KR101438997B1 - pipe union structure for aquaculture cage frame - Google Patents

Abstract

       The present invention relates to a crossover binding connector for a cage farm structure frame pipe, wherein the connecting hole is made of a high-density polyethylene material so that the inside is hollow and excellent in lifting force, and the upper and lower pipe fixing parts for fixing the pipe up and down are crossed , And four air layer grooves are formed on the bottom surface of the pipe fixing portion. The reinforcing portion and the bolt hole are formed on the outer wall surface of the pipe fixing portion to prevent the pipe from easily twisting or breaking due to external force. Can be saved and safety accidents can be prevented.

Description

[0001] The present invention relates to a pipe union structure for aquaculture cage frame,

The present invention relates to a crossover binding connector for a frame pipe of a cage farm. More particularly, the present invention relates to a cross-linking connector for a pipe installed at a corner of a frame or a frame of a cage farm to connect the crossed pipe, and more particularly, to an anchoring tether for supporting a cage farm frame at sea, To a crossover binding connector for a cage farm frame pipe to prevent it from being easily broken and twisted by waves generated by the change or by other external forces such as load of the worker working in the cage farm.

Generally, the cage culture means a device and a method for culturing a certain type of structure including a cage net on the sea of the offshore waters by buoyancy to confine various fisheries and shellfishes, and it is a natural state occupying a certain space It can be used as a method of cultivation.

Conventionally, a cage farm for producing fish has been constructed by arranging the wood in the lateral direction and the longitudinal direction and making a frame like a raft, forming a footboard with a plank on the upper part, and installing a crown and a net on the lower part. Recently, the cost is high because it is hard to obtain wood, and when the wood is floated on the sea water, it is inflated with water, so it is easy to be deformed and it is not easy to handle and it is not easy to be corroded due to weathering. Recently, plastic products using polymer compounds have been mainly used.

Particularly, in recent years, piping and various connecting pipes of marine structures such as a seaworthy cage, a floating bridge, and a marine berthing facility have been used as a polyethylene material. Such a product has a hollow inside and is excellent in buoyancy, So that they can be firmly held even when the waves are rough, and they are easy to procure materials such as materials and have a low price.

As a method of joining the portions of the cage farm and the marine structure that intersect the pipes, there is a double-joining system in which a portion where the pipe is tilted and fixed with a bolt is fixed with a bolt, and a fusion- And a member having a helical shape formed on the outer surface of one end of the pipe.

However, there is a problem that the double bonding method in which the pipe is directly connected vertically using the bolts can not withstand the small waves in the sea and is often twisted or broken frequently, requiring frequent maintenance work. In the welding process, And it is inconvenient to carry it back to the site.

In addition, there is a problem that the welded portion can not withstand the force and easily breaks in the sea where irregular external force such as pitching and rolling is applied. In addition, there is a problem in maintenance and maintenance after installation. Screw connection method has to make a spiral shape at one end of the pipe, and it is also difficult to connect with the member while rotating the pipe even when the frame is made. There is a problem that the member and the pipe are separated or broken.

Conventional cage farms have a problem in that cracks are generated at joints of pipes and connection pipes even in weak waves because the cages are integrally formed with pipes and various connection pipes and there is little fluidity. So that when a crack occurs at a joint portion, seawater enters the entire inner space and sinks.

In order to solve the above-mentioned problems, the conventional pipe connection port connecting the pipes of the farm structure has a shape of 'A', 'T', and '+' It is necessary to provide different types of pipe connectors to increase the installation cost of the structure.

In order to solve such a problem, the present invention relates to an anchoring tension and an anchorage which are installed on the seabed to support a cage farming frame on the sea by connecting upper and lower pipes intersecting at upper and lower portions of a frame pipe through cross- It is easy to repair and maintain in case of pipe breakage by preventing the phenomenon that seawater gets into the inside space of the pipe by being easily twisted and broken by the external force due to the weather change and sinks the frame, Thereby providing a connector.

Korean Registered Utility Model No. 20-0322534 discloses a connecting port for fixing a cage culturing pipe, in which an inserting hole is formed so that the connecting pipe is inserted into a pair, and an inlet is formed to insert a foot plate on the connecting pipe And a connecting plate having a bolt hole for receiving and supporting the connecting pipe and the foot plate, and a foot plate formed with a bolt hole. In Korean Registered Utility Model No. 20-0263096, one side of all the connecting pipes is joined to the pipe by heat fusion method, and the other side of the connecting pipe is inserted into the connecting pipe and the pipe, And a connecting rod and a pipe are fastened by means of a fastening rod, a connecting rod and a pipe. According to the Korean Registered Utility Model No. 20-0212226, a pipe is arranged in parallel at the intersection or corner of a cage farm, And a plurality of cross-shaped connectors having a horizontal portion at this portion are used to maintain a horizontal state without a step between the longitudinal and transverse pipes. Korean Registered Utility Model No. 20-0339060 discloses an orthopedic connector in which a supporting scaffold formed with rope holes is formed in the space between upper and lower connecting tube portions on the outside of the insertion tube to continuously produce a rectangular cage farm, The connecting pipe portion into which the connecting pipe and the pipe are to be inserted is formed to be symmetrical with respect to the insertion pipe portion at the upper and lower portions of both sides of the insertion pipe portion into which the pipe is inserted in the direction of the insertion pipe portion, And a supporting leg provided with a rope hole are formed integrally with each other. However, such a prior art technique is susceptible to external forces such as vertical, horizontal, and lateral forces because it simply fixes the pipe and the pipe with the bolt for the purpose of simply connecting the pipe by using the connector at the intersection or corner of the cage farm. The air pipe groove having an air layer in the inside of the connecting pipe when the frame pipe is seated on the connecting pipe and having a cushioning effect of the pipe and a reinforcing portion formed on the outside of the connecting pipe, State and a typhoon so that the junction portion of the frame pipe and the connection pipe is not easily twisted or broken.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a cross-linking connector for a cage farm frame pipe, which comprises a pipe crossing at a center or an edge of a cage farm, To provide a cross-linking connector for a cage farm frame pipe which is easily damaged and twisted by other external forces such as rope tension caused by anchoring, sea weather condition, typhoon, and worker's load.

According to an aspect of the present invention, there is provided a connector comprising: a connector body including a bottom having a predetermined width and a side wall having a predetermined depth; An upper fixing part and a lower fixing part formed at the bottom of the connector main body and having a semicircular fitting groove corresponding to the pipe diameter so as to fix the pipe; Wherein the upper fixing part and the lower fixing part are formed integrally with each other so that the bottom part of the main body is in contact with each other and intersect in a cross shape to form a crossover binding connector for a cage farm frame pipe.

A bolt hole is formed in the side wall of the connecting rod body having a predetermined width and a predetermined depth to open the upper and lower portions. A plurality of rectangular air layer grooves having a predetermined area are formed in the bottom of the connecting rod body. Wherein the width of the connecting main body formed to have a predetermined width and the depth at which the top and bottom are opened is a square of the pipe diameter and the depth of the side wall of the connecting main body is equal to or deeper than the diameter of the pipe. to provide.

In addition, a vertical reinforcing portion and a horizontal reinforcing portion are formed on corner portions of the connector main body, a through hole is formed at the bottom of the connector main body, and the material of the connector main body is formed by injection molding of a polyethylene resin mixed with a fluorescent dye To provide caged aquaculture farms using cross-linked connectors for frame pipes.

In the present invention, the cross-linking connector for a cage farm structure frame pipe has a bolt hole on the side of the pipe fixing part, and the bolt is tightly fastened to the pipe through the side, so that the cage frame easily warps or breaks due to the load of waves or pedestrians, And it is possible to prevent a safety accident. By fixing the pipe by the bolt hole formed on the side wall, assembly and disassembly of the cage culture farm is simple and maintenance is easy, and cost and work time can be drastically reduced .

FIG. 1 shows a connection state of a conventional cage farm frame pipe.
2 is a perspective view showing the entire configuration of a cross-linking connector for a cage farm frame pipe of the present invention.
3 is a side view of a cross-linked connector for a cage farm frame pipe of the present invention.
4 is a plan view of a cross-linked connector for a cage farm frame pipe of the present invention.
5 is a perspective view showing a state in which a transverse pipe and a vertical pipe are installed in a crossover binding connector for a cage farm frame pipe.
6 is a perspective view showing a caged aquarium with a cross-linking connector for a cage farm frame pipe.
Fig. 7 is a photograph showing a caged fish farm using a cross-linked connector for a cage farm frame pipe.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a cross-linking connector for a cage farm frame pipe according to the present invention; FIG.

Figure 1 shows a conventional pipe connector. The conventional pipe connector has a structure in which the cage farming frame pipe is simply crossed up and down to connect the frame pipe at the lower part to the lower part of the frame pipe at the upper part of the upper pipe, And then finished with a supporting scaffold on top of it. Therefore, there is a problem that the portion fixed by the bolt is easily damaged and twisted due to the weather condition of the sea, the waves generated by the typhoon, the load of the pedestrian, and other external forces.

Particularly, in order to fix the cage farm to a certain part of the sea, an anchor or bruise is installed on the sea floor and the warp connected to the edge of the cage farm is fixed to the edge of the sea bottom. Since the force directly affects the bolts connecting the pipes up and down, the pipe corners of the plastic are broken, and the bolt holes must be drilled in the foot plates installed on the pipes. There is a problem that the time is increased.

Figure 2 shows a perspective view of a cross-linking connector for a pipe for a caged farming frame of the present invention. A cage culture frame pipe connection port according to the present invention comprises: a connection port body having a bottom portion having a predetermined width and a side wall having a predetermined depth; An upper fixing part and a lower fixing part formed at the bottom of the connector main body and having a semicircular fitting groove corresponding to the pipe diameter so as to fix the pipe; The upper fixing part and the lower fixing part are formed integrally with each other so that the bottom of the main body is in contact with each other to cross each other.

The bottom of the body is crossed in a cross shape so that the transverse pipe and the vertical pipe are seated in a cruciform shape on the upper fixing part and the lower fixing part in the integrally formed connection body so that they are structurally stable, Even if a force is applied, it is dispersed in each direction and buffered, so that breakage of the pipe can be minimized. The diameter of the transverse side and the side frame pipe seated on the upper fixing part and the lower fixing part can be considered in view of the size of the cage farm. The length of the pipe is also determined in the horizontal and vertical directions of the cage farming frame to be manufactured, and a plurality of the cages are cut at a predetermined length to form a cage farm through the above-described connecting port.

When the diameter of the frame pipe is determined, the size of the cross-linking connector for the frame pipe of the cage farm is maintained by durability in accordance with the diameter of the frame pipe, and is appropriately changed by applying various dimensions within a range that is not bent, deformed or damaged by external force .

Preferably, the relationship between the depth of the side wall of the main body of the connector and the pipe diameter is such that the side wall depth of the main body of the connector ≥ the pipe diameter, and the depth of the side wall of the main body of the connector ≤ the pipe diameter × 1.5.

In other words, if the diameter of the connector is smaller than the diameter of the pipe, the frame can not be firmly fixed, thereby reducing the durability of the frame. Conversely, if the diameter is larger than the diameter, the part is loosened, The connector is suitably manufactured in accordance with the relationship between the depth of the side wall of the main body of the connector and the pipe diameter according to the size of the farm and the size of the pipe for the farm frame.

FIG. 3 is a side view of a crossover binding connector for a cage farm frame pipe of the present invention, and FIG. 4 is a plan view of a crossover binding connector for a cage farm frame pipe of the present invention. A plurality of bolt holes for machining the bolts are formed at regular intervals in the horizontal direction at the side wall of the connection pipe body formed with a predetermined width and a predetermined depth at which the upper and lower portions are opened. When the transverse pipe and the vertical pipe are seated in the fitting groove, The connector and the pipe can be firmly fixed.

A plurality of bolt holes for bolt formation on the side wall of the connector body are formed so that the bolts are fixed horizontally rather than vertically so that anchor or bruise is installed on the sea floor to fix the cage farm to a certain part of the sea, In the process of connecting with the edge part of the cage farm, the force of the horizontal force is applied to the sidewall with a certain length of the connecting body without directly affecting the bolt connecting the pipe up and down. It is possible to solve the problem that the pipe edge is damaged.

In addition, a plurality of rectangular air layer grooves having a predetermined area are formed in the bottom portion of the connecting rod body contacting the upper and lower side walls of the connecting rod body, and the width of the connecting rod body formed in a predetermined width and depth, , And the depth of the side wall of the connector main body is suitably not to exceed the side wall depth of the connector main body ≥ pipe diameter, and the depth of the side wall of the connector main body ≤ the pipe diameter × 1.5.

The length of the side wall for determining the depth of the upper and lower fixing parts having the half-circular fitting groove corresponding to the diameter of the pipe so that the frame pipe can be fixed to the fitting body is formed to be equal to or longer than the diameter of the pipe to be seated, It is desirable to be able to protect the pipe from external forces.

The sidewall serves not only as a sidewall but also as a brace for supporting a worm connected to an anchor provided on the sea floor, so that if the diameter is shorter than the diameter of the pipe, the tension may be directly applied to the pipe. In addition, vertical and horizontal reinforcing parts are formed on the corners of the connecting body, and the vertical and horizontal reinforcing parts formed on the outer side walls of the upper and lower parts are easily damaged by the impact absorption from the external force. prevent.

In addition, a through hole is formed at the center of the bottom of the upper and lower fixing portions, so that the seawater striking the connecting port can be appropriately discharged to the lower layer pipe. As shown in FIG. 2, four rectangular air layer grooves having a constant area from the middle to the bottom are formed on the bottom surface of the through hole, as shown in FIG. 2. When the pipe is seated in the connecting hole, So that the load can be buffered.

FIG. 5 is a perspective view showing a state in which a transverse pipe and a vertical pipe are installed in a crossover binding connector for a cage farm frame pipe. Since the upper pipe is seated on the upper fixing part and the lower pipe is seated on the lower fixing part by one touch, then the pipe, the upper part and the upper part are bolted through the pipe by using bolts. Compared with the case where the bolts are vertically connected to the assembled connectors by assembling the connectors and the cross connectors one by one, the assembling is simple and the number of the assembling work is reduced, and the cost of the frame manufacturing can be lowered. And can be fixed firmly by being crossed at right angles and connected via a bolt hole at the side.

A through hole is formed at the center of the bottom of the connector body and the material of the connector body can be manufactured by injection molding a polyethylene resin mixed with a fluorescent dye. The material of the connector is made of a high-density polyethylene resin which is excellent in fluidity and external impact, chemically stable, and resistant to salt, acid and alkali in seawater, and is made by molding a metallic material and injecting molten polyethylene resin The connector can be made by the method. In addition, pigments can be added to the molten plastic so as to have various colors in the connector, and by manufacturing a mixture with a luminous material, it is possible to easily identify the position of a farm in the night.

FIG. 6 is a perspective view showing a cage culture farm equipped with a cross-linking connector for a cage farm frame pipe, and FIG. 7 is a photograph showing a cage farm using a cross-linkage connector for a cage farm frame pipe. By using the pipe connecting port for the cage farm frame having the above structure, it is possible to improve the binding force and the durability of the cage frame, and it is easily broken and twisted by the wave generated by the weather condition and the typhoon or the load of the pedestrian, It is possible to prevent the problem of sinking the bucket into the pipe, and it is possible to minimize the cost that is used for maintenance due to the excellent assemblability and compatibility, as well as the manufacturing cost can be drastically reduced.

The cross-linking connector for a cage farm frame pipe of the present invention is excellent in fluidity and external impact, chemically stable, and is made of a material resistant to salt, acid, and alkali of sea water, And the pipe is firmly fastened to the pipe, it is possible to prevent the pipe from being easily twisted or broken by the external force, thereby reducing labor and time for maintenance.

<Brief Description of Symbols>

10:

20: upper fixing part 21: vertical reinforcing part

22: horizontal reinforcing portion 23: air layer groove

30: Lower fixing part 31: Bolt hole

40: Through hole

Claims (6)

A connecting body including a bottom having a predetermined width and a sidewall having a predetermined depth;
In the bottom of the connector body, an upper fixing part and a lower fixing part formed with a fitting groove of a semicircular shape corresponding to the pipe diameter for fixing the pipe are formed. In the inner bottom part of the upper fixing part and the lower fixing part, A plurality of rectangular air layer grooves are formed;
An upper portion forming the side wall of the connector body is curved; A bolt hole for forming a bolt is formed on the side wall; Vertical reinforcing portions and horizontal reinforcing portions are formed at corner portions of the connector main body,
Wherein the upper fixing part shares the bottom of the connecting body and the lower fixing parts are integrally formed by crossing each other and crossing each other;
The bottom having a predetermined width in which the upper and lower portions are opened is formed by the square of the pipe diameter mounted on the connecting pipe body, and the relationship between the depth of the side wall of the connecting pipe body and the pipe diameter is formed by the side wall depth & Cross-Boundary End Connections for Cage Frame Frames delete delete delete delete delete

Images