KR102069200B1 - Floating apparatus for sea weed breeding - Google Patents

Abstract

The present invention relates to a steaming buoy frame for seaweed, in one embodiment is made of a buoy main body 100, the support pipe 200 is coupled to the buoy main body 100, the gimbal 400 is installed, The buoy main body 100 is integrally formed with a connection portion 120 to which the support pipe 200 is connected, and the connection portion 120 and the support pipe 200 are fusion-bonded or screwed to each other so that the buoy body ( 100 and the support pipe 200 is to prevent water from flowing into.

Description

Floating apparatus for sea weed breeding}

The present invention relates to a seaweed mold for seaweed, which is integrally formed by blow molding or rotational molding, or is integrally formed by heat fusion of a pair of half shells, wherein the connecting portion to which the support pipe is connected is integrally formed. The connection part and the support pipe are joined together by fusion or screwing to prevent water from flowing into the mouth and the support pipe.

As a prior art related to the present invention, the mouth of a blow molding of a synthetic resin material is a sea shell for seaweed of utility model registration No. 186340, a sea shell for seaweed of registration No. 402698, a sea shell for seaweed of registration No. 408915, Patent No. 615435 discloses rich and rich for fish and shellfish farming.

In the above-described floats according to the prior art, there is an advantage of producing solid laver because it is firm and does not generate debris as compared to the existing styrofoam floats. It was supposed to be bound only by the method of rope binding or to use a dedicated frame.In the method of using the rope, there was a problem that the buoy and seaweed frame were separated in case of weather change due to the lack of binding force due to corrosion or extension of the rope. In the case of using a dedicated frame, the unit cost is high, and when it is damaged, it cannot be replaced with a general pipe or bamboo.

Patent document 1 is fastened to the support pipe fastening portion and the support pipe penetrating it, there is a problem that the water is precipitated inside the pipe while the seawater is introduced into the support pipe through the bolt through hole.

Patent Literature 2 is an aquaculture tool developed by the present applicant in order to solve the problem of Patent Literature 1, which is a fastening method using a coupling method by elastic projections when connecting a pipe, which is a foot supporter, to the float. It prevents the buoyancy deterioration of the pipe or the buoy, and solves the problem of deteriorating the productability of the seaweed due to the water when the water enters the pipe. There was a problem that the bonding force is gradually reduced by the action of breakage or external force of the, and the manufacturing cost is increased due to the cost of manufacturing the coupling pipe formed with the elastic projection.

In addition, the aquaculture ball disclosed in Patent Literatures 1 and 2 is manufactured and stored in the land, or when the loading and transport of the assembly and the support pipe when assembled, the volume is excessively out of the storage and inconvenience in logistics costs There was this.

Korean Registered Utility Model No. 20-0423890 (registered on August 7, 2006) Korea Registration Room No. 20-0448423 (2010.04.05.registration)

The present invention has been made in order to solve the above problems, an object of the present invention is to connect the support pipe which is a support (base) forming a gimbal foot to the float that floats the gimbal on the water, between the ball and the support pipe It is possible to assemble easily and maintain the firmly coupled state, and it can solve the problem of deterioration of buoyancy due to inflow of water into the float and support pipe, and deterioration of the product quality of seaweed by flowing water when harvesting seaweed. It is to provide an improved seaweed farming frame with improved structure that can minimize the volume and reduce the cost and effort for its storage and transportation.

In addition, the present invention is the support bamboo used in the past coated with a synthetic resin on the outside to prevent the corrosion of the bamboo, but does not completely prevent the corrosion of the bamboo bamboo and synthetic resin at the end of life does not peel off environmental pollution when discarded To prevent the environmental pollution by providing a semi-permanent frame for seaweed farming formed with a semi-permanent and eco-friendly support that can solve the inevitable problems.

In order to achieve the above object, the present invention comprises a buoy body and a buoy form sub-frame made of a support pipe which is coupled to the float body and is provided with a gimbal foot;

The accessory may be integrally formed by blow molding or rotational molding or may be integrally formed by heat fusion of a pair of half shells, and the connector body may be integrally formed with a connection part to which a support pipe is connected, and the connection part and the support pipe may be mutually fused or screwed together. It is combined to provide a steaming buoy frame for preventing water from entering into the buoy and the support pipe.

In a preferred embodiment, the support pipe is composed of a connecting pipe for both ends coupled to the connecting portion between the two sub-body body to support the gimbal, and a fixed pipe one end is coupled to the connecting portion from the outside of the sub-body body, the fixed The other end of the pipe is provided with a steaming sub-frame that is formed by fusion or screwing the loop socket for which it is separately manufactured or integrally formed with the loop socket.

In a preferred embodiment, the ring fastening socket is formed through the ring hole through which the ring is fastened, a partition wall is formed to block the inflow of water or water into the fixed pipe, the pipe is light and has good flexural strength and flexural elasticity The inner tube of material and the outer tube of polyethylene or polypropylene material are composed of a double tube type or a single tube type synthetic resin tube composed of two layers.

According to the present invention, since the connection part is formed integrally with the buckle itself, it can be integrated with the support pipe by fusion or screwing therein, which simplifies the assembly thereof, as well as the watertightness of the buoy and the support pipe is perfectly maintained to provide buoyancy. There is no reduction, and it is possible to prevent the deterioration of the merchandise of laver due to the leakage of molten water from the swelling or support pipe when collecting the laver, and the bulge is also manufactured by fusion welding a pair of injection molded half shells together, making the structure firm and Inexpensive, the sub-frame has the advantage that can be stored or transported in small volumes by stacking several in a row.

1 is a perspective view of a gold farming buckle according to the first embodiment of the present invention,
Figure 2 is an exploded perspective view of a part of the seaweed buckle for farming according to the present invention,
3 is a state before fusion of a pair of half-shell constituting the float body,
Figure 4 is a longitudinal cross-sectional view showing a connection state of the float body and the support pipe,
5 is a front view of a buoy body and a support pipe connected to each other;
6 is a state in which kimbal drowned,
7 is a state where the lifted gimbal on the surface,
8 is a perspective view of the multi-stacked state of the sub-frame,
9 is a cross-sectional view of a connection state of the support body and the support body according to the second embodiment of the present invention;
10 is a cross-sectional view of a connection state of the support body and the support pipe according to the third embodiment of the present invention;
11 is a cross-sectional view of the buckle main body and the support pipe according to the fourth embodiment of the present invention;
12 is a cross-sectional view of the sub-framework according to the fifth embodiment of the present invention;
13 is a cross-sectional view of the sub-framework according to the sixth embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 to 8 shows a seaweed buoy frame 1 according to the first embodiment of the present invention, in the present embodiment is coupled to the float body 100, the float body 100 and the gimbal foot 400 consists of a support pipe 200 is installed.

In the present embodiment, the buoy main body 100 is thermally fused and integrated in a state in which the half shell 110 divided into left and right pairs is coupled to each other, but the connection pipe 120 is connected to the support pipe 200 to the half shell 110. ) Is integrally formed.

As shown in FIGS. 3 and 4, the buoy main body 100 has a buoyancy by being heat-sealed in a state where one pair of half shells 110 are joined together to form an empty space sealed therein, and a support pipe. The connection part 120 to which the 200 is assembled is formed to protrude toward the front side of the buoy main body 100 in the form of two short parallel pipes on the outside of the buoy main body 100.

The connection part 120 is formed to close the partition wall 122 to determine the insertion depth of the support pipe 200 and to prevent the inflow of water into the inside of the float body 100.

In the present embodiment, since the half shell 110 forming the float body 100 is molded by injection molding, the half shell 110 is excellent in dimensional accuracy compared to the conventional blow molding or rotational molding methods, and can be mass-produced at a relatively low cost. This is integrated by heat-sealing the flange portion 112 formed along the outer edge of the half shell 110.

On the other hand, in the present embodiment, the connection portion 120 is located outside the outer peripheral cylindrical cylindrical body 100, as can be seen in the front view of Figure 5, which is several when storing or transporting the assembled sub-frame In order to be able to overlap in a row, as can be seen in the overlap state of Figure 8, when overlapping while rotating a plurality of (four) sub-frame 90 degrees by four bundles of four sub-frame to a minimum volume so as to bundle As can be done, there is an advantage to minimize the cost and effort in storage and transportation.

In addition, the connection portion 120 is located outside the outer side of the cylindrical float body 100 so that the float body 100 is not in contact with the net (gimbal) across the support pipe 200 coupled to the connection portion 120. It is considered that the laver attached to the gimbal does not interfere with the growth due to the friction with the float body (100).

In the present invention, the description that the float body 100 is formed in a cylindrical shape is not limited to the same cylinder as the float body shown in the drawings, and should be interpreted to include all polygons close to the cylindrical shape as well as the actual cylinder. Of course.

In addition, in the present embodiment, the support pipe 200 is made of a double pipe covered with a synthetic resin pipe on the outside of the inner pipe made of FRP or aluminum material, the connecting portion 120 and the support pipe 200 are fusion-bonded with each other The main body 100 and the support pipe 200 can be prevented from flowing water.

The support pipe 200 is connected between the two ends of the buoy main body 100 to the connecting portion 120 of the buoy main body 100 is fused to support the gimbal support pipe 210, and the buoy main body 100 of One end is fitted to the connection portion 120 from the outside is made of a fixed pipe 220, the other end of the fixed pipe 220, the ring hole 222 is fastened through the ring 300 made of a rope, etc. The inner side of the ring hole 222, the partition wall 224 is formed to block the inflow of water or water into the fixed pipe 220.

In this embodiment, the support pipe 200 is a double pipe consisting of a double pipe made of FRP or aluminum material, and the outer pipe made of polyethylene or polypropylene material, the inner pipe is made of FRP or aluminum material strong in bending and light, the outer pipe Is made of polyethylene or polypropylene material which is semi-permanent and eco-friendly material to prevent corrosion and exposure to pollutants (such as glass fiber used as material of inner pipe).

The pipe 200 is preferably in the form of inserting the inner tube to the outer tube so that the outer tube and the inner tube is separated to be separated when discarded, by making the inner tube first, through the process of coating the outer tube outside the inner tube integrally It is possible to manufacture, the inside of the pipe 200 is empty to maintain buoyancy, both ends are fitted to the connection portion 120 is fused or by the formation of a socket having a partition integrally, the water is not introduced.

In the present embodiment, the fixed pipe 220 is a socket is formed integrally, which is a ring hole 222 is formed at the end of the fixed pipe 220 is inserted into the ring 300, the ring The partition 224 is formed inside the hole 222 to prevent the inflow of waste water into the fixed pipe 220.

In the present embodiment, the ring hole 222 and the partition wall 224 are integrally formed on the outside of the fixed pipe 220, but the present invention is not limited thereto, and the ring hole 222 and the end of the fixed pipe 220 are not limited thereto. Of course, the separate socket on which the partition wall 224 is formed may be fused or screwed.

As described above, the seaweed buoy for steaming of the present invention has a buoyancy body 100 and a support pipe 200 which are fitted in a sleeve type and are integrally formed by mutual fusion coupling, thereby preventing the inflow of water through this portion, thereby reducing buoyancy. There is no phenomena, and there is an advantage that no problem such as deterioration of seaweed's merchandise due to the leakage of waste water inside the buoy or support pipe during harvesting of laver is not occurred.It is a semi-permanent material and eco-friendly material without using styrofoam and bamboo. The use of a double pipe type support pipe made of copper has the advantage of reducing marine environmental pollution.

In the above-described first embodiment, a structure in which the support pipe is inserted into the sub-ball body to be integrated and fused is described. However, the present invention is not limited thereto, and the second, third and fourth embodiments shown in FIGS. As in the embodiments, the connection pipe and the fixed pipe constituting the support pipe in a screw-assembled manner, that is, the male screw 124 separately manufactured at the end of the connection portion 120 as shown in Figure 9, and the connection pipe ( The female screw 212 is rotatably fitted to both ends of the holder 210, and the female screw 212 of the connecting pipe 210 is screwed to the male screw 124 to be connected to the float body 100. The pipe 210 may be assembled, and as shown in FIG. 10, the male screw 124 is integrally formed at the distal end of the connecting part 120, and the female screw 212 is rotatable at both ends of the connecting pipe 210. The male screw 1 is welded by fusion of the inserted holder 214. Of course, the female body 212 of the connecting pipe 210 may be screwed to assemble the accessory body 100 and the connecting pipe 210.

Meanwhile, in the embodiment illustrated in FIG. 9, the male screw 124 is inserted and fused in a state where the partition wall 122 is not formed in the connection part 120, but in FIG. 11, the partition wall is formed inside the connection part 120. 122) is formed so that it does not depend only on the watertightness by the fusion of the external thread 124, and the improved watertightness effect is acquired.

Meanwhile, in the above-described embodiment, only the screw assembling method of the connection pipe 210 has been described. However, the present invention may also apply the screw assembling method of the connection pipe 210 as it is. In contrast to the above-described embodiment, instead of machining the male thread on the connecting portion 120 or fusion or screwing a separate male screw, the female thread holder or the male screw holder is rotatably attached to the connecting portion 120, and the connecting pipe and the fixed pipe side are connected to each other. Of course, it is also possible to form a female screw portion (or male screw portion) to be screwed with the holder.

12 and 13 show the sub-framework according to the fifth and sixth embodiments of the present invention. In FIG. 12, the sub-unit body 100 is formed in one piece instead of divided by blow molding or rotational molding. The connection part 120 is formed integrally with, and in the embodiment shown in FIG. 13, the abutment body 100 is a semi-cylindrical asymmetric upper and lower half shell 110 ′ instead of a left-right symmetric half shell, and separately injection molded. After the flange portion 112 is heat-sealed shows how to integrate.

12 illustrates an example in which the connection pipe 210 and the fixed pipe 220 are coupled to the connection part 120 in a fusion method, but the connection part 120 is shown in FIGS. 9 to 12 instead of the fusion method. Of course, it is also possible to combine the screw coupling method shown in.

13 shows an example in which the connection part 120 is coupled by the same screwing method as in the embodiment of FIG. 9, but the connection part 120 may combine the fusion method shown in FIG. 12. Of course, as shown in the figure, the buoy main body 100 may be manufactured in a diagonal direction or other divided forms instead of the half shell 110 'divided up and down, and may be integrally bonded.

100: float body
110: half shell (left and right symmetrical type)
110 ': half shell (up and down asymmetric type)
112: flange portion
120: connection
122: bulkhead
124: male thread
200: support pipe
210: connecting pipe
212 female thread
214: Holder
220: fixed pipe
222 ring hole
224: bulkhead
300: ring
400: Kimbal

Claims (6)

It is made of a buoy main body 100, the support pipe 200 is coupled to the buoy main body 100, the gimbal foot 400 is installed,
The float body 100 is generally cylindrical, and the float body 100 is integrally formed with a connecting portion 120 to which the support pipe 200 is connected, but the connecting portion 120 is smaller than the outer portion of the float body 100. Located outside and two protruding toward the front surface of the buoy main body 100 in the form of a short pipe in parallel, the connecting portion 120 is formed with a partition wall 122, the connecting portion 120 and the support pipe (200) is a seam buoy for steaming, characterized in that the fusion or screwed together to prevent the water flows into the float body 100 and the support pipe 200 inside.
delete The method according to claim 1,
The support pipe 200 is connected between the two ends of the buoy main body 100 to the connection portion 120 of the buoy main body 100 is connected to the support pipe 210 to support the gimbal, and the buoy main body 100 of The outer end is made of a fixed pipe 220 is coupled to the connection portion 120, the other end of the fixed pipe 220, the ring hole 222 through which the ring 300 is fastened, and the ring hole ( Inside the 222, a partition wall 224 is formed to block the inflow of water or water into the fixed pipe 220, or a separate socket in which the ring hole 222 and the partition wall 224 are formed is fused or screwed. Gold farming floats, characterized in that.
The method of claim 3.
A male screw 124 is formed at the front end of the connecting part 120, and a holder 214 having a female threaded body 212 rotatably fitted to both ends of the connecting pipe 210 is fused to connect the pipe to the male screw 124. Kim form sub-frame for assembly characterized in that the assembly threaded body 100 and the connecting pipe 210 by screwing the female screw body 212 of (210).
delete The method according to claim 1,
The float body 100 is integrally molded by blow molding or rotational molding, or a pair of left and right symmetrical half shells 110 and vertically asymmetrical half shells 110 'are fused to each other by injection molding to form a single body. Gold farming floats, characterized in that.

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