which pushes the cleaning liquid away by being pressed against the surface of the solar panel. It includes a blade, a wheel that moves on a solar panel to move a nozzle and a blade, a motor that rotates the wheel, and a power supply that drives the motor, and these are attached to the gantry frame. In this cleaning device, the gantry frame is driven on the surface of the solar panel by driving the motor and rotating the wheels in a state where the blade is in contact with the surface of the solar panel. In synchronization with this running, the cleaning liquid is discharged from the nozzle, and the cleaning liquid is washed away by the blade. This cleans the surface of the solar panel.

JP 2015-186786

Since the conventional cleaning device such as Patent Document 1 uses a cleaning liquid, it is troublesome to handle, the operating cost rises, and a tank for storing the cleaning liquid is required. In addition, since the blade pressed against the surface of the solar panel wears out and deteriorates over time, it is not only troublesome to replace it, but also the adjustment to bring the blade into contact with the surface of the solar panel becomes troublesome. There is. This also applies when a roller is used instead of the blade.

Furthermore, wheels, motors, power supplies, etc. for running on the solar panel are required, and in addition to the large number of parts and complicated structure, it is necessary to assemble these to the gantry frame, and assembling and handling the parts. It takes a lot of effort and is inconvenient to use. In addition, there is a problem that the control of cleaning becomes complicated.

The present invention has been made in consideration of such a problem of the conventional cleaning device, and by using rainwater, it can be used at low cost without using a cleaning liquid, and a blade, a roller, or the like is used. It is an object of the present invention to provide a rainwater sprinkling system that is simple and can be used for a long period of time, does not require running, reduces the number of parts for that purpose, and can simplify the structure.

The rainwater sprinkling system of the present invention is a system that sprinkles water on the surface of an object composed of a roof of a building or a solar panel installed at an inclination, and sprinkles rainwater toward the surface of the object. A water sprinkling pipe provided with a water port and provided in a rising shape at a position higher than the upper end of the object, a water storage tank arranged at the lower end of the object to store rainwater that slides down the object, and the water storage tank. of a filter member provided in an upper portion, a pipe the pipe connecting the watering pipe and the water storage tank, while being configured to pump the water spray pipe rainwater of the water storage tank provided in the middle of the pipe the pipe A storage battery for storing the generated power of the solar panel for driving the pump, a heater for heating rainwater, and a commercial power source are provided, and the power drive source of the pump and the heater can be switched to the storage battery or the commercial power source by switching the switch. is configured, the reservoir and the pump for pumping the warmed rainwater into the water spray pipe by rainwater directly or the heater in the tank, the inclination adjustably the pipe pipe the sprinkler pipe back and forth direction or in the longitudinal direction those you characterized by and a joint member using a universal joint for coupling to.

Such an invention applies not only to solar panels but also to roofs of buildings, and in the case of solar panels, it can be suitably used for cleaning the surface, and in the case of roofs of buildings, to the roof. It can be used for indoor high temperature countermeasures by controlling and removing snow from the roof and cooling the roof.

In the present invention, in addition to the above configuration, a heater that heats rainwater supplied to the piping pipe can be used. When the object is a solar panel, a storage battery that stores electricity generated by the solar panel can be used, and the pump or heater can be driven by the electricity stored by the storage battery. This makes it possible to save commercial power.

According to the present invention, rainwater is stored in a water storage tank, and the rainwater in the water storage tank is sprinkled from a watering pipe to a solar panel or a roof, and the watering is used to clean the solar panel or the roof of a building, or on the roof of a building. Can melt the snow. Since rainwater is used in such an invention, a cleaning liquid is not required, so that the present invention is easy to handle and can be used at low cost.

Further, since the present invention has a structure for sprinkling rainwater and does not use blades or rollers that wear and deteriorate over time, it is not necessary to replace parts. Further, since the structure is such that rainwater is sprinkled, it is not necessary to run on a solar panel or a roof, a motor and wheels for running are not required, the structure can be simplified, and handling is easy.

It is a side view which shows the whole of the rainwater watering system of one Embodiment of this invention. It is a perspective view which shows the movement of the watering pipe in the rainwater watering system of one Embodiment.

FIG. 1 shows the entire rainwater watering system 1 of the embodiment of the present invention, and FIG. 2 shows the movement of the watering pipe. As shown in FIG. 1, the rainwater sprinkling system 1 of this embodiment includes a solar panel 2 as an object to be sprinkled, a sprinkling pipe 3, a water storage tank 5, a filtering member 6, a piping pipe 7, and a pump. 8 and a joint member 9 are provided.

As shown in FIG. 2, the solar panel 2 has a plurality of rectangular power generation panels 10 arranged in an array in a frame 11 made of an aluminum alloy or the like, and the power generation panel 10 generates power by receiving sunlight. As shown in FIG. 1, the solar panel 2 is supported by a plurality of pedestals 12 having different heights and is inclined in one direction (downward to the right in the illustrated example). In this state, the building It will be installed on vacant lots such as roofs and gardens. In this embodiment, the solar panel 2 is inclined so that the rear side (left side in FIG. 1) is high and the front side (right side in FIG. 1) is low, and reference numeral 13 is the upper end portion of the solar panel 2, reference numeral 14. Is the lower end of the solar panel 2. Rainwater 31 is sprinkled on the surface 2a of the solar panel 2 inclined in this way.

The watering pipe 3 is connected to the piping pipe 7 via a joint member 9. The watering pipe 3 is arranged on the upper end (rear end) 13 side of the solar panel 2 which is inclined in one direction, and rises so as to be higher than the upper end 13 of the solar panel 2. It is provided. The watering pipe 3 is for spraying rainwater 31 over the entire surface 2a of the solar panel 2, and a plurality of watering pipes 3 are provided for one solar panel 2. Therefore, although not shown, a plurality of watering pipes 3 are arranged at appropriate intervals along the length direction of the solar panel 2 (paper penetration direction in FIG. 1 and left-right direction in FIG. 2).

The watering pipe 3 is provided with a watering port 4. A plurality of watering ports 4 (three places in the illustrated example) are provided along the height direction of one watering pipe 3, and rainwater 31 is discharged from each watering port 4, whereby the surface of the solar panel 2 is discharged. Rainwater is sprinkled on 2a. In this case, it is preferable that rainwater 31 is sprinkled from the plurality of sprinkler ports 4 at different discharge angles, and the nozzle angles of the sprinkler ports 4 are adjusted in this way.

The water storage tank 5 is arranged at the lower end 14 of the solar panel 2, and is provided so as to sandwich the solar panel 2 with the watering pipe 3. The water storage tank 5 is a tank for storing rainwater that slides down the surface 2a of the solar panel 2 when it rains or when watering from the watering pipe 3, and is in the length direction of the solar panel 2 (paper penetration direction in FIG. 1, FIG. 2). It extends along the left-right direction of the panel 2 so as to have almost the same length as the panel 2. As a result, most of the rainwater that slides down the surface 2a of the solar panel 2 can be captured and stored.

A gutter 16 is arranged above the water storage tank 5. The receiving gutter 16 has a length substantially the same as the length of the solar panel 2 and is arranged so as to face the lower end portion 14 of the solar panel 2, and receives rainwater 31 sliding down the surface 2a of the solar panel 2. Guide them to fall into the water storage tank 5.

The filtration member 6 is provided above the water storage tank 5 so as to be located between the gutter 16 and the water storage tank 5. As the filtration member 6, a net in which resin threads or metal threads are knitted in a mesh shape is used. By providing the filtration member 6 on the upper part of the water storage tank 5, it acts to remove dust and dead leaves in the rainwater before the rainwater falls into the water storage tank 5. This makes it possible to prevent the rainwater 31 from being clogged.

In this embodiment, a heating tank 17 is connected to the downstream side of the water storage tank 5, and rainwater in the water storage tank 5 is guided into the heating tank 17 and stored. A heater 18 is provided in the heating tank 17, and the heater 18 can heat the rainwater in the heating tank 17 to an appropriate temperature (for example, about 50 ° C.). The heated rainwater 31 is used, for example, to melt the snow on the roof.

The piping pipe 7 is arranged below the solar panel 2, and is piped so that one end is connected to the downstream side of the heating tank 17 and the other end is connected to the watering pipe 3. Reference numeral 19 is a piping stand for supporting the piping state of the piping pipe 7. Such a piping pipe 7 supplies rainwater 31 in the heating tank 17 or the water storage tank 5 to the watering pipe 3 as shown by the chain line arrow 32 in FIG.

The joint member 9 is attached to a connecting portion between the piping pipe 7 and the watering pipe 3. The joint member 9 connects the watering pipe 3 to the piping pipe 7 so that the watering pipe 3 can be tilted and adjusted in the front-rear direction and the left-right direction. The solid arrow 33 in FIG. 1 is the inclination of the watering pipe 3 in the front-rear direction, the solid arrow 34 in FIG. 2 is the inclination of the watering pipe 3 in the left-right direction, and the joint member 9 is inclined in both the solid arrows 33 and 34 directions. The watering pipe 3 is connected to the pipe pipe 7 so as to be adjustable. Since the inclination can be adjusted in the front-rear direction 33 and the left-right direction 34 in this way, the watering area by one watering pipe 3 can be widened. As a result, the number of watering pipes 3 installed can be reduced, and the structure can be simplified. In particular, when adjusting the inclination in the front-rear direction, the distance of the solar panel 2 from the surface 2a can be changed, and by changing this distance, the water pressure of the rainwater 31 sprinkled on the surface 2a can also be adjusted. Therefore, rainwater 31 having a pressure corresponding to the degree of contamination of the surface 2a of the solar panel 2 can be sprinkled, and effective cleaning can be performed. As such a joint member 9, for example, a universal joint is used.

The pump 8 is provided in the middle of the piping pipe 7 (intermediate portion in the length direction). The pump 8 pressurizes the rainwater 31 flowing in the piping pipe 7 to pump the rainwater 31 to the watering pipe 3. Therefore, the rainwater 31 becomes pressure water and is sprinkled vigorously from the watering pipe 3, so that dust and the like on the surface 2a of the solar panel 2 can be reliably removed.

In this embodiment, the driving power of the pump 8 is supplied by the electricity generated by the solar panel 2. Hereinafter, a configuration for this purpose will be described with reference to FIG.

In FIG. 1, reference numeral 21 is a storage battery, and reference numeral 22 is a commercial power source. The storage battery 21 is connected to a collector (not shown) of the solar panel 2 and stores the electricity generated by the solar panel 2. The commercial power source 22 is a power source used in the home. Reference numeral 23 is a first switch, and reference numeral 24 is a second switch. The first switch 23 is connected to the storage battery 21 and the commercial power source 22 and acts to switch between them. A second switch 24 is connected to the pump 8 and the heater 18 and acts to switch between them. The switching of the first switch 23 and the second switch 24 is performed manually or by automatic control.

When rainwater 31 is sprinkled from the watering pipe 3 in the daytime or the like, the pump 8 is driven by the electricity stored in the storage battery 21. At this time, since the commercial power supply 22 is not used, power can be saved. When the storage amount of the storage battery 21 is insufficient or at night, the contact of the first switch 23 is turned on to the commercial power supply 22 side, and the pump 8 is driven by the electricity from the commercial power supply 22 to sprinkle rainwater. With such a configuration, the amount of commercial power supply 22 used can be reduced.

In this embodiment, the heater 18 in the heating tank 17 is connected to the pump 8 via the second switch 24. This makes it possible to switch between the heater 18 and the pump 8. When the contact of the second switch 24 is turned on to the heater 18, the heater 18 heats the rainwater 31 in the heating tank 17 to, for example, about 50 ° C. by electricity from the storage battery 21 or the commercial power source 22. The heated rainwater 31 is used, for example, when melting snow on the roof, and the heated rainwater 31 is sent from the sprinkler pipe 3 onto the roof by switching the first switch 23 and driving the pump 8. Sprinkle water to melt the snow. At the same time, the heated rainwater 31 can prevent freezing in the piping pipe 7 and the watering pipe 3. When the object of watering is a roof, water may be sprinkled from the watering pipe 3 without heating the rainwater 31 by the heater 18, and the roof can be cooled by this watering and used as a countermeasure against high temperature indoors in summer. ..

In the present invention, the above connection of the electric system is arbitrary, and the solar panel 2 and the roof can be cleaned without using the heater 18 and the storage battery 21.

According to the present invention as described above, the rainwater 31 is stored in the water storage tank 5, and the rainwater 31 is sprinkled from the watering pipe 3 to the solar panel 2 and the roof. By this watering, the solar panel 2 and the roof of the building are sprinkled. Not only can you clean the roof, but you can also melt the snow on the roof of the building. In such a present invention, since it is not necessary to use a cleaning liquid, it is easy to handle and can be used at low cost. Further, since the present invention has a structure in which rainwater 31 is sprinkled and does not use blades or rollers that are consumed or deteriorated over time, it is not necessary to replace parts, and it is not necessary to take time and effort for replacement. Further, since the structure is to sprinkle rainwater, it is not necessary to run on the solar panel 2 or the roof, and the motor and wheels for that purpose are not required, the structure can be simplified, and the handling becomes easy.

1 Rainwater sprinkling system 2 Solar panel 2a Surface 3 Sprinkling pipe 4 Sprinkler port 5 Water storage tank 6 Filtering member 7 Piping pipe 8 Pump 9 Joint member 10 Power generation panel 11 Frame 12 Stand 13 Upper end 14 Lower end 16 Receiving gutter 17 Heating tank 18 Heater 19 Piping stand 21 Storage battery 22 Commercial power supply 23 1st switch 24 2nd switch 31 Rainwater 33 Front-back direction 34 Left-right direction

Claims (2)

A system that sprinkles water on the surface of an object consisting of a sloped building roof or solar panels .
A sprinkler pipe provided with a sprinkler port for sprinkling rainwater toward the surface of the object and provided in a rising shape at a position higher than the upper end of the object.
A water storage tank that is placed at the lower end of the object and stores rainwater that slides down the object.
The filtration member provided on the upper part of the water storage tank and
A piping pipe that connects the water storage tank and the watering pipe,
A storage battery provided in the middle of the piping pipe to pump rainwater in the water storage tank to the sprinkler pipe, and to store the generated power of the solar panel for driving the pump, and a heater for heating rainwater. And a commercial power source, the pump and the power drive source of the heater can be switched to a storage battery or a commercial power source by switching the switch , and the rainwater in the water storage tank can be directly or the rainwater heated by the heater. A pump that pumps to the sprinkler pipe and
A joint member using a universal joint that connects the watering pipe to the piping pipe so that the inclination of the watering pipe can be adjusted in the front-rear direction and the left-right direction.
A rainwater watering system characterized by being equipped with. The object is a solar panel
A heater that heats rainwater supplied from the water storage tank to the piping pipe,
A storage battery that stores electricity generated by the solar panel,
With a commercial power supply that supplies the required power,
The first switch connected to the storage battery and commercial power supply,
The second switch connected to the pump and heater,
With
The rainwater sprinkling system according to claim 1, wherein the driving power of the pump and the driving power of the heater are supplied by electricity generated by the solar panel or a commercial power source by switching the first switch and the second switch.

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