KR20240058598A - Multi-level mooring tower - Google Patents

Abstract

The present invention relates to a multi-stage mooring tower, which consists of a two-stage mooring tower that moves up and down and a first-stage mooring tower into which the two-stage mooring tower is inserted. Additionally, the multi-level mooring tower is erected vertically.
The second-stage mooring tower inserted inside the first-stage mooring tower moves up and down.
In addition, as a device to prevent water from entering the gap between the first-stage mooring tower and the second-stage mooring tower, a magnetic fluid sealing member is provided on one side of the upper end of the mooring tower that is in contact with water.
A roller-type tower support bearing in rotational contact with the second-stage mooring tower is provided on one side of the lower part of the upper part of the support fluid of the building where the second-stage mooring tower is inserted inside the first-stage mooring tower and moves up and down.
The roller-type tower support bearing provided on one side of the upper end and lower end of the building support fluid is always maintained in contact with the surface of the multi-stage mooring tower by the elastic member even if the surface of the multi-stage mooring tower is spaced from the first stage to the second stage.
In addition, the upper part of the two-stage mooring tower is provided with a structure that is in physical contact with the upper part of the support fluid supporting the lower part of the building. Due to the physical contact, at the same time that the building support fluid is levitated by water, the second-stage mooring tower inserted inside the first-stage mooring tower also rises upward.

Description

Multi-level mooring tower

The present invention relates to a mooring device for a floating building that floats on water.

More specifically, it is about the entire floating building being able to automatically move up and down as needed.

In general, buildings installed on riverside berms are manufactured and installed on high pillars or as a floating type that floats on the water in preparation for when the river floods.

In particular, the floating type, in which the entire building floats on the water, was tied to a one-stage mooring tower with a rope, making it difficult to control vibrations caused by wind and river flow.

To overcome this problem, attempts are being made to solve the vibration problem by applying power to control horizontality or installing buildings on high pillars.

In order to solve the above problem, the mooring tower provided on one side of the floating building was developed to overcome the polygonal shape, multi-stage double structure, and multi-stage joints where water is injected by using magnetic fluid sealing members.

Conventional floating structures were tied to a one-stage mooring tower with ropes, so there were problems with controlling vibrations caused by wind and fluid flow.

The present invention is intended to solve the above problems.

The purpose of the present invention is to enable a floating building to automatically move up and down without power input according to water level fluctuations and to effectively reduce vibration by using a polygonal multi-stage mooring tower.

The multi-stage mooring tower according to the present invention includes a two-stage mooring tower that goes up and down and

It is characterized in that it consists of a first-stage mooring tower into which the second-stage mooring tower is inserted. And the first and second stage mooring towers include polygonal shapes.

The multi-level mooring tower includes being erected vertically. and

It involves the 2nd stage mooring tower inserted inside the 1st stage mooring tower moving up and down. In addition, as a device to prevent water from entering the gap between the first-stage mooring tower and the second-stage mooring tower, a magnetic fluid sealing member is provided on one side of the upper end of the mooring tower that is in contact with water.

In addition, in order for the second-stage mooring tower to move up and down while maintaining verticality inside the first-stage mooring tower, a roller-type support bearing in rotational contact with the first-stage mooring tower is provided on one side of the upper and lower part of the second-stage mooring tower.

In addition, a roller-type tower support bearing in rotational contact with the second-stage mooring tower is provided on one side of the lower part of the upper part of the support fluid of the building where the second-stage mooring tower is inserted inside the first-stage mooring tower and moves up and down. and

The roller-type tower support bearing provided on one side of the upper end and lower end of the building support fluid is maintained in contact with the surface of the multi-stage mooring tower at all times by an elastic member even when the surface of the multi-stage mooring tower is spaced from the first stage to the second stage.

In addition, the upper part of the two-stage mooring tower includes a structure that is in physical contact with the upper part of the support fluid supporting the lower part of the building. Due to the physical contact, at the same time that the building support fluid is levitated by water, the second-stage mooring tower inserted inside the first-stage mooring tower also rises upward.

According to the present invention, in peacetime when the river does not flood, the two-stage mooring tower is inserted inside the first-stage mooring tower embedded in the land, so it does not disturb the aesthetic appearance of the building. Additionally, when it rains and the river floods, the second-stage mooring tower inserted inside the first-stage mooring tower can rise upward and be converted into a mooring device for the floating building.

Figure 1 is a conceptual diagram of the multi-stage mooring tower of the present invention, which includes a second-stage mooring tower that is inserted inside the first-stage mooring tower and moves up and down.
Figure 2 is a conceptual diagram of a roller-type support bearing in contact with the surface of a two-stage mooring tower moving up and down in the embodiment of Figure 1.
Figure 3 shows that the upper end of the first-stage mooring tower, where the second-stage mooring tower is inserted and moves up and down, is provided with a magnetic fluid sealing member that prevents water from being injected into the first-stage mooring tower due to separation from the second-stage mooring tower. This is a conceptual diagram.
Figure 4 is a conceptual diagram in which the second-stage mooring tower inserted inside the first-stage mooring tower is raised upward by mutual physical contact with the upper part of the building support fluid.
Figure 5 is a conceptual diagram showing a roller-type support bearing supporting a multi-stage mooring tower and the support bearing including an elastic member provided on one side of the upper and lower sides of the floating body supporting the building.
Figure 6 is a conceptual diagram showing a floating body floating and moored on the water by the multi-stage mooring tower of the present invention.
Figure 7 is a conceptual diagram of a roller type mooring tower support bearing according to the present invention.
Figure 8 is a conceptual diagram of the first stage mooring tower and the second stage mooring tower of the present invention.
Figure 9 is a conceptual diagram of a concrete tower with a floating body supporting the building embedded in the land.
Figure 10 is a conceptual diagram of a floating body-supported concrete tower and a multi-stage mooring tower of the present invention.
Figure 11 is a front view of a floating body-supporting concrete tower embedded in the land and a first-stage mooring tower of the multi-stage mooring tower of the present invention.
Figure 12 is a conceptual diagram of a floating building to which the multi-level mooring tower of the present invention is applied.

An embodiment of the multi-stage mooring tower of the present invention will be described with reference to FIGS. 1 and 2.

The polygonal multi-stage mooring tower according to the present invention has a first-stage mooring tower (①) that is wider than the two-stage mooring tower embedded in the land (L), and a first-stage mooring tower inserted inside the first-stage mooring tower. It includes a narrow two-stage mooring tower (②). In addition, the multi-level mooring tower includes those that are polygonal and those that are erected vertically.

The second-stage mooring tower (②) is inserted into the first-stage mooring tower (①). The second-stage mooring tower (②) is inserted into the first-stage mooring tower (①) and moves up and down (②-D).

The upper part of the two-stage mooring tower (②) is physically contacted with the upper part of the building support fluid (⑤) by a contact member (④). When the building support fluid (⑤) is levitated by water (W) due to the physical contact (④), the second-stage mooring tower (②) inserted inside the first-stage mooring tower automatically also rises (②-D). It includes becoming.

In addition, when the water (W) shrinks and disappears, the building support fluid (⑤) also descends, and the second-stage mooring tower (②) also descends downward by its own weight, including being inserted into the first-stage mooring tower (①). do.

At this time, in order to prevent water (W) from entering the gap between the first-stage mooring tower and the second-stage mooring tower, a magnetic fluid sealing member ( ) includes being provided on one side of the upper part of the mooring tower in contact with water (W).

In addition, in order for the second-stage mooring tower (②) to move up and down smoothly while maintaining verticality inside the first-stage mooring tower, rotational contact is made with the first-stage mooring tower (①) on all polygonal surfaces of the upper and lower sides of the second-stage mooring tower. It includes having roller type support bearings (ⓑ-1, ⓑ-2),

In addition, the second-stage mooring tower (①) is inserted inside the first-stage mooring tower (①) and the second-stage mooring tower (②), which moves up and down (②-D), is inserted through the building support fluid (⑤) on one side of the lower end of the upper part. It includes providing roller type mooring tower support bearings (③-1,③-2) in rotational contact with. also

The roller type mooring tower support bearings (③-1, ③-2) maintain the elastic member ( ) includes maintaining physical contact with the mooring tower surface at all times.

In addition, the upper part of the two-stage mooring tower includes a structure (④) that is in physical contact with the upper part of the support fluid (⑤) supporting the lower part of the building.

When the building support fluid (⑤) is levitated by water (W) due to the structure (④), the second-stage mooring tower inserted inside the first-stage mooring tower is lifted upwards from inside the first-stage mooring tower ( ②-D) It includes making it happen.

ⓑ-1,ⓑ-2: Roller type support bearing : Magnetic fluid sealing member
: Elastic member W: Water L: Land
②-D: 2-stage mooring tower up and down direction
①: 1st stage mooring tower ②: 2nd stage mooring tower
③-1,③-2: Roller type mooring tower support bearing
④: Structure in contact with the upper part of the building support fluid
⑤: Building support fluid ⑥: Building
⑦: Building support fluid support concrete column

Claims (2)

A vertically erected mooring tower, the mooring tower is composed of multiple stages, and the multi-stage consists of a mooring tower with a small width inserted inside a mooring tower with a large width,
The upper part of the multi-stage mooring tower is provided to be inserted through one side of the floating body that rises due to buoyancy, and a support bearing that presses the surface of one side of the inserted multi-stage mooring tower with an elastic member is provided on one side of the upper and lower part of the floating body. ,
A structure in physical contact with the upper surface of the floating body is provided at the upper end of the multi-stage mooring tower,
The multi-stage mooring tower equipped with the above structure has vertical position displacement with the floating body.
Including working together,
A bearing is provided on one side of the multi-stage mooring tower that is displaced vertically.
Including,
In order to prevent water from entering the multi-stage mooring tower, a sealing member is installed.
A multi-stage mooring tower, characterized in that it is provided on one side of the multi-stage mooring tower. According to paragraph 1,
A multi-stage mooring tower wherein the sealing member is a magnetic fluid.