KR20110115637A - Accumulative fish trap - Google Patents

Abstract

The present invention discloses a trap capable of lamination. The present invention is spaced up and down is provided with an upper ring and a lower ring, the upper ring and the lower ring trap trapezoidal cross-sectional trap formed by being connected to each other by at least one support bar; And the surrounding the trapped frame as a whole, the side is formed with a plurality of guided tapered in the shape of external light narrowing so as to capture the fish, the upper surface includes a mesh is formed to open and close the outlet to take out the captured fish, The plurality of inlets are connected by one or more connecting lines, and provide a stackable trap characterized in that the inlet is stretched or loosely loosened by pulling and loosening of the tension lines zigzagly coupled to the outlet adjacent net. .

Description

Stackable trap {ACCUMULATIVE FISH TRAP}

The present invention relates to stackable traps used for catching fish, and more particularly, to cylindrical traps having a longitudinal cross-section, in which a plurality of inlets are connected by one or more connecting lines and zigzagly coupled to the outlet adjacent net. It relates to a stackable trap, characterized in that the induction port is stretched or loosely relaxed as the tension and pulling of the tension line.

In general, the trap is for catching fish such as fishing, octopus, crab, eel, etc. in the offshore, and the trap is generally a cylindrical net structure formed with one or more guide holes on the side, through which the fish are caught Once inside, it is a tool to catch fish by preventing it from going out.

Looking at the conventional trap, the structure is surrounded by a mesh of nylon mesh net around the trap frame formed of a metal material, one side of the fish is attracted to the induction port is formed, the upper portion of the trapped fish inside the trap It is easy to remove the outlet is formed at a time. The induction port is formed of a net, and the passage is narrowed as it proceeds from the outside to the inside of the trap so that the fish cannot escape again through the entrance.

The trap formed in the above structure has a problem in that it is difficult to stack the upper and lower rings with the same volume when loading or transporting the guide port because it is always maintained in a state of tension.

In addition, the bulky trap has a problem of causing the ship to be inclined or overturned under the influence of the wind when stored and stored.

In addition, there is a problem that it takes a long time and inconvenient when using the bar trap to adjust the line connected to the induction port and the line connected to the discharge port double.

In addition, in the case of the induction sphere in which expansion and loosening are developed by the tension line, there is a problem that it is difficult to induce the looseness of the attracting force only by the loosening of the tension line of the connection line penetrating the induction mesh net and other induction mesh nets.

Therefore, the present invention is to solve the above-mentioned problems of the prior art, when carrying or storing the trap, loosen the guide hole of the trap, and by varying the size of the diameter of the upper ring and the lower ring, the trap is trapezoidal. It is an object of the present invention to provide a trap capable of lamination by having a longitudinal section of the film.

In addition, the connecting line penetrating through the induction port wraps around the tightening line of the outlet and is fixed to the upper ring is coupled to the net zigzag bar bar by expanding the expansion and loosening of the tension line can be laminated stacking can control the inlet and the outlet It aims to provide.

In addition, it is an object of the present invention to provide a stackable trap that can be elastically actuated by the connecting line penetrating the guided mesh net and other guided web nets in the case of the guided inflated and loosened by the tension line.

In order to achieve the above and other objects of the present invention, the present invention is spaced up and down is provided with an upper ring and a lower ring, the upper ring and the lower ring is trapped trapezoidal cross-sectional shape is connected to each other by at least one support bar frame; And the surrounding the trapped frame as a whole, the side is formed with a plurality of guided tapered in the shape of external light narrowing so as to capture the fish, the upper surface includes a mesh is formed to open and close the outlet to take out the captured fish, The plurality of inlets are connected by one or more connecting lines, and provide a stackable trap characterized in that the inlet is stretched or loosely loosened by pulling and loosening of the tension lines zigzagly coupled to the outlet adjacent net. .

In addition, the connecting line is one end of the induction outlet of the induction port is fixed, the other end of the induction outlet through one side of the induction outlet is wrapped around the tightening line and coupled to the mesh in a zigzag stacking characterized in that fixed to the upper ring This provides a possible outbreak.

In addition, one end of the connecting line is tied together a plurality of strands of the induction sphere net forming one side of the induction outlet, the induction sphere mesh forming one side of the neighboring induction outlet is configured so that the plurality of strands are tied by the tie member, It provides a stackable trap, characterized in that the wear of the guide mesh net in accordance with the development and relaxation of the.

In addition, the support bar is formed in a circular shape having a diameter as the height of the upper ring and the lower ring, the support bar is provided with a stackable trap, characterized in that it is surrounded by a guide sphere mesh to form a guide inlet do.

In addition, a fixing bar is provided across the lower ring, one end is fixed to the fixing bar in the middle of the fixing bar, and the other end is provided with a bait net for putting a bait. To provide.

In addition, the bait net is coupled to the bait net in one end of the extension line to form a ring zigzag to open and close and the other end of the extension line is coupled to the net and zigzag across the tension line is fixed to the upper ring It provides a stackable trap, characterized in that.

In addition, the connecting line penetrates through the bundle net formed at one end of the induction outlet of the induction port, and penetrates the bundle net formed at one end of the neighboring induction outlet so that both ends of the connection line are fixed to the upper ring. Provides a stackable trap, characterized in that coupled to the other end of the.

In addition, the connecting line provides a stackable trap, characterized in that coupled directly to the elastic member without being coupled to the net across the tension line.

According to the present invention having the above-described configuration, when carrying or storing the trap, the lamination can be made by loosening the guide hole of the trap and changing the size of the diameter of the upper and lower rings so that the trap has a trapezoidal longitudinal section. Possible outbreaks may be provided.

In addition, the connecting line penetrating through the induction port wraps around the tightening line of the outlet and is fixed to the upper ring is coupled to the net zigzag bar bar by expanding the expansion and loosening of the tension line can be laminated stacking can control the inlet and the outlet Can provide.

In addition, in the case of the induction sphere in which expansion and loosening are developed by the tension wire, it is possible to provide a stacking trap capable of elastically acting a connection line penetrating the induction mesh net and other induction mesh nets.

1 is a perspective view of a stackable trap according to the present invention.
Figure 2 is a view showing a trap frame of the stackable trap according to the present invention.
Figure 3 is a perspective view of another embodiment of a stackable trap according to the present invention.

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

1 is a perspective view of a stackable trap according to the present invention, Figure 2 is a view showing a trap frame of a stackable trap according to the present invention, Figure 3 is another embodiment of a stackable trap according to the present invention Perspective view.

As shown in Figure 1 to 2, the present invention is provided with an upper ring 120 and a lower ring 140 spaced apart up and down, the upper ring 120 and the lower ring 140 is at least one support Trapping frame 100 having a trapezoidal cross-section connected to each other by a bar 160; And enveloping the trap frame 100 as a whole, a plurality of guided inlet 200 is formed in the outer light narrowing shape so as to capture the fish on the side, the upper surface can be opened and closed to take out the trapped fish 320 Including a mesh 300 is formed, the plurality of induction port 200 is connected by one or more connecting line 260, the tension line 340 is coupled in a zigzag to the mesh 300 adjacent to the outlet 320 As the pulling and loosening of the inlet 200 provides a stackable trap, characterized in that the tension is deployed or loosely relaxed.

The trapping frame 100 is spaced up and down, the upper ring 120 and the lower ring 140 is connected to each other three support bars 160. The upper ring 120 has a larger circumference than the lower ring 140, and has a trapezoidal longitudinal section. In addition, the fixing bar 180 is provided across the lower ring 140, the middle of the fixing bar 180 to adjust the one end extension line 182 to form an openable inlet and the other end of the fixing bar Coupling fixed bait network 184 and 180 is coupled. Meanwhile, the bait net 184 is fixed to the fixing bar 180 vertically or horizontally as the extension string 182 is pulled or loosened as the tension string 340 is expanded or loosened.

The mesh 300 has a round cylindrical shape through which both sides pass, and surrounds the entire trapping frame 100, and one end of the mesh 300 is knotted and positioned in the center of the trapping frame 100. In addition, the mesh 300 is coupled to wrap around the upper ring 120 by pulling taut. Meanwhile, the lower ring 140 and the upper ring 120 and the mesh 300 are zigzag through the space between the respective meshes 300 using a thick fixing line 360, and then the lower ring 140 and the By tightly enclosing the upper ring 120, the mesh 300 may be tightly coupled to the trapping frame 100.

In addition, the other end of the mesh 300 is formed with a discharge port 320 for taking out the captured fish to the outside, the discharge port 320 is passed through the space between the mesh 300 is a zigzag coupled to the zigzag 340 ), The inlet of the outlet 320 can be narrowed by pulling.

On the other hand, the hook portion 380 is provided on the hook portion of the tension line 340, and after pulling the tension line 340 narrows the inlet of the outlet 320, the hook 380 is coupled with the lower ring 140 It is fixed to the tension line 340 by walking on one side of the fixing bar 180.

The induction port 200 has a predetermined interval by wrapping the circular support bar 160 to support the upper ring 120 and the lower ring 140 on the side of the trap frame 100 is wrapped around the net 300 Three are formed. However, in manufacturing the trap 10, it is possible to add a plurality of induction holes 200 through the design change. The induction port 200 forms a circular induction inlet 220 and has a tapered shape in the shape of external light narrowing. The induction inlet 220 is wide and the induction outlet 240 has a narrow shape.

The induction port 200 is to cut the mesh 300 to a predetermined size to combine the support bar 160 of the circular and the weave mesh net 246 with the mesh 300 to be coupled. In addition, by pulling one end of the induction mesh net 246 into the trap frame 100, the induction inlet 220 is formed, the other end of the induction hole mesh 246 is the induction outlet 240 do.

A plurality of guided mesh net 246 strands located at the edges of both sides of the guided mesh net 246 of the guided outlet 240 using the bundle member 242 to secure a space for the fish and the like to enter and exit. . On the other hand, one end of the induction outlet 240 is connected to at least one connecting line 260.

The connecting line 260 is fixed to one end of the induction outlet 240 of the induction port 200, the other end penetrates the one side of the neighboring induction outlet 240 to surround the tension line 340 and the mesh 300 It is coupled to the zigzag) is fixed to the upper ring 120. That is, the connection line 260 is tightly tied to one end of the connection line 260 to the bundle net 244 coupled to the induction outlet 240 as a bundle member 242, bundle of adjacent induction outlet 240 The other end of the connecting line 260 is pulled out through the mesh 244 to the outlet 320 to surround the tension line 340 and is fixed to the upper ring 120 while being zig-zag coupled to the mesh 300. After connecting the three connecting lines 260 with one end of the induction outlet 240 by the above-described method, the connecting line 260 taken out of the outlet 320 is fixed to the upper ring 120 so that the tightening line 340 According to the expansion of the expansion and the expansion of the inlet port 200, as well as the outlet 320, the expansion and loosening develops. On the other hand, the bundle net 244 of the induction outlet 240 is configured so that a plurality of strands are bundled by the bundle member 242, the wear of the guide sphere net 246 according to the expansion and relaxation of the connecting line 260. Is prevented.

Hereinafter, the operation sequence for the stackable trap according to the present invention will be described in detail.

In order to drop the keg 10 to the sea by pulling the tension line 340, the inlet of the outlet 320 is narrowed and at the same time the inlet is also pulled taut. At this time, the bait net 184 disposed in the middle of the fixing bar 180 is moved from the horizontal direction to the vertical direction with the fixing bar 180 as the tension line 340 is pulled and the extension line 182 is tightened. Done.

The induction inlet 220 is formed wide by the circular support bar 160 and the induction outlet 240 is parallel to the trapping frame 100 by moving upward in the bundle net 244 is spread on both sides. By this, the fish and the like become easy to enter the inside of the trap 10. In addition, by narrowing the inlet of the outlet 320 by pulling the tension line 340 of the outlet 320, the hook 380 of the tension line 340 is coupled to the lower ring 140 of the trap frame (100) It is fixed to the tension line 340 by walking on one side of the fixed bar 180.

To stack or move the keg 10, the hook 380 is removed from the fixing bar 180 to widen the inlet of the outlet 320. When the tension line 340 is loosened to widen the inlet of the outlet 320, the connection line 260 is also loosened at the same time, so that the induction outlet 240 faces downward, and the bait net 184 coupled to the fixing bar 180. Is horizontal to the fixing bar 180.

Therefore, after the guide port 200 and the bait net 184 are loosened, the trap 10 is stacked to allow transportation and storage.

3 is a view showing another embodiment of a stackable trap according to the present invention.

Referring to Figure 3, the present invention is spaced up and down is provided with an upper ring 120 and a lower ring 140, the upper ring 120 and the lower ring 140 is at least one support bar 160 Trapping frame 100 of the trapezoidal cross-sectional shape is connected to each other by; And enveloping the trap frame 100 as a whole, a plurality of guided inlet 200 is formed in the outer light narrowing shape so as to capture the fish on the side, the upper surface can be opened and closed to take out the trapped fish 320 Including a mesh 300 is formed, the plurality of induction port 200 is connected by one or more connecting line 260, the tension line 340 is coupled in a zigzag to the mesh 300 adjacent to the outlet 320 As the pulling and loosening of the inlet 200 provides a stackable trap, characterized in that the tension is deployed or loosely relaxed.

The support bar 160 supports the upper ring 120 and the lower ring 140 and consists of six support bars 160.

In addition, the connecting line 260 penetrates through the bundle net 244 formed at one end of the induction outlet 240 of the induction port 200, the bundle net formed at one end of the neighboring induction outlet 240 ( Both ends of the connecting line 260 through the 244 is coupled to the other end of the elastic member 400, one end of which is fixed to the upper ring 120.

On the other hand, the connecting line 260 is wrapped around the tightening line 340 of the outlet 320 is preferably not coupled to the mesh 300 when fixed to the upper ring 120.

Looking at the operation sequence of another embodiment of the stackable trap according to the present invention as follows.

In the case of dropping the trap 10 to the sea by pulling the tension line 340, the inlet 200 is tightened and the inlet of the outlet 320 is narrowed. On the other hand, in the case of carrying or storing the trap, the induction port 200 is directed downward by loosening the tension line 340, and the inlet of the outlet 320 is widened. In addition, in the case of lamination, the elastic member 400 is stretched by the load of the trap 10 stacked thereon to facilitate lamination of the trap 10. In addition, in some cases, when dropping the trap 10 to the sea, the elastic member 400 is dropped in a coupled state, and when the trap 10 is laminated for transport or storage, the elastic member 400 After separating the trap 10 can be laminated.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. That is, such modifications or variations will have to belong to the claims of the present invention.

10: Trap 100: Trap frame
120: upper ring 140: lower ring
160: support bar 180: fixed bar
182: extension cord 184: bait net
200: Yugyo 220: Yugyo entrance
240: Yugi exit 242: Bundled member
244: Bundle net 246: Yugoslavia net
260: connection line 300: net
320: outlet 340: tension
360: fixing line 380: hook
400: elastic member

Claims (8)

Spaced up and down is provided with an upper ring and a lower ring, the upper ring and the lower ring is trapped trapezoidal cross-shaped trapping frame formed by being connected to each other by at least one support bar; And
The trapping frame is entirely wrapped, the side is formed with a plurality of guided tapered in the shape of the external light narrowing so as to capture the fish, the upper surface includes a mesh that is formed to open and close the outlet to take out the captured fish,
And the plurality of guide holes are connected by one or more connecting lines, and the guide holes are tensioned or loosely relaxed as the guide ropes are loosely pulled and zigzagly coupled to the outlet adjacent net.
The method according to claim 1, The connecting line,
One end of the induction outlet of the induction port is fixed, the other end penetrates through the neighboring induction outlet one side wraps the tension line and is coupled to the mesh is zigzag coupled to the stacking can be stacked on the upper ring. The method according to claim 2,
One end of the connection cord is tied together a plurality of strands of the induction ball mesh forming one side of the induction outlet, and the induction ball mesh forming a neighboring induction outlet one side is configured to be tied by a plurality of strands, the deployment of the connection line Stackable traps characterized in that the wear and tear of the guide mesh net according to the relaxation is prevented.
The method according to claim 1, The support bar,
It is formed in a circular shape having a diameter equal to the height of the upper ring and the lower ring, the support bar is stacked stackable, characterized in that the guide sphere is surrounded by a mesh to form an induction inlet.
The method according to claim 1,
A fixing bar is provided across the lower ring, and the middle of the fixing bar has one end tied to the fixing bar and fixed thereto, and the other end is provided with a bait network into which the bait can be inserted.

The method of claim 5, wherein the bait net,
The stack is characterized in that one end of the extension cord is coupled to the bait net in a zigzag to open and close to form a ring and the other end of the extension cord is coupled to the net and zigzag across the tension line and fixed to the upper ring. Possible outbreaks.
The method according to claim 1, The connecting line,
Both ends of the connecting line is coupled to the other end of the elastic member having one end fixed to the upper ring by penetrating the bundle net formed at one end of the induction outlet of the induction port and penetrating the bundle net formed at one end of the neighboring induction outlet. Stackable lamination, characterized in that.
The method according to claim 7, wherein the connecting line,
Stackable trap, characterized in that coupled directly to the elastic member without being coupled to the net across the tension line.

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