KR100995832B1 - A slit debris barrier - Google Patents

Abstract

PURPOSE: A slit erosion control dam is provided to reduce construction period and cost due to easy transport of materials and to improve stability against an external force by employing a reinforcing member inside the main body. CONSTITUTION: A slit erosion control dam(100) comprises a plurality of support members(120), a main body, and a reinforcing member. The support members are arranged at regular intervals with the bottom end fixed to a base(10). The main body is connected to the support members. The reinforcing member is coupled lengthwise inside the main body.

Description

Slit Debris Barrier}

The present invention relates to a slit four-sided dam, and more particularly to a slit four-sided dam that can improve the stiffness of the structure by using the reinforcing member or concrete filled in the construction, after carrying out the construction of each member individually will be.

In general, four-sided dams are installed upstream of a valley where there is a risk of landslides or rivers where driftwood and rocks are severely prevented.

The concrete four-sided dam is most commonly used for the flood damage prevention such as mountain valleys. This is a four-sided dam for the purpose of water storage / reservoir.

In addition, the riverbank Sabang Dam is a multifunctional Sabang Dam installed in the downstream of the river and has water storage and low water quality.

In addition, the buttress four-side dam is the same function as the slit four-sided dam in that it is installed upstream to prevent the loss of driftwood and rock, but in general, the buttress four-side dam filters the driftwood, the slit four-side dam is to filter the rock.

The double slit four-sided dam is fixed in combination with the anchor member provided in the floor material, the installation process of the anchor member first buried concrete foundation flooring, then select / fix the position of the anchor member, and cast concrete again on the foundation flooring The anchor member is fixed and then the column is connected to the anchor member and the concrete is laid again to completely bury the anchor member including the end of the column to prevent the anchor member from being corroded and damaged by the external environment.

However, such a conventional slit four-sided dam is manufactured and transported as one member. Due to this, it is difficult to manufacture in the factory, there are a lot of difficulties in carrying a large-scale slit four sides dam, there is a problem that increases the installation time and installation cost of the four sides dam.

The present invention is to solve the above problems, the production and transport of the main body and the support member separately to complete the structure through easy assembly at the construction site, so as well as the transportation of materials and construction work is simple construction period and It is to provide a slit all-round dam that can reduce the construction cost.

In addition, the present invention is to provide a slit four-sided dam to form a space portion in the interior of the body, to provide a separate reinforcing member in the space portion to improve the rigidity of the structure.

Furthermore, the present invention forms a through portion at the side of the main body to connect the space portion with the interior of the support member provided in a hollow shape so that the interior of the space portion and the support member is filled with concrete to greatly improve the rigidity of the structure. It is to provide a slit everywhere dam.

In order to achieve the above object, the present invention is a slit four-sided dam installed in the river, is disposed in the transverse direction of the river, is formed of a housing having an open upper portion, the longitudinal direction on the side inner surface of the enclosure A main body provided with a pair of reinforcing plates, each disposed at intervals along the line; A plurality of support members each having a lower end fixed to a base of the river and connected to both sides of the main body through a coupling flange provided at an upper end thereof; And a reinforcing member having a predetermined length and disposed between the inner surfaces of the reinforcing plates provided to face each other.

Preferably, the reinforcing member may be coupled via the pair of reinforcing plates and fixing bolts.

Preferably, the reinforcing member may be disposed by interviewing the inner surface, the upper surface and the lower surface of the pair of reinforcing plates facing each other.

Preferably, the coupling flange includes a first flange extending along an upper edge of the support member and a second flange extending from an upper end of the first flange and being bent in parallel with the base portion, A cover plate coupled to the second flange may be provided to cover the open top.

Preferably, the side of the main body is provided with a plurality of penetrating parts are formed through a predetermined interval along the longitudinal direction, the plurality of support members may be provided in an internal hollow so as to communicate with each other through the through portion.

Preferably, concrete filled through the open upper portion of the space may be additionally included.

Preferably, the plurality of support members are disposed to be paired with each other on both sides of the main body, the pair of support members can be connected to each other by a horizontal member in the middle of the length.

The present invention also provides a slit four-way dam installed in a river, the slit four-way dam being formed in a transverse direction of the river and formed of a hollow body having a space portion therein so that concrete can be received therein, A main body having a plurality of through parts formed therethrough and having at least one inlet formed through the upper surface of the enclosure; A plurality of support members, the lower ends of which are fixed to the base of the river and connected to the side of the through part of the main body through coupling flanges provided at the upper ends, respectively, and formed in an inner hollow shape; And concrete charged through the inlet and simultaneously filled in the space and the support member.

Preferably, the plurality of support members are disposed to be paired with each other on both sides of the main body, the pair of support members can be connected to each other by a horizontal member in the middle of the length.

According to the present invention as described above, since the main body and the support member to produce and transport separately to complete the structure through easy assembly at the construction site, as well as the transportation of materials, the construction work is easy to reduce the construction period and construction cost In addition, there is an effect that can facilitate maintenance.

In addition, the present invention has the effect of increasing the stability to the external force by forming a space in the interior of the body, by providing a separate reinforcing member in the space to improve the rigidity of the structure.

Furthermore, the present invention forms a through portion at the side of the main body to connect the space portion with the interior of the support member provided in a hollow shape so that the interior of the space portion and the support member is filled with concrete to greatly improve the rigidity of the structure. It can be effective.

1 is a state diagram showing the structure of the slit four-side dam according to the first embodiment of the present invention.
Figure 2 is an exploded perspective view of Figure 1;
3 is a cross-sectional view of the combination of FIG.
Figure 4 is a cross-sectional view showing a state filled with concrete in FIG.
Figure 5 is a perspective view showing a structure in which a horizontal member is added to the first embodiment of the present invention.
Figure 6 is a perspective view showing the structure of the slit square dam in accordance with a second embodiment of the present invention.
7 is an exploded perspective view of FIG. 6.
8 is a cross-sectional view of the combination of FIG.
9 is a perspective view showing a structure in which a horizontal member is added to a second embodiment of the present invention;

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

In the following description, the same reference numerals will be used to refer to the same elements, although the same reference numerals are used to refer to the same elements.

- First embodiment

The slit four-way dam (100, 100 ') according to the first embodiment of the present invention is manufactured and transported after the construction of each member individually, and provided with a separate reinforcing member 117 inside the body 110, the structural rigidity There are technical features to increase the structural rigidity and maintainability by increasing the.

As shown in FIG. 1, the slit four dams 100 and 100 ′ are installed in a transverse direction in a river in which the base portion 10 is made of concrete so as to prevent loss of driftwood and rocks.

The slit four-way dam 100 has a plurality of support members 120, the lower end is fixed to the base portion 10 is arranged at a predetermined interval, the main body 110 and the main body connected to the plurality of support members 120 It includes a reinforcing member 117 coupled in the longitudinal direction inside the (110).

The main body 110 is supported by the plurality of support members 120 and is disposed in the transverse direction of the river. As shown in FIGS. 1 to 5, a space 112 having a predetermined size is provided therein. It is formed and provided in the shape of an open top.

That is, the space 110 is formed by the closed bottom part 110a and the side part 110b extending from the end of the bottom part 110a by a predetermined height.

In addition, the space 112 is provided with a pair of reinforcing plates 116 spaced apart from each other at an inner side of the side portion 110b along the longitudinal direction of the main body 110 to face each other.

At this time, between the pair of reinforcing plate 116 is a reinforcing member 117 having a length substantially the same as the reinforcing plate 116 as shown in Figures 2 and 3 of the pair of reinforcing plate 116. After being placed between the fixing bolt 119 is fixed through the medium.

That is, the inner side of the both sides (110b) is provided with a pair of plate-shaped reinforcement plate 116 having a predetermined length is fixed by welding so that the inner side is opposed to each other, the pair of reinforcement plate 116 Reinforcement member 117 to be interviewed on the inside, the upper and lower surfaces are fixed after being placed.

At this time, the reinforcing member 117 and the pair of reinforcing plate 116 is provided with a plurality of fastening holes 118a and 118b respectively formed in a position corresponding to each other, the fixing bolt 119 formed of one member is It is inserted and fastened at the same time to be fixed.

Here, the reinforcing member 117 is inserted and disposed in the pair of reinforcing plate 116 is shown and described as being fixed by the fixing bolt 119, but is not limited to this, the pair of reinforcing plate, such as welding As long as it is inserted and fixed between 116, it should be noted that it does not matter which method is used.

In addition, the reinforcing member 117 is shown and described as being provided with substantially the same length as the reinforcing plate 116, but is not limited to this, reinforcing member 117 is inserted between the pair of reinforcing plate 116. Note that the length of may be provided in various ways.

For example, the reinforcing member 117 may be provided with a plurality of members having a predetermined length or various lengths and may be fixedly coupled after being inserted between the pair of reinforcing plates 117.

As described above, the slit four-way dam 100 according to the first embodiment of the present invention is provided with a pair of reinforcing plates 116 on the inner surface of the main body 110 and is separated between the pair of reinforcing plates 116. The reinforcement member 117 can be inserted into the longitudinal direction to increase the structural rigidity in the longitudinal direction.

Here, the reinforcing member 117 is preferably formed in the form of a hollow tube having an upper, lower surface in the form of a plate so as to interview each of the inside of the pair of reinforcing plate 116 as shown in the figure. Do.

However, the shape of the reinforcing member 117 is not limited thereto, and it may be provided in a solid shape so as to increase the supporting force against a load, or may have a cylindrical shape or various polygonal shapes.

On the other hand, the slit four-way dam (100, 100 ') of the present invention is provided with a reinforcing member 117 in the space portion 112 to increase the structural rigidity, while inside the space portion 112 and the support member 120 Concrete (C) can also be filled together.

To this end, the side portion 110b of the main body 110 is provided with a plurality of through portions 114 formed at a predetermined interval along the longitudinal direction.

The through part 114 is a place where the upper end of the support member 120 is connected, and serves as a passage for allowing the interior of the support member 120 provided in the hollow portion and the space 112 to communicate with each other. Done.

As described above, in the slit four-side dams 100 and 100 ′ of the present invention, the through part 114 is formed through the side part 110b of the main body 110, and the upper end of the support member 120 is connected to the through part 114, respectively. By doing so, the interior of the space 112 and the support member 120 is in communication with each other.

For this reason, the slit four-sided dam (100, 100 ') of the present invention, as shown in Figure 4 when filling the concrete (C) to the open top of the main body 110, as well as the space portion 112 of the main body 110 The inside of the support member 120 is also filled through the through part 114.

In this case, at least one internal partition wall (not shown) may be provided in the main body 110 to partition the space 112.

The inner partition wall (not shown) is provided in the width direction so as to partition the space portion 112 from each other, it is disposed so that both ends are located between the plurality of through parts (114).

As a result, the inner partition wall reinforces the load bearing force in the width direction by connecting the side portions 110b facing each other in the main body 110 having a predetermined length so as to increase the overall rigidity of the main body 110. do.

In addition, by partitioning the spaces 112 filled with the concrete (C) from each other, the concrete (C) can be individually filled in each of the plurality of spaces 112 partitioned by the inner partition.

As a result, the filling operation of the concrete (C) is not only easy, but also it is possible to easily fill the concrete (C) even without any effort on the corners or corners of the space 112.

On the other hand, the slit four sides dam 100 of the present invention may be provided with a cover plate 130 covering the space 112.

The cover plate 130 is aesthetics by preventing the inside of the space 112 is exposed to the outside by screwing both ends through the second flange 122b of the coupling flange 122 to be described later. At the same time serves to protect the reinforcing member 117 from the external environment.

When the concrete part C is filled in the space part 112, the concrete is covered and prevented from being eroded by the external environment, and the aesthetics can be enhanced.

The plurality of support members 120 are fixed to the base part 10 to support the main body 110, and a lower flange 124 is provided at a lower end thereof so that the base part is provided through a fixing means such as an anchor bolt. 10) is fixedly installed.

The upper end of the support member 120 is provided with a plate-like coupling flange 122 extending along the rim to be connected to the side portion 110b of the main body 110.

At this time, the support member 120 connected to the side portion 110b of the main body 110 may be welded through the coupling flange 122, but the fixing means 126 such as anchor bolts may be connected to the lower end. It is desirable to be screwed to each other so as to be detachably connected.

This is to simplify the construction by simply connecting the support member 120 to the base 10 and the main body 110 through a simple screw coupling and to simply separate the support member 120 that needs to be replaced during maintenance. to be.

For this reason, the slit four-side dams 100 and 100 ′ of the present invention are provided with the support member 120 detachably from the base 10 and the main body 110, thereby improving economic efficiency and maintainability.

That is, when the replacement and repair of the slit four sides dam 100, each member is connected in a bolted fastening method, so that it is possible to easily replace only the parts requiring replacement and repair through simple operation, thereby maintaining the maintainability Excellent effect can be obtained.

On the other hand, the coupling flange 122 is formed along the upper edge of the support member 120 is screwed with the main body 110, the first flange (122a), and from one end of the first flange (122a) It is extended and bent to be parallel to the base 10 is provided with a second flange (122b) screwed with the cover plate (130).

That is, the coupling flange 122 is provided with a first flange 122a and a second flange 122b formed at a predetermined angle with respect to each other, so that the support member 120 has a main body through the first flange 122a. It is connected to the side of the 110 to be supported and the cover plate 130 is to be coupled to the upper side of the main body 110 through the second flange (122b).

The support member 120 has an upper end coupled to the side portion 110b of the main body 110 via the coupling flange 122-in detail, the first flange 122a, and both side portions of the main body 110. A pair is arranged to form a 'ㅅ' shape are connected to each other.

In addition, the support member 120 is provided with an internal hollow shape having a predetermined length so that when the concrete is filled in the space 112, the concrete C is filled in the hollow through the through part 114. To help.

That is, as described above, the upper end of the support member 120 is connected to the penetrating portion 114 of the main body 110 through the coupling flange 122 so that the space portion (through the penetrating portion 114). 112 and the inside of the support member 120 is to communicate with each other.

As the support member 120 and the main body 110 are connected as described above, the concrete (C) introduced into the upper portion of the main body 110 as shown in FIG. 4 is supported by the through member 114 ( The support member 120 and the main body 110 are formed into the structure integrated by the concrete (C) by flowing into the interior of the 120.

Due to this, the slit four-sided dam 100, 100 'of the present invention is integrated due to the concrete (C) in which the main body 110 and the support member 120 are simultaneously filled therein, thereby increasing the rigidity of the structure, so that even a larger rock load is achieved. It can endure enough.

On the other hand, the support member 120 is disposed on both sides of the main body 110 to form a pair '' 'shape as shown in Figure 5 is provided with a horizontal member 140 in the middle of the length of the rigidity of the structure You can also increase the.

As described above, the slit four-way dams 100 and 100 'according to the first embodiment of the present invention have an advantage in that construction work is very easy by installing the structure through simple assembly by manufacturing each member in advance and transporting it to the site.

In addition, by providing a reinforcing member 117 inside the main body 110, by increasing the structural rigidity in the transverse direction it is possible to increase the structural stability to the external force.

Furthermore, the reinforcing member 117 may be provided, and the concrete member C may be simultaneously filled and integrated into the space 112 and the support member 120 of the main body 110 to provide the support member 120. It can increase the stability against external force.

On the other hand, when filling the concrete (C) through the open top of the body 110 in the above to increase the rigidity of the structure, the concrete (C) in the interior of the support member 120 and the space portion 112 of the body 110. ) Is shown and described as being filled at the same time, but is not limited to this, it turns out that the concrete (C) may be filled and used only in the space portion 112 of the main body 110.

This is to allow the support member 120 to be easily separated from the main body 110 by filling concrete only in the space 112 when maintenance or replacement of the support member 120 is required.

- Second embodiment

As shown in FIG. 6, the slit four-side dams 200 and 200 ′ according to the second exemplary embodiment of the present invention are installed in a lateral direction in a stream made of concrete so as to prevent loss of driftwood and rocks.

The slit four-side dams 200 and 200 ′ have a plurality of support members 220 arranged at regular intervals with a lower end fixed to the base portion 10, a main body 210 connected to the plurality of support members 220, and the It includes a concrete (C) which is simultaneously filled in the interior of the body 210 and the support member 220.

The main body 210 is supported by the plurality of support members 220 and is arranged in the lateral direction of the river. As shown in FIGS. 6 to 8, a space 212 having a predetermined size is provided inside the main body 210 It is provided in the formed enclosure shape.

That is, the flat top plate portion 210a and the end portion of the side portion 210b extending downward from the end portion of the top plate portion 210a to a lower portion are connected to each other to form a space portion 212 formed in a substantially inverted triangular shape do.

Meanwhile, the drawing and description show that the main body 210 is formed in an inverted triangle, but the present invention is not limited thereto. A horizontal upper plate portion 210a and a side portion 210b, such as an inverted lozenge, are provided to provide a space portion ( 212 may be formed, and the shape of the main body 210 is not limited.

In this case, at least one inlet 215 communicating with the space 212 is formed in the upper plate portion 210a of the main body 210.

That is, unlike the first embodiment in which the slit four-sided dams 200 and 200 ′ according to the second embodiment of the present invention have a form in which the upper part of the main body is open, an upper plate part 210a covering the upper part of the main body 210 is provided. At least one inlet 215 is formed in the upper plate 210a so that the concrete C can be filled in the space 212 through the inlet 215. [

In addition, the side portion 210b includes a plurality of through portions 214 formed therethrough at a predetermined interval along the longitudinal direction.

The through part 214 is a place where the upper end of the support member 220 is connected as in the first embodiment, the interior of the support member 220 which is provided in a hollow with the space portion 212 It acts as a passageway for the two to communicate with each other.

As described above, in the slit four-side dams 200 and 200 ′, the penetrating portion 214 is formed through the side portion 210b of the main body 210, and the upper end of the supporting member 220 is connected to the penetrating portion 214, respectively. As a result, the interior of the space 212 and the support member 220 communicate with each other, and the concrete C filled with the inlet 215 of the main body 210 passes through the space 212 of the main body 210 as well. Through the part 214 to be filled in the support member 220.

In this case, at least one internal partition wall (not shown) may be provided in the main body 210 to partition the space 212.

The inner partition wall is provided to partition the space portion 212 from each other in the width direction, and both ends are disposed to be located between the plurality of through portions 214.

Accordingly, the inner partition wall is provided with a side portion 210b and an upper plate portion 201a which are opposite to each other in the main body 210 having a predetermined length, thereby reinforcing the load supporting force in the width direction, It can increase the rigidity.

In addition, by partitioning the space 212 filled with the concrete (C) with each other, the concrete (C) can be individually filled in each of the plurality of spaces 212 partitioned by the inner partition.

As a result, the filling operation of the concrete (C) is not only easy, but also it is possible to easily fill the concrete (C) even if no effort is applied to the corners or corners of the space 212.

The plurality of supporting members 220 are fixed to the base 10 to support the main body 210, and a lower flange 224 is provided at a lower end thereof so as to support the base part via fixing means such as anchor bolts. 10) is fixedly installed.

In addition, the upper end of the support member 220 is provided with a plate-shaped coupling flange 222 extending along the rim to be connected to the side portion 210b of the main body 210.

At this time, the support member 220 which is connected to the side portion 210b of the main body 210 may be welded through the coupling flange 222, but the fixing means 226, such as anchor bolts, as in the lower end. It is desirable to be screwed to each other so as to be detachably connected.

This is to simplify the construction by simply connecting the support member 220 to the base 10 and the main body 210 through a simple screw coupling and to simply separate the support member 220 that needs to be replaced during maintenance. to be.

For this reason, the slit four-side dams 200 and 200 ′ of the present invention are provided with the support member 220 detachably from the base 10 and the main body 210, thereby improving economic efficiency and maintainability.

The support member 220 has an upper end coupled to the through part 214 of the main body 210 via the coupling flange 222, a pair of 'S' shape on both sides of the main body 210 They are arranged to form a connection.

In addition, the support member 220 is provided in the hollow inside having a predetermined length so that the concrete (C) is filled in the hollow.

That is, as described above, the upper end of the support member 220 is connected to the penetrating portion 214 of the main body 210 through the coupling flange 222 so that the space portion (through the penetrating portion 214). 212 and the inside of the support member 220 are to communicate with each other.

As the support members 120 and 220 are connected to the main body 210 as described above, the concrete C introduced into the inlet 215 of the main body 210 through the through part 214 is illustrated in FIG. 8. As the support member 220 is introduced into the support member 220, the support member 220 and the main body 210 form an integrated structure by the concrete (C).

Due to this, the slit four-sided dam 200, 200 'of the present invention is integrated due to the concrete (C) in which the main body 210 and the support member 220 are simultaneously filled therein, thereby increasing the rigidity of the structure, thereby increasing the load of larger rocks. It can endure enough.

On the other hand, the support member 220 is disposed on both sides of the main body 210 to form a pair '''shape as shown in Figure 9 is provided with a horizontal member 240 in the middle of the length of the rigidity of the structure You can also increase the.

As described above, the slit four-way dams 200 and 200 'according to the second embodiment of the present invention have advantages in that the construction work is very simple by installing the structures through simple assembly by manufacturing each member in advance and transporting them to the site.

In addition, by filling the concrete (C) in the interior of the space portion 212 and the support member 220 of the body 210 at the same time, it is possible to increase the stability to the external force of the support member 220.

Although specific embodiments of the present invention have been described in detail with reference to the drawings, the present invention is not limited to such specific structures. Those skilled in the art will be able to easily modify or change without departing from the technical spirit described in the claims below. However, replacements, equivalents, and equivalents through such simple design variations or modifications are all clearly stated in advance within the scope of the present invention.

100, 100 ', 200, 200': Slit Four Dams
10: base 110,210: main body
110a: bottom portion 110b: side portion
210a: upper plate portion 112,212: space portion
114,214: penetrating portion 215: inlet
116: reinforcing plate 117: reinforcing member
118a, 118b: fastening hole 119: fixing bolt
120,220: support member 122,222: coupling flange
122a: first flange 122b: second flange
124,224 lower flange 126,226 fixing means
130: cover plate 140,240: horizontal member
C: concrete

Claims (9)

In the slit square dam installed in the river,
A main body disposed in the transverse direction of the river and formed of a housing having an open space at an upper portion thereof, and having a pair of reinforcing plates disposed on the inner side surface of the enclosure at intervals along the length direction;
A plurality of support members each having a lower end fixed to a base of the river and connected to both sides of the main body through a coupling flange provided at an upper end thereof; And
And a reinforcing member inserted and disposed in a longitudinal direction between inner surfaces of the reinforcing plate provided to face each other. The method of claim 1,
The reinforcing member is a slit four sides dam, characterized in that coupled via the pair of reinforcement plate and the fixing bolt. The method of claim 1,
The reinforcing member is a slit four-sided dam, characterized in that the pair of reinforcing plates facing the inner side and the upper and lower surfaces facing each other, respectively. The method of claim 1,
The coupling flange includes a first flange extending along an upper edge of the support member and a second flange extending from an upper end of the first flange to be bent in parallel with the base portion, and the open upper portion of the space portion. Slit four sides dam, characterized in that the cover plate coupled to the second flange is provided to cover. The method of claim 1,
Sides of the main body is provided with a plurality of penetrating parts are formed through a predetermined interval along the longitudinal direction, the plurality of support members are provided in the inner hollow so as to communicate with each other through the through portion. The method according to claim 1 or 5,
Slit four sides dam, characterized in that the concrete additionally filled through the open upper portion of the space. The method of claim 1,
The plurality of support members are respectively arranged to be paired with each other on both sides of the main body, the pair of support members, the middle of the length is characterized in that each connected by a horizontal member. In the slit square dam installed in the river,
Is disposed in the transverse direction of the river, is formed of a housing having a space therein so that the concrete can be accommodated, the side of the housing is provided with a plurality of through-holes formed at regular intervals along the longitudinal direction, the enclosure A body having at least one inlet formed through the upper surface of the body;
A plurality of support members, the lower ends of which are fixed to the base of the river and connected to the side of the through part of the main body through coupling flanges provided at the upper ends, respectively, and formed in an inner hollow shape; And
Slit four sides dam, characterized in that it comprises; through the inlet is filled concrete at the same time inside the space and the support member. The method of claim 6,
The plurality of support members are respectively arranged to be paired with each other on both sides of the main body, the pair of support members, the middle of the length is characterized in that each connected by a horizontal member.

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