KR200407363Y1 - Linear structure of the stern bottom of the hull - Google Patents

Abstract

The present invention considers the possibility of installation of a wort jet propeller in ships to which a stepped stepped is applied in the hull of a high-speed power boat. It is about linear structure of bottom.

In the present invention, in the existing hull 10, the stern side bottom of the hull 10 introduced into the suction port in front of the impeller of the water jet propeller is formed as a flat surface 20 and both sides thereof except the flat surface 20 It is characterized in that the end 30, 31, 40, 41 is shaped.

Flat surface

Description

Bottom a shape the astern hull}

1 is a bottom perspective view of the present invention

2 is a side view of the present invention

3 is a bottom view of the present invention

4 is a bottom view of a conventional design

5 is a side view of a conventional design

Explanation of Signs of Major Parts of Drawings

20: flat surface

30, 31, 40, 41:

The present invention considers the possibility of installation of a wort jet propeller in ships to which a stepped stepped is applied in the hull of a high-speed power boat. It is about linear structure of bottom.

In the conventional high speed power boat, as shown in FIGS. 4 and 5, a boat having a shape which gives a stepped step to the bottom of the hull in order to reduce the frictional resistance of the hull was mainly applicable to a propeller such as a propeller.

When the plane is operated using a propeller such as a propeller as described above, the water rice received at the front of the N1 portion of the hull 1 as shown in FIG. 5 is shorted from the hull at the end portion of the N1 portion and is A The hull is received again at the front of the N2 section with the air introduced at the point.

The water rice received here is shorted again from the hull at the end of the N2 part and proceeds to the N3 side with the air flowing in secondary at point B and is received again with the hull.

These rice will move to the stern part and touch the propeller of the propeller used in combination with the stern part.

When the water jet propeller is mounted as it is in the existing shape for the purpose of the conventional hull 1, which is advantageous for reducing the resistance, such a high speed floating ship, the turbulent layer (wake) generated at the end portions located in the N1, N2 Together with the air flowing through the points A and B, the receiving surface is formed on the N3 of the stern corresponding to the inlet side of the propeller, and when it flows directly into the wort jet propeller, the efficiency of the flying speed is significantly reduced and serious damage to the impeller is caused. And fuel efficiency is significantly reduced.

As a result, the wort jet propulsion was virtually impossible in a hull with a simple stepped stage.

Since the use of the wort jet propeller is limited to the existing stepped hull, the planar pad (planning pad) is integrated into the wort jet propeller intakes. The natural water can be flowed without turbulent layer, so that the engine and wort jet propeller with the same performance can realize the advantages of high speed with the reduction of resistance by the stage and detailed description according to the accompanying drawings. Is as follows.

The present invention forms the stern side bottom of the hull 10 introduced into the suction port in front of the impeller of the water hull (not shown) propeller in the existing hull 10 as the flat surface 20, except for the flat surface 20 It relates to the structure of the stern bottom of the hull and such a linear structure to apply both stages 30, 31, 40 and 41 to both sides to provide both the advantages of the short hull and the advantages of the water jet propeller. .

The present invention has a large resistance from the beginning of the wake of the water rice by the flat surface 20 made on the stern bottom of the hull 10 when operating by combining the propeller of the water jet to the stern of the hull 10 It moves straight to the stern without water, minimizing the turbulent layer of water flowing into the impeller of the water jet propeller so that there is no difficulty in the high speed operation of the water jet. 40 to 41, so that the water flows to the end portion can have the advantages of the existing stepped hull (STEPPED HULL).

In this way, the present invention raises the floating force of the hull by the flat surface 20 made on the stern bottom, improves the swingability at high speed, and cleans the water flowing into the impeller of the water jet propeller without the turbulent layer. Advantages of maximizing the efficiency of the wort jet by maintaining the pressure and end 30, 31, 40 and 41 on both sides except the flat surface 20 It is designed to have.

As such, in the installation of a general water jet, there is no additive which prevents the flow of the flow flowing into the stern portion in front of the air inlet on the propeller side of the water jet.

When the propeller propeller is mounted without applying the wort jet to the hull as described above, the wort jet inlet portion acts as a planning pad, and thus may have an advantage as a planing pad type hull that assists in injury and swivelability.

In this way, it is recommended that the installation of a general water jet does not have any additives that impede the flow of the inlet in front of the inlet port. The hull associated with the inflow from the existing hull to the water jet inlet is recommended. By applying the stage to the side except the range, it is designed to achieve the hull capable of having both the advantages of the short hull and the advantages of the water jet propeller.

Claims (1)

In the existing hull 10, the stern side bottom of the hull 10 flowing into the suction port in front of the impeller of the water jet propeller is formed with a flat surface 20, the end 30 to both sides thereof except for the flat surface 20 A linear structure of the stern bottom of the hull formed by forming (31) (40) (41).

Images