KR200462627Y1 - Solar water circulation device - Google Patents

Abstract

The present invention relates to an improvement of a solar underwater aeration device (Utility Model Registration No. 20-0437180) installed to improve the water quality of dams and reservoirs.

In the conventional solar underwater aeration apparatus, the solar electric supply device is mounted on the aeration device, but in the present invention, the solar electric supply device is separately installed.

In other words, the bottom part is attached to the frem on the water surface, and the solar panel is installed on the top of the frem as shown in Figure 2 and secured to the anchor installed on the bottom of the appeal by the chain.

By supplying the charged solar current to the circulator motor by the cable in this way, it is possible to solve the solar panel installation space shortage phenomenon and to extend the water cycle operation time as necessary. In addition, the performance is maximized by improving the interfering phenomenon of water diffusion and the height adjustment function of the float.

Solar panels, flams, floats, chains, cables, pumps, anchors, hinges, strainers, drive motors

Description

Solar water circulation device

The present invention relates to a solar water circulator, and more particularly, to minimize the power consumption of the solar water circulator that circulates the water up and down and supplies oxygen to the water to improve water quality of dams and reservoirs. To provide a dull solar water circulator.

The present invention is an improvement of the solar underwater aeration device (Utility Model Registration No. 20-0437180) installed to improve the water quality of dams and reservoirs, the conventional solar underwater aeration device (a) as shown in Figure 1 A pump pump (b) and a diffusion plate (c) are installed in the pump, and a flexible pipe (d) is connected to the bottom of the pump (b) by a flange (e), and a suction pump (f) is flanged to the flexible pipe (d). (e), the strainer tube (g) and the hinge (h) is connected to the anchor (i) by the flange (e) to the lower portion of the suction pump (f), at an inclination angle by the angular movement of the hinge (h) It is to adjust the height.

In addition, a driving motor j is installed on the aeration apparatus a, and a solar panel m is installed on the frame k. The solar power is supplied to the driving motor j to pump the pump. The water is pumped from the bottom to the diffusion plate (c) in all directions to the water surface structure, but some problems have been found to correct this.
[Preceding technical literature]
[Patent Documents]
Utility Model Registered in Korea 20-0437180

Solar water circulation device provided in the present invention is to compensate for the disadvantages of the conventional solar underwater aeration device (Utility Model Registration No. 20-0437180).

Conventional solar underwater aeration device (a) is not able to supply a sufficient amount of solar electricity due to the installation of a photovoltaic electricity production device in a narrow space at the top, and the phenomenon that the buoys (n) installed on the water surface prevent the diffusion of water It is to improve the performance of the solar water circulator by improving it because the diffusion performance is deteriorated because the height adjustment of the buoys (n) is inconvenient.

In order to supply a sufficient amount of solar electricity, the present invention installs a photovoltaic power generation device apart from the water circulation system at a certain distance from the water surface so that it is connected to the pumping device with a cable wired underwater so that it does not interfere with the vessel's traffic. In order to solve the phenomenon of water diffusion disturbance caused by the ball, it forms a diffusion guide groove in which water can be diffused in the center of the ball with a triangular cross section, and the screw bolt which can be rotated by the handle on the top of the ball bracket It is characterized in that it is easy to adjust the height of the buoy by mounting the edge of the diffusion dish to maintain a certain depth on the water surface to evenly spread the water pumped from the bottom in all directions.

The present invention installs photovoltaic electricity production device separately from pumping device, so there is no space limitation and can supply electricity to multiple water circulation devices that can be operated 24 hours a day. Especially, photovoltaic electricity production equipment installed on water surface Power loss can be minimized by reducing the number of pumps, and by installing a diffusion guide groove in the upper part of the buoy, the blind area that obstructs the diffusion of water can be eliminated, and the height of the buoy can be easily adjusted to improve the diffusion plate. Thus, a small amount of pumping water can improve the water quality of a large area.

In describing the preferred embodiment of the present invention as shown in the drawings, a component member having the same function and the like of the component member is additionally labeled with the names A and B of the component member to avoid confusion in the description.
2 is a plan view and a side view of a preferred embodiment of the solar water circulator provided in the present invention.

The solar water circulator provided in the present invention has a large amount of water pumping device 40 which sucks water from the bottom of the appeal and spreads to the surface layer, and accumulates using solar light at a certain distance from the pumping device 40 and the water surface. It is composed of a photovoltaic electricity production device 30 to supply power.
The electricity produced in the photovoltaic electricity producing device 30 is connected to the lower anchor B 14 along the chain 15 in the frame 17 with the electric cable 19 as shown in FIG. 2 to anchor the pumping device 40. It is fixed to the exterior of the sump (4) via A (1) to immediately supply electricity to the upper drive motor (9).

Pumping device 40 is installed by the anchor A (1) at the bottom of the appeal, the strainer (3) by installing a hinge (2) to connect the upper pumping can 4 inclined while angular movement according to the water level (3) ) And flange (13).

Pump tank 4, flexible pipe 5, pump pump 6 is assembled in order to connect the flange 13 in the upper portion of the strainer (3), as shown in Fig. 5 diffused in the upper portion of the casing pump (6) outer casing The plate 7 is welded and mounted. In addition, the lower frame 10 is integrally welded to the outer casing of the pump pump 6, and the upper triangular frame 11 is mounted by installing a connecting frame 23 on the lower frame 10 as shown in FIG. 3. do.

A driving motor 9 for driving the pump pump 6 is installed at the center of the triangular frame 11 to allow the pump pump 6 to rotate.

And the buckle bracket (12) for fixing the ball A (8) has a lower frame 10 by installing a guide fixing pin (12a) that can be prevented from sliding and sliding away from the top and bottom in order to be height adjustable up and down ).

As shown in FIG. 3, a screw bolt 20 for arbitrarily adjusting the height of the mouth A 8 is installed on the mouth bracket 12 so as to be assembled to the screw nut 22 fixed to the connecting frame 23. The lower end of the screw bolt 20 is connected to the connection flange 20a so that the lower end of the screw bolt 12 can be rotated up and down, and the handle 21 is attached to the upper end of the screw bolt 20 to attach the screw bolt ( 20) can be rotated to adjust the height of the ball A (8) up and down by the screw bolt (20) and to maintain the diffusion plate (7) to a certain depth of the water surface to ensure that the pumped water is uniformly spread in all directions To be possible.

Part A (8) of the solar water circulation device provided by the present invention is to install the diffusion guide groove (8a) in the upper center of the triangular cross-section as shown in Figure 4 so that the water flows in the diffusion plate (7) When diffused, the blockage caused by the ball A (8) is eliminated.

Photovoltaic electricity production apparatus 30 of the present invention is installed frame 17 on the water surface as shown in Figure 2, the photovoltaic current collector plate 18 and the storage battery is installed on the upper side, and the lower part B (16) is installed This enables the frame 17 to maintain a certain height on the water surface. Anchor B 14 is installed at the bottom of the appeal and the anchor B 14 and the water surface frame 17 are connected to the chain 15 to fix the position.

The electricity produced by the solar collector plate 18 is stored in the storage battery so that it can be directly transferred to the drive motor 9 for driving the pump pump 6 through the cable 19.
The cable 19 is wired underwater along the chain 15 to the anchor A 1 via the anchor B 14 and then to the drive motor 9 on the water surface to minimize the length of the line. This ensures that power losses due to increased line lengths are minimized.

Solar water circulation system of the present invention can be utilized for water quality improvement device of a lake or dam, sewage treatment plant, sedimentation basin, etc.

1 is a side view and a plan view of a conventional solar underwater aeration device (= water circulation device)

2 is a front view and a plan view of the solar water circulator provided in the present invention

Figure 3 is an enlarged cross-sectional view of the skewyu bolt portion connected to the bracket in the solar water circulation device provided by the present invention

4 is a perspective view of a float used in the pumping device in the solar water circulation device provided by the present invention

5 is a cross-sectional view of the diffusion plate in the solar water circulation device provided by the present invention

■ Explanation of symbols used in main part of drawing ■

DESCRIPTION OF SYMBOLS 1 Anchor A 2 Hinge 3 Strainer 4 Pumping container 5 Flexible tube 6 Pumping pump 7 Diffusion plate 8 A 8a Diffusion guide groove 9 Drive motor 10 Lower frame 11 Upper triangular frame 12 Side bracket 12a: Guide fixing pin 13: Flange 14: Anchor B 15: Chain 16: Side B 17: Frame 18: Solar collector 19: Cable 20: Screw bolt 20a: Connecting flange 21: Handle 22: Screw nut 23: Connecting frame 30: photovoltaic electricity production device 40: pumping device

Claims (3)

In the solar water circulation device for supplying the electricity produced in the photovoltaic electricity production apparatus installed on the water surface using a chain connected to the anchor in the water to the pumping device to install the water quality in the reservoir or dam; The solar water circulation system, characterized in that the electricity produced by the photovoltaic electricity production device to supply electricity to the drive motor of the pumping device through a cable wired via a chain and an underwater anchor. The method of claim 1; And a diffusion guide groove formed at an upper portion of the buoy provided in the lower frame of the pumping device so that water diffused from the diffusion plate can be diffused without a blind spot. The method of claim 1; The lower frame of the upper portion of the pumping device is connected to the buckle bracket with a guide fixing pin so that the buckle bracket can be guided up and down, Install a screw bolt connected to the connection flange on the upper part of the bracket, the screw bolt is screwed to the screw nut fixed to the connecting frame of the upper upper frame, the screw bolt is provided with a handle on the upper rotation control Solar water circulation device, characterized in that to adjust the water surface height of the diffusion plate by moving the up and down according to the screw adjustment of the screw bolt.

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