KR200495002Y1 - Tube facilities for seawater filling using the tide difference - Google Patents

Abstract

The present invention relates to a seawater filling tube facility using the difference between the tides, and by using the difference between the tides, seawater can be automatically filled in the large tube at low tide, so it can be used for various purposes such as bare-handed fishing, fish farms, sea fishing grounds, swimming pools, etc. It is intended to be used as a facility.
In the present invention for realizing this, in the seawater filling tube facility configured on the shore (B) where the difference between the tides according to the high and low tides occurs, the tube body 10, which is expanded according to the air injection, is separated from the high tide level and the high tide level. It is characterized in that the air pump chamber 20 is fixedly installed at a position in the middle of the low tide, and the air pump chamber 20 for injecting air into the tube body 10 through the air supply pipe 21 is installed at the upper part of the shore B.

Description

Seawater filling tube facility using the difference between the tides

The present invention relates to a tube facility for freshwater using the difference between the tides, and more specifically, it uses the difference between the tides, a natural phenomenon that occurs in shallow coastal areas, to allow seawater to be naturally filled in a large tube to provide various It relates to a seawater filling tube facility that can be used for various purposes.

In general, the tidal difference occurs mainly in shallow areas. In the case of Korea, the tidal difference is about 8 to 9 m in the west coast region.

1 and 2 schematically show the coast (A) where the difference between the tides is generated in the prior art. At high tide, the high tide level is achieved as in FIG. 1, and at low tide, the low tide level as in FIG. 2 is achieved. .

Accordingly, recently, a tidal power generation device or a water intake device using such a difference between the tides has been developed.

However, until now, most of the facilities utilizing the tidal difference have been energy power generation devices. In Korea, three sides are the sea, and in particular, the tidal difference occurs in the south and west coasts except for the east coast. The development of more facilities is required.

Republic of Korea Patent Registration No. 1747190 (Registered on Jun. 8, 2017) Korean Patent Registration No. 1543206 (Registered on Aug. 3, 2015)

The present invention is proposed to improve the problems in the prior art, and by installing a large tube capable of fresh water on the shoreline where the difference between tides occurs, seawater is naturally trapped at low tide for various uses (fishing sites, fish farms, It aims to provide a facility structure that can be used as a swimming pool, etc.).

The present invention for achieving the above object, in the seawater filling tube facility configured on the coast where the difference between the tides according to the high and low tides occurs, the tube body, which is expanded according to the air injection, is located in the middle between the high and low tide It is characterized in that the pump room is installed in the upper part of the shore to be fixedly installed in the tubing and to inject air through the air supply pipe to the tube body.

In addition, the tube body is characterized in that it is used as a fishing, boarding, or swimming pool by forming a square or circular shape having a bottom surface so that seawater can be stored.

The present invention enables the seawater to be automatically filled in the large tube at low tide using the difference between the tides, so that it can be used for various facilities such as bare-handed fishing, fish farms, sea fishing grounds, swimming pools, etc., thereby reducing facility maintenance costs. shows a saving effect.

1 is a state diagram at high tide in the west coast of Korea.
Figure 2 is a state diagram at low tide on the west coast of Korea.
Figure 3 is a state diagram at low tide of the coast where the tube facility is installed according to an embodiment of the present invention.
Figure 4 is a water state diagram of the shore in which a tube facility is installed according to an embodiment of the present invention.
5 is a state diagram when the air is expanded of the tube facility of the present invention.
Figure 6 is a view of the state in which seawater is contained in the present invention tube facility.
7 is an enlarged cross-sectional view of a tube facility according to another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art.

Accordingly, the shape of the components expressed in the drawings may be exaggerated in order to emphasize a clearer description. It should be noted that the same components in each drawing are sometimes illustrated with the same reference numerals. In addition, detailed descriptions of functions and configurations of known technologies that are determined to unnecessarily obscure the subject matter of the present invention may be omitted.

First, a configuration according to an embodiment of the present invention will be described with reference to FIGS. 3 to 6 .

In the seawater filling facility in this embodiment, a seawater filling tube facility in which seawater can be stored at low tide is installed on the coast (B), where the difference between tidal waves is generated above a certain water level.

That is, in the tube facility in this embodiment, the tube body 10, which is expanded according to the injection of air, is fixedly installed at a position intermediate between the high and low tide water level, and the air supply pipe 21 is installed in the tube body 10 through the air supply pipe 21 . An air pump room 20 for injecting air is installed on the shore (B).

At this time, the tube body 10 has a rectangular or circular shape having a bottom surface 11 so that seawater can be stored, thereby forming a structure that can be utilized as a fishing, boarding, or swimming pool.

Reference numeral 12 in the drawings denotes a wedge-shaped fixing protrusion configured on the tube bottom surface 11 for fixing the tube body 10 .

Let's take a look at the effect of the construction of the present invention that constitutes such a configuration.

When the tube body 10 of the present invention achieves a high water state while forming an exposed state without air injection as shown in FIG. 3 in a low tide state, as in FIG. 4, the tube body 10 is It is submerged below sea level.

When the tube body 10 is expanded in this state, it forms an expanded shape below the sea level as shown in FIG. 5 .

That is, at this time, high-pressure air is supplied from the air pump chamber 20 through the air supply pipe 21 , and accordingly, the tube body 10 expands to a predetermined height while forming a rectangular or circular expanded shape. will achieve

On the other hand, at low tide, as the water level of the sea gradually decreases, the tube body 10 is exposed as shown in FIG. 6 .

That is, at this time, the sea level of the sea is lower than the installation position of the tube body 10, and as the ebb is made, the seawater is stored in the tube body 10 at a predetermined water level.

Accordingly, the tube body 10 filled with seawater in this way forms a standardized large-scale seawater facility, so that it can be safely used for fishing, boarding, or swimming pools.

In particular, it can be seen that the meat introduced during the ebb tide does not escape during the ebb process and is trapped in some tube bodies 10 so that the seawater can be easily filled.

And, when the use of the tube body 10 is completed and the air filled therein is discharged, the seawater filled in the tube body 10 flows into the sea, thereby increasing the fishing effect.

Therefore, the present invention enables the seawater to be automatically filled in the large tube at low tide using the difference between the tides, so that it can be used for various facilities such as bare-handed fishing, fish farms, sea fishing grounds, swimming pools, etc., thereby reducing facility maintenance costs. shows a saving effect.

On the other hand, Figure 7 shows a structure according to another embodiment of the present invention, the air supply pipe 21 is provided with a coil-shaped buffer spring 22 for absorbing external shock to prevent damage, and the tube body ( 10) A tube protective layer (10a) is coated on the surface to prevent damage due to external impact.

At this time, the tube protective layer (10a) is 20 to 40% by weight of urethane, 10 to 30% by weight of epoxy resin, 10 to 20% by weight of titanium dioxide, 1 to 10% by weight of germanium powder, 1 to 10% by weight of sericite, 1 to sulfur trioxide It is preferable to achieve a mixed composition of 10% by weight and 1 to 5% by weight of carbomer.

When such a configuration is achieved, the air supply pipe 21 is protected due to the buffer action of the buffer spring 22, so that the access to the air supply pipe 21 of the tidal flat creatures is prevented along with the buffer action against the seawater shock wave generated by the waves. By blocking, it is possible to prevent the occurrence of damage to the air supply pipe 21 .

In addition, since the tube body 10 is coated with a thin film on the surface of the tube protective layer 10a having a resilient material such as urethane or epoxy resin as a main component, the tube body 10 is protected from external impact and is damaged. It is possible to prevent the occurrence of leakage of internal air due to the occurrence.

In particular, since titanium dioxide is mixed in the tube protective layer 10a, heat resistance is enhanced, and germanium improves durability and strength, thereby preventing cracks in the coating layer.

In addition, the additionally added sericite can be activated by contact with germanium, and sulfur trioxide and carbomer prevent curing of urethane, respectively, so that the tube protective layer 10a can maintain a stable elastic force.

And although specific embodiments of the present invention have been described and illustrated in the above, it is obvious that the structure of the seawater filling tube facility of the present invention can be implemented with various modifications by those skilled in the art.

For example, in the above embodiment, the tube body 10 has been described as having a rectangular or circular shape, but if necessary, various shapes such as a triangle or an oval can be formed.

Accordingly, such modified embodiments should not be individually understood from the technical spirit or scope of the present invention, and such modified embodiments should be included within the appended claims of the present invention.

10: tube body 11: bottom surface
12: fixed protrusion 20: air pump chamber
21: air supply pipe

Claims (4)

In the seawater filling tube facility configured on the coast (B) where the difference between the tides according to the ebb and flow occurs,
An air pump chamber (20) for fixing and installing the tube body (10), which expands according to the air injection, at a position between the high and low tide levels, and injecting air into the tube body (10) through the air supply pipe (21) It is installed on the upper part of this shore (B),
A tube protective layer 10a is coated on the surface of the tube body 10 to prevent damage due to external impact, and the tube protective layer 10a is urethane, epoxy resin, titanium dioxide, germanium powder, sericite, sulfur trioxide and Seawater filling tube facility using the tidal difference, characterized in that it forms a mixed composition of carbomer.
The method according to claim 1,
The tube body 10 is filled with seawater using the difference between the tides, characterized in that it is used for fishing, boarding, or swimming pools by forming a square or circular shape having a bottom surface 11 so that seawater can be stored. tube facility.
The method according to claim 1,
A seawater filling tube facility using a difference between tides, characterized in that a coil-shaped buffer spring 22 is provided on the outside of the air supply pipe 21 to absorb external shock and prevent damage. delete

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