KR20110004026U - Assembling type Buoy - Google Patents

Abstract

The present invention relates to an assembled buoy, in detail, the assembled buoy has a buoyancy buoy, a buoyancy portion having an air layer filled with air therein and an outer surface of the buoyancy portion, the coupling groove of the coupling body A unit body having a coupling protrusion inserted into the unit body, the unit body having a connecting groove connected to the connecting body on the other outer circumferential surface of the buoyancy portion, the coupling protrusion of the unit body being inserted into the coupling body having the coupling groove, and the unit body. The fastening means for fastening the coupling body, it is connected to the connecting groove in the unit body, consisting of a connecting body for connecting the neighboring unit body, the coupling protrusion in the unit body to provide air to the coupling groove in the coupling body Closed and inserted, the unit body is coupled to the coupling body by a fastening means, the connecting body is connected to the connecting groove in the unit body neighbor And and characterized in that the chain of connections to the unit body, the unit body, the coupling body, and the connection body is built-up of the float made of a synthetic resin integrally.

Assembly type, float, unit body, coupling, coupling body, fastening means, fixing means, fixed body, connecting means, connecting body

Description

Assembling type buoy

The present invention relates to an assembled float.

In general, floats are floats on the surface of the water. Also called buoy or buoy. The floats are used in positions to direct the course to help the ship navigate safely. Buoys are also used to warn of the presence of nautical hazards, such as reefs and sinking ships. In addition, floats are also used to indicate the location of objects in water, such as fishing gear and anchors. In addition, the ball is used to fix the net installed in a certain range to fish, waste and algae.

These buoys are buoyant to float on the sea, and they are fixed to the bottom of the seabed or a heavy load that can be fixed by means of an instrument that can be suspended. Dangling instruments include chains and wires.

Flags may be installed on the floats to identify them. In addition, the sub-ball may be provided with a variety of transmission and reception objects that can be identified by an electronic signal, and may be provided with an equalizing device that emits light so that it can be identified at night.

The general sphere is made of a foamed resin material obtained by foam molding a synthetic resin. The foamed resin material generates voids due to the gas introduced during the foaming of the synthetic resin. The foamed resin with voids thus generated has a buoyancy which can float on water. These foamed resins are buoyant due to internal voids and do not require a space for air storage. In addition, even if the foamed resin is partially damaged, there is an advantage that the buoyancy is generated in the remaining portion does not buried in the water.

However, the foamed resin is weak in strength because voids are formed therein. In other words, when the external impact of the foamed resin is transmitted, the impact propagates between the pores of the foamed resin and is easily broken. Therefore, the ball | bowl using the foamed resin with weak strength is short in time of replacement.

In addition, a buoy formed of a foamed resin floating in the sea is partially broken by waves. The foamed resin has voids in the interior, so that the binding force between internal tissues is poor. As a result, the waves hitting the float side continuously erode the foamed resin having a weak binding force. Foamed resins that fall off by erosion pollute the sea. In addition, the erosion-rich buoyancy is reduced buoyancy can not float in the water. Therefore, the replacement should be frequent.

In recent years, the conventional mouth is made of a synthetic resin material in which air is injected into the interior using a blow molding method. The conventional mouthpiece is manufactured integrally with the synthetic resin material in the state in which air is injected by the blow molding machine. The conventional buoys manufactured integrally have buoyancy by air filled therein. Compared with the foamed resin material, the conventional ball has a strong strength and does not cause erosion, and thus has a long service life.

However, since the conventional floats are formed integrally, it is difficult to have great buoyancy. That is, since the buoys are made integrally, if a large buoyancy is required, the buoys should be made largely integrally so as to have an air filled area that meets the necessary buoyancy. Accordingly, the manufacturing cost is increased due to the expansion of the blow molding machine.

In addition, conventional floats have been difficult to produce to increase the volume in order to increase buoyancy. In order to produce a volume-enhanced float, a heated synthetic resin material is supplied to the blow molding machine so as to deform the shape. In this way, by injecting air into the interior of the synthetic resin material supplied to the blow molding machine is made in the air filled state inside. At this time, when the volume produced in the mouth increases, it is difficult to maintain the temperature of the synthetic resin material as a whole during air filling. As a result, the heated synthetic resin material is lowered in part temperature, and is fixed at the lowered temperature part. That is, the synthetic resin material supplied to the blow molding machine was hardened in the form where the temperature was lowered or stuck to the molding machine, so that it was difficult to be processed in the correct form.

In addition, the conventional floats have to be made of a large weight of the synthetic resin material so that the volume is enlarged in order to increase the buoyancy, it was difficult to handle the synthetic resin material molded in the heated state. That is, it was difficult to blow a large amount of synthetic resin material by blowing air in the blow molding machine while maintaining a constant temperature so that the shape is deformed. In order to enlarge the volume, air is blown with a heavy-weight synthetic resin material supplied. At this time, air must be supplied until a large volume is reached quickly so that deformation of the mouth can be minimized. Accordingly, when the volume of the mouth and the weight of the synthetic resin material are increased, a large amount of high pressure compressed air is needed at a time, and the size of the inlet for introducing the same must be large. There is a limit to the supply amount of compressed air and thus the size of the inlet port through which air is introduced. In other words, if the compressed air is temporarily supplied excessively, the volume is not constant to increase and the thickness of the mouth is changed. Also, if the inlet is too large, the sealing operation cannot be performed after the air is filled. Therefore, the conventional floats cannot be made larger than a predetermined volume, so that it is difficult to increase buoyancy.

In addition, the conventional floats are manufactured integrally with the air filled therein, so that the buoyancy is temporarily lost when the internal air flows due to some damage. That is, there is a problem in that the air filled in the interior is temporarily discharged to the damaged portion, and water is introduced into the outside by the difference in the discharged air pressure to lose buoyancy.

Therefore, there is a problem not only expensive economic burden but also technically difficult to produce large floats for obtaining large buoyancy.

The problem to be solved by the present invention is that a plurality of unit bodies are coupled to the coupling body through a fastening means, and a plurality of unit bodies are fixed to each other through a fixing means to produce a high-quality ball, at the same time between the unit bodies or By connecting the fixing means to each other through a connecting means, through the repetition of the connecting means is completed the assembly-shaped float is produced, through which the user can adjust the size of the float according to the size of the desired buoyancy, By making it possible to increase the float according to the needs of the place where the user can be used, the user can be assembled assembling buoys, the molding to produce a large float to be used, especially when you want a large buoyancy is a large size desired through this design The molding cost is reduced by forming the buoys of the unit, the unit is coupled to the coupling body through the fastening means Even if one of the sieves is broken and the buoyancy is reduced, the remaining unit bodies are connected to the coupling body through the fastening means and the connecting body and float as buoyancy, so that the function as a float can be maintained and complemented. It can be replaced only for the body, which is efficient in terms of economic efficiency. The function of the float is to balance the buoyancy through the connecting body between the buoyant bodies that are buoyant as the connecting body stably fixes and connects the multiple unit bodies. It is effective in performance, and even when the unit body is separated from the coupling body, the unit body is fixed to the connecting body so that the function of the ball can be smoothly performed and the buoyancy force received by the unit body by the fixing means can be uniformly arranged. It is to provide an assembly-type float that can ensure the stability.

Assembled buoy according to an embodiment of the present invention, in the buoy with buoyancy, buoyancy portion having an air layer filled with air therein and the outer side of the buoyancy portion, the engaging projection inserted into the coupling groove of the coupling body The other outer circumferential surface of the buoyancy portion has a unit body having a connecting groove connected to the connecting body, the coupling body of the coupling body is inserted, the coupling body having a coupling groove, the fastening for coupling the unit body and the coupling body Means, while being connected to the connecting groove in the unit body, consisting of a connecting body for connecting the adjacent unit body, the engaging projection in the unit body is inserted while closing the air in the coupling groove in the coupling body, fastening The unit body is coupled to the coupling body by means, the connecting body is connected to the connecting groove in the unit body to connect the adjacent unit body And and characterized in that the connection, the unit body, the coupling body, and the connection body is, built-up of the float made of a synthetic resin integrally.

In the assembly-type floats, the connecting body is connected to the connecting groove of the unit body by closing the air, the connecting body integrally formed in a frame shape inserted into the connecting groove of the unit body so as to interconnect the neighboring unit body. Characterized in that it may be, an assembled float.

In addition, in the assembled buoy, the connecting body is connected to the connecting groove of the unit body in detail to close the air, the frame shape is inserted into the connecting groove of the unit body so as to interconnect the neighboring unit body. In order to be manufactured, the longitudinal connecting body and the transverse connecting body is characterized in that the connecting body is completed through the connecting bolt, it may be an assembly-type ball.

On the other hand, the assembled buckle according to another specific embodiment of the present invention, in the buoyancy buoy, buoyancy portion having an air layer filled with air therein and the outer surface of the buoyancy portion is inserted into the coupling groove of the coupling body A unit body having a coupling protrusion, a coupling body having a coupling groove into which the coupling protrusion of the unit body or the coupling body is inserted, for coupling the unit body and the coupling body to each other, or the coupling body and the coupling body to each other; Fastening means, a buoyancy portion having an air layer filled with air therein, and the outer surface of the buoyancy portion is composed of a connecting body having two or more connecting protrusions to be inserted into the coupling groove of the coupling body, the coupling protrusion in the unit body Is inserted into the coupling groove in the coupling body to close the air, the unit body is coupled to the coupling body by the fastening means, and then to the connecting body The two or more connecting projections are inserted into the coupling groove in the different coupling body is fastened by the fastening means, characterized in that the connecting body is connected to each other in series connecting the coupling body, the unit body, the coupling body, and The connecting body may be an assembled ball, made of an integral synthetic resin.

The fastening means, after the coupling protrusion of the unit body or the connecting protrusion of the connecting body is inserted into the coupling groove of the coupling body, the bolt penetrates the coupling protrusion of the unit body or the coupling protrusion of the coupling body and the coupling groove of the coupling body. A fastening means composed of a bolt and a nut, which is fastened to a nut, a fastening protrusion is formed on an outer circumferential surface of a coupling protrusion of the unit body or a connection protrusion of a connecting body, and a fastening groove is formed on an inner wall of the coupling groove of the coupling body. Thus, the fastening means is fastened to the fastening groove while closing the air, the fastening means consisting of the concave (凹凸), the engaging projection of the unit body or the connecting projection of the connecting body, the outer peripheral surface includes a screw thread, Inner wall of the coupling groove of the body includes a screw groove, the fastening means consisting of a screw thread and screw groove, the screw thread is fastened to the screw groove while closing the air, Chinese It may be, assembled to the float either in the fastening means, and may be assembled using the fastening means of the float body.

In addition, the connecting body is a part of the connecting means that can make a large assembled buoy by interconnecting the unit body or the coupling body, an integral connecting means for making a large assembled buoy by interconnecting the unit body or the coupling body to be used Can be.

In the granulated float, the synthetic resin is a mixture of polyester (PET), aliphatic copolymer (Aliphatic-Co-Polymer), aliphatic polyester copolymer (PET- Aliphatic-Co-Polymer), polyethylene (LDPE) HDPE), polypropylene (PP), polyvinyl chloride (PVC), polystyrene (PS), polyester (PET), styrene acrylonitrile butadiene (ABS) resin and nylon (PA) It may be a prefabricated float, consisting of a group selected by two or more mixtures.

In addition, in the assembly-type floats, the material of the synthetic resin may be a degradable plastic.

Assembled buoy according to an embodiment of the present invention is a buoy with buoyancy, the overall function of the buoy is a plurality of unit body that serves as a buoyancy body of a small size is coupled through the coupling body to form a large float Where a large ball is needed, it can perform the same function as a single big ball, and various shapes of the ball can be produced according to the number of couplings of the unit body and the type of connection with the coupling body connected to the connection body. The capacity can be easily adjusted, and can be applied in various forms depending on the intended use, thereby expanding the versatility. This has the advantage that the blow molding cost is reduced when the production of large floats is required.

In addition, the assembly-type float made by assembling a plurality of unit bodies does not lose buoyancy if the whole unit is not broken as the other unit body has buoyancy even if one or more unit bodies loses buoyancy due to breakage. Therefore, the stability is improved.

In addition, the assembly-type float according to the present embodiment can be replaced for each unit body as a plurality of unit bodies are coupled, and the effect is to increase the service life is made of a synthetic resin stronger than the foam resin. .

In addition, since the connecting bodies also stably fix each other between the unit bodies, the buoyancy receiving the buoyancy is also balanced between the buoyancy body through the connection body is effective in performing the function of the floats.

In addition, the granules according to the present embodiment can be molded by selecting from the material of the synthetic resin according to the use purpose and shape, increase the strength in winter, or select the synthetic resin that is naturally decomposed to increase the functionality There is this.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Like parts are designated by like reference numerals throughout the specification.

Then, the assembly-shaped float according to an embodiment of the present invention looks at with reference to FIGS.

1 is a perspective view showing the assembled sub-ball according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along line III-III of the assembled sub-ball of Figure 1, Figure 3 is an exploded perspective view showing the assembled sub-ball of Figure 1 . 1 to 3, the assembled buoy 900 according to an embodiment of the present invention includes a unit body 100, a coupling body 200, a fastening means 300, and a connecting body 500. .

Looking at the specific content for the implementation of the invention with reference to Figure 3, the unit body 100 includes a buoyancy portion 120 and the coupling protrusion 130 on the outer surface of the unit body filled with an air layer 110 therein. And, the other outer peripheral surface of the unit body has a connecting groove 160 that can be fixed to the connecting body. More specifically, the coupling protrusion 130 of the unit body has a size that can be inserted while being sealed in the coupling groove 230 in the coupling body, the coupling protrusion has an interior in a straight direction from the top of the peripheral surface of the coupling protrusion It has a coupling protrusion coupling hole 140 passing through the lower portion of the circumferential surface, the diameter of the coupling protrusion coupling hole is engaged with the diameter of the bolt 310 which is a fastening means is fastened to the nut 320 and the air layer is sealed Have a diameter of size. The coupling body has a coupling groove 230, the coupling groove passing through the coupling groove in a linear direction from the upper side of the outer wall of the coupling groove and the lower coupling groove coupling penetrating from the inner wall of the coupling groove 241 to the lower outer wall It has a ball 242. The coupling protrusion 130 is inserted while the air is sealed in the coupling groove 230 in the coupling body, the fastening bolt 310 that is the fastening means 300 is the coupling protrusion coupling hole (241) from the upper coupling groove coupling hole 241 ( The unit body and the coupling body are fastened by the fastening means 300 while being assembled to close the air while being connected to the fastening nut 320 which is the fastening means through the 140 and the lower coupling groove coupling hole 242.

As such, the unit body 100 is coupled to the coupling body 200 through the fastening means 300, and several unit assembly parts 400 completed by such couplings are connected to each other through the connection body 500, It is characterized by forming a large float.

Here, when the process of connecting the unit assembly portion through the connecting body in detail, the connecting body 500 connected to the connecting groove 160 in the unit body, the air is sealed in the connecting groove 160 of the unit body A connecting body integrally formed in a frame shape so as to be inserted into the connecting body, the connection is completed by closely fitting the unit assembly portion and the connecting body in both directions so that the unit bodies in both directions of the unit body to which the connecting body is connected.

The coupling body 200, the unit body 100, and the connection body 500 are not integrally formed and are independent of each other. Unit body 100 and the coupling body 200 and the connecting body 500 is made of a synthetic resin.

The above-mentioned synthetic resins include polyethylene (LDPE & HDPE), polypropylene (PP), polyvinyl chloride (PVC), polystyrene (PS), polyester (PET), styrene acrylonitrile butadiene (ABS) resin and nylon ( PA), a mixture of aliphatic copolymers (Aliphatic-Co-Polymers), and aliphatic polyester copolymers (PET- Aliphatic-Co-Polymers), and any one or more thereof. That is, it may be selected and used in the above-described synthetic resin group according to the use purpose and installation place of the assembled buoy 900.

In addition, the synthetic resin may be a degradable plastic.

Synthetic resin is a kind of high molecular compound and does not rot. When an incorruptible resin is thrown into the ocean, it destroys the food chain of fish, algae, and seaweed. In addition, when the resin is embedded in the ground, polluting the soil by preventing smooth air communication. In order to solve this pollution problem, degradable plastics that have been decomposed in a natural state have been developed. Degradable plastics may be classified into biodegradable plastics that are decomposed into microorganisms and photodegradable plastics that are decomposed by ultraviolet rays. Therefore, after a predetermined period of time, the unit body 100, the coupling body 200, and the connection body 500 are decomposed plastics that are naturally decomposed, thereby minimizing environmental destruction after disposal.

In addition, the unit body 100 may be molded by blow molding. Blow molding according to this is determined according to the shape of the unit body 100 to be molded. A blow molding machine that can be molded according to a predetermined shape and size is adopted, and a mold is installed accordingly. The inside of the installed mold has a shape in which the connection groove 160 can be formed, and the synthetic resin heated to a temperature capable of deformation of the shape is supplied to the inside of the mold. After the synthetic resin is supplied, air is injected to form the air layer 110. At this time, the air is injected into the position where the engaging projection 130 is formed to protrude in the outward direction of the unit body 100. When air is injected, the heated synthetic resin is expanded to form the buoyancy portion 120 having the air layer 110 formed therein by a mold. When the molding of the unit body 100 is finished, the coupling protrusion 130 is formed by protruding and bonding the air injection portion outward while closing the air layer 110 into which air is injected. Therefore, the unit body 100 may be manufactured by blow molding so that a position where air is injected is joined and protruded to form a coupling protrusion 130 and have a connection groove 160 by a mold structure.

Bolts that are fastening means by means of a general drill tool, etc. through the inside of the coupling protrusions 130 through the inside without passing through the air layer 110 from the outer upper portion of the coupling protrusion 130 in the unit body manufactured as described above Coupling protrusion coupling hole 140 is formed according to the size of (310).

In addition, when the unit body is molded through a mold, the coupling protrusions 130 may be formed in the coupling protrusion 130 to be formed using a blow molding method, and the unit body may be manufactured using synthetic resin as a material.

In addition, the coupling body 200 and the connection body 500 may be manufactured so that the air layer is not formed by a blow molding method through a mold, and the material may be manufactured in a form most suitable for molding through a mold. Resin may be used, and the synthetic resin is any polyethylene (LDPE & HDPE), polypropylene (PP), polyvinyl chloride (PVC), polystyrene (PS), polyester (PET), styrene acrylonitrile butadiene ( ABS) resins and groups selected from any one of nylon (PA), aliphatic copolymer (Aliphatic-Co-Polymer) and aliphatic polyester copolymer (PET- Aliphatic-Co-Polymer) and mixtures of two or more thereof Can be made. Aliphatic copolymers are mixed with polyesters to increase cold resistance.

When manufacturing the mold of the coupling body to determine the number of the unit body 100 to be combined to fit the buoy of the desired size, the coupling body having a coupling groove 230 that can be inserted into the coupling protrusion 130 suitable for the number Produce a mold of (200), the coupling groove 230 in the coupling body to produce a mold to be molded into a protruding shape, the drill to fit the diameter of the bolt into the coupling groove of the coupling body is formed through the mold An upper coupling groove coupling hole 241 may be formed by passing through the coupling groove in the upper coupling groove, and a lower coupling groove coupling hole 242 penetrating into the lower portion of the coupling groove outside the coupling groove may be formed. In addition, when the mold is manufactured, the upper coupling groove coupling hole 241 and the lower coupling groove coupling hole 242 may be formed in the coupling groove 230 to manufacture the coupling body 200 using the synthetic resin. There is also.

In addition, in the manufacture of the connecting body, while manufacturing the mold selected to connect the unit body in the other unit assembly fitting 400 while fixing the neighboring unit body while sealing the air in the connecting groove in the unit body, The connecting body integrally formed with the synthetic resin as a material in the mold can be molded.

1 to 3, the coupling body 200 and the connecting body 500 may be manufactured by blow molding to form an air layer therein, wherein the coupling body and the connecting body 500 ) Polyethylene (LDPE & HDPE), Polypropylene (PP), Polyvinyl Chloride (PVC), Polystyrene as an integral polyester (PET) to have an air layer inside by blow molding to form an air layer inside (PS), polyester (PET), styrene acrylonitrile butadiene (ABS) resin and nylon (PA), mixture of aliphatic copolymer (Aliphatic-Co-Polymer) and aliphatic polyester copolymer (PET- Aliphatic-Co- Polymer) and a group selected by any one or a mixture of two or more thereof. Aliphatic copolymers are mixed with polyesters to increase cold resistance. The thermal properties of the polyester remain undeformed at temperatures from -60 ° C to + 150 ° C. In extreme climates and glacial landforms, ocean water temperatures can drop below -60 ° C. Thus, in order to prevent deformation of the assembled buoy 900, the aliphatic copolymer may be mixed with polyester, or the cold resistance may be increased by using a synthetic resin including the aliphatic copolymer in the preparation of the polyester. Therefore, deformation of the assembled buoy 900 may be prevented due to temperature decrease, and thus life may be increased.

Here, in the present specification, for convenience of description, the unit body 100 has a shape having an air layer 110 by blow molding and is formed such that the coupling protrusion and the connection groove 160 are formed, and the coupling body 200 is a unit. All molding methods may include a coupling groove 230 into which the body 100 is inserted, and may be molded by blow molding to have an air layer inside the coupling body. The coupling protrusion 130 of the unit body is inserted into the coupling groove 230 of the coupling body 200, in which the coupling groove is formed in the unit body and the coupling body is formed in the coupling groove of the unit body. It also includes the form. That is, the use of both of the protrusions and the grooves is obvious to those skilled in the art, and the unit body 100 and the coupling body 200 to be formed are included in the technical spirit of the present specification even if the molding method is used in addition to the blow molding, respectively. Self-explanatory

The fastening means 300 in any one of FIGS. 1 to 3 illustrates one example of a fastening bolt 310 and a fastening nut 320 for fastening the unit body 100 to the coupling body 200. The fastening means includes a fastening means by unevenness, a fastening means by a screw thread and a screw groove, and an integral fastening means is applicable.

The material of the fastening means may be made of an integral synthetic resin or a metal material.

Figure 4 is an exploded perspective view of the coupling connecting body showing another connecting body in any one of Figures 1-3.

4 is unlike the connecting body 500, which is formed in any one of Figures 1 to 3, the connection bolt connecting the longitudinal connecting body 510 and the transverse connecting body 530, which is a unit connecting body 530 540 shows an exploded perspective view of the connection body 500 that can be combined to produce. At this time, the longitudinal connecting body 510 shows that the body formed in the frame shape is formed using the synthetic resin while forming a space that can be connected while the unit body 100 is fixed.

In detail, the connecting body in FIG. 4 is completed by the unit connecting body 530 and the connecting bolt 540, not the connecting body integrally formed. The connecting body 500 has a connecting body coupling groove 511 and the connecting body coupling groove has a longitudinal connecting body 510 having a connecting body coupling groove coupling hole 512 and a connecting body coupling protrusion 521. The connecting body coupling protrusion has a transverse connecting body 520 having a connecting body coupling protrusion coupling hole 522, and a connecting bolt 540. The connecting bolt 540 closes the air between the connecting body coupling groove coupling hole 512 in the connecting body coupling groove and the connecting body coupling protrusion coupling hole 522 in the connecting body coupling protrusion, and the terminal connecting body is closed. By connecting the 510 and the transverse connection body 520, the connection body can be completed.

FIG. 5 is a perspective view showing another shape of the assembled float of FIG. 1. FIG.

Looking at Figure 5, the unit assembly unit 400, consisting of a coupling body, a unit body, and a fastening means is connected by the connecting body 500 by the assembly body (1) showing an embodiment that can enlarge the size of the float ( 900). When the unit assembly portion 400 is connected by the connecting body 500, the connecting body is connected to the unit assembly portion closing the air so as to contact the neighboring unit assembly portion to be connected.

In addition, it can be seen through FIG. 5 that a plurality of unit assembly sections can be connected through a plurality of connection bodies in order to produce a desired assembly section.

6 shows an exploded perspective view of FIG. 5. As described above with reference to FIG. 3, the fastening means in which the unit body and the coupling body are coupled to each other, as shown in FIG. 6, is shown in the drawing by a bolt and a nut for convenience, but the fastening means 300 is a unit. Although the fastening bolt 310 and the fastening nut 320 to fasten the body 100 to the coupling body 200 as an example, the fastening means is a fastening means by the uneven (凹凸), the screw thread and the screw groove It includes a fastening means, and any fastening means is applicable.

7 is an exploded perspective view of the assembled buoy showing another shape to which the assembled buoy of FIG. 5 is applied. In the figure is shown an example that can be completed by connecting the unit assembly portion through the connection body 500 of the other form, the unit body 100 through the coupling means 300 to the coupling body 200 Unit assembly portion 400 is completed is assembled through a hexagonal connection body 500 can be completed assembly type sphere 900 is completed.

Figure 8 is a perspective view of the assembly-like fittings showing one example that the assembly-like fittings can be completed through another form of the connecting body. FIG. 9 is a cross-sectional view taken along line IV-IV of the assembled float of FIG. 8, and FIG. 10 is an exploded perspective view of the assembled float of FIG. 8. 8 to 10 includes a unit body 100, a coupling body 200, a fastening means 300, a connecting body II (600).

Referring to FIG. 10, one embodiment in which the assembled mold through the connecting body of another form can be completed is described in detail. The unit body 100 and the coupling body 200 are the units described with reference to FIGS. 1 to 7. Same as the body 100 and the coupling body 200. The connecting body II 600 includes a buoyancy part 120 filled with the air layer 110 therein and one or more connecting protrusions 610 on the outer surface of the unit body. The one or more connection protrusions 610 are inserted into the coupling groove 230 of the coupling body, and are connected by being fastened by the coupling means 300 to connect the connection body II 600 to the coupling body 200. Through the above-described method, the connecting body II may be connected to the connecting body to each other to manufacture the assembled buoy with the desired large size. More specifically, the completion of the assembled buoy, the unit body 100 includes a buoyancy portion 120 and the engaging projection 130 on the outer surface of the unit body filled with the air layer 110 therein, more specifically The coupling protrusion 130 of the unit body has a size that can be inserted while being sealed in the coupling groove 230 in the coupling body, the coupling protrusion has a circumferential surface passing through the inside in a straight direction from the top of the circumference of the coupling protrusion It has a coupling protrusion coupling hole 140 penetrating to the bottom of the, the diameter of the coupling protrusion coupling hole is engaged with the diameter of the bolt 310, the fastening means is fastened to the nut 320 and the size of the air layer is sealed Have The coupling body has a coupling groove 230, the coupling groove passing through the coupling groove in a linear direction from the upper side of the outer wall of the coupling groove and the lower coupling groove coupling penetrating from the inner wall of the coupling groove 241 to the lower outer wall It has a ball 242. The coupling protrusion 130 is inserted while the air is sealed in the coupling groove 230 in the coupling body, the fastening bolt 310 that is the fastening means 300 is the coupling protrusion coupling hole (241) from the upper coupling groove coupling hole 241 ( The unit body and the coupling body are fastened by the fastening means 300 while being assembled to close the air while being connected to the fastening nut 320 which is the fastening means through the 140 and the lower coupling groove coupling hole 242. In addition, the connection body II includes a buoyancy part 120 filled with the air layer 110 therein and one or more connection protrusions 610 on the outer surface of the buoyancy part, and more specifically, the connection protrusion 610. Has a connecting protrusion coupling hole 611 passing through the inside in a linear direction from the top of the connecting projection circumferential surface to the bottom of the peripheral surface, the diameter of the coupling protrusion coupling hole is the diameter of the bolt 310 as a fastening means It is engaged with the nut 320 and the diameter of the air layer is sealed. The connecting protrusion 610 is inserted while the air is sealed in the coupling groove 230 in the coupling body, the fastening bolt 310 that is the fastening means 300 is the coupling protrusion coupling hole from the upper coupling groove coupling hole 241. The unit body and the coupling body are fastened by the fastening means 300 while being assembled by closing the air while being connected to the fastening nut 320 which is the fastening means through the 611 and the lower coupling groove coupling hole 242, the coupling body. Is connected to the connecting body II. The connecting body II as described above is characterized in that to produce a large ball of the desired size by connecting the coupling bodies to each other.

Although the above-described fastening relationship has described the fastening means as an example through the bolt and the nut, the fastening means includes the fastening means by the unevenness, the fastening means by the thread and the screw groove, Fastening means are applicable.

In the manufacture of the connecting body II 600, the connecting body II can be produced by blow molding. Blow molding according to this is determined according to the shape of the connecting body II (600) having a number of connecting projections that can be connected to the coupling body to be molded. A blow molding machine that can be molded according to a predetermined shape and size is adopted, and a mold is installed accordingly. The inside of the installed mold has a shape in which the connecting protrusion 610, which is subtracted from the desired number of connecting protrusions, may be molded, and a synthetic resin heated to a temperature capable of deforming the shape is supplied to the inside of the mold. After the synthetic resin is supplied, air is injected to form the air layer 110. At this time, the air is injected into a position where one connecting protrusion 610 is formed, which is protruded in the outward direction of the connecting body II (600), minus the desired number of connecting protrusions. When air is injected, the heated synthetic resin is expanded to form the buoyancy portion 120 having the air layer 110 formed therein by a mold. When the molding of the connecting body II (100) is finished, the connecting projection 610 is formed by protrudingly bonding the air injection portion outward while closing the air layer 110 into which air is injected. Therefore, the connecting body II 600 may be manufactured by blow molding to have the connecting protrusion 610 by the structure of the mold.

The connecting projection coupling hole 611 penetrates the inside through the inside without passing through the air layer 110 from the outer upper portion of the connecting protrusion 610 in the connecting body II manufactured as described above. The connection protrusion coupling hole 611 is formed according to the size of the bolt 310.

When the connecting body II is formed through a mold, the connecting protrusion 610 is formed in the connecting protrusion 610 to be formed using a blow molding method, and the connecting body II may be manufactured using a synthetic resin. .

FIG. 11 is a perspective view illustrating still another embodiment of the assembled float of FIG. 8. FIG. As shown in the figure, the unit body is first coupled to the coupling body in one direction through the fastening means, then the connecting body II (600) assembled body can be produced a large ball in a way to connect the other coupling body mutually Is an example of application.

  1 to 11, the coupling groove in which the coupling protrusion of the unit body or the connecting protrusion of the connecting body II is positioned while having a straight line shape for convenience of explanation, but the coupling groove is formed in an a-shape. It will be apparent to those skilled in the art that the coupling body can be manufactured to have a coupling body and a coupling body through the coupling body having the coupling grooves in the cross shape, respectively.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a perspective view showing the assembled buoy according to an embodiment of the present invention.

2 is a cross-sectional view taken along line III-III of FIG. 1;

3 is an exploded perspective view of FIG. 1;

Figure 4 is an exploded perspective view of the coupling connecting body showing another connecting body in any one of Figures 1-3.

Fig. 5 is a perspective view showing another shape of the assembled float of Fig. 1.

6 is an exploded perspective view of FIG. 5;

7 is an exploded perspective view of the assembled buoy showing another shape to which the assembled buoy of FIG. 5 is applied.

Figure 8 is a perspective view of the assembly-like fittings showing one example that the assembly-like fittings can be completed through another form of connecting body.

9 is a cross-sectional view taken along line IV-IV of the assembled float of FIG. 8.

10 is an exploded perspective view of the assembled float of FIG. 8.

FIG. 11 is a perspective view showing another embodiment of the assembled float of FIG. 8. FIG.

* Description of the symbols for the main parts of the drawings *

100: unit body 110: air layer

120: buoyancy portion 130: engaging projection

140: coupling projection coupling hole 160: connection groove

200: coupling body 230: coupling groove

240: coupling groove coupling hole 241: upper coupling groove coupling hole

242: lower coupling groove coupling hole 300: fastening means

310: tightening bolt 320: tightening nut

400: unit assembly part 500: connecting body

510: longitudinal connecting body 511: connecting body coupling groove

512: connecting body coupling groove coupling hole 520: transverse connection body

521: connecting body coupling protrusion 522: connecting body coupling protrusion coupling hole

530: unit connection body 540: connection bolt

600: connecting body II 610: connecting projection

611: connecting projection coupling hole 900: assembly type ball

Claims (6)

In buoyancy buoys, A unit having a buoyancy portion having an air layer filled with air therein and an outer surface of the buoyancy portion having a coupling protrusion inserted into a coupling groove of the coupling body, and a unit having a coupling groove connected to the connection body on the other outer circumferential surface of the buoyancy portion. Body Part, Coupling body having a coupling groove, the coupling protrusion of the unit body is inserted, Fastening means for fastening the unit body and the coupling body, Is connected to the connecting groove in the unit body, it is composed of a connecting body for connecting the neighboring unit body, Coupling protrusion in the unit body is inserted with air close to the coupling groove in the coupling body, the unit body is coupled to the coupling body by a fastening means, the connecting body is connected to the coupling groove in the unit body neighbor The chain is connected to one unit body, the unit body, the coupling body, and the connecting body is characterized in that made of a single synthetic resin, Prefabricated floats. In buoyancy buoys, A unit body having a buoyancy portion having an air layer filled with air therein and an outer surface of the buoyancy portion having a coupling protrusion inserted into a coupling groove of the coupling body; A coupling body having a coupling groove into which the coupling protrusion of the unit body or the coupling protrusion of the connecting body is inserted; Fastening means for fastening the unit body and the coupling body with each other, or between the coupling body and the connecting body, A buoyancy portion having an air layer filled with air therein and an outer surface of the buoyancy portion are composed of a connecting body having two or more connecting protrusions to be inserted into a coupling groove of the coupling body. The coupling protrusion in the unit body is inserted with the air closed in the coupling groove in the coupling body, and the unit body is coupled to the coupling body by the fastening means, and then two or more connecting protrusions in the coupling body are connected to different coupling bodies. Is inserted into the coupling groove which is fastened by the fastening means, the connecting body is connected to the fastening bodies in series, the unit body, the connecting body, and the connecting body is characterized in that made of an integral synthetic resin, Prefabricated floats. The method of claim 1, The connecting body is connected to the connection groove of the unit body to close the air, characterized in that made in a frame shape integrally inserted into the connection groove of the unit body, so as to interconnect the neighboring unit body, Prefabricated floats. The method of claim 1, The fastening means is a fastening means consisting of a bolt and a nut which is fastened to the nut through the coupling protrusion of the unit body and the coupling groove of the unit body after the coupling protrusion of the unit body is inserted into the coupling groove of the coupling body. , The outer circumferential surface of the coupling body of the unit body includes a fastening protrusion, and the inner wall of the coupling groove of the coupling body includes a fastening groove, and the fastening protrusion is fastened to the fastening groove while closing the air. Fastener, A fastening means consisting of a screw thread and a screw groove, wherein the outer circumferential surface of the coupling body of the unit body includes a screw thread, and an inner wall of the coupling groove of the coupling body includes a screw groove, and the screw thread is engaged with the screw groove while closing air. Characterized in that any one of the fastening means, Prefabricated floats. The method of claim 2, The fastening means, after the coupling protrusion of the unit body or the connecting protrusion of the connecting body is inserted into the coupling groove of the coupling body, the bolt penetrates the coupling protrusion of the unit body or the coupling protrusion of the coupling body and the coupling groove of the coupling body. Fastening means consisting of bolts and nuts, A fastening protrusion is formed on the outer circumferential surface of the coupling protrusion of the unit body or the connecting protrusion of the connecting body, and a fastening groove is formed on the inner wall of the coupling groove of the coupling body, and the fastening protrusion is fastened to the fastening groove while closing the air. Fastening means consisting of irregularities, The outer periphery of the coupling protrusion of the unit body or the connecting protrusion of the connecting body includes a screw thread, and the inner wall of the coupling groove of the coupling body includes a screw groove, and the screw thread is coupled to the screw groove while closing air. A fastening means composed of a screw thread and a screw groove, characterized in that any one of the fastening means, Prefabricated floats. The method according to any one of claims 1 to 5, The synthetic resin is a mixture of polyester (PET), aliphatic copolymer (Aliphatic-Co-Polymer), aliphatic polyester copolymer (PET- Aliphatic-Co-Polymer), polyethylene (LDPE & HDPE), polypropylene (PP) , Polyvinyl chloride (PVC), polystyrene (PS), polyester (PET), styrene acrylonitrile butadiene (ABS) resin and nylon (PA) any one selected from the group and mixtures of two or more thereof Characterized in that,  Prefabricated floats.

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