CN110876361A - Self-locking net assembly, ground cage with self-locking net assembly and manufacturing method of ground cage - Google Patents

Abstract

The invention discloses a self-locking net assembly, a ground cage with the self-locking net assembly and a ground cage manufacturing method, relates to the technical field of catching devices, and solves the technical problems that when an existing net opening is too large, animals easily escape from the net opening, when the net opening is too small, the animals cannot pass through the net opening due to too large size, and the caught animals cannot be easily poured out. The self-locking net assembly comprises a top ring, a second self-locking net and a first self-locking net. First from lock net includes first dictyosome, and first dictyosome top and bottom are equipped with first elasticity fore shaft and first entry respectively. The second self-locking net comprises a second net body, and the top and the bottom of the second net body are respectively provided with a second elastic locking notch and a second inlet. The first net body is provided with a first circular ring at the first inlet. The second net body is provided with a second circular ring at a second inlet position. This auto-lock net subassembly can not influence the animal and get into according to the volume grow of animal, and the animal is difficult to escape moreover, and the ability of arresting is stronger to the goods is fast, labour saving and time saving, the benefit of improving.

Description

Self-locking net assembly, ground cage with self-locking net assembly and manufacturing method of ground cage

Technical Field

The invention relates to the technical field of catching devices, in particular to a self-locking net assembly, a ground cage with the self-locking net assembly and a ground cage manufacturing method.

Background

In the prior art, a catching cage is mostly used for catching animals such as fish, shrimp and the like. The catching cage comprises an outer net with a hollow inner part, and the two ends of the outer net are respectively provided with an inlet and an outlet. The exit is provided with a control piece for controlling the exit switch, and the existing control piece mostly adopts a rope. Entrance and outer net middle part are provided with the net gape that a plurality of internal diameters are less than the outer net internal diameter, and the animal gets into the inside back of outer net from the net gape of entrance, because there are the effect of a plurality of net gapes and outer nets in the outer net, makes the animal be difficult to go out in the outer net to catch the animal. However, when the net opening is too large, the animals are easy to escape from the net opening, and when the net opening is too small, some animals cannot pass through the net opening due to too large volume, and the caught animals are not easy to pour out.

Disclosure of Invention

In view of this, the present invention is directed to overcome the defects of the prior art, and provides a self-locking net assembly, so as to solve the technical problems that when the net opening is too large, animals are easy to escape from the net opening, and when the net opening is too small, some animals cannot pass through the net opening due to too large volume, and the caught animals are not easy to pour out.

The technical scheme adopted by the self-locking net component for solving the technical problem is as follows:

the self-locking net assembly comprises a top ring, a second self-locking net and a first self-locking net which are coaxially arranged from top to bottom in sequence;

the first self-locking net comprises a first net body with a hollow interior, a first elastic locking opening is formed in the top of the first net body, and a first inlet is formed in the bottom of the first net body; when the catching object passes through the first elastic locking notch, the first elastic locking notch is enlarged, and after the catching object passes through the first elastic locking notch, the first elastic locking notch is shrunk again;

the second self-locking net comprises a second net body with a hollow interior, a second elastic locking opening is formed in the top of the second net body, and a second inlet is formed in the bottom of the second net body; when the catching object passes through the second elastic locking notch, the second elastic locking notch is enlarged, and after the catching object passes through the second elastic locking notch, the second elastic locking notch is shrunk again; the inner diameter of the first elastic locking notch is larger than that of the second elastic locking notch when the first elastic locking notch is reduced;

a first ring for supporting the first inlet is arranged at the first inlet of the first net body; and a second ring for supporting the second inlet is arranged at the second inlet of the second net body.

Preferably, the inner diameter of the first elastic locking notch is 5-7cm when the first elastic locking notch is reduced; the inner diameter of the second elastic locking notch is 3-4cm when the second elastic locking notch is shrunk.

Preferably, the first inlet and the second inlet both have an internal diameter of 34 cm.

Preferably, the second self-locking net is connected with the first self-locking net through a first connecting piece.

Preferably, the first connecting piece comprises a first horizontal part and a first middle part, the joint of the first horizontal part and the first middle part is a knot, the first horizontal part comprises 4 ropes uniformly distributed, and the 4 ropes are respectively connected with the second inlet position of the second self-locking net; first intermediate part includes 6 ropes of equipartition, 6 the rope respectively with first elasticity fore shaft is connected.

Preferably, the second self-locking net and the top ring are connected through a second connecting piece.

Preferably, the second connecting piece comprises a second horizontal part and a second middle part, the joint of the second horizontal part and the second middle part is a knot, the second horizontal part comprises 4 ropes uniformly distributed, and the 4 ropes are respectively connected with the top ring; the second intermediate portion includes 6 ropes of equipartition, 6 the rope respectively with the second elasticity fore shaft is connected.

Preferably, the color of the first net body is darker than that of the second net body.

Compared with the prior art, this auto-lock net subassembly beneficial effect is:

1. the first elasticity fore shaft of this auto-lock net subassembly and second elasticity fore shaft have elasticity, when great animal passes, can be according to the volume grow of animal to do not influence the animal and get into, make the animal be difficult to escape moreover, it is stronger to catch the ability.

2. This auto-lock net subassembly is when pouring goods, and first elasticity fore shaft and second elasticity fore shaft can be along with the automatic expansion of animal size, so pour goods fast, labour saving and time saving, benefit is improved.

3. This first connecting piece of auto-lock net subassembly is with first elasticity fore shaft and second entry connection, when the animal passes first elasticity fore shaft from first dictyosome, makes first elasticity fore shaft move to second entry position, and the distance between first elasticity fore shaft and the second entry shortens this moment, and first intermediate part can be separated to both sides, makes things convenient for first elasticity fore shaft grow, makes the animal pass first elasticity fore shaft easily.

When an animal wants to escape and passes through the first elastic locking notch from one side of the first connecting piece, the first elastic locking notch moves to the first entrance position, the distance between the first elastic locking notch and the second entrance is increased at the moment, the first middle part is tightened up towards the center of the first elastic locking notch, the first elastic locking notch is not easy to increase, and therefore the animal cannot escape easily.

The invention also provides a self-locking ground cage which comprises an outer net, wherein the outer net is sleeved outside the self-locking net assembly, a ground cage inlet is formed in one end, located at the first inlet, of the outer net, a ground cage outlet is formed in one end, located at the top ring, of the outer net, and a control piece used for controlling the ground cage outlet to be opened and closed is arranged at the ground cage outlet;

the first circular ring, the second circular ring and the top ring are all detachably connected with the outer net.

Compared with the prior art, this auto-lock ground cage beneficial effect is: the self-locking net component is convenient to assemble and disassemble.

The invention also provides a ground cage manufacturing method, which is characterized by comprising the following steps:

(1): fixing any side of the net cylinder on the first circular ring, wherein the net cylinder is positioned at the first circular ring to form a first inlet; uniformly distributing and connecting 6 ropes to the other side of the cylinder, knotting the upper parts of the 6 ropes to form knots, and drawing out 4 ropes on the knots for later use to form a first self-locking net;

(2): fixing any edge of the other net cylinder on the second ring, wherein the net cylinder is positioned at the second ring to form a second inlet; uniformly distributing 6 ropes and connecting the ropes to the other side of the round through hole, knotting the upper parts of the 6 ropes to form knots, and drawing out 4 ropes on the knots for later use to form a second self-locking net;

(3): uniformly distributing and horizontally arranging 4 ropes left in the step (1) on a second circular ring, and uniformly distributing and horizontally connecting the 4 ropes left in the step (2) on a top ring so as to form a self-locking net assembly;

(4): concentrating the self-locking net component, and shaping at high temperature;

(5): and the self-locking net assembly is placed inside the outer net, and the first circular ring and the second circular ring are respectively fixed with the outer net so as to be connected into a self-locking ground cage.

And concentrating the self-locking net component, and shaping at high temperature to make the first net body and the second net body have elasticity to form a first elastic locking notch and a second elastic locking notch.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of a self-locking netting assembly of the present invention;

FIG. 2 is a schematic view of the connection between the second ring and the first horizontal portion according to the present invention;

FIG. 3 is a schematic view of the self-locking ground cage connection of the present invention;

fig. 4 is a schematic view of the outer net of the present invention.

In the figure: 1-top ring, 2-first net body, 3-first elastic locking port, 4-first inlet, 5-second net body, 6-second elastic locking port, 7-second inlet, 8-first ring, 9-second ring, 10-first horizontal part, 11-first middle part, 12-knot, 13-second horizontal part, 14-second middle part, 15-ground cage inlet, 16-ground cage outlet and 17-outer net.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely a few embodiments of the invention and are not to be taken as a comprehensive embodiment. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Example 1:

a self-locking net assembly is shown in figure 1 and comprises a top ring 1, a second self-locking net and a first self-locking net which are coaxially arranged from top to bottom in sequence.

The first self-locking net comprises a first net body 2 with a hollow interior. The top of the first net body 2 is provided with a first elastic locking opening 3, and the bottom of the first net body 2 is provided with a first inlet 4. The second self-locking mesh comprises a second mesh body 5 with a hollow interior. The top of the second net body 5 is provided with a second elastic locking opening 6, and the bottom of the second net body 5 is provided with a second inlet 7. The first net body 2 is provided with a first ring 8 at the first inlet 4 for supporting the first inlet 4. The second net body 5 is provided with a second ring 9 at the second inlet 7 for supporting the second inlet 7.

When in use, the self-locking net component is arranged in the outer net 17 to assemble the ground cage. The ground cage is then placed in the capture position. Because the first net body 2 and the second net body 5 are provided with meshes, light can irradiate the inside of the ground cage, and because the first elastic locking notch 3 and the second elastic locking notch 6 have smaller inner diameters than the first inlet 4 and the second inlet 7 under the action of elasticity, the light can be gathered in the first elastic locking notch 3 and the second elastic locking notch 6. Most animals have a phototaxis, and when the animal sees the bright light in the first flexible locking notch 3, the light enters the first net body 2 from the first entrance 4 and passes through the first flexible locking notch 3. The first elastic locking notch 3 has elasticity, and can be enlarged according to the volume of an animal when a larger animal passes through, so that the entering of the animal is not influenced. After the animal passes through the first elastic locking notch 3, the first elastic locking notch 3 contracts again under the action of the elasticity of the animal, so that the animal is not easy to return to pass through the first elastic locking notch 3. Furthermore, as shown in fig. 1, the first inlet 4 is provided with a first ring 8 to avoid the first mesh body 2 at the first inlet 4 to contract. After the first elastic locking notch 3 is contracted, the first net body 2 is conical, so when an animal enters from the first inlet 4 and passes through the first elastic locking notch 3, the first elastic locking notch 3 is easy to enlarge and expand, but the animal is not easy to return from the first elastic locking notch 3, and the animal is prevented from escaping.

After the animal has passed through the first elastic locking notch 3, the animal will see the second elastic locking notch 6 as bright as it passes through the second elastic locking notch 6. The second elastic locking notch 6 further locks the animal in the ground cage, and when the second elastic locking notch 6 is shrunk, the inner diameter is smaller than that of the first elastic locking notch 3, so that the animal is difficult to escape, and the capturing capability is stronger.

When pouring the animal, pour the animal for the one end of first entry 4 from outer net 17, at the pouring in-process, first elasticity fore shaft 3 and the 6 grow of second elasticity fore shaft can not hinder the animal and pass to it is fast to pour the goods, labour saving and time saving, the benefit of improving.

Preferably, the inner diameter of the first elastic locking notch 3 is 5-7cm when being reduced, and the embodiment is preferably 6 cm; the internal diameter of the second resilient locking notch 6 when it is reduced is 3-4cm, preferably 4cm in this embodiment. Preferably, the first inlet 4 and the second inlet 7 each have an internal diameter of 34 cm.

Preferably, as shown in fig. 1, the second self-locking net is connected with the first self-locking net through a first connecting piece.

Preferably, as shown in fig. 1 and 2, the first connecting member includes a first horizontal portion 10 and a first middle portion 11, and a knot 12 is formed at a connection point of the first horizontal portion 10 and the first middle portion 11. The first horizontal part 10 comprises 4 ropes uniformly distributed, and the 4 ropes are respectively connected with the second inlet 7 of the second self-locking net. The first intermediate portion 11 comprises 6 evenly distributed ropes, and the 6 ropes are respectively connected with the first elastic locking notch 3.

First connecting piece is connected first elasticity fore shaft 3 and second entry 7, and when the animal passed first elasticity fore shaft 3 from first dictyosome 2, made first elasticity fore shaft 3 to the position removal of second entry 7, the distance between first elasticity fore shaft 3 and the second entry 7 shortened this moment, and first intermediate part 11 can be separated to both sides, makes things convenient for the 3 grow of first elasticity fore shaft, makes the animal pass first elasticity fore shaft 3 easily.

When an animal wants to escape and passes through the first elastic locking notch 3 from one side of the first connecting piece, the first elastic locking notch 3 moves towards the position of the first inlet 4, the distance between the first elastic locking notch 3 and the second inlet 7 is increased, the first middle part 11 is tightened towards the center of the first elastic locking notch 3, the first elastic locking notch 3 is not easy to increase, and therefore the animal cannot escape easily.

The rope is used, the structure is simple, the cost is low, and the use is convenient.

The first middle part 11 is 6 ropes which are uniformly distributed, and when the number of the ropes is too large, the space is crowded, so that animals cannot enter or pour out easily; when the number of the ropes is too small, the first elastic locking notch 3 is difficult to stretch. The inventor has studied that, when the first intermediate portion 11 is formed by 6 evenly distributed ropes, the space is not crowded, and the first elastic locking notch 3 is rapidly expanded and contracted.

Preferably, the second self-locking net and the top ring 1 are connected through a second connecting piece.

Preferably, the second connecting member includes a second horizontal portion 13 and a second middle portion 14, and the junction of the second horizontal portion 13 and the second middle portion 14 is a knot 12. The second horizontal part 13 comprises 4 ropes uniformly distributed, and the 4 ropes are respectively connected with the top ring 1. The second intermediate portion 14 comprises 6 evenly distributed ropes, and the 6 ropes are respectively connected with the second elastic locking notch 6. The connection mode of the second connecting piece is the same as that of the first connecting piece. The principle is the same as that of the second connecting member.

Preferably, the first mesh body 2 is darker in color than the second mesh body 5. Preferably, the first net body 2 is black in color, and the second net body 5 is blue-gray in color.

The color of the first net body 2 is deeper than that of the second net body 5, so that light in the second net body 5 is stronger, and the light at the position of the second elastic locking notch 6 is brighter, so that an animal can pass through the second elastic locking notch 6 more easily after passing through the first elastic locking notch 3.

Preferably, the aperture straightening length of the first net body 2 and the second net body 5 is 1.7 cm. The materials of the first self-locking net, the second self-locking net and the outer net 17 are high-density polyethylene. The first ring 8 and the second ring 9 are made of aluminum-platinum steel. The vertical height of the first net body 2 and the second net body 5 is 30 cm. The vertical height between the first resilient locking notch 3 and the second inlet 7 is 25 cm. The vertical height between the second elastic locking notch 6 and the top ring 1 is 25 cm.

The first net body 2 may be tapered such that the inner diameter of one end of the first inlet 4 is the largest. The first net body 2 is provided with an elastic cord at an end opposite to the first inlet 4, thereby forming a first elastic locking notch 3. The second mesh body 5 is tapered with the largest inner diameter at one end of the second inlet 7. The second net body 5 is provided with an elastic cord at an end opposite to the second inlet 7, thereby forming a second elastic locking notch 6.

Example 2:

a self-locking ground cage, as shown in fig. 3 and 4, comprises an outer net 17. The outer net 17 is sleeved outside the self-locking net assembly in the embodiment 1. The outer screen 17 is provided with a ground cage inlet 15 at the end of the first inlet 4. The outer net 17 is provided with a ground cage outlet 16 at one end of the top ring 1, and the ground cage outlet 16 is provided with a control piece for controlling the opening and closing of the ground cage outlet 16. Preferably, the control member is a cord. The first circular ring 8, the second circular ring 9 and the top ring 1 are detachably connected with the outer net 17.

When the self-locking net is used, the self-locking net component is placed in the outer net 17, and the first circular ring 8, the second circular ring 9 and the top ring 1 are connected with the outer net 17 through other connecting pieces such as ropes. The control member is used to close the floor cage outlet 16.

In use, animals enter the cage through the entrance 15 and are locked within the outer netting 17 by the self-locking netting assembly. When the animal is to be poured, the control member is opened and the animal is poured out of the floor cage outlet 16.

Example 3:

a ground cage manufacturing method comprises the following steps:

(1): any side of the net drum is fixed on the first circular ring 8. The mesh cylinder is located at the first ring 8 forming the first inlet 4. And 6 ropes are uniformly distributed and connected to the other side of the cylinder, the upper parts of the 6 ropes are knotted to form knots 12, and 4 ropes are pulled out of the knots 12 for later use to form a first self-locking net.

(2): and fixing any side of the other net cylinder on the second circular ring 9, wherein the net cylinder is positioned at the second circular ring 9 to form a second inlet 7. And 6 ropes are uniformly distributed and connected to the other side of the round through hole, the upper parts of the 6 ropes are knotted to form a knot 12, and 4 ropes are drawn out from the knot 12 for later use to form a second self-locking net.

(3): and (3) uniformly distributing and horizontally arranging 4 ropes left in the step (1) on the second circular ring 9, and uniformly distributing and horizontally connecting the 4 ropes left in the step (2) on the top ring 1 so as to connect into a self-locking net assembly.

(4): and (4) concentrating the self-locking net component, and shaping at high temperature. Therefore, the first net body 2 has elasticity, the first inlet 4 cannot be contracted due to the first circular ring 8 arranged at the first inlet 4, and the first net body 2 is sequentially contracted from the first inlet 4 to form a hammer shape, so that a first elastic locking notch 3 is formed at one end opposite to the first inlet 4. Similarly, the second net body 5 is also provided with a second elastic locking notch 6 at the end opposite to the second inlet 7.

(5): the self-locking net assembly is placed inside the outer net 17, and the first circular ring 8 and the second circular ring 9 are fixed with the outer net 17 respectively so as to be connected into a self-locking ground cage.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention.

Claims (10)

1. A self-locking net assembly is characterized by comprising a top ring (1), a second self-locking net and a first self-locking net which are coaxially arranged from top to bottom in sequence;

the first self-locking net comprises a first net body (2) with a hollow interior, a first elastic locking notch (3) is formed in the top of the first net body (2), and a first inlet (4) is formed in the bottom of the first net body (2); when the caught object passes through the first elastic locking notch (3), the first elastic locking notch (3) is enlarged, and after the caught object passes through the first elastic locking notch (3), the first elastic locking notch (3) is shrunk again;

the second self-locking net comprises a second net body (5) with a hollow interior, a second elastic locking opening (6) is formed in the top of the second net body (5), and a second inlet (7) is formed in the bottom of the second net body (5); when the caught object passes through the second elastic locking notch (6), the second elastic locking notch (6) is enlarged, and after the caught object passes through the second elastic locking notch (6), the second elastic locking notch (6) is shrunk again; the inner diameter of the first elastic locking notch (3) when being shrunk is larger than that of the second elastic locking notch (6) when being shrunk;

a first ring (8) for supporting the first inlet (4) is arranged at the position of the first inlet (4) of the first net body (2); the second net body (5) is provided with a second circular ring (9) used for supporting the second inlet (7) at the position of the second inlet (7).

2. The self-locking net assembly according to claim 1, wherein the inner diameter of the first elastic locking notch (3) when contracted is 5-7 cm; the inner diameter of the second elastic locking notch (6) is 3-4cm when the second elastic locking notch is shrunk.

3. The self-locking net assembly according to claim 2, wherein the first inlet (4) and the second inlet (7) each have an internal diameter of 34 cm.

4. The self-locking net assembly according to claim 1, wherein the second self-locking net is connected to the first self-locking net by a first connector.

5. The self-locking net assembly according to claim 4, wherein the first connecting member comprises a first horizontal portion (10) and a first middle portion (11), the joint of the first horizontal portion (10) and the first middle portion (11) is a knot (12), the first horizontal portion (10) comprises 4 ropes uniformly distributed, and the 4 ropes are respectively connected with the second inlet (7) of the second self-locking net; the first middle part (11) comprises 6 evenly distributed ropes, and the 6 ropes are respectively connected with the first elastic locking notch (3).

6. The self-locking net assembly according to claim 4, wherein the second self-locking net and the top ring (1) are connected by a second connecting member.

7. The self-locking net assembly according to claim 6, wherein the second connecting member comprises a second horizontal portion (13) and a second middle portion (14), the joint of the second horizontal portion (13) and the second middle portion (14) is a knot (12), the second horizontal portion (13) comprises 4 evenly distributed ropes, and the 4 ropes are respectively connected with the top ring (1); the second middle part (14) comprises 6 evenly distributed ropes, and the 6 ropes are respectively connected with the second elastic locking notch (6).

8. The self-locking net assembly according to any one of claims 1-7, wherein the first net body (2) has a color darker than the color of the second net body (5).

9. A self-locking ground cage, characterized by comprising an outer net (17), wherein the outer net (17) is sleeved outside the self-locking net assembly according to any one of claims 1 to 9, a ground cage inlet (15) is arranged at one end of the outer net (17) positioned at the first inlet (4), a ground cage outlet (16) is arranged at one end of the outer net (17) positioned at the top ring (1), and a control element for controlling the ground cage outlet (16) to be opened and closed is arranged at the ground cage outlet (16);

the first circular ring (8), the second circular ring (9) and the top ring (1) are detachably connected with the outer net (17).

10. A ground cage manufacturing method is characterized by comprising the following steps:

(1): any side of the net cylinder is fixed on the first circular ring (8), and the net cylinder is positioned on the first circular ring (8) to form a first inlet (4); uniformly distributing and connecting 6 ropes to the other side of the cylinder, knotting the upper parts of the 6 ropes to form knots (12), and drawing out 4 ropes on the knots (12) for later use to form a first self-locking net;

(2): any side of the other net cylinder is fixed on the second circular ring (9), and the net cylinder is positioned on the second circular ring (9) to form a second inlet (7); uniformly distributing and connecting 6 ropes to the other side of the round through hole, knotting the upper parts of the 6 ropes to form knots (12), and drawing out 4 ropes on the knots (12) for later use to form a second self-locking net;

(3): uniformly distributing and horizontally arranging 4 ropes left in the step (1) on a second circular ring (9), and uniformly distributing and horizontally connecting the 4 ropes left in the step (2) on a top ring (1) so as to connect into a self-locking net assembly;

(4): concentrating the self-locking net component, and shaping at high temperature;

(5): the self-locking net component is placed in the outer net (17), and the first circular ring (8) and the second circular ring (9) are respectively fixed with the outer net (17) to form a self-locking ground cage.

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