KR101027716B1 - Moving type algae remove system for water area of stagnation - Google Patents

Abstract

PURPOSE: A moving type algae float eliminating system in stationary waters is provided to implement post-maintenance by replacing a filtering unit in which malfunction is generated. CONSTITUTION: A moving type algae float eliminating system includes a surface water inlet(211), an outlet(212), an surface water inhaling unit(200), an inhaling pipe(300), a filtering unit(100), and a draining pipe. The surface water inhaling unit is composed of one or more inlets and the outlet. The filtering unit is composed of a housing, an outer guiding rail(120), a center guiding rail, a rotating screen, and a driving unit. The driving unit is composed of a chain, a gear, and a motor.

Description

Moving type algae remove system for water area of stagnation

The present invention relates to a mobile algae removal system of an identity body, and more specifically, the surface water suction device is suspended in a portion where algae is generated in an identity body such as a lake or a pond by inhaling surface water in which algae is mixed and filtering device. By discharging the treated water from which floating matters are removed through lakes and ponds again, the mobile algae removal system in the identity area that can process floating matters such as algae formed in lakes and ponds with a simple operation, regardless of the location of algae. It is about.

In general, decay caused by microorganisms easily occurs in identity waters that are stagnant without water circulation, such as ponds, lakes, and reservoirs formed in palaces, amusement parks, golf courses, and the like. The surface waters of this identity zone have a high level of plankton because of the relatively high oxygen concentration due to contact with the atmosphere, but when plankton reaches the limit of reproduction, it dies and deposits on the bottom of the water. Nutrients such as nitrogen and phosphorus are decomposed and water decays.

In particular, in surface waters such as ponds, lakes, and reservoirs, algae on the surface do not settle over time, so they have been removed manually by gardening, but suspended solids with particles smaller than gardening can not be removed. have.

In addition, the conventional purification apparatus has been using a compressor or wind power as a device for preventing the corruption of water quality by circulating fresh water in lakes, ponds, and the like to purify the surface water suspended matter. However, the installation of wind power is not easy, and in the case of floating matters such as algae, it is uneconomical and economical to induce circulation of water throughout lakes and ponds.

Accordingly, the present invention is a system for removing floating matter such as algae mixed in surface water in identity waters such as lakes and ponds, and is intended to provide a removable algae removal system in the identity waters because of its easy installation and partial removal. .

As a means for achieving the above object, the mobile algae removal system of the water body of the present invention comprises: a surface water suction device comprising one or more surface water suction ports and a frame formed with a discharge port for discharging the surface water sucked from the surface water suction holes to the outside; A suction pipe connected to the discharge port; A filtration device for filtering surface water introduced from the suction pipe; And a discharge pipe connected to the filtration device.

In particular, in the present invention, the filtration device, the housing in communication with the suction pipe on one side, and the discharge pipe on the other side; An outer guide rail for winding both side surfaces and a bottom surface of the housing; A center guide rail formed in the center of the housing in parallel with the outer guide rail; A rotating screen which is slid between the outer guide rail and the center guide rail and comprises a plurality of filtration units having an outer rim protruding from the guide rod and a filtering net formed inside the outer rim; And a driving means having a chain connecting guide rods formed on each filtration unit, a gear fitted to the chain, and a motor for rotating and interlocking the gear.

The mobile algae removal system of the identity zone of the present invention is simple by inhaling surface water in which suspended matter such as algae is formed in a suction device suspended or supported in a lake, pond, etc. to discharge the treated water back into a lake, pond, etc. There is an advantage that the surface water, such as lakes, ponds can be easily purified by the operation.

In addition, the mobile algae removal system of the identity area of the present invention can selectively filter only the surface water portion in which suspended matter such as algae is formed in the suction device, and thus the treatment is simple and economical.

In addition, the mobile algae removal system of the identity zone of the present invention can prevent the defect due to the occlusion by filtration by the rotating screen, filtration generated by the defect by configuring each filtration unit constituting the rotating screen to be removable Since only the unit can be replaced, there is an advantage of easy post-management.

1 is a schematic diagram showing a basic example of a system to which the present invention is applied;
2 is a schematic diagram showing another example of a system to which the present invention is applied;
3 is a schematic diagram showing another example of a system to which the present invention is applied;
Figure 4 is a cutaway cross-sectional view of a filtration device of one configuration of the present invention,
Figure 5 is a cutaway cross-sectional view projected from the other direction of the filtering device of one configuration of the present invention,
6 is a detailed view showing the connection between the rotary screen and the drive means in the present invention.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

Mobile algae removal system of the identity area of the present invention is a surface water suction device (200, 200a, 200b), the surface water suction device as a configuration for sucking the surface water in which the floats, such as algae are formed in lakes, ponds, as shown in Figures 1 and 2 Filtration device 100 for filtering the surface water sucked from (200, 200a, 200b), suction pipe 300 and discharge pipe connecting the surface water suction device (200, 200a, 200b) and the filtration device (100) 400) and the surface water suction device (200, 200a, 200b) in the identity water, such as lakes, ponds, while supporting the surface or floating on the bottom while the algae, such as suspended in the surface water is filtered through the filtration device (100) The present invention relates to a filtration system for purifying surface water such as lakes and ponds by discharging the treated water through lakes and ponds through the discharge pipe 400.

The surface water suction device (200, 200a, 200c) is configured to suck the surface water while being supported in the floating or bottom in the identity water, such as lakes, ponds, three embodiments are shown in the present invention as shown in Figures 1 to 3 .

First, the surface water suction device 200 of the first embodiment shown in FIG. That is, the frame 210 includes a discharge port 212 for discharging the suction pipe 300 to be described below.

Here, as shown in FIG. 1, the buoy 220 may be configured to float the frame 210 on the side of the frame 210. In some cases, height adjustment may be performed when water flow occurs in a lake or the like. Possible support 260 may be configured under the frame 210 to operate the surface water suction device 200 while being supported at the bottom of the frame. Meanwhile, in FIG. 1, both the buoy 220 and the support 260 are illustrated, but it is obvious that the buoy 220 and the support 260 can be selectively used.

It is reasonable that the surface water suction port 211 is located below the buoy 220 in the frame 210, which allows the surface water suction port 211 to be located under the water surface of a pond, lake, etc. To do so.

As shown in FIG. 1, the surface water suction device 200 includes a driving motor 240 and a fan 230 interlocked with the driving motor 240, the upper surface of the surface water suction port (2) based on the operation of the fan 230. Surface water is sucked from 211). The drive motor 240 is driven by the control of the signal input unit 250, the control signal is output to the signal input unit 250 based on wired and wireless control of the control unit 500, based on the control signal The drive motor 240 is to be operated.

Although not shown in the drawing, the surface water suction device 200 includes a propulsion fan that operates based on a control signal of the signal input unit 250 so that the surface water suction device 200 is controlled by the control unit 500. It may be configured to allow flow in a pond or the like.

Meanwhile, in another embodiment of the present invention, the surface water suction device 200a illustrated in FIG. 2 has one or more surface water suction ports 211 formed at a side thereof while forming a space therein in the same manner as the surface water suction device 200. A frame 210 having a discharge port 212 for discharging the surface water sucked from the surface water suction port 211 to the suction pipe 300, and a buoy installed on the frame 210 to float the frame 210. 220, the description of the configuration is omitted.

Unlike the surface water suction device 200 illustrated in FIG. 1, the surface water suction device 200a does not have a fan 230 and a driving motor 240. The surface water suction power of the surface water suction device 200a is hereinafter. Will be generated based on the suction pump 600 configured in the filtration device 100 to be described. That is, when the suction pump 600 interlocked with the filtration device 100 is operated, the suction force acts on the suction pipe 300, and the surface water is sucked from the surface water suction port 211 to the discharge port 212 based on the suction force. will be.

The surface water inlet 211 is composed of a mesh network 211-1 is configured to be able to filter the suspended particles in large particles from the surface water in advance. In other words, the substance is introduced into the filtering device 100 as a twig mixed in the suspended matter to prevent the function of the filtering device 100 from being lowered in advance.

Although not shown in the drawing in this embodiment, a propulsion fan configured to operate based on a control signal of a signal input unit may be configured to allow the floating suction device 200a to flow in a lake or a pond under the control of a controller. have.

Meanwhile, as another embodiment of the present invention, the surface water suction device 200b illustrated in FIG. 3 discharges the surface water suction port 211 and the surface water sucked in the same manner as the surface water suction devices 200 and 200a to the suction pipe 300. The surface water suction device 200b of the present embodiment is configured to absorb the surface water of the stagnant water body while being supported at the bottom of the body of water. The surface water suction port 211 is configured at one side of the 210, and the discharge port 212 is configured at the other side. The function of the above configuration is as described above. In addition, the frame 210 has a bottom support 290 in the lower portion so that the surface water suction device 200b of the present embodiment is operated in a state of being supported on the bottom of the body of identity.

In the case of the surface water suction device 200b, the fan 230 and the driving motor 240 are configured like the surface water suction device 200 shown in FIG. 1, and the surface water suction port 211 is operated based on the operation of the fan 230. Surface water is sucked from the drive motor 240. The drive motor 240 is driven by the control of a signal input unit (not shown), and a control signal is transmitted to the signal input unit based on wired or wireless control of the control unit 500. The driving motor 240 is operated based on the control signal.

In particular, the surface water suction device (200b) in this embodiment is to suck the surface water in a state supported on the bottom of the identity water as shown in Figure 3 floating suction pipe 270 in a configuration in communication with the surface water suction port (211) Bar is configured, the floating suction pipe 270 is connected to the surface water suction device (200b) fixed to the bottom surface of the algae, such as algae in the area of the algae generated by the floating suction pipe 270 as mentioned above Surface water is sucked into the floating suction pipe 270 based on the operation of the fan 230 and the driving motor 240 of the suction device 200b.

The floating suction pipe 270 is preferably configured to float in the body of water, it is reasonable to have one or more suction pipe 280 is configured for this purpose.

The surface water suction device (200, 200a, 200b) in the above-mentioned surface water suction device (200, 200a, 200b), the surface water suction device (200, 200a, 200b) is suspended in the surface water in which the algae is mixed in a state of floating or supported on the bottom By filtering through the filtration device 100 to be described below, it is possible to purify only the surface water portion where algae and the like has occurred, thereby enabling economical operation, and floating matters such as algae are generated throughout the surface water such as ponds and lakes. Even if the surface water suction device (200, 200a, 200b) is flowing while the surface water filtration (algae removal) is possible to selectively select the filtration (purification) zone to operate the system.

The suction pipe 300 is configured to allow the surface water introduced from the surface water suction device 200, 200a, 200b to flow into the filtration device 100, which will be described below. It is reasonable that the 200a and 200b are configured to be variable even when they flow in a pond or a lake.

The filtration device 100 corresponds to a configuration for filtering (purifying) the surface water sucked from the surface water suction devices 200, 200a and 200b and the suction pipe 300, as shown in FIGS. 1 and 2. It is easy to install because it is configured to be able to flow in the mounted state.

In addition, the filtration device 100 is not shown in the drawings, but can be operated based on various power sources, such as a power source of the vehicle, solar heat.

The filtration apparatus 100 is such that the inflow of surface water is made by the inflow of surface water, as shown in FIGS. 4 and 5, to communicate with the suction pipe 300 on one side, and the discharge pipe on the other side. A housing 110 in communication with 400, an outer guide rail 120 winding both sides and a lower surface of the housing 110, and an outer guide rail 120 at the center of the housing 110. An outer edge 143 and an outer edge 143 which slide between the center guide rail 130 and the outer guide rail 120 and the center guide rail 130 which are formed in parallel and protrude from the guide rod 144. Rotation screen 140 consisting of a plurality of filtration unit 141 having a filter net 142 formed inside the), chain 151 connecting the guide rods 144 formed in each filtration unit 141 And, the gear 15 is rotated to fit the chain 151 2) and a driving means 150 having a motor 153 for rotationally interlocking the gear 152.

Although the housing 110 is illustrated in the shape of a cylindrical container in FIGS. 4 and 5, the present invention is not limited thereto. As illustrated in FIG. 4, the suction pipe 300 is formed at one side, and the discharge pipe 400 is at the other side. In this configuration, the surface water introduced through the suction pipe 300 is filtered by the rotating screen 140, which will be described below, and the filtered water is filtered again through the discharge pipe 400. To be discharged to

Inside the housing 110, the outer screen rail 120 and the outer guide rail 120 may be rotated without eccentricity within the housing 110 as shown in FIGS. 4 and 5. The central guide rail 130 is configured.

The outer guide rail 120 is not shown in the drawing as shown in Figure 5 but the groove is formed so that the filtration unit 141 constituting the rotating screen 140 is slide in the inserted state It is formed on both sides and the lower surface at the inner circumference of the housing 110, and is configured to form a curved surface on the lower surface so that the rotating screen 140 to slide while forming a curvature on the lower surface. In addition, the center guide rail 130 is not shown in the drawing, but grooves are formed on both sides to slide in the state where the filtration unit 141 is inserted into each groove.

In addition, the filtering device 100 has a groove between the outer guide rail 120 and the central guide rail 130 and a guide rod 144 connected to the chain 151 to be described below. The chain guide rail 160 may be further configured to slide inside the.

Thus, based on the outer guide rail 120, the center guide rail 130 and the chain guide rail 160, the rotary screen 140 is supported so that it can be rotated without eccentricity. The outer guide rail 120, the center guide rail 130 and the chain guide rail 160 are supported by the support frame P as shown in FIGS. 4 and 5 so that the housing 110 is more firmly supported. Can be fastened to

The rotating screen 140 is a plurality of filtration unit 141 is connected by the chain 151 is rotated between the outer guide rail 120 and the central guide rail 130 while rotating the inside of the housing 110 It is to be filtered by a plurality of filtration unit 141 in the rotating screen 140 to rotate the surface water introduced into the suction pipe 300 to prevent the blockage of the filtration unit 141 by filtering by the rotation. To do it.

When the rotation screen 140 is described in more detail, each filtration unit 141 is formed inside the outer edge 143 and the outer edge 143 of the circular protruding guide rod 144 as shown in the figure. It is composed of a filtration net 142 is to enable the filtration treatment of the surface water by the filtration net 142. It is reasonable that the plurality of filtration units 141 constituting the rotary screen 140 are configured to be detachable. As shown in FIG. 6, the support rod 144-1 is formed on the guide rod 144. A screw thread (not shown in the drawing) is formed at the end, and a cap 144-2 is formed to be rotatable at the screw threaded end, and the chain 151 is formed with a certain clearance therethrough. The ball 151-1 is configured so that the guide rod 144 penetrates the through hole 151-1 so as to be fastened by the cap 144-2 from the outside of the chain 151. In this way, the chain 151 is supported by the support jaw 144-1. In the guide rod 144 configured as described above is to take the gear 152 to be described below in the lower portion of the support jaw (144-1). As described above, each filtration unit 141 is fastened by forming a predetermined gap on the chain 151 by the guide rod 144, and the specific filtration unit 141 in which a defect occurs while driving the rotating screen 140. By replacing the bay, it is possible to operate economically.

The rotating screen 140 is configured as described above is rotationally interlocked by the driving means 150 in the housing 110, the driving means 150 is a guide rod 144 formed in each filtration unit 141 ) And a chain 151 connecting the chain 151 and a gear 152 fitted into the chain 151 and a motor 153 to impart rotational force to the gear 152. The motor 153 is supported by the support frame P in the housing 110, the motor 153 generates a rotational force under the control of the control unit 500, based on the rotational force of the gear ( 152 is rotated, and the rotational force is applied to the rotating screen 140 based on the linkage of the chain 151 meshed with the gear 152.

In addition, the housing 110 is configured with a water level sensor 170, a backwash injection pipe 180 is provided with a plurality of nozzles 181 to interlock with the water level sensor 170. In the case where a specific or total filtration unit 141 is blocked in each filtration unit 141 and the water level inside the housing 110 is increased, by the detection of the water level sensor 170 when a certain water level is reached. Based on the action of the control unit 500 manually, the washing water is sprayed to the filtration unit 141 by the back-washing injection pipe 180. Thus, by spraying the washing water through the backwash injection pipe 180 to discharge the algae, etc. deposited in the filtration unit 141 to the outside, the discharged algae is not shown in the drawing, but through a separate collection device It can be removed. The backwash spray pipe 180 is located in a position higher than the critical water level detected by the water level sensor 170 so that the filtration unit 141 is sprayed in the washing water in a state that is not submerged in water.

Mobile algae removal system of the identity area of the present invention having the configuration as described above is composed of surface water suction device (200, 200a, 200b), suction pipe 300, filtration device 100 and discharge pipe 400, pond, lake When algae, etc. occur in the body of the identity, such as surface water intake device 200, 200a, 200b after moving in the state mounted on the vehicle surface floating in the position where algae, such as ponds, lakes are generated (200) In the case of using), by operating the drive motor 240 and the fan 230 interlocked by the control of the control unit 500, the surface water is sucked in and sucked into the filtration device 100 through the suction pipe 300, the other In the case of using the surface water suction device 200a, which is an embodiment, the suction pump 600 is operated under the control of the control unit 500, and the surface water is sucked into the filtration device 100 through the suction pipe 300. Using surface water suction device (200b) In the case of operating the drive motor 240 and the fan 230 interlocking with it to suck the surface water through the floating suction pipe 270 that is suspended in the identity area to be sucked into the filtration device 100 through the suction pipe 300 will be.

The surface water sucked into the filtration device 100 is introduced into the housing 110 and the surface water flows in the rotating screen 140 rotated by the driving means 150 based on each filtration unit 141. Only this removed treated water is to be discharged back to the pond, lake, etc. through the discharge pipe 400.

When the filtration unit 141 is blocked in the filtration process of the filtration device 100 and a failure occurs in the filtration process is detected by the water level sensor 170, such a signal outputs the control of the control unit 500 to the housing ( 110) The algae attached to the outer circumferential surface of the filtration unit 141 rotated by the operation of the backwash injection pipe 180 while the inflow of surface water is blocked inside is to be treated as a separate device.

On the other hand, after the process of removing the algae, etc. attached to the filtration unit 141 in the process of filtering the surface water introduced into the housing 110 as described above, the inflow of surface water is resumed and rotated as described above The screen 140 is rotated to continuously filter the surface water introduced into the housing 110.

In addition, when a defect occurs in a specific filtration unit 141 in the rotary screen 140, only the specific filtration unit 141 is replaced by releasing the coupling between the specific filtration unit 141 and the chain 151 mentioned above. After-sales management is efficient.

100: filtration device 200, 200a, 200b: surface water suction device
300: suction pipe 400: discharge pipe

Claims (11)

delete delete delete delete delete delete delete A surface water suction device comprising a frame having at least one surface water suction port and a discharge port for discharging the surface water sucked from the surface water suction port to the outside;
A suction pipe connected to the discharge port;
A filtration device for filtering surface water introduced from the suction pipe;
A discharge pipe connected to the filtration device;
Consisting of
The filtration device,
A housing in communication with the suction pipe at one side and in communication with the discharge pipe at the other side;
An outer guide rail for winding both side surfaces and a bottom surface of the housing;
A center guide rail formed in the center of the housing in parallel with the outer guide rail;
A rotating screen which is slid between the outer guide rail and the center guide rail and comprises a plurality of filtration units having an outer rim protruding from the guide rod and a filtering net formed inside the outer rim;
And a driving means having a chain connecting the guide rods formed on each filtration unit, a gear fitted to the chain, and a motor for rotating the gear to rotate therein. The method of claim 8,
And a chain guide rail for sliding the chain and the guide rod connected to the chain between the outer guide rail and the central guide rail. The method of claim 8,
The water level sensor is configured in the housing, the mobile algae removal system of the identity area, characterized in that the backwash injection pipe is provided with a plurality of nozzles interlocked with the water level sensor. The method of claim 8,
The filtering device is a mobile algae removal system of the identity area, characterized in that the suction pump is further configured to allow the surface water to be sucked into the suction pipe.

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