KR101786813B1 - From for fish-breeding structure with radial hexapod - Google Patents

Abstract

The present invention relates to an artificial fish preform having a radial hexapod. More particularly, the present invention relates to an artificial fish preform having a radial hexapod, and more particularly, to provide a space for supporting fish and shellfish on the ground surface even if the support legs supported on the ground are buried in the ground due to subsidence, Six supporting legs having a wing portion having a cross-shaped cross-section and a head portion having a quadrangular pyramid shape having a flat upper surface on the end portion of the wing portion are provided so as to secure a repulsive force against the ground settlement even if the settlement continues, To an artificial fish preform having a radial hexapod extending radially in an angle and provided with an inflow hole for facilitating the passage of seawater in the center of the support leg.

Description

Description of the Related Art [0002] From a fish-breeding structure with radial hexapods having a radial hexapod,

The present invention relates to an artificial fish preform having a radial hexapod. More particularly, the present invention relates to an artificial fish preform having a radial hexapod, and more particularly, to provide a space for supporting fish and shellfish on the ground surface even if the support legs supported on the ground are buried in the ground due to subsidence, In order to secure the repulsive force against the ground settlement even if the settlement continues, and to secure a large habitat and wide attachment area of fishes and dolphins, a head portion having a cross-shaped cross section and a flat- And a radial hexapod having six support legs extending radially at the same angle and provided with an inflow hole for facilitating the passage of seawater through the center of the support leg.

Generally, a bank or breakwater (hereinafter referred to as "the bank") is equipped with a wave block at the outer port side where waves are pushed. Such a sofa block is installed for the purpose of protecting the port by preventing the destruction of the bank by the waves, and the material is mainly made of concrete. Sofa blocks are used in various formats around the world.

Most of them use a product called tetrapod with four legs.

The tetrapod is designed and manufactured according to the wave height and the wave force that are pushed into the bank. In Korea, tetrapod having a weight of about 5t to 60t is manufactured and used. The tetrapod is basically a tetrahedron and has four legs extending from the center of the tetrahedron toward each vertex. The reason why the tetrapod is formed as a tetrahedron is that the center of gravity of the tetrahedron is at the lowest position, which is good in stability and keeps the same shape even when the tetrahedron is rolled. Further, when a plurality of the tetrapods are installed, the force of the wave is extinguished or reduced through the void space therebetween. The tetrapod is the most widely used to date because it has a long experience in construction in Korea and its effectiveness has been verified.

However, three of the four legs are supported on the ground, and the other one is protruding toward the upper side. Each leg is narrowed in cross-sectional area as it goes to the end, so it can not exhibit any repulsive force against the ground settlement. There is a problem that it is buried in the ground in a short period of time and there is no room for fish and shellfish to habitat and to escape.

Accordingly, even if the legs supported by the ground are buried in the ground due to subsidence, the space provided for the seafood can be provided at the upper part of the ground, the repulsive force against the subsidence can be ensured even if the subsidence of the ground continues, The artificial fish candle has a radial hexapod in which six legs extend radially at the same angle and have an inflow hole for facilitating the passage of seawater in order to secure a wide habitat.

However, the artificial fish having the radial hexapod forms a framework to form a predetermined shape and forms a mold to surround the framework, and a concrete mortar having a proper ratio of cement, sand, and gravel mixed with water is mixed with water, After pouring into the mold, the artificial fish candle was produced by dismantling the form from the concrete block which had been cured for a certain period.

However, the work of dismantling the concrete block after molding and curing the concrete block through the mold consumes a considerable amount of time and manpower, and is repeatedly dismantled and re-assembled, causing the form to be damaged The manufacturing time is increased due to disassembly and assembly, resulting in poor economical efficiency, and safety problems of workers in disassembling work.

Korean Patent No. 10-1224301 Korean Patent No. 10-1446207

In order to solve the above-mentioned problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a honeycomb structure having twelve blade forming portions extending radially at the same angle when assembled, a head molding portion in the form of a quadrangular pyramid, Hole forming part is a structure in which a radial die having a molding space formed therein is assembled adjacent to the central part of each divisional blade in eight directions of upper, lower and six side parts, so that it has a predetermined thickness, And a head portion of a quadrangular pyramid having a flat top surface is formed at an end portion of the wing portion. An artificial fish having six supporting legs formed radially at the same angle and an inflow hole at a central portion can be formed easily and quickly, To provide an artificial fish preform having a radial hexapod that can facilitate quality control of the minor edge portion There is a purpose.

The present invention also provides a method for preventing a safety accident at the time of disassembly by hinging three divided molds assembled adjacent to a divided mold provided on a floor and installed on each side of a first support leg, And which has a radial hexapod that can be conveniently removed.

The artificial fish preform having a radial hexapod according to the present invention includes wing portions 11A and 12A having four cross-sectional wings 110A and 120A each having a predetermined thickness, cross-sectioned wing portions 11A and 12A, And each of the six support legs having the head portions 11B and 12B connected to the wing portions 11A and 12A at angular corners thereof is formed at the same angle And the center portion interconnected with the adjacent wing portions 11A and 12A is connected by the inclined portion 100 inclined to the oblique line so that the six support legs are radially formed, The other three support legs 12 are supported on the ground and are disposed between the three support legs 11 supported on the ground and protrude to the ground, and the inclination part of the central part to which the six support legs 11, And between the six support legs 11 and 12 inwardly In the mold for making a radial Artificial Reef 10, which is the inlet hole 13 which opens toward the forming,

8 are structured in the same structure so that the artificial fish candle 10 having the six supporting legs 11 and 12 and the inlet hole 13 is wrapped in eight directions of the upper, And a molding space 213 is formed therein so that eight of the divided wings 110A and 120A can be assembled adjacent to each other with respect to the center in the longitudinal direction of the divided wings 110A and 120A and the center of the rim is formed to correspond to the inclined portion 100 of the wing portion And a molding space 213 corresponding to one side of the head portion 11B or 12B is formed at an end of each of the concave grooves 210. The molding space 213 is divided into segments A triangular groove 215 for forming the inlet hole 13 is formed at the center of the wing 110A and 120A with a half thickness of the split blade and the triangular groove 215 is formed through the triangular groove 215 And a blade having a shape corresponding to a side surface of each of the split blades (110A, 120A) inside the concave groove (210) A slope 213A is formed and a head inclined surface 213B is formed in the wing slope in three directions and formed inside the branching protrusion 211 so as to correspond to one side of the head portions 11B and 12B Dividing molds 21;

A head finishing frame 22 for closing an end face of each branching protrusion 211 opened after the assembly of the eight divided molds 21;

An inflow hole inner face mold 23 having a shape corresponding to the inside of the inflow hole 13 so as to close the inside of each triangular groove 215 after the assembly of the eight divided molds 21;

(12) formed in a radial direction at a predetermined angle when assembled and including a fastening member (24) for fastening the eight split molds (21), the head finishing frame (22), and the inflow hole inner face mold S10 and an end portion of each wing forming portion S10 is formed with a head molding S20 having a square pyramid shape having a flat upper face and an inlet hole forming portion S30 opened at eight positions in a central portion is formed .

The present invention is characterized in that six support legs are formed extending radially at the same angle, three support legs are supported on the ground, and the remaining three support legs are protruded to the upper part of the ground, so that they exhibit a repulsive force against ground subsidence It is possible to prevent or delay the settlement of the artificial fish candle and to secure the wide space and the attachment area of the bird by the connection structure of the head part formed at the end of the wing part and each wing part having the cross- And a feeding area, and it is constituted as a single body, so that it is easier to manufacture and install than conventional formwork, and it is possible to maintain structural stability underwater.

Further, since the three legs are formed so as to extend toward the upper part, it is easy to combine the artificial fish candles in two stages and the solid state is maintained firmly, so that the function of the hexapod can be effectively performed, It is possible to provide a stable habitat for birds.

In addition, after the curing of the artificial fish candle, the artificial fish candle can be obtained with high quality since the mold can be demolded quickly without damaging the corners.

1 is a perspective view of an artificial fish prepared by an artificial fish preform having a radial hexapod of the present invention
2 is a side view of an artificial fish prepared by an artificial fish preform having a radial hexapod of the present invention
3 is a cross-sectional view of an artificial fish prepared by artificial fish preform having radial hexapod of the present invention,
Figure 4 is a perspective view of a mold with a radial hexapod according to the present invention;
Fig. 5 is a diagram illustrating the installation of a partial mold of a mold having a radial hexapod according to the present invention
Figure 6 is a partial plan view of a mold with a radial hexapod according to the invention
7 is a partial plan view of an artificial fish preform having a radial hexapod according to the present invention
8 is a perspective view of an inflow hole inner surface of an artificial fish preform having a radial hexapod according to the present invention

The artificial fish preform having a radial hexapod according to the present invention includes wing portions 11A and 12A having four cross-sectional wings 110A and 120A each having a predetermined thickness, cross-sectioned wing portions 11A and 12A, And each of the six support legs having the head portions 11B and 12B connected to the wing portions 11A and 12A at angular corners thereof is formed at the same angle And the center portion interconnected with the adjacent wing portions 11A and 12A is connected by the inclined portion 100 inclined to the oblique line so that the six support legs are radially formed, The other three support legs 12 are supported on the ground and are disposed between the three support legs 11 supported on the ground and protrude to the ground, and the inclination part of the central part to which the six support legs 11, And between the six support legs 11 and 12 inwardly In the mold for making a radial Artificial Reef 10, which is the inlet hole 13 which opens toward the forming,

8 are structured in the same structure so that the artificial fish candle 10 having the six supporting legs 11 and 12 and the inlet hole 13 is wrapped in eight directions of the upper, And a molding space 213 is formed therein so that eight of the divided wings 110A and 120A can be assembled adjacent to each other with respect to the center in the longitudinal direction of the divided wings 110A and 120A and the center of the rim is formed to correspond to the inclined portion 100 of the wing portion And a molding space 213 corresponding to one side of the head portion 11B or 12B is formed at an end of each of the concave grooves 210. The molding space 213 is divided into segments A triangular groove 215 for forming the inlet hole 13 is formed at the center of the wing 110A and 120A with a half thickness of the split blade and the triangular groove 215 is formed through the triangular groove 215 And a blade having a shape corresponding to a side surface of each of the split blades (110A, 120A) inside the concave groove (210) A slope 213A is formed and a head inclined surface 213B is formed in the wing slope in three directions and formed inside the branching protrusion 211 so as to correspond to one side of the head portions 11B and 12B Dividing molds 21;

A head finishing frame 22 for closing an end face of each branching protrusion 211 opened after the assembly of the eight divided molds 21;

An inflow hole inner face mold 23 having a shape corresponding to the inside of the inflow hole 13 so as to close the inside of each triangular groove 215 after the assembly of the eight divided molds 21;

(12) formed in a radial direction at a predetermined angle when assembled and including a fastening member (24) for fastening the eight split molds (21), the head finishing frame (22), and the inflow hole inner face mold S10 and an end portion of each wing forming portion S10 is formed with a head molding S20 having a square pyramid shape having a flat upper face and an inlet hole forming portion S30 opened at eight positions in a central portion is formed .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view of an artificial fish prepared by artificial fish preform having radial hexapod of the present invention, FIG. 2 is a side view of artificial fish prepared by artificial fish preform having a radial hexapod of the present invention, FIG. 4 is a perspective view of a workpiece having a radial hexapod according to the present invention, and FIG. 5 is a perspective view of a radial hexapod having a radial shape according to the present invention. Fig. 6 is a perspective view of a partial mold of a mold with a radial hexapod according to the invention, and Fig. 7 is a partial sectional view of a mold of an artificial pyramid having a radial hexapod according to the present invention. And FIG. 8 is a perspective view of an inflow hole inner surface of an artificial fish preform having a radial hexapod according to the present invention.

The mold 20 of the present invention is of a radial shape extending so as to maintain the same angle as that of the support legs to which the six support legs are attached. The three support legs (the first support legs (Hereinafter referred to as " second support legs ") 11 and the first support legs 12 and the second support legs 12, A head finishing frame 22, an inflow hole inner face mold 23 and a fastening member 24 in order to manufacture a radial artificial ear candle 10 provided with an inlet hole The shape of the artificial fish candle 10 will be described in detail before describing the form 20.

As shown in FIGS. 1 and 3, the first and second support legs 11 and 12 formed on the artificial ear candle 10 have four split blades 110A and 120A having a cross- The wings 11A and 12A are formed in the shape of a quadrangular pyramid having a flat top face at the ends of the wings 11A and 12A and the wings 11A and 12A are formed in the shape of a quadrangular pyramid, And head portions 11B and 12B connected thereto.

The first support legs 11 are formed in such a way that the three support legs extend toward the end portion. On the contrary, the first support legs 11 are collectively gathered toward the center and serve as a sinking reduction plate because the ground is gathered between the support legs. The wings 11A and 11B thus formed can increase the attachment area of the legs by the cross-shaped structure.

The first support leg 11 and the second support leg 12 are disposed so as to be offset from each other. In a plan view (the same applies to the other directions), the three support legs of the second support leg 12, Each of the wings formed on the first and second support legs 11 and 12 is provided with an inclined portion 100 inclined obliquely at a central portion interconnected by adjacent wing portions And the first and second support legs 11 and 12 are formed radially by the inclined portion 100 between the adjacent wing portions 11A and 12A.

The head portions 11B and 12B are formed in the shape of a quadrangular pyramid having a flat upper surface and the four divided wings 110A and 120A of the wing portions 11A and 12A at four vertexes of the bottom surface, And the wings 11A and 12A and the head portions 11B and 12B are formed at four places on the bottom of the head portions 11B and 12B to which the split wings 110A and 120A are not connected, , It is possible to secure a wide range of fish habitat and land area, and to make a lot of shade.

The inlet hole 13 is opened toward the three support legs which are close to each other between the first and second support legs 11 and 12 to be opened in a total of eight directions and the installation state of the artificial ear candle 10 The front and rear sides of the inflow hole 13 are linearly communicated with each other so that the inflowing seawater is discharged directly without colliding with the first and second support legs of the artificial fish weir 10 and the upper portion, During the passage of the seawater, the negative pressure is generated, so that the saliva and microorganisms in the vicinity of the artificial fish pond 10 are introduced into the inlet hole 13, and the exhaust is diffused to the rear of the artificial fish pond 10 together with the seawater.

The artificial fish candle 10 having the radial hexapod having the wings 11A and 12A and the first and second support legs 11 and 12 formed with the head portions 11B and 12B and the inflow hole 13, Is completed as a concrete structure after curing process of cement mortar in formwork.

4, the mold 20 includes first and second support legs 11 and 12 having wing portions 11A and 12A and head portions 11B and 12B and an inlet hole 13 The eight split molds 21 and the head finishing mold 22, the inflow hole inner mold frame 23 and the fastening member 24 are assembled through the configuration of the fastening member 24 for the production of the artificial ear candle 10 having the radial hexapod, A head forming portion S20 having a square pyramid shape with a flat upper surface and a plurality of inlet forming portions S30 (S30, S30) opened in eight directions at the central portion are formed at the ends of each of the twelve blade forming portions S10 and S10 So as to form a molding space in which the cement mortar is accommodated therein.

5 to 7, the splitting mold 21 is provided with a radial artificial fish candle 10 having six support legs 11 and 12 and an inlet hole 13 as upper, lower, Eight divided molds 21 are formed in a shape of a triangle, and eight divided molds 21 are formed on the basis of the longitudinal center of each of the divided wings 110A and 120A, The artificial fish candle 10 has six support legs 11 and 12 formed radially extending with respect to the center of the artificial fish candle 10, It is possible to configure all of the eight divided molds 21 to have the same shape.

Therefore, the description of the structure of the split mold 21 will be made with reference to the first support leg 11 as an example.

The dividing mold 21 has a triangular shape in which a molding space 213 in which a cement mortar is accommodated is formed so as to enclose a first support leg 11 formed in a triangular shape with three support legs toward the ground A concave groove 210 corresponding to the inclined portion 100 of the wing portion 11A is formed at each central portion of the rim and a concave rim portion A branching protrusion 211 having a shape corresponding to the lower surface is formed.

The molding space 213 is formed in a shape corresponding to the three support legs so as to surround the first support legs 11 from below. The inner space of the molding space 213 is divided by the division of the first support legs 11 The wing 110A is formed to have a thickness of 1/2 so that each of the divided frames can be adjacently positioned with respect to the center of the divided wing. A triangular groove 215 for forming the inlet hole 13 is formed at the center of the molding space 213, As shown in Fig.

In the molding space 213, a wing inclined surface (not shown) is formed on the outer side of the triangular groove 215 and protruded upward to correspond to the lower surface of each divided blade 110A formed in the ground direction inward of the concave groove 210 And a head inclined surface 213B corresponding to the lower surface of the head portion 11B is formed on the inner surface of the branched protruding portion 211 which is a portion branched in three directions in the blade inclined surface 213A.

The splitting form 21 having the above-described structure is formed on the lower surface of the first support leg 11 of the artificial ear candle 10, the upper surface first support leg 11 and the second support leg 12 of the second support leg 12 12), eight divided molds are assembled in each direction on the basis of the longitudinal center portion of the dividing vanes 110A, 120A, so as to form an artificial ear molding space having a radial hexapod therein, Formed in the radial direction, and a head forming portion S20 in the shape of a quadrangular pyramid having a flat upper surface formed at the end of each blade forming portion S10, S30 are formed and assembled.

The eight divided form frames 21 are assembled in the form of wrapping the artificial fish candle in eight directions corresponding to the shape of the artificial fish candle 10 having a radial hexapod, The dividing mold 21 surrounding the lower face of the first supporting leg 11 is divided into three different dividing molds 21 assembled in the direction of the corner 3 and in the direction of each side 3 of the first supporting leg 11, 211 are assembled to the respective sides of the first support leg 11 with the hinge 218 engaged and centering the split mold 21 surrounding the lower surface of the first support leg 11, Is assembled to be rotatable.

The hinge 218 is joined to the three divided molds 21 adjacent to each other around the dividing mold 21 surrounding the lower surface of the first supporting leg 11 and assembled to each side of the first supporting leg 11 The reason for this is that since the three divided molds 21 assembled to each side of the first support leg 11 are respectively assembled in a form inclined at a predetermined angle toward the outer side of the first support leg 11, The lower part of the divided form frame 21 assembled to each side of the first support leg 11 at the time of the dismantling of the form has the lower part of the hinge 218 coupled with the lower part of the hinge 218, So that the upper part can be rotated while the lifting device is connected to the upper side so that the three side molds 21 can be safely and conveniently removed.

As shown in FIG. 4, the head finishing frame 22 is installed in order to close the end surface of each branching protrusion 211, which is formed in a rectangular plate shape and then opened after assembling the eight divided molds 21 After the eight divided molds 21 are assembled, the end surface of the branching protrusion 211 adjacent to each branching protrusion 211, that is, the end of the head molding section S20, Each of the six head finishing frames 22 is closed at each end of the step S20.

On the other hand, the reason why the respective end portions are formed in an open form when assembling the divided molds 21 is that the upper surfaces of the head portions 11B and 12B can be flatly formed by the head finishing mold 22, The dividing mold 21 surrounding the upper surface of the three support legs 12 protruding to the ground among the eight divided molds 21 has a part of the branching protrusions 211, The portion where the branching protrusion 211 of the split mold 21 is removed is formed in the cemented state in a state in which the end faces of each branching projection 211 are closed by each head finishing frame 22, It can also be used as an inlet for mortar.

After the eight divided molds 21 are assembled, the inlet hole inner face mold 23 is opened at the inner side of each of the triangular grooves 215 formed in eight directions in the central portion of the mold, So that it is installed to close the space between the respective triangular grooves 215 from the inside of each triangular groove 215.

As shown in FIG. 8, the inflow hole inner surface form mold 23 includes twelve plate plates 230 provided between the inner sides of the corners of adjacent triangular grooves 215, And six connecting plates 231 bent in a rectangular shape and connected to the respective inner vertex portions of the respective triangular grooves 215. Twelve plate plates 230 and six connecting plates 231 are connected to each other through The inner side surface of each wing portion in the inner side of each triangular groove 215 is assembled in the form of a regular octahedron having open sides in the direction of the central portion 8.

Each of the plate plates 230 and each connecting plate 231 of the inflow hole inner surface form mold 23 is installed at the inner vertex between the respective triangular grooves at the time of installation, And the installation of the inflow hole inner surface form mold 23 is installed by being fastened by a fastening member 24 to be described later.

The fastening member 24 is for firmly assembling the eight divided molds 21, the head finishing mold 22 and the inflow hole inner mold frame 23, as shown in FIG. 4, A flange portion 240 formed at the rim of the flange portion 215 and a rim of the triangular groove 215 and a plurality of through holes 241 formed in the respective flange portions 240 and bolts and nuts 245).

On the other hand, on the outer surface of each of the divided molds 21, a reinforcing frame 26 protruding in the form of a band along the periphery of each blade forming portion S10 is provided to prevent the outer shape of the cement mortar at the time of curing ) Is further formed to enable curing of tetrapod having uniform shape and high quality.

A process of manufacturing the artificial fish candle 10 having a radial hexapod using the mold of the present invention having the above-described configuration will be described.

First, eight divided molds 21 are prepared, and three divided molds 21 for forming the lower face of the first support legs 11 formed toward the ground face each other in the direction of each corner 3 of the first support legs 11 Three divided molds 21 for forming the direction side face portions are prepared by engaging the hinges 218 respectively and then the divided molds 21 for forming the lower face of the first support legs 11 are arranged around the divided molds (21) is assembled in a shape corresponding to the three side-direction side portions of the first support leg (11).

Thereafter, the three sides of the first support leg 11 are angled in three directions, and the divided form frame 21 for forming the upper surface of the second support leg 12 and the three-direction side surface portions of the second support leg 12 are assembled The eight divided molds 21 are assembled three-dimensionally adjacent to each other in eight directions with respect to the longitudinal center portion of the divided wing 110A, 120A, and then the flange portion 240 of the adjacent portion of each divided mold 21 (12) having a plurality of bolts and nuts (245) fastened to a plurality of bolts and nuts (245) so that six support legs are radially formed while maintaining the same angle and formed radially at a predetermined angle, Eight divided molds 21 are assembled in a three-dimensional manner so that the head molding portion S20 in the form of a flat quadrangular pyramid and the inflow hole forming portion S30 opened in eight directions in the center portion are formed.

When the eight divided molds 21 are assembled, a head finishing frame 22 is installed at an open end of the head forming portion S20 except one of the head forming portions S20 formed upward, And the connecting plate 231 is disposed on the inner side of the vertex of the triangular groove 215 in the triangle groove 215 of each of the divided molds 21 The plate plates 230 are installed between the inner sides of the corners of the triangular grooves 215 and the open sides of the respective triangular grooves 215 are closed to complete the assembling of the mold 20.

The cement mortar is poured through the open part of the head molding part (S20) which is not closed and is formed toward the upper part where the mold (20) is completed, and the opening part is closed by the head finishing frame (22) .

Then, when the curing is completed, the bolts and nuts fastened are separated from each other in the order of the plate plate 230 and the connecting plate 231 of the inflow hole inner face mold 23, and each head finishing frame 22 is divided After separating the coupling from the mold, each of the eight divided molds 21 is removed from the cured artificial candle 10, and at this time, the divided mold 21 surrounding the upper surface of the second support leg 12, The three split molds 21 wrapping in the respective side portions 3 of the legs 12 are respectively removed from the artificial fish eyes 21 through the lifting devices to which the wires are connected,

The three divided molds 21 wrapping the first support legs 11 in the direction of the respective side portions 3 are connected to the lifting device connected to the wires around the divided mold frame 21 surrounding the lower surface of the first support legs 11 So that the artificial fish candle 10 is completed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

10-artificial fishes
11- First support leg
11A-
11B-head portion
110A-split wing
12-second support leg
12A-
12B-head portion
120A-split blade
13- inlet hole
20-form
21-split frame
210-Entry groove
211-
213-molding space
213A-wing slope
213B-head slope
215-triangular groove
218-Hinge
22-head finishing frame
23-Inlet hole inner mold
230-plate plate
231-connection plate
24-
240-flange portion
241-
245-Bolt and nut

Claims (5)

The wings 11A and 12A are formed in the shape of a quadrangular pyramid having a flat upper surface at the ends of the wing portions 11A and 12A, Each of the six support legs having the head portions 11B and 12B to which the wing portions 11A and 12A are connected is maintained at the same angle as that of the adjacent support legs and the adjacent wing portions 11A and 12A The three supporting legs 11 are supported on the ground and the other three supporting legs 12 are connected to each other by a slanting inclined portion 100 inclined by an oblique line. 12 are disposed between the three support legs 11 supported on the ground and projected to the ground, and the six support legs 11, 12 are arranged inside the inclined portion of the central portion to which the six support legs 11, Radial artifacts are formed in which the inlet holes 13 are opened in eight directions through a space In the mold for making a second (10),
8 are structured in the same structure so that the artificial fish candle 10 having the six supporting legs 11 and 12 and the inlet hole 13 is wrapped in eight directions of the upper, And a molding space 213 is formed therein so that eight of the divided wings 110A and 120A can be assembled adjacent to each other with respect to the center in the longitudinal direction of the divided wings 110A and 120A and the center of the rim is formed to correspond to the inclined portion 100 of the wing portion And a molding space 213 corresponding to one side of the head portion 11B or 12B is formed at an end of each of the concave grooves 210. The molding space 213 is divided into segments A triangular groove 215 for forming the inlet hole 13 is formed at the center of the wing 110A and 120A with a half thickness of the split blade and the triangular groove 215 is formed through the triangular groove 215 And a blade having a shape corresponding to a side surface of each of the split blades (110A, 120A) inside the concave groove (210) A slope 213A is formed and a head inclined surface 213B is formed in the wing slope in three directions and formed inside the branching protrusion 211 so as to correspond to one side of the head portions 11B and 12B Dividing molds 21;
A head finishing frame 22 for closing an end face of each branching protrusion 211 opened after the assembly of the eight divided molds 21;
An inflow hole inner face mold 23 having a shape corresponding to the inside of the inflow hole 13 so as to close the inside of each triangular groove 215 after the assembly of the eight divided molds 21;
(12) formed in a radial direction at a predetermined angle when assembled and including a fastening member (24) for fastening the eight split molds (21), the head finishing frame (22), and the inflow hole inner face mold S10 and an end portion of each wing forming portion S10 are formed with a head molding S20 having a square pyramid shape having a flat upper surface and an inlet hole forming portion S30 opened at eight in the central portion,
Wherein a reinforcing frame (26) protruding in the form of a band is formed on the outer surface of the split mold (21) along the periphery to prevent deformation of the outer shape when cement mortar is cured. The method according to claim 1,
The fastening member 24 has a flange portion 240 formed at the edges of the split mold 21 and the triangular groove 215 and a plurality of through holes 241 formed in the respective flange portions 240, And a bolt and a nut (245) fastened to each other. The method of claim 2,
The inflow hole inner surface form mold 23 has twelve plate plates 230 provided between the inner side edges of the respective triangular grooves 215 and the end portions of the plate plates 230 are connected to each other, And a flange portion 240 formed at an edge of the triangular groove 215 and connected to the flange portion 240 by a bolt and a nut. The flange portion 240 is formed of six connecting plates 231, Artificial fish preform with radial hexapod. delete The method according to claim 1,
The other three supporting legs 11 and 12 of the artificial ear candle are provided with three supporting legs 11 which are directed to the ground on the lower surface of the divided form frame 21, Characterized in that the splitting form and each branching projection (211) are joined to a hinge (218).

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