KR101307522B1 - Hybrid type water quality purification equipment - Google Patents

Abstract

The present invention forms a strong water flow in the state of getting into a river, a dam, or the sea, and increases the amount of dissolved oxygen in river or sea water, and supports and circulates various kinds of these substances remaining on the bottom to promote their decomposition. Regarding the water purification device,
In the present invention, the housing is formed with at least one circulation port in communication with the top and bottom; A circulation flow generation module for generating a circulation flow discharged upwardly to each circulation port of the enclosure; A battery for accumulating and applying a current according to the driving of the circulation flow generating module; The circulation flow generation module disposed on the circulation port and spreading the circulation flow upwardly discharged from the circulation port through a diffusion fan fixed to the rotation shaft, while generating current through the rotation of the rotation shaft rotated during the diffusion flow of the circulation flow and accumulating the battery. and; And it characterized in that it comprises a control module for controlling their driving.

Description

Hybrid type water quality purification equipment

The present invention relates to a hybrid type water purification device, and more particularly, to form a circulation flow in a state of getting into a river, a dam, or the sea, to increase the amount of dissolved oxygen in the river water or the sea water, and to support various substances remaining on the bottom. And it relates to a hybrid type water purification device to circulate to promote their decomposition.

As it is well known, since water enters a reservoir space such as a river or a reservoir, a large amount of pollutants are included in the incoming water.

Various water purification methods have been proposed, such as gravel contact oxidation method, reverse contact oxidation method, sewage treatment plant water purification method, chlorine input purification method, but the above water purification methods are consistently expensive and ineffective for cost.

In addition, there is a water purification device for purifying water by using a photocatalyst, but the water purification device using such a photocatalyst is difficult to purify a large amount of water continuously because the water is purified without flowing in a limited space. Therefore, there is a demand for development of an apparatus capable of continuously purifying a large amount of water.

On the other hand, the Four Major Rivers Maintenance Project, which has recently been implemented as a national project, has been known to form a plurality of bona dams that block the flow of water in the rivers.

However, when the formation of the water stream is suppressed and the amount of dissolved oxygen decreases, the self-cleaning ability of the water decreases, thereby increasing the possibility of water decay, and causing a problem of collective death of fish inhabiting the water. .

An object of the present invention devised to solve the above problems is to provide a circulation flow by forcibly circulating water in a river or a reservoir, provided in a state obtained in a river or a reservoir, thereby increasing the amount of dissolved oxygen in the river or the sea water, and In addition, by circulating the foreign matter formed in the bottom of the reservoir to promote their decomposition, in particular to provide a hybrid type water purification device to enable the implementation of continuous water purification without a separate charging process through the self-power generation function.

The above object is achieved by the following constitutions provided in the present invention.

Hybrid type water purification device according to the present invention,

An enclosure having at least one circulation port communicating with the upper and lower surfaces;

A circulation flow generation module for generating a circulation flow discharged upwardly to each circulation port of the enclosure;

A battery for accumulating and applying a current according to the driving of the circulation flow generating module;

The circulation flow generation module disposed on the circulation port and spreading the circulation flow upwardly discharged from the circulation port through a diffusion fan fixed to the rotation shaft, while generating current through the rotation of the rotation shaft rotated during the diffusion flow of the circulation flow and accumulating the battery. and;

The expansion tank is installed in the enclosure, the compressed air is stored, the expansion tube expands by the air injected from the air tank, and by controlling the opening and closing of the expansion tube and the air tank, whether the expansion tube is expanded or not Buoyancy control module comprising a pressure control valve for controlling; And
It is configured to include a control module for controlling their driving,
By forcibly circulating water in the state of being obtained to form a circulating flow to purify the water quality through the forced circulation of water,
When the control module applies a current charged in the battery to the water flow generation module, the water flow generation module is characterized in that it is configured to move by the thrust generated by the rotation fan to rotate the rotating fan fixed to the rotating shaft.

Preferably, the circulation flow generation module, the electric pump discharges the high pressure water to the upper portion of the circulation port formed in the enclosure through the discharge pipe to form a high pressure water flow in the circulation port, the water remaining in the vicinity of the circulation port An electric pump type to move upward with the water flow to generate a circulation flow; An electric motor type including an electric motor and an impeller rotating by receiving rotational force from the electric motor can be adopted.

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As described above, in the present invention, by entering the river or reservoir to form a circulation flow by forcibly circulating the river water or the water of the reservoir, and through the circulation flow to increase the amount of dissolved oxygen, while the foreign matter formed at the bottom of the river or reservoir It is proposed a water purification device that circulates to promote their decomposition.

In the present invention, by adding a circulating flow generation module for generating power through the circulating flow, and a water flow generating module for generating power through the water flow, through the circulating flow generated through the circulation port, or through the water flow discharged along the drain or drain of the dam or beam It is trying to develop itself.

Accordingly, the present invention is driven through a current that is self-generated through the power generation module without the hassle of applying or charging the current from the outside, it is possible to continuously purify the water quality and significantly reduced manpower and additional costs required for manufacturing and maintenance Has the advantage of being.

In addition, the present invention is a remote control by wirelessly transmitting a wireless signal stably through the antenna supported by the water, and combines the convenience and stability according to the control.

1 to 3 show the overall configuration of the hybrid type water purification device proposed as a preferred embodiment of the present invention, and the state of water purification,
4 to 6 show the overall configuration of the hybrid type water purification device proposed as another embodiment in the present invention, and the state of water purification,
7 is a functional state diagram showing a self-power generation state through the water flow power generation module in the hybrid type water purification device according to the present invention.

Hereinafter, with reference to the accompanying drawings it will be described in detail the water-purifying water purification device having a self-generation function proposed in the preferred embodiment of the present invention.

1 to 3 show the overall configuration of the hybrid type water purification device proposed as a preferred embodiment of the present invention, and the state of water purification, and FIGS. 4 to 6 show as another embodiment of the present invention. Figure 7 shows the overall configuration of the hybrid type water purification device, and the water purification operation state, Figure 7 is a functional state diagram showing the self-power generation state through the water flow generation module in the hybrid type water purification device according to the present invention.

The water-type water purification devices 1 and 1 'proposed in the preferred embodiment of the present invention are installed in a state in which a bona dam is installed in a river or a reservoir, and the water quality is purified through forced circulation of water.

The water-purifying water purifiers 1 and 1 ′ according to the present embodiment include a housing 10 in which one or more circulation ports 11 communicate with the body as shown in FIGS. 1 to 6; Circulation flow generation modules 20 and 30 for generating a circulation flow in each circulation port 11 of the enclosure 10; A battery 40 for applying a driving current to the circulation flow generation module 20 or 30; And a control module 50 for controlling the driving thereof.

Referring to the drawings, a pair of circulation ports 11 penetrated up and down are formed on both left and right sides of the enclosure 10, and each of these circulation ports 11 is a circulation flow generation module 20 and 30 for generating circulation by forcibly circulating water. ) Is formed.

In FIGS. 1 to 3, an electric pump-type circulation flow generating module 20 is installed in each circulation port 11 of the enclosure 10. In FIGS. 4 to 6, which illustrate another embodiment, the circulation of the enclosure 10 is shown. In the sphere 11, a circulation motor type circulation flow generation module 30 is provided.

First, as shown in FIG. 3, the electric pump-type circulation flow generation module 20 discharges high-pressure water to the upper portion of the circulation port 11 formed in the housing 10 through the electric pump 21 through the ejection pipe 22. The high pressure water flow f1 is formed in the circulation port 11, and the water remaining near the circulation port 11 moves upward with the high pressure water flow f1 to generate the circulation flow F.

The circulation motor type circulation flow generation module 30 includes an electric motor 31 and an impeller 32 that rotates by applying rotational force from the electric motor 31, as shown in FIG. 6. The impeller 32 installed in the circulation port 11 rotates by the rotational force generated in 31 and generates a circulation flow moving upward from the lower portion of the circulation port 11.

In this embodiment, a pair of circulation ports 11 are formed in the enclosure 10, and impellers 32 which rotate by receiving a rotational force from a single electric motor 31 are installed in the circulation holes 11, respectively. . At this time, the pair of impellers 32 installed in the circulation port are configured to rotate in different directions, thereby suppressing the phenomenon in which the enclosure 10 arbitrarily rotates from side to side by the rotation of the impeller 32.

Therefore, the hybrid type water purification device 1 according to the present embodiment, as shown in Figs. 3 and 6, the circulation port 11 through the electric pump type, or the circulation motor type circulation flow generation module (20, 30) The circulation flow (F) is formed to circulate from the bottom to the top to diffuse, and the amount of dissolved oxygen in the river or reservoir is increased by the circulation flow (F), and the foreign matters deposited on the floor by the circulation flow to diffuse the organic matter contained in the foreign matter. Decomposition can be promoted.

In this embodiment, the wireless transmission / reception module 60 is added to configure the control module 50 and a situation terminal (not shown) installed in the situation room to transmit various wireless signals through wireless communication. Remote control of the water purification device according to the present invention obtained in the water through the terminal.

By the way, the radio signal is difficult to pass through underwater due to its characteristics, and thus, it is difficult to perform a smooth radio communication between the situation terminal formed outside and the radio transceiver module 60 of the present invention obtained underwater.

In consideration of this, in the present invention, by supporting the antenna 62 which is connected to the wireless transmission and reception module 60 and the signal line 61 to transmit and receive radio waves in the water, through the antenna 62 supported in the water. Enables smooth wireless transmission and reception between the wireless transmission / reception module 60 and the context terminal. At this time, the antenna 62 is fixed to the buoy 63, to form a state suspended in the water phase.

As such, the control module 50 receiving the radio signal applied from the situation terminal through the radio transceiver module 60 controls the driving of each component according to the radio signal.

In this embodiment, the buoyancy control module is added to the enclosure 10 to configure whether the enclosure 10 is supported and the depth of acquisition of the enclosure is controlled by the buoyancy control module.

The buoyancy control module, the air tank 71 compressed and stored air; Expansion tube 72 is expanded by the air injected from the air tank (71); And a pressure control valve 73 for inflating the expansion tube 72 according to the injection of air and contraction of the expansion tube 72 through the discharge of the injected air.

Here, the pressure control valve 73 includes an intake control unit for controlling the opening and closing state of the air tank 71 and the expansion tube 72, and an exhaust control unit for controlling the discharge of the air injected into the expansion tube (72). It is configured by.

Therefore, when the intake control portion of the pressure control valve 73 opens between the air tank 71 and the expansion tube 72, the compressed air stored in the air tank 71 is injected into the expansion tank 72 to expand the expansion tube 72. ) Is promoted, and in this state the enclosure 10 is lifted by the buoyancy increased by the expanded expansion tube 72.

In addition, when the air adjusting part of the pressure control valve 73 is opened and the air injected into the expansion tube 72 is discharged to the outside, the expansion tube 72 is contracted so that the buoyancy of the expansion tube 72 is attenuated or cancelled. The buoyant enclosure 10 is thus obtained in water.

Accordingly, the hybrid type water purification device 1 according to the present invention is buoyancy is controlled by the expansion and contraction of the expansion tube 72 by the pressure control valve 73, through which the buoy 10 is supported, And acquisition depth can be adjusted.

On the other hand, the hybrid type water purification device 1 according to the present invention is driven by the current charged in the battery 40, when the exhausted of the current charged in the battery 40, the manager pulls to the outside and recharges it. This process is very cumbersome and time consuming, which is undesirable from a management and operational point of view.

In consideration of this, in the present invention, by adding a self-generating structure, and configured to be driven through the current generated by the self-generating structure, to implement a continuous water purification function without an external charging process.

The self-generating structure includes a circulating flow generation module 80 for generating current using the circulating flow F generated through the circulating flow generating modules 20 and 30; It is configured to include a water flow generation module 90 for generating power using the water flow (f2) formed in the drainage path, such as a dam or river.

Here, the circulating flow power generation module 80 is disposed above the circulating opening 11 through which the circulating flow F is discharged upward, and thus the circulating flow F discharged upward through the diffusion fan 82 fixed to the rotating shaft 81a. It is configured to diffuse and generate a current through the rotation of the rotating shaft (81a) rotated in the diffusion process of the circulation flow (F).

In the present invention, by placing the circulating flow power generation module 80 in the upper portion of the circulation port 11, to promote the diffusion and self-generation of the circulating flow (F), the current generated through this process is the battery 40 Is charged.

In addition, the water flow generation module 90 generates a current by rotating the rotating fan 92 fixed to the rotation shaft 91 by the water flow f2 formed in a drainage path such as a dam or a river, and the battery 40. It is a form to store in.

Therefore, the water purification device 1 according to the present invention, since the current generated in the circulating flow power generation module 80 and the water flow generation module 90 is continuously charged to the battery 40, the continuous drive without a separate charging process This is possible.

In addition, in the present embodiment, if the control module 50 applies the current charged in the battery 40 to the water flow generation module 90, the water flow generation module 90 is a rotating fan fixed to the rotating shaft 91 ( 92), and thus the enclosure 10 supported by the buoyancy control module in the water phase is movable by the thrust generated by the rotation fan 92 of the water flow generation module 90. .

In the following, the operation of the hydrib-type water purification apparatus according to the present invention will be described in detail.

3 and 6, when the first circulation flow generating module 20, 30 generates the circulation flow F discharged upward in the circulation port 11 of the enclosure 10, the enclosure 10 is discharged upward It is obtained underwater by reaction force by (F).

In addition, the control module 50 adjusts the intake control portion and the exhaust control portion of the pressure control valve 73 to adjust the expansion and contraction state of the expansion tube 72, so that the enclosure 10 is located at an appropriate depth.

Therefore, the amount of dissolved oxygen in the river or reservoir is increased by the circulation flow F discharged upwardly to the circulation port 11, and the foreign matters deposited on the bottom by the circulation flow F are diffused to promote the decomposition of organic matter contained in the foreign matter. do.

At the same time, the circulation flow power generation module 80 disposed above the circulation port 11 diffuses the circulation flow F discharged upward through the diffusion fan 82 fixed to the rotation shaft 81, and the circulation flow ( Through the rotation of the rotating shaft 81 is rotated during the diffusion process of F) to generate a current to charge the battery 40.

Then, when the amount of current remaining in the battery 40 falls below the reference value, the control module 50 injects air into the expansion tube 72 of the buoyancy control module to support the water phase, then the current to the water flow generation module 90 Move to drains formed in dams or beams by applying.

At this time, the buoyancy control module can adjust the expansion amount of the expansion tube, the acquisition depth, and the acquisition depth according to the position of the drain.

In this state, the water flow generation module 90 generates current through the rotational force of the rotating fan 92 rotating by the water flow f2 as shown in FIG. 7 to charge the battery 40, and the battery 40. When the buffer is achieved, the water is moved back to the area requiring water purification, thereby continuously implementing the water purification through the generation of the circulation stream (F).

1. Water Purifier
10. Enclosure 11.Circulation port
20. Electric pump type circulating flow generating module 21. Electric pump
22. blowout pipe
30. Electric motor-type circulation flow generating module 31. Electric motor
32. Impeller
40. Battery 50. Control module
60. Wireless Transceiver Module 61. Signal Line
62. Antenna
71.Air tank
72. Expansion tube 73. Pressure regulating valve
80. Circulation flow generation module 81. Rotating shaft
82. Diffusion Fan
90. Water Flow Module 91. Rotating Shaft
92. Rotating Fan

Claims (5)

An enclosure having at least one circulation port communicating with the upper and lower surfaces;
A circulation flow generation module for generating a circulation flow discharged upwardly to each circulation port of the enclosure;
A battery for accumulating and applying a current required for driving the circulation flow generating module;
The circulation flow generation module disposed on the circulation port and spreading the circulation flow upwardly discharged from the circulation port through a diffusion fan fixed to the rotation shaft, while generating current through the rotation of the rotation shaft rotated during the diffusion flow of the circulation flow and accumulating the battery. and;
A water flow generation module installed in the enclosure, the rotation fan fixed to the rotation shaft by water flow to generate current through the rotation of the rotation shaft, and accumulate the battery;
The expansion tank is installed in the enclosure, the compressed air is stored, the expansion tube expands by the air injected from the air tank, and by controlling the opening and closing of the expansion tube and the air tank, whether the expansion tube is expanded or not Buoyancy control module comprising a pressure control valve for controlling; And
It is configured to include a control module for controlling their driving,
By forcibly circulating water in the state of being obtained to form a circulating flow to purify the water quality through the forced circulation of water,
When the control module applies a current charged in the battery to the water flow generation module, the water flow generation module rotates the rotating fan fixed to the rotating shaft, characterized in that the hybrid water quality configured to move by the thrust generated by the rotating fan Purifier. According to claim 1, wherein the circulation flow generating module is a high-pressure water flow in the circulation port by discharging the high pressure water to the upper portion of the circulation port formed in the housing through the electric pump, the water remaining in the vicinity of the circulation port Hybrid type water purification device, characterized in that the electric pump type to move up with the flow of water to generate a circulating flow. The method of claim 1, wherein the circulation flow generating module comprises an electric motor and an impeller rotating by receiving rotational force from the electric motor, characterized in that the electric motor type for generating a circulation flow in the circulation port through the rotation of the impeller. Hybrid type water purification device. delete delete

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