KR102065341B1 - Outside view pipe molding equipment for buoys, buoys using the same, and manufacturing method thereof - Google Patents

Abstract

The present invention relates to an outer diameter pipe molding apparatus for a buoy, which is capable of strongly forming an outer diameter pipe to prevent the same from being easily damaged; a buoy using the same; and a manufacturing method thereof. The outer diameter pipe molding apparatus for a buoy comprises: an extrusion nozzle unit formed with first to third nozzles in which first to third members are extruded; a joint roller pressing and fixing front ends of the first to third members to overlap each other; and a cutting device connected to a motor transfer cylinder.

Description

Outside view pipe molding equipment for buoy and its manufacturing method {Outside view pipe molding equipment for buoys, buoys using the same, and manufacturing method

The present invention relates to an outer diameter pipe forming apparatus for buoys, a buoy using the same, and a method for manufacturing the same, and more particularly, to provide a molding apparatus for continuously molding a cylindrical outer diameter pipe for forming a buoy by supplying three straight members. Supplying and filling Schiropol into the inside of the outer diameter pipe, and finish the side caps with both side caps and then buoys to form a buoy for various uses by coating and welding the corner where the outer diameter pipe and the side caps meet with a welding member. The present invention relates to an outer diameter pipe forming apparatus, a buoy using the same, and a manufacturing method thereof.

In general, buoys (also known as rich, busu, bui, bugu) are floating bodies on the surface of the water.

Buoys are used to warn of the existence of nautical hazards, such as reefs and sinkers, and to indicate the position of objects in the water, such as fishing gear and anchors, and to farm fish, waste and algae within a certain range. It is used to fix the installed net.

The buoy may be provided with a flag so that it can be identified according to the purpose.

In addition, the buoy may be provided with a variety of transmission and reception, which can be identified by an electronic signal, and an equalizing device that emits light so that it can be identified even at night.

Currently used buoys include styrofoam buoys, blow molding and injection molding buoys made of plastics, and tubular buoys of rubber material infused with air.

The prior art related to the styrofoam buoy is disclosed in the Republic of Korea Utility Model No. 20-0309039 as shown in Figure 1, which relates to the protection device for aquaculture buoys, in detail can be wound rope on the styrofoam buoy It relates to a protective device for aquaculture buoys which are grooved so that the groove part is inserted or covered using a protective device made of a synthetic resin (plastic) material.

The prior art relates to a configuration for protecting the groove portion of the styrofoam buoy, maximizing the efficiency of the work when installing or collecting the buoy when using the buoy in aquaculture, can increase the durability to increase the service life It works.

However, in the prior art, the styrofoam fragments broken from the buoys of the styrofoam material serve as habitats for various pathogens, which causes the disease in the farm.

Even marine fish die from eating styrofoam pieces, and styrofoam buoys have a negative impact on the conservation of marine ecosystems and fish stocks. As a temporary solution, plastic bags with styrofoam are used. In addition, this also prevents seawater from infiltrating, and is easily corroded and damaged by sunlight and seawater, causing fragments of marine pollution.

The technology of the Republic of Korea Patent No. 10-0329119 to solve the above problems can be applied, which relates to the manufacturing apparatus of the hollow casting and the casting manufactured by the apparatus, in detail that the molten metal is injected into the inside When the upper and lower molds formed with spaces are formed, upper and lower mold supports coupled with upper and lower molds and vertical connecting rods are installed between the pillars, and the pulley connected to the drive shaft is rotated about the X axis by a manual or electric power source by a handle. The horizontal ring coupled between the lower mold supports is fixed to one column with the ring fixed on one side of the cylinder, and the Y axis is rotated at the same time as the X axis.

The present invention relates to an apparatus for producing hollow castings characterized by a structure to be molded, and to castings produced by the apparatus.

The prior art has a merit in that the hollow casting is made using centrifugal force generated by the simultaneous rotation of the mold on the X-axis and the Y-axis, so that no external seam is generated and there is no finishing process for removing the seam.

However, the prior art has to melt the metal into the mold and then cast the mold while rotating the mold on the X and Y axes, and when applied to a synthetic resin raw material such as polyethylene, the molten synthetic resin into the mold and suddenly There was a problem in that it was hardened to obtain a product of the desired shape.

In order to solve the above problems, the buoy of the hollow molding structure using a plastic material has been disclosed Korean Patent No. 10-1504658, which relates to a container manufacturing method using a rotating mold,

In detail, the left and right molds are formed, and a material inlet is formed on the upper part. After combining the left and right molds, the powder is injected through the material inlet while the mold is rotated and the powder is heated by heating the lower part of the mold. The present invention relates to a container manufacturing method using a rotating mold in which a container is completed by melting the raw material and fusion inside the mold.

However, the prior art has a problem that a part of the molten molding is leaked to the outside during the manufacturing of the container because the material inlet formed for injecting the powder is not closed, the surrounding environment may be contaminated, the mold X Since the product is molded while rotating only on the axis, the lower part of the product is formed thick and the upper part is formed thin so that a uniform product cannot be obtained.

In this way, various kinds of products were provided with various components, of which Schiropol is supplied inside, and the buoy of the structure coated with synthetic resin on the outside is maintained in the seawater for a long time and is exposed to sunlight. As a result of the fragility of the synthetic resin, there was a problem of corrosion, and a problem of easily damaged or a hole due to the external impact and drag.

Particularly, when the sheet is made of styrofoam, circular caps are attached to both sides only with adhesive, and the joints cannot be made normally with the part surrounding the body. The disadvantage of swelling without being able to withstand the pressure of, and the weak part is separated by this phenomenon is a defect that the buoyancy is lost due to the penetration of water.

[Document 1] Patent Registration No. 1728150 (2017. 04. 12. Registration) [Document 2] Patent Registration No. 1843422 (Registered on Mar. 23, 2018) [Document 3] Patent Registration No. 1599258 (2016. 02. 25. Registration) [Document 4] Patent Registration No.1871242 (Registered on June 20, 2018)

Therefore, the object of the present invention is to solve the conventional drawbacks, and an object of the present invention is to continuously form a cylindrical outer diameter pipe for buoy while three linear members are continuously extruded and wound in a cylindrical shape.

Another problem of the present invention is to cut the outer diameter pipe of several meters to several tens of meters and continuously supply the cut Schiropol cut to the inner diameter, and then combine the side caps on both sides of the welding member at the corner portion where the outer diameter tube and the side cap meet. It is intended to supply and finish the buoy by welding.

Another object of the present invention is to provide a buoy of several meters to several tens of meters to float the net, and to make the outer diameter tube strong in use as a barge and floating bridge, so that it is not easily damaged. .

Still another object of the present invention is to put a styrofoam inside the cylindrical outer diameter tube and cover the side caps on both sides, and then weld with a welding member to prevent swelling in accordance with the external temperature rise.

The present invention is provided with an extrusion apparatus for melt-feeding polyethylene so as to extrude the member from the extrusion unit, and a winding apparatus for cooling the member and feeding it spirally to the winding roller to be formed into a cylindrical shape, and the molded cylindrical tube is Consisting of a cutting device for cutting to length;

An extrusion nozzle unit in which first, second and third nozzles are formed at the front end of the extrusion unit and the first, second and third members are extruded; A joint roller which presses and fixes the tip of the second, third and third members so as to overlap each other in the winding apparatus in which the first, second and third members are spirally supplied;

The first, second, and third members overlap and cut the outer diameter tube to be formed smoothly, the cutting body installed in the LM guide and the cutting body transfer cylinder is connected, the motor mounting table is installed with a cutting motor connected to the cutting blade In the buoy outer diameter forming apparatus consisting of a cutting device connected to the motor feed cylinder and guides the movement in the feed guide shaft after being connected to,

The extrusion nozzle unit is provided with a primary nozzle and a tertiary nozzle at the same height to extrude the first member and the third member,

A secondary nozzle for extruding the second member is provided between the primary nozzle and the tertiary nozzle at a position lower than the primary nozzle and the tertiary nozzle.

According to the present invention, three linear members are continuously extruded and wound into a cylindrical shape, thereby pressing the outer diameter with a joint roller, thereby continuously forming a cylindrical outer diameter pipe for a buoy having a constant thickness, thereby making it possible to cut and use the outer diameter tube to easily form the outer diameter pipe. It is effective to provide accurate dimensions.

The present invention cuts the outer diameter tube of several meters to several tens of meters and continuously supplies a circular Schiropol that can be inserted into the inner diameter of the outer diameter tube to fill the inside, and the side cap and the side cap meets the corner after the side cap is joined By supplying the molten welding member to the part to finish by welding to form a cylindrical buoy to provide an effect to be used for various purposes.

The present invention provides a buoy of several meters to several tens of meters through the outer diameter pipe to float the net, and to be used in various ways such as barges and floating bridges, so that the outer diameter pipe is strongly formed so that it is not easily damaged and holes are not generated. It has the effect of providing a stable buoy.

The present invention can provide a cylindrical outer diameter pipe as a buoy having a length of several tens of meters can be utilized to suit the purpose, and put the styrofoam inside and cover the side caps on both sides and then accurately and firmly with the welding member The weld finish provides a very stable buoy that prevents swelling as the temperature rises outside.

1 is a front view of the outer tube forming apparatus of the present invention;
Figure 2 is a side view of the outer tube forming apparatus of the present invention
Figure 3 is a front view of the main part of the extrusion nozzle unit and the winding device and the cutting device of the present invention
Figure 4 is a side view of the installation state for the winding apparatus and the joint roller of the present invention
Figure 5 is a side view of the installation state for the cutting device of the present invention
Figure 6 is a side view of the member supplied from the extrusion nozzle unit of the present invention
7 is a front view showing a state in which the first, second, third members of the present invention are extruded
Figure 8 is a cross-sectional view showing a molding state for the outer diameter tube of the present invention
Figure 9 is a cross-sectional view showing a state of supplying the side cap after supplying the styrofoam to the outer diameter tube of the present invention
10 is a cross-sectional view showing a completion state of the buoy of the present invention.
11 is a block diagram showing a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a front view of the outer diameter tube forming apparatus of the present invention, Figure 2 is a side view of the outer diameter tube forming apparatus of the present invention, Figure 3 is a front view of the main part of the extrusion nozzle and the winding device and the cutting device of the present invention Figure 4 is a side view of the installation state for the winding apparatus and the joint of the present invention, Figure 5 shows a side view of the installation state for the shear device of the present invention.

The extruder 10 is provided to supply and melt a synthetic resin pellet such as polyethylene to the front extrusion nozzle unit 12 of the extrusion unit 11.

The extrusion nozzle unit 12 is divided into three primary, secondary and tertiary nozzles 13, 14 and 15 in the extrusion unit 11 so as to be extruded into the first, second and third members 115, 116 and 117. To install.

The primary and tertiary nozzles 13 and 15 are installed at the same height as each other at a position higher than the secondary nozzle 14, and the secondary nozzle 14 is relatively between the primary and tertiary nozzles 13 and 15. It is preferable to install in a low position.

In the winding device 20 in which the extrusion nozzle part 12 is brushed on the upper side, a disk rotating on the rotating chain 21 is installed at both sides, and a winding roller 22 is disposed at regular intervals along the circumferential direction therebetween. The winding roller 22 is installed to be inclined to one side so that the first, second, and third members 115, 116, and 117 are spirally supplied.

The outer diameter of the winding device 20 is provided with a joint roller 30 to press the outside of the first, second, third joint members 115, 116, 117 continuously fused to a constant thickness integrally and smooth outer tube ( 110 is to be molded, the joint roller 30 is to be connected to the roller mounting bracket 31, the roller mounting bracket 31 is installed on the screw 32 so that the position is adjusted.

The primary cooling unit 40 and the secondary cooling unit 45 are respectively installed on both sides of the winding device 20 so that the cooling water is supplied and cooled.

The front of the winding device 20 is provided with a cutting device 50 for cutting to the desired length in the process of the outer tube 110 is molded and supplied.

The cutting device 50 is installed in the frame 51 and the LM support 52 protrudes from the disc of the winding device 20 so that the LM guide 53 is installed on the upper side, and then the LM guide 53 and the cutting transfer cylinder ( 56 is installed to reciprocate and move the position, the LM guide 53 is a cutting body 54 and the guide bearing 55 is installed.

After the cutting blade 60 is positioned in the guide bearing 55, the cutting motor 60 is connected to the cutting motor 59 installed on the upper motor mounting base 61, and the motor mounting base 61 is connected to the transfer table through the hinge 63. The hinge 63 is rotatably installed on the shaft through the operation cylinder 64 installed on the feed table 62 in a state in which the rotation is installed rotatably at 62).

The transfer table 62 is connected to the frame 51 so as to be reciprocated by the transfer guide shaft 58, and then the motor transfer cylinder 57 is connected to install the control unit so as to control the reciprocating movement of the transfer table 62. will be.

Figure 6 shows a side view of the member supplied from the extrusion nozzle unit of the present invention, the winding roller 22 is connected to the water supply connector 23 on one side of the rotating chain 21, water supply connector 23 The water supply hose 24 is connected to each other so that the cooling water can be supplied, so that the winding rollers 22 are independently cooled.

7 is a side view of the member supplied from the extrusion nozzle unit of the present invention, Figure 8 is a cross-sectional view showing a molding state for the outer diameter tube of the present invention.

The first, second, and third members 115, 116, and 117 supplied from the first, second, and third nozzles 13, 14, and 15 of the extrusion nozzle part 12 to overlap each other may be extruded in a straight shape. Then, the outer diameter pipe 110, which is pressed by the joint roller 30 and has a hollow 11 in the inner diameter, is continuously formed.

The thicknesses of the first, second and third members 115, 116 and 117 may be freely adjusted through the first, second and third nozzles 13, 14 and 15.

9 is a cross-sectional view showing a state in which the side cap is supplied after supplying the styrofoam to the outer diameter tube of the present invention, Figure 10 is a cross-sectional view showing a completed state for the buoy of the present invention.

When the first, second, and third members 115, 116, and 117 are continuously extruded and smoothly connected, the outer diameter pipe 110 is cut to a desired width, and the outer diameter pipe 110 is used as a buoy for fishing gear. It can be cut and supplied to have a length of several tens of cm to several m.

The outer diameter pipe 110 is to be cut and supplied to have a length of several m to several tens of meters in order to use for purposes such as barges or floating bridges, the outer diameter pipe 110 is supplied through the schirofoam 120 ) So that it is filled.

The length of the styrofoam 120 is determined according to the width of the outer diameter pipe 110, and the size is limited, so if one can not be filled, it is preferable to supply by filling a number of schiropole 120.

Supplying one or several Schiropole 120 inside the outer diameter tube 110 is filled with a circular side cap 130 on both ends of the outer diameter tube 110 and the same material as the outer diameter tube 110 in the extruder Polyethylene having a certain length in the form of a corner welding member 140 is extruded, and then the outer diameter pipe 110 and the side cap 130 by being extruded in a cylindrical shape to the corner portion where the outer cap 110 and the outer diameter tube 110 and the side The part where the cap 130 meets is welded by the coating to the corner welding member 140 so as to be integrally formed so as not to be separated at a later time.

According to the present invention having the above configuration, the synthetic resin pellets made of polyethylene or the like are supplied to the extrusion device 10 and melted by heating, and then, three ones formed on the extrusion nozzle part 12 through the front extrusion part 11, The first, second, and third members 115, 116, and 117 in the form of a straight line are simultaneously extruded from the secondary and tertiary nozzle parts 13, 14, and 15 to form a spiral in the outer diameter of the winding roller 22 of the winding apparatus 20. It is supplied.

The winding roller 22 is connected to the water supply hose 23, the water supply hose 24 can be circulated to supply the cooling water from the outside, so that each of the winding roller 22 is cooled to the outer diameter of the first, second, third The members 115, 116, and 117 are molded while partially overlapping.

The first, second, and third members 115, 116, and 117 spirally supplied to the outer diameter of the winding roller 22 of the winding device 20 are supplied while overlapping a part of the tip, and are installed on the roller mount 31 when moving. Since the joint roller 30 is pressed toward the winding roller 22, the overlapping parts are molded together while being fused together, and the outer diameter pipe 110 is molded to have the same thickness continuously.

The second member 116 is supplied so that the lower side overlaps at one side of the first member 115, and the third member 117 is supplied so as to overlap the upper side at one side of the second member 116. , The second member 116 is supplied to the lower side between the three members (115, 117) and the laminated form is provided at the front end to be fusion-bonded and molded integrally, and the primary, secondary, tertiary nozzles (13, 14, 15) Depending on the size of the) can be molded in a variety of desired thickness.

When the outer diameter pipe 110 is smoothly molded through the fitting roller 30, the coolant is supplied from the primary cooling unit 40 and the secondary cooling unit 45, and the molded state is cooled and supplied as it is.

When the outer diameter pipe 110 is smoothly molded and discharged, the driving force of the cutting motor 59 of the cutting device 50 is transmitted to the cutting blade 60 to rotate automatically at a high speed and automatically cut to a desired length.

Since the cutting device 50 is molded while the outer diameter pipe 110 rotates, the cutting device 50 cannot be cut in a stopped state, so that the cutting body transfer cylinder 56 and the motor transfer cylinder 57 have an LM guide 53 and a cutting motor 59. The outer diameter pipe 110 is to be cut to provide a way to control the movement to move slowly), the outer diameter pipe 110 is to be accurately cut after cutting by cutting while rotating at the outer diameter of the guide bearing 55. .

The cutting body 54 is gradually moved in the LM guide 53 through the cutting body conveying cylinder 56, the motor feed cylinder 57 moves the conveying table 62 to the cutting guide shaft 58 The outer diameter pipe 110 is cut while controlling the movement at the same speed as 54).

The motor mounting base 61 connected through the transfer table 62 and the hinge 63 has a cutting motor 59 installed on the upper side to reciprocate together, and cut the outer diameter pipe 110 through the cutting blade 60. In this case, the operation cylinder 64 is driven to rotate the motor mount 61 around the hinge 63 so that the cutting motor 59 is rotated and cut through the cutting blade 60, and the cutting ends. After that, the hinge 63 of the motor mount 61 is rotated by the operation cylinder 64 so as to be lifted up.

The outer diameter pipe 110 is cut to supply one or several styrofoam 120 to the hollow 111 to be filled with almost no empty space, and after the styrofoam 120 is filled in the hollow 111 of the outer diameter pipe 110 After supplying the side cap 130 at both ends, the extruder extrudes a corner welding member 140 having a straight band shape, and welds it to be integrally wrapped by cylindrically wrapping a portion where the side cap 130 and the outer diameter pipe 110 meet. To finish.

After the styrofoam 20 is filled in the outer diameter pipe 110, the side cap 130 is supplied and the corner welding member 140 is welded to finish the buoy 100, and the buoy 100 is provided with a net. Buoy 100 to be used for fishing gear or barge or floating bridge, to have a predetermined size to use for fishing gear, and to have a length of several m to several tens of meters to use as barge or floating bridge. It can be molded.

As described above, by providing one buoy 100 having a length of several m to several tens m, it is possible to effectively use the buoyancy by molding one outer diameter pipe 110, the outer diameter pipe 110 Since the corner weld member 140 is welded to the outer diameter of the side cap 130 and the weld finishes, the phenomenon of separation from the welded portion does not occur, and the temperature rises as in the summer, and easily rises even when the internal pressure increases. There is an effect that does not occur.

In particular, since the outer diameter pipe 110 is formed by overlapping the first, second, and third members 115, 116, and 117, the thickness can be freely adjusted, and the rigidity is greatly improved to be molded into the buoy 100 to move or use. The impact is not easily damaged by impacts or collisions with sharp parts, punctures and scratches, so it is very unlikely to leak.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

end. Member Extrusion Step

After supplying polyethylene to the extrusion device 10 to melt it, it is extruded into the extrusion unit 11, and then the first, second in the form of a straight line in the extrusion nozzle unit 12 having the first, second, and third nozzles 13, 14, and 15. , To perform the member extrusion step S10 in which the three members 115, 116, and 117 are extruded simultaneously.

I. 3rd winding stage

The first, second and third members 115, 116 and 117 are extruded and spirally supplied to the outer diameter of the winding roller 22 of the winding device 20, and the outer side of the first, second and third members 115, 116 and 117 is provided. Press to the joint 30 to perform the third winding step (S20) to be molded integrally.

All. Circular forming step

The first, second, and third members 115, 116, and 117 are pressed into the outer ring 30 to perform a circular molding step (S30) to be molded in a circular smooth state.

la. Cooling stage

On both sides of the winding device 20, the cooling step S40 of supplying and cooling the cooling water from the primary cooling unit 40 and the secondary cooling unit 45 is performed.

hemp. Outer diameter tube forming step

The first, second, and third members 115, 116, and 117 are cooled to perform an outer diameter tube forming step S50 of forming a circular and smooth outer diameter tube 110 having a hollow 111 in an inner diameter. .

bar. Cutting stage

In the process of molding and supplying the outer diameter pipe 110, the cutting body conveying cylinder 56 of the cutting device 50 is driven and moves the cutting body 54 in the LM guide 53, and at the same time the motor conveying cylinder 57 The feeder 62 moves in the feed guide shaft 58 and the operation cylinder 64 is driven to rotate the motor mount 61 around the hinge 63 so that the cutting blade 60 is the outer diameter tube 110. To perform the cutting step (S60) to cut.

four. Styrofoam Supply Stage

Schirofoam supply step (S70) of supplying and filling the cylindrical styrofoam 120 to the hollow 111 of the cut outer diameter tube 110.

Ah. Side cap joining step

Schirofoam 120 is to perform the side cap coupling step (S80) to protect the styrofoam 120 by supplying the side cap 130 on both ends of the outer diameter tube 110 filled in the hollow 111.

character. Corner welding step

Corner welding step (S90) for molding the buoy 100 by extruding a straight-shaped corner welding member 140 of the extruder in a portion where the both ends of the outer diameter pipe 110 and the side cap 130 meet and integrally welded To do.

In the present invention, the first, second, and third members are simultaneously extruded into a winding apparatus, and the joints are pressed to form a cylindrical shape, and then cut to a desired length by cooling to form an outer diameter tube, and then filled with Schiropol in the hollow and side caps on both sides. After combining the outer diameter tube and the side cap and the corner welding member to weld the buoy to form a buoy is not easily damaged is to provide a very useful invention that can freely adjust the desired size.

10 extruder 11 extruder
12: extrusion nozzle unit 13: primary nozzle
14: 2nd nozzle 15: 3rd nozzle
20: winding device 21: the rotating chain
22: winding Laura 23: water supply connector
24: water supply hose 30: joint roller
31: Laura mounting base 32: screw
40: primary cooling unit 45: secondary cooling unit
50: cutting device 51: frame
52: LM Base 53: LM Guide
54: cutting body 55: guide bearing
56: cutting body conveying cylinder 57: motor feed cylinder
58: feed guide shaft 59: cutting motor
60: cutting blade 61: motor mounting base
62: transfer tray 63: hinge
64: working cylinder 100: buoy
110: outer diameter tube 111: hollow
115: first member 116: second member
117: third member 120: styrofoam
130: side cap 140: corner welding member

Claims (3)

An extrusion apparatus is installed to melt-feed polyethylene so as to extrude the member from the extruder, and a winding apparatus is installed to cool the member and spirally feed the winding roller into a cylindrical shape, and cut the formed cylindrical tube into a predetermined length. Consisting of a cutting device;
An extrusion nozzle unit 12 having first, second and third nozzles 13, 14 and 15 through which first, second and third members 115, 116 and 117 are extruded at the tip of the extrusion unit; The tip of the first, second and third members 115, 116 and 117 in the winding device 20 in which the winding rollers 22 in which the first, second and third members 115, 116 and 117 are spirally supplied are installed. A joint roller 30 which is fixed to overlap with each other;
The cutting body 54 and the cutting body transfer cylinder 56 which are installed in the LM guide 53 while cutting the outer diameter pipe 110 which is smoothly formed while the first, second and third members 115, 116 and 117 overlap. ) Is connected, and the motor mounting base 61 is provided with a cutting motor 59 to which the cutting blade 60 is connected to the feed tray 62. Then, the feed tray 62 moves on the feed guide shaft 58. In the buoy outer diameter tube forming apparatus consisting of a cutting device 50 for guiding and connected to the motor transfer cylinder 57,
The extrusion nozzle unit 12 is the primary nozzle 13 and the tertiary nozzle 15 is installed at the same height to extrude the first member 115 and the third member 117,
The secondary nozzle 14 is installed between the primary nozzle 13 and the tertiary nozzle 15 to extrude the second member 116 at a position lower than the primary nozzle 13 and the tertiary nozzle 15. An outer diameter pipe forming apparatus for buoys, characterized in that.
delete The method of claim 1,
The extrusion nozzle unit 12 is the primary nozzle 13 and the tertiary nozzle 15 is installed at the same height to extrude the first member 115 and the third member 117,
The secondary nozzle 14 is installed between the primary nozzle 13 and the tertiary nozzle 15 to extrude the second member 116 at a position lower than the primary nozzle 13 and the tertiary nozzle 15. External pipe forming apparatus for buoy, characterized in that

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