KR20130087945A - A structure of the combined farming shelter - Google Patents

Abstract

The present invention relates to a composite form shelter structure, and more particularly, a plurality of vertical and horizontal support members are integrally assembled by the plurality of upper and lower shelter in a horizontal installation state to form a composite form shelter structure The upper shelter is composed of a reverse V type and a V type, but the upper bent portion of the reverse V type is formed with a feeding hole in a vertical direction through the reverse V type. On the inclined sidewalls of the mold and the V-shaped, a plurality of horizontal communication holes for the movement of the individual and the bird are formed, and the lower shelter has a concave round portion having a constant depth, and the left and right A boundary portion having a predetermined height is formed between both concave round portions, and the upper surface of the boundary portion is formed to have a horizontal cross-section portion having a predetermined width. The portion and the horizontal cross-section portion has a structure in which a through hole of a predetermined size is formed.
In particular, the vertical support member is an internal connection member which is fitted to both ends of the upper and lower connection sockets coupled to the upper and lower horizontal support members through the fixing holes formed in each of the fixing portion of the upper and lower shelters, and fixed to the inner connecting member It consists of upper and lower pipes which are fitted to the outside of the inner connecting member to fix the upper and lower shelter while maintaining the gap between the upper and lower shelter.

Description

{A structure of the combined farming shelter}

The present invention relates to a composite culture shelter structure, and more particularly, to a composite culture shelter structure configured to form different types of shelter to form a variety of shelter to form a variety of seafood through the cage in the offshore.

The aquaculture shelter and its structure to which the present invention belongs is related to a shelter and its structure for farming abalone and the like, which are considered to be mainly high value-added seafood, mainly on the coast of Korea surrounded by the sea on three sides.

 Through trade agreements between countries, many commodities are imported on a large scale without special tariffs or low tariffs, and there is a fierce competition between commodities and goods within the same sector.

In particular, in Korea, most imports are made for light industrial products, livestock products, and agricultural products, and thus, small and medium-sized companies, livestock and general farmers, which have weak competitiveness, are no longer able to compete with imported products in the conventional way. It's happening.

Therefore, even if the same product or product is produced, when the competitiveness is lowered, the era of infinite competition, which is no longer able to survive, is faced. Therefore, many efforts and researches to produce competitive and differentiated products and agricultural products in SMEs, livestock and general farms Is needed.

Of course, in marine products, some fish species depend mostly on imports, but due to the three sides of the sea, the characteristics of eating habits and the difficulty of long-term distribution, For some fish species in circulation, they still have their own competitiveness.

In particular, fish and shellfish that can be mass-produced through aquaculture on the coast close to land provide high-value products to farmers. However, this situation is also difficult to create high value-added products as the number of aquaculture farmers increases, especially as the number of aquaculture farms increases. Is occurring.

On the other hand, the abalone, among the various species of aquaculture, is becoming a high value-added commodity for aquaculture farmers, and in recent years, local governments have provided a lot of support for high value-added farming to create coastal resources and increase fishers' income. As the situation is over, the overturn is also expected to lower the price of the abalone as the output exceeds the demand.

Moreover, in the case of veteran abalone, which is mainly farmed on the coast of Korea, if the production time is constant and mass shipments occur at one time, the price drop is natural, and the fishermen who invested a lot of capital Receiving less than this, the situation has to come up with measures.

Most of the abalone shelter and its structure disclosed in the related art were to improve the habitat environment of cultured abalone, or to stack a large number of shelter up and down for mass production, so that a large amount of abalone can be produced at a low cost in a small space. .

For example, although Korea Patent Registration No. 10-0343596 (name: multi-stage shelter for abalone farming) was conceived, this conventional technology is conceived for the purpose of increasing the yield of the individual when farming flocks on land. It is not intended to solve the above problems.

In addition, although raw feed (seaweed, etc.) is fed as food for farmed abalone, it is difficult to provide enough live feed produced in a given environment due to the increase in the use of raw feed due to the increase in aquaculture. The trend is to import and use.

In addition, not all of the live feed provided to aquaculture organisms such as abalone is used as food, but some of the food provided is discarded, raising the need for its recycling.

In addition, in recent years, as the density of the aquaculture grows due to the appearance of mass production facilities, a variety of disease outbreaks and growth deficiency occur, and artificial feeds are used to prevent them. In addition, there is a lot of feed loss, and due to the discarded artificial feed, the water quality of the coastal waters around the farm is becoming seriously contaminated by eutrophication.

Therefore, in view of such a conventional situation, the present inventors prevent the overproduction of single product by preventing the overproduction of single product by compounding different kinds of seafood in the shelter installed in the same farm, thereby reducing the investment loss of fishermen. The company has also created a complex farming shelter structure to minimize the loss of discarded fodder and to recycle it to prevent coastal water pollution.

The present invention has been made to solve the problems according to the conventional aquaculture products described above, it is possible to simultaneously culture the different species (에서) in a shelter installed in a single farm to improve the profitability of fishermen The aim is to provide aquaculture shelter structures.

Another object of the present invention is to provide a shelter structure for a composite farming to minimize the pollution of the water quality by reducing the amount and loss of food provided by simultaneously farming different individuals between the upper and lower shelter.

In addition, the present invention is easy to adjust the spacing between the shelter made up and down to provide a complex form shelter structure that can be properly adjusted according to the habitat environment of the individual inhabiting each shelter is another object.

In order to achieve the above object, the composite form shelter structure according to the present invention in a state spaced apart from the upper and lower shelter by a plurality of vertical and horizontal support members in a state in which a plurality of unit shelters are continuously installed in the horizontal direction up and down As a composite form shelter structure that is assembled integrally, the upper shelter is made of a continuous form of reverse V type (V) and V type (관통), but penetrates up and down the upper bent portion of the reverse V type (∧) The feeding hole is formed in a predetermined size, the inverted V-shaped and V-shaped inclined sidewalls are formed with a plurality of horizontal communication holes for the movement of the inhabitants and the movement of the birds are formed, the lower The shelter has a concave round part having a constant depth, but a boundary of a certain height is formed between the left and right concave round parts as a boundary role. , The top surface of the interface portion is made of a horizontal cross section is formed so as to have parts of the round portion side surface section and the horizontal cross-section portion has through-holes of a predetermined size formed structure having a specified width.

In particular, the plurality of vertical and horizontal support members are assembled into a rectangular parallelepiped shape, and the upper and lower shelter has a structure in which fixing parts formed at each corner portion are fixed to the vertical member.

In addition, the vertical support member is an internal connection member which is fitted at each end of the upper and lower connection sockets coupled to the upper and lower horizontal support members through the fixing holes formed in each of the fixing portion of the upper and lower shelters, and the internal connection Upper and lower pipes fitted to the outside of the inner connecting member so as to be positioned between the lower shelter fixing part and the upper shelter fixing part and between the upper shelter fixing part and the upper connecting socket while maintaining a gap between the upper and lower shelters in which the fixing parts are fitted. Consists of a ring, the coupling piece is fastened to the outside of the upper and lower connecting sockets are fixed to the upper and lower pipes and upper and lower shelters fixedly fitted to the connecting socket and the inner connecting member and the outer periphery of the inner connecting member is integrally installed Made of structure.

In addition, the lower shelter is configured to have a structure capable of preventing the lower shelter from sagging by the weight of the object to be installed is installed so that the front and rear edges of the round portion over the top of the horizontal support member.

The shelter structure for a composite culture according to the present invention described above is configured to form an abalone in the upper shelter and a sea cucumber in the lower shelter in one integrated structure, so that the shelter structure can be complex cultured different objects simultaneously To provide.

Therefore, it is possible to improve the utilization efficiency of farms in farming seafood, as well as to make it possible to farm different kinds of animals at the same time, thereby improving and improving the profitability of the farmers.

In addition, it is possible not only to save the feeding amount by simultaneously breeding different objects on the upper and lower shelter, but also to provide the by-product of abalone from the upper shelter as the food of the sea cucumbers in the lower shelter. It provides the effect of preventing marine pollution due to supply.

In addition, it is convenient to use the shelter structure for aquaculture as a simple assembly type, the shelter that can properly adjust the gap between the upper shelter and the lower shelter by varying the size of the hollow pipe and the inner connecting member of the vertical support member Provides useful effects that can provide a structure.

1 is an external perspective view of an assembled state of a shelter structure for a composite form according to the present invention,
Figure 2 is an exploded perspective view of the composite form shelter structure according to the present invention,
Figure 3 is a bottom perspective view of a complex shelter structure according to the present invention,
4 and 5 is an external perspective view of the upper shelter and the lower shelter constituting the shelter structure for a composite form according to the present invention,
6 is a cross-sectional view of the vertical support member coupled to the portion A of FIG.
7 is a front view and a partially enlarged view of a composite shelter structure of the present invention,
Figure 8 is a schematic use state diagram of a composite shelter structure according to the present invention.

The composite shelter structure according to the present invention is to be able to form different objects at the same time in the shelter installed in one farm, the upper shelter to form the abalone, the lower shelter to form a sea cucumber to the horizontal support member The upper shelter and the lower shelter are installed in the inner space woven in a predetermined size, and the upper shelter and the sea cucumber form for abalone farming are fixed by being fixed to the plurality of vertical supporting members installed in the vertical direction to the connecting socket connecting the plurality of horizontal supporting members. The lower shelter is composed of a structure assembled to a single cuboid structure.

Hereinafter, with reference to the accompanying drawings, a characteristic configuration and structure of the present invention will be described in detail.

The composite form shelter structure of the present invention shown in the drawings shows one unit shelter structure, in actual use can be used by connecting a plurality of such unit shelter structure.

Therefore, hereinafter, the features of the present invention will be described based on one unit shelter structure shown in the drawings.

1 is an external perspective view of the multi-modal shelter structure 100 according to the present invention, Figures 2 and 3 shows an exploded perspective view and a bottom perspective view of the multi-modal shelter structure 100 according to the present invention.

 In addition, Figure 4 and Figure 5 shows an external perspective view of a single unit of the upper shelter 10 and the lower shelter 20 constituting the composite shelter structure 100 according to the present invention, respectively.

As shown in the perspective view of Figure 1, the complex shelter structure 100 according to the present invention is a unit shelter divided into a predetermined size is installed in a series, a plurality of shelter fixing portion vertical support member from the outermost left end to the outermost right end An upper shelter 10 fixed to the unit 50 and assembled in an integrated structure, and a unit shelter divided into the same size as the upper shelter 10 in the lower portion of the upper shelter 10 is continuously installed at the outermost left end. Constructing a lower shelter 20, and the upper shelter 10 and the lower shelter 20 in the form of a rectangular parallelepiped to the outermost right end is assembled in a unitary structure fixed to the vertical support member (50) The upper and lower horizontal support members 30 and 40 having a pipe shape are installed to the outside of each shelter, and the upper and lower horizontal support members 30 and 40 are spaced at a predetermined height between the upper and lower horizontal support members 30 and 40. As the key is achieved by a plurality of vertical support member 50 for fixing the top shelter 10 and the lower shelter 20 as an essential component.

The separation of such major components is shown in FIG. 2.

2 shows the upper and lower horizontal support members 30 and 40 as assembled in a frame of a predetermined size as it is, and the upper shelter 10 and the lower shelter 20 are continuously installed as they are actually assembled. The vertical support member 50 of the plurality of vertical support members installed vertically between the upper and lower horizontal support members 30 and 40 is separated and illustrated.

The composite shelter structure 100 according to the present invention, the upper shelter 10 and the lower shelter 20 in which the inhabitants are inhabited, each of which is divided into a predetermined size, as shown in the figure, continuous installation in the transverse direction The upper and lower horizontal support members made of a circular pipe shape to be assembled to a predetermined size, the upper and lower shelter (10, 20) to form the upper and lower laminar structure of the upper shelter 10 and the bottom edge of the lower shelter 20 ( 30 and 40 are assembled in a square shape, and the vertical support member 50 having a predetermined height is disposed between the upper and lower horizontal support members 30 and 40 at the corners of the upper and lower horizontal support members 30 and 40 and the middle thereof. Each is installed to have a structure for fixing the upper and lower shelter (10, 20).

That is, the upper and lower horizontal support members 30 and 40 constitute a rectangular frame, and the plurality of intermediate support members 32 and 42 are disposed at regular intervals between left and right horizontal support members so that the rectangular frame is firmly maintained. Is installed.

The upper and lower horizontal support members 30 and 40 are integrally assembled by combining a plurality of divided parts having a predetermined size, and each divided horizontal support member has two or more connection sockets 60, preferably T-type or It is assembled in up, down, left and right directions by Y-shaped three-hole connecting socket and four-hole connecting socket respectively.

In addition, the horizontal support member, that is, the upper horizontal support member 30 and the lower horizontal support member 40 is a vertical support member 50 having a predetermined height at each corner and its intermediate portion is coupled to the connecting socket to the upper and lower horizontal The support members 30 and 40 are assembled integrally.

The vertical support member 50 is fitted at both ends of the connection socket 60 coupled to the upper and lower horizontal support members 30 and 40, respectively, and has a predetermined length to connect the upper and lower horizontal support members 30 and 40. It consists of an internal connection member 52, and a plurality of hollow upper and lower pipes (54, 56) fitted to the outside of the internal connection member 52.

The inner connecting member 52 constituting the vertical support member 50 has a diameter smaller than that of the inner diameter of the connecting socket 60 so that both ends are fitted into the connecting socket 60, and the hollow upper and lower pipes ( 54 and 56 are configured to have a somewhat larger diameter than the inner connecting member 52 so as to be fitted to the outside of the inner connecting member 52 to serve as a gap maintaining member for maintaining a gap between the upper and lower shelters 10 and 20.

Therefore, after continuously arranging the lower shelter 20 to the upper portion of the lower horizontal support member 40 in the state where the upper horizontal support member 30 and the lower horizontal support member 40 are assembled, the vertical support member 50 is provided. The inner connection member 52 of the fitting to the fitting hole 62 of the connection socket 60 coupled to the lower horizontal support member 40.

At this time, the connecting socket 60 coupled to the lower horizontal support member 40 has three or four or more fitting holes 62, and the other one of the plurality of fitting holes to which the horizontal supporting member is not connected is provided. It is installed to face upward, and the inner connecting member 52 coupled to the fitting hole is installed in a vertical direction with respect to the ground.

As the inner connecting member 52 is fitted to the lower horizontal support member 40, the lower shelter 20 disposed on the lower horizontal support member 40 has a fastener 29 formed in the fixing unit 28. The lower pipe 56 is fitted to the outside of the internal connection member 52 vertically installed and fixed to the member 52 to press the fixing part 28 of the lower shelter 20, and the lower pipe ( The upper shelter 10 is disposed on the internal connection member 52 fitted with 56.

When the upper shelter 10 is assembled so that the fastener 19 formed in the fixing portion 18 is fitted to the inner connecting member 52, the installation is completed simply, and after the upper shelter 10 is installed, the inner connecting The upper pipe 54 is inserted into the member 52, and the upper horizontal support member 30 is fitted into the inner connection member 52 to which the upper pipe 54 is coupled to complete the complex shelter structure. do.

In such an assembled state, the assembled vertical support member 50 is driven from the upper and lower ends of the vertical support member 50 or from the outside of the upper and lower connection sockets 60 by screwing a coupling piece 70 such as a screw. Combine with

The upper and lower horizontal support members 30 and 40 and the vertical support member 50 may be made of plastic hollow pipes, and the hollow pipes may have a predetermined weight so that the assembly structure sinks to the sea floor. The metal pipe may be integrally formed, and the horizontal support members 30 and 40 and the vertical support member 50 may be formed in a rectangular pillar shape or other shape rather than a cylindrical shape.

In addition, in the above description, the lower horizontal support member 40, the lower shelter 20, the inner connecting member 52, the lower pipe 56, the upper shelter 10, the upper pipe 54, the upper horizontal support Although the assembly is described in the order of the member 10, its assembly order may be changed according to the convenience of assembly.

On the other hand, Figure 4 and Figure 5 shows an external perspective view of a single unit state of the upper shelter 10 and the lower shelter 20 constituting the composite culture shelter structure 100 of the present invention, respectively.

First, referring to FIG. 4, the upper shelter 10 will be described. The upper shelter 10 is to provide a place where abalone is inhabited, and the shapes thereof are reverse V-shaped and V-shaped. , The reverse V-shape (∧) is formed alternately to form one unit shelter, the feeding of a predetermined size penetrated in the vertical direction through the reverse V-shaped upper bent portion 12 of the upper shelter 10 A ball 14 is formed.

In addition, the inverted V-shaped and V-shaped inclined sidewalls 15 of the upper shelter 10 move left and right to allow the farmed abalone to move in and out of the shelter or to move a bird in the horizontal direction. A plurality of penetrating communication holes 16 are formed.

In particular, the upper shelter 10 has a fixed portion 18 is formed so that the left and right ends are bent in the outer horizontal direction at the end of the inclined side wall 15 to have a predetermined flat horizontal cross-section portion, the corner of each fixing portion 18 A plurality of fixing holes 19 are formed in the portion and the middle portion to be inserted into the vertical support member 50 to fix the upper shelter 10 to the vertical support member 50.

The upper shelter 10 is formed in a shape that is bent into a reverse V type (V) and V shape (증가) in order to increase the density number of the abalone to be farmed, but in addition to these shapes in order to increase the population of the abalone and improve the habitat environment It can be changed into various shapes.

In addition, when the lower shelter 20 is described with reference to FIG. 5, the lower shelter 20 is spaced apart from the upper shelter 10 at an interval with respect to the upper shelter 10, and the cultured sea cucumbers are cultured. In order to provide an environment, a concave round portion 22 having a constant depth has a structure formed on both left and right sides with respect to the boundary portion 24 formed at the center.

In addition, the right and left sides of the round portion 22 is formed with a rectangular communication hole 26 is formed of a structure capable of the movement of algae and the sea cucumbers that are farmed, with a predetermined height between the left and right round portions 22 The protruding boundary portion 24 is formed to have a horizontal cross-section portion 25 having a flat top surface, and the outer edge portions of both round portions 22 have the same or similar height as the boundary portion 24 at the ends of the round portions. The fixing portion 28 is bent in the outward direction and has a horizontal cross-section is formed, the fixing hole 29 for fitting to the vertical support member 50 in the corner portion and the middle portion of the fixing portion 28 These are each formed through.

The horizontal cross section 25 of the boundary portion 24 may be manufactured by forming a plurality of through holes as necessary.

On the other hand, Figure 6 is an enlarged cross-sectional view for explaining the coupling configuration of the vertical support member 50 and the coupling state of the upper shelter 10 and the lower shelter 20.

As shown in the figure, the lower end of the vertical support member 50, the internal connection member in the fixing hole formed in the fixing portion 28 of the lower shelter 20 is fitted to the outside of the internal connection member 52 The position is fixed by the lower pipe 56 is fitted to the outer periphery of the 52, the upper end of the lower pipe 56 is fixed to the fixing portion 18 of the upper shelter 10 In the state where the ball is fitted to the outside of the internal connection member 52 is made of a structure in which the position is fixed by the upper pipe 54.

That is, the upper and lower pipes 54 and 56 are fitted to the outside of the inner connecting member 52 at each upper end of the upper shelter 10 and the lower shelter 20 so that each of the upper shelter 10 and the lower shelter 20 is lowered. By pressing and fixing the fixing parts 18 and 28, the upper shelter 10 and the lower shelter 20 are firmly installed to the vertical support member 50 between the upper and lower horizontal support members 30 and 40, and vertical support When the assembly 50 is completed, the coupling piece 70 is coupled to the outside of the upper and lower connecting sockets 60 to fix the connecting socket 60 and the internal connecting member 52 to the vertical support member 50. The combined upper and lower shelter 10, 20 to be fixed so as not to flow.

On the other hand, Figure 7 shows a front view and a partially enlarged view of the complex shelter structure 100 according to the present invention.

As described above, the upper shelter 10 and the lower shelter 20 to which the fixing portions 18 and 28 are fixed by the vertical support members 50 are piped up and down the vertical support members 50. It is installed to maintain a constant gap up and down by).

In addition, when the unit shelters 10 and 20 are continuously installed in the transverse direction, both side fixing parts 18 and 28 formed in different shelter overlap each other, so that the fixing parts formed on the fixing parts 18 and 28 are overlapped. The inner connection member 52 of the vertical support member 50 in the ball matched state is fitted into the upper and lower fixing holes to be fixed at the same time different shelter on the left and right.

That is, the upper shelter 10 and the lower shelter 20 is applied to the multi-modal shelter structure 100 according to the present invention is formed with a fixed portion (18, 28) having a horizontal cross section of a predetermined width on both left and right corners, respectively The corners of the fixing parts 18 and 28 and the fixing holes 19 and 29 formed in the middle part thereof are fitted to the outside of the internal connection member 52 of the vertical support member 50 as described above. It is made of a structure that is fixed by the ring (54, 56), each of the shelter adjacent to each other the fixing parts (18, 28) formed on each side overlap each other two fixing holes (19, 29) at the same time internally connected Fitted to the outside of the member 52, each shelter is in close contact with each other is made of a continuous structure.

In addition, the lower shelter 20 is installed on the upper portion of the lower horizontal support member 40 is fixed to both sides of the vertical support member 50 is fixed, the bottom surface of the front and rear outermost round portion 22 is lower horizontal support It is installed to cover the upper end of the member 40 is installed so that the lower horizontal support member 40 can support the weight of the lower shelter 20.

In addition, the upper and lower intervals of the upper shelter 10 and the lower shelter 20 can be adjusted according to the length of the inner connecting member 52 and the upper and lower pipes 54 and 56 constituting the vertical support member 50, The habitat environment can be arbitrarily adjusted according to the type of aquaculture.

On the other hand, Figure 8 illustrates a schematic use state of the state in which the net (G) is installed with two of the multi-modal shelter structure 100 of the present invention is connected.

As shown in FIG. 8, the composite form shelter structure 100 according to the present invention is formed after the cage net is formed in a form surrounding the shelter structure in which one or more interconnections are installed.

In other words, the upper shelter is inhabited by the abalone plaque, and the lower shelter is inhabited by sea cucumbers, when feeding from the sea, the food is supplied to the lower shelter through the feeding hole formed in the upper shelter of the structure This provides the effect of simultaneously farming two objects in one feed.

In addition, the excrement of abalone or food residue inhabiting the upper shelter falls to the lower shelter and is provided as food for the sea cucumber inhabiting the lower shelter. Allow multiple forms to grow simultaneously.

The shelter structure for aquaculture according to the present invention can increase the income of fishermen by simultaneously farming a plurality of individuals in a limited farm, or loss through the breeding of other individuals when the price of a particular individual in accordance with a large aquaculture is reduced. It should be available as a composite farming shelter structure to preserve it.

In particular, it is possible to produce different foods in both upper and lower duplexes at the same time, so that even if a variety of foods are provided, the two animals can be farmed at the same time with minimal feeding, thereby reducing the loss of food as well as providing excessive food quality. It can be used as a compounding shelter to prevent contamination.

10: upper shelter 12: upper bent portion
14: feeding hole 15: side wall
16,26: communication 18,28: fixed part
19,29: fixing hole 20: lower shelter
22: round part 24: boundary part
25: horizontal cross section 30: upper horizontal support member
32,42: intermediate supporting member 40: lower horizontal supporting member
50: vertical support member 52: internal connection member
54: upper piping 56: lower piping
60: connecting socket 62: fitting hole
100: Shelter structure for composite farming

Claims (4)

In the shelter structure for a composite form that is assembled integrally spaced apart at regular intervals between the upper and lower shelter by a plurality of vertical and horizontal support members in a state in which a plurality of upper and lower shelter made of a predetermined size, continuously arranged in the horizontal direction,
The upper shelter is made of a reverse V type (V) and V type (∨) continuous form, the upper bent portion of the reverse V type (∧) is formed with a feeding hole in the vertical direction in a predetermined size, the reverse V The slanted sidewalls of the die and V form a structure in which a plurality of horizontal communication holes are formed for the movement of the inhabitants and the movement of the birds.
The lower shelter is formed in a concave round portion having a constant depth, the boundary portion of a certain height is formed between the left and right concave round portion to play a boundary role, and the upper surface of the boundary portion has a horizontal cross section having a predetermined width Is formed, the side surface portion of the round portion and the horizontal cross-section portion of the complex form shelter structure, characterized in that made of a structure formed with a through hole of a predetermined size. The method of claim 1,
The plurality of vertical and horizontal support members are assembled into a frame of one rectangular parallelepiped, the complex form shelter structure, characterized in that the fixing portion formed on each of the corners of the upper and lower shelter is fixed to the vertical member. The method of claim 2,
The vertical support member may include an internal connection member fitted at both ends of upper and lower connection sockets coupled to the upper and lower horizontal support members through the fixing holes formed in the fixing parts of the upper and lower shelter;
The outer connecting member is inserted into the outer connecting member so as to be positioned between the lower shelter fixing part and the upper shelter fixing part and between the upper shelter fixing part and the upper connecting socket while maintaining a gap between the upper and lower shelter fitted with each fixing part in the inner connecting member. Consisting of upper and lower piping;
The coupling piece is fastened from the outer side of the upper and lower connection socket to which the inner connecting member is fitted, and the upper and lower piping and upper and lower shelter fitted to the outer circumference of the connecting socket and the inner connecting member are fixedly installed. Composite form shelter structure, characterized in that made. The method of claim 3,
The lower shelter is a composite shelter structure, characterized in that the front and rear corners of the round portion is installed so as to span the top of the horizontal support member.

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