KR102301787B1 - Harbor structure having block unit - Google Patents

Abstract

A port structure including a destruction prevention unit according to an embodiment of the present invention includes an internal space of a certain size, a lower plate having a coupling protrusion on the lower surface, and disposed in the inner space of the lower plate, the lower plate a plurality of connecting pipes extending in a vertical direction from the It is characterized in that it includes a cover portion.

Description

Harbor structure including destruction unit {HARBOR STRUCTURE HAVING BLOCK UNIT}

The present invention relates to a port structure including a destruction prevention unit, and more particularly, to a port structure including a destruction prevention unit capable of tidal communication in waters within a port and waters outside the harbor.

In general, a breakwater is an essential facility in a port to block the entry of waves constantly coming from the open sea to maintain the calm temperature of the sea level in the port, and to keep various facilities in the port and ships moored in a safe state. It is a structure, and when constructing a breakwater, a legal breakwater should be installed in the port in consideration of the size of the maximum wave at the construction location, ground conditions, and construction method.

As for the concrete structure built on such a breakwater, a conventional rectangular concrete block formed by pouring concrete mortar into a certain mold and drying it is used.

Korean Patent Registration No. 10-0642342 discloses a foundation that is built at a certain height through sandstone on the bottom of the seabed; It is cylindrical and consists of a main body equipped with a "U"-shaped ring on both end surfaces, and a set of first and second prisms formed radially while maintaining the same angle on both sides of the periphery of the main body. Sofa blocks that are stacked in multiple stages; It is fastened to the ring of the sofa block and includes a clamp for binding the sofa blocks arranged in the transverse direction on the same floor, and the first and second pole sets of the sofa block are adjacent to the second sofa blocks stacked at the bottom. It is characterized in that it is coupled with the sofa blocks at the bottom by maintaining a circumscribed interval to the set of 1 and 2 prisms.

Korean Patent Registration No. 10-0720320 discloses a breakwater for protecting an inner harbor by blocking waves from the outside sea, wherein the breakwater is installed to be in contact with the seabed (W) for installing the breakwater, and a plurality of first fastenings on the inside A plurality of first concrete rods having a ball are installed at equal intervals in contact with the sea floor (W), and a first connecting bar having a first nut portion is inserted to connect a plurality of first concrete rods to each of the first fastening holes. a bottom layer to which nuts (N) are fastened at both ends; It is interposed between the first concrete rod and the first concrete rod so as to firmly fix the bottom layer to the sea floor (W), and a screw to be buried in the sea floor (W) is formed in the lower part, and an inflow groove is formed in the upper part a fixture integrally formed on both sides with a through hole communicating with the inlet groove so that the first connecting bar can be inserted; A plurality of second fastening holes between the first concrete bar and the first concrete bar and a plurality of second concrete bars communicating with the second fastening holes and having a second insertion groove opened downward are installed to be stacked in multiple stages, 2 An intermediate layer in which a second connecting bar having a second nut portion is inserted to connect a plurality of second concrete bars to the fastening hole, and nuts (N) are fastened at both ends; A plurality of third fastening holes and a plurality of third concrete bars communicating with the third fastening holes and having a third insertion groove opened downward are installed between the uppermost second concrete bar and the second concrete bar of the intermediate layer to be stacked, and each 3 an upper layer in which a third connecting bar having a third nut portion is inserted so as to connect a plurality of third concrete rods to the fastening hole, and nuts (N) are fastened at both ends; It is installed to be stacked on the plurality of third concrete rods, a fastening hole is formed inside so that the third connecting bar can be inserted, and a semicircular groove opened downward so that the third concrete rod can be inserted into the lower portion is formed. The cap and the first connecting bar, the second connecting bar, and the third connecting bar are interposed between the first, second, and third concrete bars so as to be connected, respectively, and the upper part is inserted into the insertion groove formed in the concrete bar of each floor, respectively. It is characterized in that it is configured to include a connector having a through hole in the upper and lower portions of which the connecting bars of each layer are inserted.

Korean Patent No. 10-0642342 Korean Patent No. 10-0720320

In one embodiment of the present invention, by arranging the pillar-shaped destruction prevention units to be spaced apart at a predetermined interval, the current communication between the water area in the port and the water area outside the port is possible, thereby preventing the existing destruction prevention from cracking and damage to quarrying. It is an object of the present invention to provide a port structure including a destruction prevention unit that can prevent environmental destruction caused by

An embodiment of the present invention is a port structure including a destruction prevention unit that prevents cracks and damage that can handle environmental waste while increasing the strength of the entire structure by embedding recycled materials in the empty space within the pillar-shaped destruction prevention unit. would like to provide

A port structure including a destruction prevention unit according to an embodiment of the present invention includes an internal space of a certain size, a lower plate having a coupling protrusion on the lower surface, and disposed in the inner space of the lower plate, the lower plate a plurality of connecting pipes extending in a vertical direction from the It is characterized in that it includes a cover portion.

The cover part is characterized in that it further comprises an injection hole for concrete injection.

The connection pipe is characterized in that it uses recycled waste materials, such as waste pipes, waste materials, and a combination thereof, as an internal filler together with the assembly of concrete and reinforcing bars.

The plurality of connection pipes are spaced apart from each other at regular intervals along the major and minor axes of the lower plate and the upper plate.

It is perpendicular to the plurality of connection pipes, characterized in that it further comprises a reinforcing bar support penetrating the plurality of connection pipes.

The one or more destruction prevention units are stacked up and down with the adjacent destruction prevention units, or the one or more destruction prevention units are arranged adjacent to the adjacent destruction prevention units to the left and right.

The connection pipe is formed in a shape extending in a direction perpendicular to the lower plate and the upper plate, and the diameter from one end to the other end of the connection pipe is a constant cylinder shape, or the central portion of the connection pipe is larger than the diameter of both ends of the connection pipe. It is characterized in that it is formed in the form of a column having a concave portion having a small diameter.

In a structure in which one or more destruction-proof units are stacked up and down, the coupling groove of the cover part of the destruction-proof unit located at the lower part and the coupling protrusion of the lower plate of the destruction-proof unit located on the upper part are combined, so that one or more destruction-proof units are stacked up and down It is characterized by forming a structure.

The disclosed technology may have the following effects. However, this does not mean that a specific embodiment should include all of the following effects or only the following effects, so the scope of the disclosed technology should not be construed as being limited thereby.

The port structure including the destruction prevention unit according to an embodiment of the present invention is to arrange the pillar-shaped destruction prevention units to be spaced apart from each other at regular intervals so that the current communication between the water area within the port and the water area outside the port is possible, thereby preventing environmental destruction due to quarrying. technology can be provided.

A port structure including a destruction prevention unit according to an embodiment of the present invention provides a technology for effectively processing environmental waste while increasing the strength of the entire structure by embedding recycled materials in the empty space in the pillar-shaped destruction prevention unit. can In particular, it provides an effect of preventing cracks and breakage of the existing block.

1 is a view showing a port structure including a destruction prevention unit according to an embodiment of the present invention.
Figure 2 is a view showing a lower plate of the destruction unit according to an embodiment of the present invention.
Figure 3 is a view showing the top plate of the destruction-proof unit according to an embodiment of the present invention.
Figure 4a, Figure 4b, Figure 4c and Figure 5 is a view showing a connection pipe of the destructive unit according to an embodiment of the present invention.
6 to 9 are views showing the arrangement and form of the destruction prevention unit according to an embodiment of the present invention.

Since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiment described in the text. That is, since the embodiment may have various modifications and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects, it should not be understood that the scope of the present invention is limited thereby.

On the other hand, the meaning of the terms described in the present application should be understood as follows.

Terms such as “first” and “second” are for distinguishing one component from another, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component.

When a component is referred to as being “connected to” another component, it should be understood that the component may be directly connected to the other component, but other components may exist in between. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle. Meanwhile, other expressions describing the relationship between elements, that is, “between” and “immediately between” or “neighboring to” and “directly adjacent to”, etc., should be interpreted similarly.

The singular expression is to be understood to include the plural expression unless the context clearly dictates otherwise, and terms such as "comprises" or "have" refer to the embodied feature, number, step, action, component, part or these It is intended to indicate that a combination exists, and it should be understood that it does not preclude the possibility of the existence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

Identifiers (eg, a, b, c, etc.) in each step are used for convenience of description, and the identification code does not describe the order of each step, and each step clearly indicates a specific order in context. Unless otherwise specified, it may occur in a different order from the specified order. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Terms defined in general used in the dictionary should be interpreted as being consistent with the meaning in the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present application.

1 is a view showing a port structure including a destruction prevention unit according to an embodiment of the present invention.

Referring to FIG. 1 , the destruction prevention unit 100 includes a lower plate 110 , an upper plate 130 , a plurality of connecting pipes 120 connecting the lower plate 110 and the upper plate 130 , and a cover part 140 . ) is included.

The lower plate 110 and the upper plate 130 are positioned parallel to each other and spaced apart from each other by a predetermined height. The lower plate 110 includes a coupling protrusion 115 on its lower surface, and here, the lower plate 110 and the upper plate 130 are expressed in a rectangular shape, but the present invention is not limited thereto and may be formed in various shapes.

The cover part 140 includes a coupling groove 135 on the upper surface, and the coupling groove 135 formed in the cover part 140 of the destruction prevention unit 100 and the lower plate of another destruction prevention unit 100 vertically adjacent to each other. The coupling protrusions 115 provided on the 110 may be coupled to form a vertically stacked structure.

One end of the plurality of connection pipes 120 is coupled to the lower plate 110 , and the other end of the plurality of connection pipes 120 is coupled to the upper plate 130 . That is, the connection pipe 120 is provided between the lower plate 110 and the upper plate 130 . The plurality of connection pipes 120 may be coupled to the lower plate 110 and the upper plate 130 through concrete.

The plurality of connection pipes 120 are formed in the form of columns extending long in a direction perpendicular to the lower plate 110 and the upper plate 130 . The connecting pipe 120 is preferably formed in a cylindrical shape for the smooth communication of birds, but the shape of the column is not limited thereto and may be formed in the form of a polygonal column.

A plurality of connection pipes 120 are disposed to be spaced apart from each other by a predetermined interval. A plurality of connection pipes 120 are arranged to be spaced apart from each other at regular intervals along the long axis and short axis directions of the lower plate 110 and the upper plate 130, and a predetermined interval between the connection pipes 120 according to the arrangement spaced apart from each other by a predetermined interval. gap is created. The connecting pipes 120 maintain a gap at a certain interval, and by this gap, current communication with the water area inside the port and the water area outside the port is possible. Existing breakwaters have problems in that a certain area of the birds is isolated and the environment is destroyed due to quarrying because the flow of birds is not smooth. As in the present invention, as the tidal flow between the water area within the port and the water area outside the port becomes smooth, water pollution in the port can be prevented.

In addition, since the lower plate 110 , the upper plate 130 , and the plurality of connection pipes 120 can be attached to each other to be integrally installed, it is possible to increase the strength of the port structure including the destruction prevention unit.

Figure 2 is a view showing the lower plate of the destruction unit according to an embodiment of the present invention.

Referring to FIG. 2 , the lower plate 200 of the destruction prevention unit has an internal space 205 of a predetermined size, and includes a plurality of coupling protrusions 210 on the lower surface. A plurality of coupling protrusions 210 are spaced apart from each other at regular intervals. Here, only the circular coupling protrusion 210 is shown, but the present invention is not limited thereto, and various types of coupling protrusions may be formed. The plurality of coupling protrusions 210 may all have the same diameter or may be formed with different diameters.

The coupling protrusion 210 is coupled to the coupling groove ('135' in FIG. 1) of the cover part ('140' in FIG. 1) of the blockage unit disposed adjacently.

Figure 3 is a view showing a cover portion of the destruction prevention unit according to an embodiment of the present invention.

Referring to Figure 3, the cover portion 300 of the destruction unit includes a plurality of coupling grooves 310 on the upper surface. The coupling groove 310 may be combined with the coupling protrusion of the lower plate of the adjacent destruction prevention unit to form an upper and lower stacked structure of the destruction prevention unit.

The cover part 300 of the destruction prevention unit includes an injection hole 320 penetrating the cover part 300 . Concrete is injected through the injection hole 320 so that the upper plate and the cover part 300 are coupled.

Figure 4a, Figure 4b, Figure 4c and Figure 5 is a view showing a connection pipe of the destruction prevention unit according to an embodiment of the present invention.

First, referring to FIG. 4A , the connection pipe 400 of the destruction prevention unit includes a hole 410 in which an internal filler can be embedded.

The connecting pipe 400 is disposed in the inner space of the lower plate 450 , and a reinforcing bar support 460 passing through the connecting pipe 400 may be installed in order to increase the bonding force between the adjacent connecting pipes 400 . Concrete is poured into the lower ends of the connecting pipes 400 connected by the reinforcing bar support 460 to fix the connecting pipe 400 and the lower plate 450 . Here, the reinforcing bar support 460 may be formed to cross along the long axis direction and the minor axis direction of the lower plate 450 , and one or more reinforcing bar supports may be formed. In addition, the reinforcing bar support 460 may be formed to have a circular structure in the connection pipe 400 .

The connection pipe 400 is perpendicular to the bottom surface and may be formed in the form of a column extending in the longitudinal direction. The connecting pipe 400 is arranged to be spaced apart from the adjacent connecting pipe 400 by a predetermined distance W1. The connection pipe 400 is preferably formed in a cylindrical shape for the smooth communication of birds, but the shape of the column is not limited thereto and may be formed in the form of a polygonal column.

The connecting pipe 400 may be formed of a PE pipe, iron or concrete, etc., and the connecting pipe 400 is a hole 410 for recyclable waste materials such as waste pipes, waste materials, etc. along with the assembly of concrete and reinforcing bars, and combinations thereof. ) and can be used as an internal filler.

Figure 4b shows a state in which the reinforcing bar assembly 415 is installed on the inner wall of the hole 410 of the connection pipe 400, and Figure 4c shows a state in which the waste material 417 is used as an internal filler. In addition, from the lower end of the connection pipe 400 to a predetermined height, the concrete may be embedded, and various internal fillers may be embedded from the predetermined height or more. Recyclable waste materials such as environmental waste or construction waste may be buried and used as a filler inside the connection pipe 400 . By using recyclable waste materials such as waste pipes, waste materials, and combinations thereof as internal fillers along with the assembly of concrete and reinforcing bars, it is possible to increase the recycling rate of resources and effectively treat waste to prevent environmental pollution.

Referring to FIG. 5 , the connection pipe 500 of the destruction prevention unit includes a hole 510 in which a filler may be embedded. The hole 510 may have various diameters. Here, only the circular hole 510 is shown, but the present invention is not limited thereto and may be formed in various shapes.

The connection pipe 500 is perpendicular to the bottom surface and is formed in the form of a column extending in the longitudinal direction, but the diameter of the central part of the connection pipe 500 is smaller than the diameter of both ends of the connection pipe 500, that is, the connection pipe. The concave portion 520 may be formed in the center of the 500 .

As shown in Figure 5, as the concave portion 520 is provided in the center of the connecting pipe 500, the interval W2 with the connecting pipe 500 disposed adjacently is increased, so that the communication of birds can proceed more smoothly. .

The connecting pipe 500 may be formed of a PE pipe, iron or concrete, etc., and the connecting pipe 500 is composed of recyclable waste materials such as waste pipes, waste materials, etc. together with the assembly of concrete and reinforcing bars, and combinations thereof as internal fillers. Can be used. In addition, from the lower end of the connection pipe 500 to a certain height, the concrete is buried, and a space for additional embedding is provided above a certain height. Recyclable waste materials, such as environmental waste or construction waste, may be buried in this space and used as a filler inside the connection pipe 500 . By using recyclable waste materials as internal fillers, it is possible to increase the recycling rate of resources and prevent environmental pollution by effectively disposing of waste.

6 to 8 is a view showing the arrangement of the destruction prevention unit according to an embodiment of the present invention. The destruction prevention unit may be used as one destruction prevention unit, or a plurality of destruction prevention units may be combined and used as shown in FIGS. 6 to 8 .

First, referring to FIG. 6 , a plurality of destruction prevention units 600 may be stacked vertically. A structure in which the coupling groove 635 formed in the cover part 640 of the block-proof unit 600 and the coupling protrusion 615 provided on the lower plate 610 of another block-proof unit 600 vertically adjacent to each other are combined and stacked up and down can form.

Referring to FIG. 7 , a plurality of destruction prevention units 700 may be arranged in which the lower plate 710 of the destruction prevention unit 700 and the lower plate 710 of the destruction prevention unit 700 adjacent to the side are connected to the left and right.

Referring to FIG. 8 , in the plurality of destruction prevention units 800 , the lower plate 810 and the upper plate 830 are disposed in a vertical form from the bottom surface, and the connection pipe 820 is parallel to the floor surface. can be placed.

Figure 9 shows the shape of the destruction-proof unit according to another embodiment of the present invention.

Referring to FIG. 9 , the destruction prevention unit 900 includes a lower plate 910 , an upper plate 930 , and a plurality of connecting pipes 920 connecting the lower plate 910 and the upper plate 930 .

The lower plate 910 and the upper plate 930 are formed in a rectangular shape with one side inclined. The lower plate 910 and the upper plate 930 are not limited thereto, and may be formed in various shapes.

The lower plate 910 and the upper plate 930 may be disposed in a vertical form from the bottom surface, and the connection pipe 920 may be disposed in a form parallel to the bottom surface. Also, as shown in FIG. 1 , the lower plate 910 and the upper plate 930 may be disposed in parallel from the bottom surface, and the connection pipe 920 may be disposed in a vertical shape with respect to the bottom surface.

As described above, by arranging the cylindrical connecting pipes to be spaced apart from each other at a predetermined interval, the current communication between the water area inside the port and the water area outside the port is possible, thereby preventing environmental destruction due to quarrying. In addition, the recyclable material is buried in the empty space in the cylindrical connecting pipe to increase the strength of the overall structure and at the same time provide the effect of effectively treating environmental waste.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

100, 600, 700: Destruction unit
110, 200, 610, 710, 810, 910: lower plate
120, 400, 500, 620, 720, 820, 920: connecting pipe
130, 630, 730, 830, 930: top plate
135, 310: mating groove
140, 300: cover part
205: interior space
320: injection hole
410, 510: Hall
415: rebar structure
417: waste material
460: rebar support
520: concave

Claims (8)

a lower plate including an internal space of a certain size and provided with a plurality of coupling protrusions on a lower surface;
It is arranged spaced apart from the inner space of the lower plate at a predetermined interval, extends in a vertical direction from the lower plate, and is made of recyclable waste materials such as waste pipes and waste materials together with concrete and reinforcing bar assembly and combinations thereof. a plurality of connecting pipes comprising a filler;
an upper plate disposed on top of the plurality of connection pipes; and
It is disposed on the top of the upper plate, including a cover portion provided with a plurality of coupling grooves on the upper surface,
Further comprising a reinforcing bar support formed perpendicular to the plurality of connection pipes and connected through the lower ends of the plurality of connection pipes and crossed along the major and minor axis directions of the lower plate,
Concrete is poured at the lower ends of the connecting pipes connected to the rebar support to fix the connecting pipe and the lower play,
A port structure comprising a destruction prevention unit, characterized in that the plurality of coupling grooves of the cover part and a plurality of coupling projections of the lower plate of the destruction prevention unit located on the upper portion are combined to form a structure in which one or more destruction prevention units are stacked up and down.
According to claim 1,
The cover portion of the harbor structure including a destruction-proof unit, characterized in that it further comprises an injection hole for concrete injection.
delete delete delete According to claim 1,
The one or more destruction prevention units are stacked up and down with the adjacent destruction prevention units, or the one or more destruction prevention units are disposed adjacent to the adjacent destruction prevention units to the left and right.
According to claim 1,
The connection pipe is formed in a shape extending in a direction perpendicular to the lower plate and the upper plate, and the diameter from one end to the other end of the connection pipe is a constant cylinder shape, or the central portion of the connection pipe is larger than the diameter of both ends of the connection pipe. A port structure, characterized in that it is formed in the form of a column having a concave portion having a small diameter.
delete

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