KR101180396B1 - Para-foil Trawl doors - Google Patents

Abstract

The present invention relates to a development plate, in order to provide a stable tread and excellent deployment force, the body, a ceiling plate and a lower plate formed on both sides of the body, and the installation foil at regular intervals in the body and In the development plate for deploying the net consisting of the first connecting ring for fishing vessel connection and the second connecting ring for connecting the net formed in the body, the foil has a semi-circular cross-section of each semi-cylinder adjacent to the side of the semi-cylinder It is characterized in that it is combined with the continuous form, the foil delays the peeling in the form of the semi-circle continuously combined on the cross-section and laminar flow of the seawater flowing to the back of the development plate to minimize the generation of vortex, while ensuring excellent deployment force The advantage is that it can provide a stable troll deployment.

Description

Trawl Deployments {Para-foil Trawl doors}

The present invention relates to a trawl deployment plate, and more particularly, to a fishing apparatus serving as a lifting body between a fishing vessel and a net as a deployment apparatus that expands a net by the speed of a fishing net.

 The troll deployment is a type of fishing gear used for steamboat nets. It is an iron plate that is placed on each side of the net, and the left one is to the left and the right is to the right due to the lift generated by the ship's speed. Go and open the net.

1 is a conceptual diagram illustrating an example of use of a troll deployment plate.

As shown in FIG. 1, the general trawling operation removes the bag-shaped net 10 from both mantles where various fish groups are formed, and thus the bag-shaped net 10 is projected to the fish-side by the fishing boat 1. The fish is captured inside the trapped in the rear end of the end (13). In the case of the bag net 10 used in the trawl operation method such that more fish can be captured only if the entrance wide open in the left and right directions.

A pair of deployment plates 3 are used to open the inlet of the bag-shaped net 10 to the left and right, and the deployment plates 3 are connected to a trawl warp extending from the fishing boat 1. In the traveling direction of the fishing boat 1, the two side plates 3 are firstly opened to the left and right, and the plate 3 is formed as a hand rope and a net pendant as a net pendant. Both wing nets 12 of the connected bag-shaped net 10 are opened to the left and right together with the deployment plate 3 may open the inlet of the bag-shaped net 10 to the left and right.

2 is a perspective view showing a conventional troll deployment plate.

As shown in FIG. 2, the general trawl deployment plate includes a body 10, a ceiling plate 20 and a lower plate 30 formed on both sides of the body, and a first connection ring for connecting fishing vessels formed on the body. ) And a second connecting ring 50 for mesh connection.

In particular, the body 10 allows the upper body 12 and the lower body 14 to be inclined at a predetermined angle (a) to increase the restoring force of the deployment plate to enable a stable prediction.

3 is a conceptual diagram showing the force applied to the troll deployment plate.

As shown in FIG. 3, the stretch plate 100 has a warp tension in the front and a bridle tension in the rear.

In addition, a trawl door's force acting on the deployment plate, which is a sum of lift fore and drag force, is in equilibrium with the tension, and the lift acts as a deployment force.

Such a development plate must be basically durable in order to prevent breakage due to reduced fatigue due to continuous cyclic load, and sufficient deployment force must be secured in order to effectively spread the net.

4 is a flow analysis diagram around a conventional troll deployment plate.

As shown in FIG. 4, in the conventional troll deployment plate 100, flow is separated from the side due to energy loss due to viscous friction, and peeling starts to occur, and a vortex is formed behind the deployment plate.

Occurrence of such vortices lowers the development force of the development plate and deteriorates the stability of the development plate, and thus there is a problem in use that the net cannot be fully expanded.

In order to solve this problem, the application No. 10-2009-0016630 filed by the present applicant to the Republic of Korea Patent Office to install a foil at the leading edge at regular intervals in the body to delay peeling and minimize the generation of vortex In addition, the Troll development panel has been proposed to ensure excellent deployment power.

The present invention has been made to solve the above problems, the object of the present invention is to provide a trawl deployment plate excellent in the development force while capable of a stable prediction.

The troll deployment plate according to the present invention is a body, a ceiling plate and a lower plate formed on both sides of the body, the installation foil at regular intervals on the body, the first connecting hook for connecting fishing vessels formed on the body and net connection agent In the deployment plate consisting of a two-link ring to deploy the net, the foil is characterized in that each semi-cylindrical having a semi-circular cross-section is continuously coupled to the side of the adjacent semi-cylinder.

Here, the foil is characterized in that it is curved in a shape corresponding to the body in the longitudinal direction.

The troll deployment plate according to the present invention has a foil in which a semicircle is continuously coupled on a cross section to delay peeling and laminarizes the flow of seawater flowing to the back of the deployment plate, thereby minimizing vortex generation and ensuring excellent deployment force while maintaining stable troll development. The advantage is that the plate can be provided.

1 is a conceptual diagram illustrating an example of use of a troll deployment plate.
2 is a perspective view showing a conventional troll deployment plate.
3 is a conceptual diagram illustrating a force acting on a troll deployment plate.
4 is a flow analysis diagram around a conventional troll deployment plate.
5 is a perspective view showing a trawl deployment plate according to an embodiment of the present invention.
6 is a plan view of FIG.
7 is a bottom perspective view of FIG. 5.
8 is a flow analysis of the troll deployment plate in a preferred embodiment of the present invention.
Figure 9 is a graph comparing the force acting on the troll deployment plate and the conventional deployment plate according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

5 is a perspective view illustrating a troll deployment plate according to an exemplary embodiment of the present invention, FIG. 6 is a plan view of FIG. 5, and FIG. 7 is a bottom perspective view of FIG. 5.

5 and 6, the troll deployment plate 100 according to the present invention includes a body 10, a ceiling plate 20 and a lower plate 30 formed on both sides of the body 10, and the body. The first connection ring 70 (shown in FIG. 7) and the second connection ring 50 for a net connection formed in the fishing boat connection (10) is the same as the conventional development plate. also called a shoe)

The second connection ring 50 is also referred to as Norman, and the attitude of the deployment plate can be adjusted underwater by adjusting the fastening position of the auto pendant connected to the net.

The biggest feature of the present invention is that the foil 40, which is installed at regular intervals on the body, is manufactured in a form in which semicircles are continuously coupled in cross section.

As shown in FIG. 5, each semicylinder 42 having a semicircular cross section is continuously coupled to a side surface of an adjacent semicylinder 42.

In addition, both ends of the foil 40 are fixed to the ceiling plate 20 and the lower plate 30, respectively, and as shown in FIG. 5, a reinforcement plate 80 is formed on the body 10. Foil can be stably fixed to the body, a plurality of reinforcement plate 80 may be formed according to the size and type of the deployment plate.

Where F _L Is the lift force (N), ρ is the density of the fluid (1.019 kg / m ³ ), S is the receiving area of the development plate (surface area of the object in contact with the fluid), V Is the flow rate (m / s), and C _L Is the coefficient of development force.

Therefore, in order to increase the lifting force F _L of the developing plate, the developing force coefficient C _L and the receiving area S must be increased.

However, the improvement of the expansion force coefficient has been proposed through a number of techniques through the development of the development of the development of the development plate, but increasing the receiving area of the deployment plate is limited by the limit of the predictive force of the ship towing the deployment plate.

The present invention is to increase the value of S by changing the contact surface in contact with the sea water in the form of a series of semicircular continuous in the cross-section while having the same projected area.

In addition, the foil 40 is curved in a shape corresponding to the body 10 in the longitudinal direction.

Looking at the flow analysis around the troll development plate for the surface according to the invention, Figure 8 is a flow analysis of the troll development plate in a preferred embodiment of the present invention.

As shown in FIG. 8, it can be seen that fluid (sea water) flows through the space between the body 10 and the foil 40, thereby minimizing the flow separation phenomenon, thereby suppressing vortex formation behind the deployment plate.

In particular, the foil 40 of the present invention induces laminar flow because the flow of seawater flowing behind the deployment plate is a semi-cylindrical form, the foil 40 corresponds to the body 10 in the longitudinal direction Since it is manufactured in a curved shape, it is possible to minimize the occurrence of the flow peeling phenomenon on the back of the development plate.

Therefore, it is possible to secure the stability in the development of the deployment plate by limiting the irregular movement of the deployment plate due to the vortex flow of the rear in the deployment process of the deployment plate.

The foil 40 may be formed in plurality depending on the type and size of the development plate.

If you compare this point with a conventional development board,

9 is a graph comparing forces acting on a troll deployment plate and a conventional deployment plate according to an embodiment of the present invention.

Here, Para style CL and Para style Cd is a development plate according to the present invention, Original CL and Original Cd is the result of applying to the conventional development plate.

As shown in FIG. 9, the lifting force applied to the conventional deployment plate gradually increases as the direction of the fishing vessel and the angle of attack of the development vessel increase, and the development force stalls after reaching a maximum at a certain angle. It gradually decreases due to the stall phenomenon, and the development force cannot be obtained at a certain angle (about 60 °).

However, in the development plate according to the present invention, when the traveling direction of the fishing boat and the angle formed by the development plate are increased (30 ° or more), a development force of a higher value (10% or more improvement) than the conventional development force can be obtained. It can be seen that the acting drag acts 10% or less than the conventional deployment plate.

As described above, the present invention has a main technical idea to provide a troll deployment plate provided with foils in which semicircles are continuously coupled on a cross-section, and the embodiments described above with reference to the drawings are only one embodiment. The true scope of the invention should be determined by the claims.

10: body
20: ceiling
30: bottom plate
40: foil
50: second connection ring
60:
70: first connecting ring
80: gusset
100: development board

Claims (2)

It consists of a body, a ceiling plate and a lower plate formed on both sides of the body, the installation foil at regular intervals on the body, a first connecting ring for fishing vessels connected to the body and a second connecting ring for connecting the nets In the development plate to expand,
The foil is,
Troll deployment plate, characterized in that each semi-cylinder having a cross section of the semi-circle 42 is continuously coupled to the side of the adjacent semi-cylinder.
The method of claim 1,
The foil is,
The troll deployment plate, characterized in that curved in the shape corresponding to the body in the longitudinal direction.

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