KR102140372B1 - Aquarium filtering equipment using moving media with air floating type - Google Patents

Abstract

The present invention relates to an air flotation flow carrier filtration device. In the present invention, the water discharge unit 110, the filter body 120, the water flow inlet 130 is formed by sequentially connecting from the upper end to the lower end and the air (gas) to the filter body 120 through the air supply unit 140 In the air floating type flow carrier filtration device providing a), the air induced by the water flow inducing end 113 formed in contact with the bottom of the upper surface of the water discharge housing 111 constituting the water flow discharge unit 110 (Gas) and air from the inside of the aquarium by the total water flow formed inside the water flow inlet part 130, the filter body 120, and the water flow discharge part 110 by the air supplied by the air supply part 140 It is characterized in that the water tank (liquid) flowing into the floating type fluid carrier filtering device 100 is smoothly discharged to the outside of the air floating type fluid carrier filtering device 100 again.
Thereby, the internal flow carriers are circulated by the air supplied from the air supply device, and are struck by each other to clean each other, so that the outer surface is kept clean and not clogged. It has the effect of providing space for the habitat of bacteria that are useful for various filtration, including aerobic bacteria.
In addition, the present invention simultaneously performs primary biological filtration by the sponge filter at the lower end and secondary biological filtration by bacteria for filtration that resides inside the circulating air-floating carrier located at the upper end of the sponge filter. By doing so, there is an effect that can provide an efficient filtration function compared to the existing filtration method.

Description

Aquarium filtering equipment using moving media with air floating type}

The present invention relates to an air-floating type fluid carrier filtration device, and more specifically, the plastic fluid carrier included therein circulates by air bubbles supplied from the air supply device, while directly supplying oxygen essential for filtration. In addition, the outer surface of the carrier is continuously cleaned and not blocked, and the inner space is protected to provide space for the inhabitation of bacteria that help aerobic bacteria and other filtration, providing stable and efficient filtration. A floating fluid carrier filtration apparatus.

In general, aquariums that raise various types of fish are installed to decorate the interior of public facilities such as homes, offices, schools, or hospitals in an environmentally friendly manner.

However, fish raised in an artificial space inhabit a limited space, and due to insufficient oxygen concentration and contaminants such as food waste and fish excrement, do not properly clean or neglect management.

Therefore, it is essential to create a beneficial ecological environment in which fish can survive by installing artificial filters (filters), air supply devices, etc., and removing certain pollutants.

At this time, the filtration method for water purification is installed on the side, top, or bottom of the aquarium, or a separate external filtration device is installed on the outside, and a fixed bed filter material for filtration is used inside the filtration device.

The fixed bed filter material inside and inside the filtration device must be cleaned periodically because it becomes clogged with contaminants over time and the filtration function does not work or does not work, and if it is periodically cleaned, the filtration device has to be removed and reinstalled. This happens.

Accordingly, in the related art field, it is required to develop a technology for reducing the cleaning cycle inside the filtration device and improving the filtration performance.

Republic of Korea Patent Application No. 10-2012-0055010 "FILTERING MEDIA FOR AQUARIUM"

The present invention is to solve the above problems, while the plastic flow carrier contained therein circulates by the air bubbles supplied from the air supply device to directly supply oxygen essential for filtration, while the outer surface of the carrier is continuously Not only is it not cleaned and clogged, the inner space is protected, providing a space for the inhabitation of bacteria to help aerobic bacteria and various filtration, providing a stable and efficient filtration function for the aquarium. It is about.

In addition, the present invention performs superior physical and filtration by simultaneously performing primary physical filtration by the sponge filter at the bottom and secondary biological filtration by bacteria inside the air-floating flow carrier located at the upper end of the sponge filter. It is to provide an air flotation flow carrier filtration device for an aquarium to provide a.

In addition, the present invention applies an additional water flow and air through the horizontal direction water induction of water discharged outside the structure that can facilitate the cyclic movement of the carrier through the structural design of the filter body, thereby providing a rich water flow and air to the carrier. In addition to being able to supply, it is intended to provide aerobic tank conditions by inducing smooth water circulation throughout the tank. In addition, by arranging the air line tube into the inside of the filter body, it is to provide an air floating flow carrier filtration device for aesthetically clean.

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

In order to achieve the above object, the air floating type flow carrier filtration device according to an embodiment of the present invention, the water flow outlet 110, the filter body 120, and the water flow inlet 130 are sequentially connected from the top to the bottom In the air floating type fluid carrier filtration device that is formed and is provided to provide air (gas) to the filter body 120 through the air supply unit 140, the upper portion of the water discharge housing 111 constituting the water discharge unit 110 From the water flow inlet 130 by the air (gas) induced by the water flow inducing end 113 formed to come into contact with the lower end of the surface, and the air supplied by the air supply unit 140, the filter body 120, The water (liquid) of the water tank flowing into the air floating flow carrier filtration device 100 from the inside of the aquarium by the entire water flow formed inside the water discharge section 110 again of the air floating flow carrier filtration device 100 It is characterized in that it is smoothly discharged to the outside.

At this time, the water flow discharge unit 110, the water flow discharge housing 111 is formed in a cylindrical structure with the lower surface open in a form inclined at the rear end of the upper surface; It is formed of a hole of a straight component, the front of the water discharge housing 111, a plurality of water discharge holes 112 formed in a vertical direction from a top surface to a predetermined height; And a through hole 113a formed in a panel shape and penetrating through the panel, and two induction terminals 113b to the top of the panel, and the gas introduced into the through hole 113a by the induction terminal 113b. A water flow inducing end 113 that allows the mixture of gas and fluid to be gathered through the front water flow discharge hole 112 to be discharged in a linear direction by making the fluid narrow compared to the rear; It characterized in that it comprises a.

In addition, the through-hole (113a) is formed in one side from the center to induce a rotational movement in one direction of the water flow is characterized by having a structure capable of rotating the fluid carrier well.

In addition, the water flow discharge unit 110, the inner edge surface for supporting the support 113c extended to the lower surface of the panel-shaped water flow induction end 113 and the lower end of the water flow discharge housing 111 is fastened to the upper part. The upper fastening groove is formed, and the lower body fastening ring 114 in which the lower fastening groove for fastening with the upper fastening end 122 of the filter body 120 is formed; It characterized in that it further comprises.

In addition, the support 113c extended to the lower surface of the water flow induction end 113 is installed in a protruding straight shape, it is characterized in that it further comprises that it is possible to reduce the noise that the flow carrier hits the upper portion.

In addition, the water discharge unit 110 is characterized in that it further comprises a body fastening ring and can be discharged in a desired direction to discharge the water is rotated horizontally in a desired direction.

In addition, the filter body 120, the housing 121; Upper fastening end 122; And a lower fastening end 123; Containing, it is fastened to the main body fastening ring 114 constituting the water discharge section 110 by the upper fastening end 122, and is fastened to the upper end of the water flow inlet 130 by the lower fastening end 123 It is characterized by.

In addition, the housing 121 is characterized in that the inside is a straight through hole so that the flow carrier can move smoothly.

In addition, the water flow inlet 130, the upper surface is formed in an open circular structure, the water flow inlet housing 131 that allows the sponge filter 160 is located inside; And a water flow inlet hole 132 formed in a vertical direction from the lower surface of the water flow inlet housing 131 to a predetermined height, and each spaced apart along the side surface of the water flow inlet housing 131; It characterized in that it comprises a.

In addition, the present invention, the first purified water tank water through which the impurities have been removed through a sponge filter 160 that provides a physical filtration function inside the water flow inlet housing 131 together with the air supplied through the air supply unit 140 It is characterized in that it performs a function of providing a water flow and a filtration function that can be introduced into the filter body 120 in combination.

In addition, the air supply unit 140 may include an air line tube 141 that serves to supply air discharged from an external air supply device into the filter body 120 inside; It characterized in that it comprises a.

In addition, the air line tube 141 is an orthogonal connecting pipe 143 formed at the last bent end of the curved housing 121 of the filter body 120 that descends from the upper end to the lower end of the air-floating flow carrier filtration device 100. The input end of the one end is connected, the other end is connected to the output end of the air supply device, through the output end of the orthogonal connector 143 to supply air to the air diffuser 144 formed inside the filter body 120 It is characterized by.

In addition, the air line tube 141 is characterized in that it passes through the outer rear portion inside the filter body and is connected to the orthogonal connector 143.

In addition, the air supply unit 140 is characterized in that it is possible to connect an additional manual air valve 142 capable of adjusting the amount of air supplied from the supplied air supply device at one end connected to the air supply device.

In addition, the air diffuser 144 is characterized by having a groove on the inner inner surface so as to serve to crush the supplied air finely.

In addition, the present invention is a carrier material 170 for continuous biological filtration after primary physical filtration by the sponge filter 160 with a plastic material similar to the specific gravity of water (d = 0.9 to 1.1) inside the filter body 120. It is characterized by being filled.

Air floating type fluid carrier filtration device according to an embodiment of the present invention has an effect of inducing the movement of the plastic fluid carrier by air bubbles supplied from the air supply device to continuously clean the outer surface to prevent clogging.

In addition, the air floating type fluid carrier filtration device according to an embodiment of the present invention has an effect of removing insoluble substances by providing primary physical filtration by a sponge filter at the lower end.

In addition, the flow carrier filtration device according to an embodiment of the present invention, by directly supplying oxygen necessary for filtration through air bubbles to the biofilm containing the filtration bacteria or filtration bacteria, and performing secondary biological filtration at the same time, the existing It has the effect of providing an efficient filtration function compared to the fixed bed filtration devices.

In addition, the air floating type flow carrier filtration device according to an embodiment of the present invention has an effect of inducing a smooth up and down rotational movement of the flow carriers by directing the water flow to one side through the upper through-hole structure design arranged on one side.

In addition, the air floating type fluid carrier filtration device according to an embodiment of the present invention has an effect of supplying oxygen (gas conversion) inside the water tank by applying additional water flow and air through induction of water in a desired horizontal direction.

In addition, the air floating type fluid carrier filtration device according to an embodiment of the present invention can provide an aesthetically clean effect by arranging the air line tube on the side of the inside of the filter body.

1 is a perspective view showing the appearance of an air floating type fluid carrier filtration device 100 according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing the components of the air flotation flow carrier filtration device 100 according to an embodiment of the present invention.
3 is a view showing a side of the air flotation flow carrier filtration device 100 according to an embodiment of the present invention.
Figure 4 is a side view showing an exploded state for the air flotation flow carrier filtration device 100 according to an embodiment of the present invention.
5 is a front view of an air-floating flow carrier filtration apparatus 100 according to an embodiment of the present invention.
6 is a top view of an air flotation flow carrier filtration apparatus 100 according to an embodiment of the present invention.
7 is a view showing a perspective view as viewed from the side for explaining the interior of the air flotation flow carrier filtration device 100 according to an embodiment of the present invention.
8 is a view for explaining the structure of the carrier 170 used in the air flotation flow carrier filtration device 100 according to an embodiment of the present invention.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

1 is a perspective view showing the appearance of an air floating type fluid carrier filtration device 100 according to an embodiment of the present invention. Figure 2 is an exploded perspective view showing the components of the air flotation flow carrier filtration device 100 according to an embodiment of the present invention. 3 is a view showing a side of the air flotation flow carrier filtration device 100 according to an embodiment of the present invention. Figure 4 is a side view showing an exploded state for the air flotation flow carrier filtration device 100 according to an embodiment of the present invention. 5 is a front view of an air-floating flow carrier filtration apparatus 100 according to an embodiment of the present invention. 6 is a top view of an air flotation flow carrier filtration apparatus 100 according to an embodiment of the present invention. 7 is a view showing a perspective view as viewed from the side for explaining the interior of the air flotation flow carrier filtration device 100 according to an embodiment of the present invention. 8 is a view for explaining the structure of the carrier 170 used in the air flotation flow carrier filtration device 100 according to an embodiment of the present invention.

1 to 7, the air floating type fluid carrier filtration device 100 includes a water flow discharge part 110, a filter body 120, a water flow inlet part 130, an air supply part 140, and an adsorption fixed end ( 150), a sponge filter 160, a carrier 170 may be included.

The water flow discharge unit 110 may include a water flow discharge housing 111, a water flow discharge hole 112, a water flow induction end 113, and a body fastening ring 114.

The water discharge housing 111 is formed in a cylindrical structure in which the lower surface of the upper surface is inclined downward and the lower surface is open, but is not limited thereto, and can be changed to a rectangular cylinder, pentagonal cylinder, or other polygonal cylinder shape. Here, the reason that the rear end of the upper surface of the water discharge housing 111 is inclined is to form the water flow abundantly forward.

The plurality of water discharge holes 112 is a straight component hole, and may be formed in a vertical direction from a top surface to a predetermined height on the front surface of the water discharge housing 111.

The water flow guide end 113 may include a through hole 113a formed through a panel shape, and two guide terminals 113b spaced a predetermined distance from the rear end to the top of the panel. Here, the two induction terminals 113b are formed to be symmetrical around the center of the longitudinal direction of the panel, so that the separation distance is narrowed toward the front end, so that the gas and fluid introduced into the through hole 113a are compared to the front side compared to the rear. By narrowing it, a mixture of gas and fluid can be collected and discharged in one direction.

That is, looking at the action mechanism by the components of the water discharge unit 110 having these components in more detail, by the water flow inducing end 113 formed in contact with the bottom of the upper surface of the water discharge housing 111 Aquarium by the entire water flow formed inside from the water flow inlet 130 to the filter body 120 and the water flow outlet 110 by the air (gas) induced and the air supplied by the air supply unit 140 It is possible to provide a structure capable of smoothly discharging water tank (liquid) flowing from the inside into the air floating carrier filtering device 100 in one direction to the outside of the air floating carrier filtering device 100 again.

The main body fastening ring 114 is an upper edge that is fastened to an inner edge surface for supporting the support 113c extending on the lower surface of the water-flow induction end 113 in the form of a panel, and the lower end of the water discharge housing 111. A groove is formed to allow the water discharge housing 111 to rotate in a desired direction, and a lower fastening groove for fastening with the upper fastening end 122 of the filter body 120 may be formed as a lower part.

Next, the filter body 120 may include a housing 121, an upper fastening end 122, and a lower fastening end 123.

The housing 121 is a tubular shape that matches the shape of the water discharge housing 111, and the outer surface of the tubular shape has a multi-stage curved end in the vertical direction, and the inside is formed by passing through a straight cylindrical shape to be contained therein. The carrier 170 can rotate well up and down inside the housing 121. Accordingly, it is possible to provide an effect of supplying abundant water flow and oxygen to the carrier 170 flowing to the upper and lower ends.

In addition, the housing 121 is provided with an upper fastening end 122 and a lower fastening end 123, each of which has a diameter smaller than its own, at the upper and lower ends, thereby fastening the main body fastening ring 114 using the upper fastening end 122. And, it can be fastened with the upper end of the water flow inlet 130 using the lower fastening end (123).

The water flow inlet 130 may include a water flow inlet housing 131 and a water flow inlet hole 132. Water flow inlet housing 131 may be formed of a tubular structure that matches the shape of the water flow discharge housing 111 and the curved housing 121, a sponge filter 160 may be placed therein.

On the other hand, the water flow inlet hole 132 is a straight component hole formed in a vertical direction from a lower surface of the water flow inlet housing 131 to a predetermined height, each of which can be formed spaced along the side surface of the water flow inlet housing 131. have.

Looking at the operation mechanism by the water flow inlet 130 having such a component in more detail, the water tank inside the aquarium may be introduced through the water flow inlet hole 132, and the water flow inlet housing 131 may be physically installed. A function of providing a water flow through which the purified water tank, in which impurities are primarily removed through a sponge filter 160 providing a filtration function, may flow into the filter body 120 together with the air supplied through the air supply unit 140. And the filtration function can be performed simultaneously.

The air supply unit 140 may include an air line tube 141, an air valve 142, an orthogonal connecting pipe 143, and an air diffuser 144.

The air line tube 141 is connected to the input end of the orthogonal connector 143 formed at the last bent end of the curved housing 121 of the filter body 120 that descends from the upper end to the lower end of the air-floating flow carrier filtration device 100. One end is connected and the other end is connected to the output terminal of the air supply device (not shown), thereby supplying the air discharged from the external air supply device to the air diffuser 144 through the output terminal of the orthogonal connector 143 Plays a role.

On the other hand, the air line formed in the air line tube 141 is disposed on the outer periphery of the filter housing, so that the air line is concealed from the outside to make it clean in appearance. In addition, the air line tube 141 may be provided with a structure capable of adjusting the amount of air supplied by additionally attaching a manual air control valve 142 to one end connected to an external air supply device.

The fluid carrier 170 is a plastic material having a specific gravity similar to that of water (d = 0.9 to 1.1), and is formed for continuous biological filtration after the primary physical filtration by the sponge filter 160, through the air diffuser 144 By colliding inside the housing (121) with each other according to the circulation by the supplied air, not only does it block itself and prevents clogging of the carrier (170), but also contains bacteria that help various filtration, including aerobic bacteria. The biofilm (biofilm) that can be protected is protected to provide stable filtration.

In addition, oxygen can be directly and evenly delivered to the biofilm inside and outside the carrier 170 to provide effects such as superior filtration efficiency, organic matter removal (reduction of BOD and COD), and reduction of sludge production.

That is, as shown in FIG. 8, the carrier 170 forms a curved protruding outer surface 171 so that it can rotate smoothly, and the inner space of the carrier is the largest number of bacteria that can help in various filtration, including aerobic bacteria. Provided a space, an inner surface 172 in the form of a cut hole may be formed to actively supply air.

The positive carrier 170 according to the embodiment of the present invention is approximately 6 mm (diameter, L1)×6 mm (length, W1), the longest diameter (L1), the shortest diameter (L2) of the carrier 170, the longest diameter of the hole ( L3), the length ratio of the shortest diameter (L4) of the hole is 7.6: 7.2: 3.3: 1, the curvature (R1) of the curved surface between the first hole and the second hole based on the longitudinal section of the inner surface 172 , Among the inner surface 172, the size relationship between the curvature R2 of the curved surface between the second hole and the second hole, and the curvature R3 of the curved surface of the outer side portion 171 is 1.4 to 1.5: 1.2 to 1.3: 0.9 In the case of to 1.0, as shown in Table 1 below, the area of the inner surface 172 is found to have the greatest critical significance in that the total area of the inner surface 172 is the largest compared to other test examples. At this time, when the area R1: R2: R3 is 1:1: 1 (Test Example 5 to Test Example 12) is set to 1, which is the reference area (v), the relative area (v) according to each test example Means the area ratio.

The first hole has a relatively larger diameter of the hole than the second hole, and only one of the six holes may be formed as the first hole and the other five may be formed as the second hole.

division R1: R2: R3 Relative vertical area Example 1 1.3: 1.3: 0.9 1.95 Test Example 2 1.3: 1.2: 0.9 1.78 Test Example 3 1.4: 1.1: 0.9 1.87 Test Example 4 1.4: 1.2: 0.8 1.99 Test Example 5 1.4: 1.2: 0.9 2.27 Test Example 6 1.4: 1.3: 0.9 2.54 Test Example 7 1.4: 1.2: 1.0 2.37 Test Example 8 1.4: 1.3: 0.9 2.46 Test Example 9 1.5: 1.2: 0.9 2.34 Test Example 10 1.5: 1.3: 0.9 2.76 Test Example 11 1.5: 1.2: 1.0 2.65 Test Example 12 1.5: 1.3: 1.0 2.45 Test Example 13 1.5: 1.4: 0.9 1.87 Test Example 14 1.5: 1.4: 1.0 2.12 Test Example 15 1.6: 1.2: 0.9 2.03 Test Example 16 1.6: 1.3: 1.0 2.11

As described above, in the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms have been used, they are merely used in a general sense to easily describe the technical contents of the present invention and to understand the invention. , It is not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modified examples based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

100: air flotation flow carrier filtration device
110: water discharge section
111: water discharge housing
112: water discharge hole
113: water flow induction stage
114: main body fastening ring
120: filter body
121: housing
122: upper fastening end
123: Bottom fastening end
130: water flow inlet
131: water flow inlet housing
132: water flow inlet
140: air supply
141: Airline tube
142: air valve
143: Orthogonal connector
144: air diffuser
150: adsorption fixed end
160: sponge filter
170: carrier
171: outer surface
172: inner surface

Claims (13)

The water discharge unit 110, the filter body 120, and the water flow inlet 130 are formed to be sequentially connected from the upper end to the lower end and provide air (gas) to the filter body 120 through the air supply unit 140. In the air flotation flow carrier filtration device,
Of the upper surface of the water discharge housing 111 constituting the water discharge unit 110, the air (gas) induced by the water flow inducing end 113 formed in contact with the lower end, and the air supplied by the air supply unit 140 Water tank water introduced into the air floating flow carrier filtration device 100 from the inside of the aquarium by the entire water flow formed inside the water flow inlet 130 from the filter body 120 to the water flow outlet 110 by air. (Liquid) is to be discharged back to the outside of the air flotation flow carrier filtration device 100,
Water discharge section 110,
It is formed in a panel shape, and includes a through hole 113a formed through the panel and two induction terminals 113b to the top of the panel, and gas and fluid introduced into the through hole 113a by the induction terminal 113b. Water flow inducing end 113 to narrow the front compared to the rear so that a mixture of gas and fluid can be gathered and discharged through the front water discharge hole 112; Air flotation flow carrier filtering device comprising a.
delete The method according to claim 1, the water discharge unit 110,
In the upper part, an inner edge surface for supporting an extended support 113c on the lower surface of the water-flow induction end 113 of the panel shape and an upper fastening groove that is engaged with the lower end of the water discharge housing 111 are formed. A body fastening ring 114 in which a lower fastening groove for fastening with the upper fastening end 122 of the filter body 120 is formed; Air flotation flow carrier filtration device further comprising a.
The method according to claim 1, the filter body 120,
Housing 121; Upper fastening end 122; And a lower fastening end 123; It includes,
It is fastened to the main body fastening ring 114 connecting the water discharge portion 110 by the upper fastening end 122, characterized in that fastened to the upper end of the water flow inlet 130 by the lower fastening end 123 Air flotation flow carrier filtration device.
The method according to claim 4, the housing 121,
It is formed in a tubular pipe shape, and the inner surface thereof is formed in a vertically perforated shape.
The method according to claim 1, the water flow inlet 130,
The upper surface is formed in an open structure, the water flow inlet housing 131 that allows the sponge filter 160 to be located therein; And
A water flow inlet hole 132 formed in a vertical direction from a lower surface of the water flow inlet housing 131 to a predetermined height, and each spaced apart along a side surface of the water flow inlet housing 131; Air flotation flow carrier filtering device comprising a.
The method according to claim 6,
Inside the filter body 120 together with the air supplied through the air supply unit 140, the first purified water tank having impurities removed through a sponge filter 160 providing a physical filtration function inside the water flow inlet housing 131 Air flotation flow carrier filtration device characterized in that it performs a function of providing a water flow that can flow into the filtration function in combination.
The method according to claim 1, the air supply unit 140,
An air line tube 141 serving to supply air discharged from an external air supply device into the filter body 120; Air flotation flow carrier filtering device comprising a.
The method according to claim 8, Airline tube (141),
The input end of the orthogonal connecting pipe 143 formed at the last bent end of the curved housing 121 of the filter body 120 descending from the upper end to the lower end of the air-floating flow carrier filtering device 100 is connected to one end and the other one The end is connected to the output end of the air supply device, and the air floating type fluid carrier filtering device characterized in that it supplies air to the air diffuser 144 formed inside the filter body 120 through the output end of the orthogonal connecting pipe 143 .
The method according to claim 9,
The air line tube 141 is located on the outer periphery of the filter body and passes between two columns of four adsorption fixed ends 150 formed in 2 rows x 2 columns, and is connected to the orthogonal connecting pipe 143. Air flotation flow carrier filtration device.
The method according to claim 7,
Air characterized in that the carrier 170 is filled for continuous biological filtration after the primary physical filtration by the sponge filter 160 with a plastic or composite plastic material having a density of 0.9 to 1.1 inside the filter body 120. Floating fluid carrier filtration device.
The method according to claim 1,
Air flotation type fluid carrier filtering device, characterized in that a through hole (113a) is formed on one side from the center to induce rotational movement in one direction of the water flow to rotate the fluid carrier.
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