KR101149863B1 - River arranging structure for ecological river - Google Patents

Abstract

PURPOSE: A diversion weir structure for ecological river maintenance is provided to easily separate floating matter from river water and to discharge the separated floating matter to the outside. CONSTITUTION: A diversion weir structure for ecological river maintenance comprises floating matter filter members(200), guide ways(300,300'), first and second switches(400,400'), a control unit, and a compressor. The floating matter filter members are installed on a diversion weir body(100) and filter floating matter from river water. The guide ways are installed on the outer surface of posts(130) of the diversion weir body and guide the filtered floating matter. The first and second switches output water level signals to the control unit. The control unit controls the compressor and a control valve by receiving the water level signals from the switches. The compressor transfers compressed air to a pneumatic cylinder(700).

Description

River Arranging Structure For Ecological River

The present invention relates to a river top cost blowing beam structure for maintaining the natural ecological river.

In general, in order to raise the level of the rivers, etc. and to secure the required quantity, it is usually called to blow up some or all of the rivers.

The location of the beam should be a place where the planned water can be obtained even during the dry season in the irrigation system, and the place close to the river to be blown by the Simsim and less influence on the upstream and downstream of the beam.

In addition, the midstream from the mountainous portion of the river to the plain is most suitable, and the above places are generally solid floor, less sedimentary layer, narrow width, the construction cost will be cheaper.

Here, the conventional blower is usually buried in the river at the appropriate intervals in the support, and the long log on the side of the water is provided across the support, loading the soil in front of the log to increase the water depth while flowing water In addition, the blown news is routinely lost during flooding and shrinking again every year.

In order to solve the above problems, modern reservoirs are built upstream of many rivers, and are being enlarged and modernized, and also the intake gates that draw water into the waterways, blockages made by blocking the rivers to raise the water level and secure the quantity of water. In order to solve the problems of the conventional beams, the water inlet is installed in front of the water intake gate to prevent the sedimentation of sediment and to discharge part of the flood volume.

In addition, by forming a beam using materials that can withstand high water pressure, such as concrete, the beam is prevented from being damaged by floods and torrents, and a large amount of river water is stored for security, and the dissolved oxygen in the river water is increased. In order to prevent the aeration caused by friction between the projection and the river water by forming a projection at the bottom of the intake door or a method using the river water drop in the blowhole or intake door.

However, in the case of the above mentioned blow beam, it is not equipped with a means to collect and collect the floats separately, so the dike is littered with various floats, so it is not very good in appearance, and odor is caused when the float is a perishable object. There was a problem that could be solved so that research was actively underway.

The present invention has been made in order to solve the above problems, the cost of river maintenance for maintaining the natural ecological river that can be easily separated and discharged suspended matter that can harm the natural ecology without disturbing the flow of the river The purpose is to provide blown beam structures.

According to an aspect of the present invention,

Protruding forward and having a protrusion formed with a guide groove vertically penetrated on both sides, having a body block standing on the bottom of the river, and a guide groove in communication with the guide groove of the body block, connected to the body block A central support portion comprising a pushing block and a cover detachably installed on an upper surface of the pushing block;

And having a settled inside, the water barrier portion extending horizontally from both ends of the protrusion of the body block to block the water of the river;

Blowing main body having a vertically penetrating guide groove, consisting of a support portion extending vertically from the end of the water barrier portion:

A first body portion having a 'c' shape having a coupling protrusion projecting horizontally outward, a support body formed on a side of the first body portion to be elevated in a guide groove of the body block and the pushing block, and The first frame is provided inside the main body portion made of a mesh for passing water and blocking suspended matters;

A second body portion having a 'c' shape having a coupling groove movably coupled to the coupling protrusion, a support body formed on the side of the second body portion to be elevated in a guide groove of the support, and a second body portion; A pair of suspended material members composed of a second frame made of a mesh installed inside the part to allow water to pass through and block suspended matter:

A pair of induction furnaces installed on the outer surface of the holding body of the blown main body to provide a passageway for the movement of the floats induced by the pair of the suspended filter members to be collected:

Control unit for receiving the water level detection signal from the first and second switches to control the compressor and the control valve:

The compressor which is controlled by the control unit and supplies compressed air to the pneumatic cylinder:

Pneumatic cylinder built into the body block and receiving compressed air from the compressor to linearly move the pushing block.

And a control valve installed between the compressor and the pneumatic cylinder to control the linear reciprocating movement of the pneumatic cylinder.

According to a preferred embodiment of the present invention, there is an advantage that can easily filter the floating matter flowing along the river through a pair of floating material filtering member that is installed to the lifting main body.

In addition, according to the present invention, by pushing the pushing block forward through the configuration of the first and second switches, the control unit, the compressor, the pneumatic cylinder and the control valve to form an inclined float member, and is suspended in the float filter member By allowing the floats to move along the slope, the floats are discharged through the induction paths formed on both sides, and thus, there is an advantage of easily separating and discharging the floats that can harm the natural ecology without disturbing the flow of the river.

Figure 1 and Figure 2 is a perspective view of the combined state of the river maintenance cost injection beam structure for maintaining the natural ecological river in accordance with the present invention.
Figure 3 is a partial exploded perspective view of the stream cost injection beam structure for maintaining the natural ecological river in accordance with the present invention.
Figure 4 is an exploded perspective view showing a separate extracting the suspended filter member from the river fixed cost blown structure for maintaining the natural ecological river according to the present invention.
Figure 5 and Figure 6 is a view for explaining the operation relationship between the river maintenance cost injection beam structure for maintaining the natural ecological river in accordance with the present invention.
Figure 7 is a view showing the correlation between each component in the stream maintenance cost injection beam structure for maintaining the natural ecological river according to the present invention.

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

In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

Referring to Figures 1 to 3, the stream maintenance cost injection beam structure for maintaining the natural ecological river according to the present invention, the injection main body 100, the suspended filter member (200, 200 '), induction furnace (300, 300'), first It consists of two switches (400, 400 '), the control unit 500, the compressor 600, the pneumatic cylinder 700, the control valve 800 is installed in the river.

The blown main body 100 is composed of a central support 110 formed by pouring concrete, a water barrier 120 and a support 130, and is installed in the width direction of the river.

The central support 110 is composed of a body block 111, a pushing block 112 and a cover 113.

The body block 111 is a concrete block forming a rectangular shape as a whole, it is installed to be installed in the central floor of the river.

In addition, the front lower end of the body block 111 is integrally formed with a protrusion 111a protruding forward, in particular, both sides of the protrusion 111a vertically penetrates the floating member 200, 200 'will be described later The guide groove 111a-1 to which the support body 212 of the) is liftable is integrally formed.

On the other hand, the pneumatic cylinder 700 to be described later is installed on the front of the body block 111 to be exposed. Since the method of installing the pneumatic cylinder 700 in the concrete body block 111 is already well known in the art, a description thereof will be omitted.

The pushing block 112 is a concrete block having a five-sided shape in plan view, and is placed on the front surface of the body block 111, more specifically, on the upper surface of the protrusion 111a, and on the front surface of the body block 111. It is connected, and the rod (not shown) of the aforementioned pneumatic cylinder 700 is fixed to the back.

Particularly, guide grooves 112a communicating with the guide grooves 111a-1 of the body block 111 are integrally formed at both sides of the pushing block 112, and the floating member is caught along the guide grooves 112a. The support body 212 of (200, 200 ') is lifted.

In addition, the 'b'-shaped grooves are formed at both upper ends of the pushing block 112 so that the floating body 221 of the floating member 200, 200' can be easily rotated.

In addition, the front surface of the body block 111 and the pushing block 112 is preferably made in a triangular shape to minimize the resistance of the water.

The cover 113 is a well-known plate detachably installed on the upper surface of the pushing block 112 by means of fastening means. In this embodiment, the cover 113 is installed on the upper surface of the pushing block 112 to hold the floating material 200 and 200 ′. To prevent the deviating to the outside.

The water blocking part 120 extends horizontally from both ends of the protrusion 111a of the body block 111 to prevent water from being stored in the river.

In particular, the interior of the water barrier portion 120 is formed with an upwardly open settling groove 121, the settling groove 121, as shown in Figure 5, the first frame of the floating member 200, 200 ' 210 and the second frame 220 is detachably installed.

The support portion 130 is a pillar made of concrete extending vertically from the end of the water barrier portion 120, the guide groove 131 vertically penetrated in the longitudinal direction inside the support portion 130 is integrally formed do.

In the present embodiment, the floating body 222 of the floating member 200, 200 'is installed in the guide groove 131, the floating body 222 is supported in accordance with the water level of the river is raised and lowered along the guide groove 131.

In particular, the upper end of the support 130, as well as the pushing block 112 mentioned above to form a 'b' shaped groove so that the support body 222 of the floating member (200,200 ') can be easily rotated It is preferable to.

On the other hand, the upper surface of the support portion 130 is provided with a cover (not shown) for blocking the buoyant 222 of the floating member (200, 200 ') is separated from the outside through the fastening means.

Referring to FIG. 4, the float catching members 200 and 200 ′ are composed of a first frame 210 and a second frame 220 to filter the float S flowing along the stream and pass water as it is. .

The first frame 210 includes a first body portion 211, a support body 212, and a mesh 213. The first body 211 and the support 212 is preferably made of a synthetic resin material that does not generate rust even when in contact with water.

The first body portion 211 is a frame having a 'c' shape as a whole, the coupling protrusion (211a) protruding horizontally is formed integrally on the upper and lower ends.

Here, the coupling protrusion 211a is movably inserted into the coupling groove 221a of the second body portion 221 to serve to connect the first body portion 211 and the second body portion 221 to each other. .

The support body 212 is a pillar formed on the side of the first body portion 211, and in the present embodiment, can be elevated in the guide grooves 111a-1 and 112a of the body block 111 and the pushing block 112. Is installed.

In particular, the first switch 400 or the second switch 400 ′ to be described later is exposed on the upper surface of the support 212.

The mesh 213 is a well-known mesh, and in the present embodiment, is installed inside the first body 211 to allow water to pass and to float the suspended matter S.

The second frame 220 is composed of a second body portion 221, a support body 222 and a mesh 223. The second body portion 221 and the support body 222 is preferably made of a synthetic resin material that does not generate rust even in contact with water.

The second body portion 221 is a frame having a 'C' shape as a whole, the coupling groove (2a) in the upper and lower portions of the first body portion 211 so that the coupling projection (211a) can be inserted into the movable ( 221a) is formed.

The support body 222 is a pillar formed on the side of the second body portion 221, and in the present embodiment is installed to be elevated in the guide groove 131 of the support portion 130.

The mesh 213 is a well-known mesh, and in the present embodiment, is installed inside the first body 211 to allow water to pass and to float the suspended matter S.

According to the present embodiment, when the pneumatic cylinder 700 in the body block 111 receives the air pressure from the compressor 600, the rod (not shown) of the pneumatic cylinder 700 is gradually pushed forward and pushing block The first frame 210 of the floating member 200, 200 'is inserted into the guide groove 112a of the pushing block 112 is rotated about the support body 212. In this case, as the coupling protrusion 221a inserted into the coupling groove 221a of the second frame 220 is moved, the length between the first frame 210 and the second frame 220 is changed. As shown in the figure, an oblique shape is formed, and through the oblique shape, the floating material S can be easily guided to the induction paths 300 and 300 ', which will be described later.

The induction paths (300, 300 ') is installed on the outer surface of the holding portion 130 of the blown main body 100 to provide a passage so that the floating material (S) guided by the floating filter member (200,200') can be moved and collected Do it.

Although not shown in detail, the present embodiment forms a separate network inside the induction furnaces 300 and 300 'to prevent the floating material S moved to the induction furnaces 300 and 300' from flowing back into the river. desirable.

Subsequently, the first and second switches 400 and 400 ', the control unit 500, the compressor 600, the pneumatic cylinder 700 and the control valve 800 will be described with reference to FIG.

The first and second switches 400 and 400 ′ are known push switches, and are installed to be exposed to the upper surface of the support body 212 of the floating member 200 and 200 ′.

In the present embodiment, the first and second switches 400 and 400 'are lifted together with the flotation member 212 of the floating member 200 and 200' as the water level of the river gradually rises, and the support body is above a certain height. When 212 is raised, the cover 113 installed on the upper surface of the pushing block 112 and the first and second switches 400 and 400 'come into contact with each other, and the first and second switches 400 and 400' control the water level detection signal. To print)

The control unit 500 receives the water level detection signal from the first and second switches 400 and 400 ′ and controls the compressor 600 and the control valve 800.

The compressor 600 is a known compressor that is controlled by the control unit 500 and supplies compressed air to the pneumatic cylinder 700, and is installed to be exposed to a place such as a chimney in a river. Since the compressor 600 is already well known in the art, a detailed description thereof will be omitted.

The pneumatic cylinder 700 is installed in the body block 111 and receives the compressed air from the compressor 600 to function to linearly move the pushing block 112. Since the pneumatic cylinder 700 is already well known in the art, a detailed description thereof will be omitted.

The control valve 800 is a well-known three-way ball valve installed between the compressor 600 and the pneumatic cylinder 700, more specifically, the connection line (not shown) to which the air produced from the compressor 600 is moved. (3-Way Ball Valve), which is controlled by the control unit 500.

According to the present embodiment, as the water level of the river gradually rises, the floating filter members 200 and 200 'also rise together, wherein the floating filter members 200 and 200' are provided to the cover 113 installed on the upper surface of the pushing block 112. When reaching, the first and second switches 400 and 400 'installed on the support 212 of the floating member 200 and 200' come into contact with the cover 113 and the first and second switches 400 and 400 'are level detection signals. It is output to the control unit 500.

The control unit 500 receives the water level detection signal from the first and second switches 400 and 400 ′ to control operation of the compressor 600, and the compressor 600 is operated by the control unit 500 to provide compressed air. Produced and delivered to the pneumatic cylinder (700).

In this case, the control valve 800 is an initial control unit so that the air supplied through the compressor 600 is moved along the connection line (not shown) so that the rod (not shown) of the pneumatic cylinder 700 may protrude forward. The path is changed by 500, and the pneumatic cylinder 700 receives the compressed air from the compressor 600 to protrude a rod (not shown) to the front, and the pushing block 112 connected to the rod (not shown) is It will protrude forward.

On the other hand, when the water level is lowered and the separation occurs between the cover 113 and the first and second switches 400 and 400 ', the first and second switches 400 and 400' no longer output the water level detection signal. 500 is a pushing block protruding by the rod (not shown) by converting the path of the control valve 800 to the reverse of the initial state so that the rod (not shown) of the pneumatic cylinder 700 protruding forward is retracted. Operation 112 is to be in close contact with the front of the body block 111.

Referring to the operation of the present invention made of the above configuration as follows.

Referring to FIG. 5, since the river is normally blocked by the water blocking part 120, a certain amount of water is maintained in a secure state, and the surplus water continuously flows along the river beyond the water blocking part 120.

By the way, when entering the rainy season (rainy season), more water than usual and floating suspended in the surroundings (S) flows along the river, at this time the floating water filtering member (200,200 ') is buoyant due to the water level of the blown water .

To explain this in more detail, the support bodies 212 and 222 of the suspended filter member 200 and 200 'are gradually elevated along the guide grooves 111a-1, 112a and 113 of the blown body 100 due to the blown water, When the upper surfaces of the sieves 212 and 222 are in close contact with the bottom surface of the cover 113 installed on the upper surface of the pushing block 112, the first and second switches 400 and 400 ′ formed to be exposed to the upper surfaces of the supporting bodies 212 and 222 are covered with the cover ( The first and second switches 400 and 400 ′ output the water level detection signal to the control unit 500 while being brought into contact with 113. The control unit 500 receives the water level detection signal from the first and second switches 400 and 400 ′. The operation of the compressor 600 and the control valve 800 is controlled, and the compressor 600 is operated by the control unit 500 to produce compressed air and deliver the compressed air to the pneumatic cylinder 700.

At this time, the control valve 800 is the initial control unit 500 so that the air supplied through the compressor 600 is moved along the connection line (not shown) so that the rod (not shown) of the pneumatic cylinder 700 may protrude forward. The path is changed by), and the pneumatic cylinder 700 receives the compressed air from the compressor 600 to protrude the rod (not shown) to the front, and the pushing block 112 connected to the rod (not shown) is moved forward. Protrudes.

When the pushing block 112 is pushed forward by a rod (not shown), the first frame of the floating member 200, 200 ′ inserted into the guide groove 112 a of the pushing block 112 so as to be lifted and lowered. 210 is rotated around the support body 212, and at the same time the second frame 220 is inserted into the guide groove 131 of the support 130, also lifting the center of the support body 222 In this case, the first frame 210 is moved through the coupling protrusion 211a inserted into the coupling groove 221a of the second frame 220 so that the first frame 210 and the second frame 220 are rotated. As the length of the liver changes, it forms an oblique form as shown in FIG.

As described above, when the suspended material members 200 and 200 'form an oblique shape by the pushing block 112, the suspended solids S caught in the meshes 213 and 223 are moved along the meshes 213 and 223 to guide the induction paths 300 and 300'. As naturally induced, the suspended solids (S) introduced into the induction furnace (300,300 ') is to be pulled out by the worker using a separate collection tool.

On the other hand, when the water level is lowered again, the suspended filter members 200 and 200 'are lowered by the lowered water level. At this time, the first and second switches 400 and 400', which are in contact with the cover 113, are covered by the cover ( 113 is separated from each other and no longer outputs the water level detection signal, wherein the control unit 500 passes the path of the control valve 800 such that the rod (not shown) of the pneumatic cylinder 700 protruding forward is retracted. To be converted to the inverse of the initial state, the pneumatic cylinder 700 receives the compressed air from the compressor 600 is to retract the protruding rod (not shown) to the rear, so the pushing block 112 is naturally the body block It comes in close contact with the front surface of the 111.

Then, when the pushing block 112 is in close contact with the front surface of the body block 111, the suspended matter holding member (200,200 ') that is inclined state is returned to the original state.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: blow beam main body 110: central support portion 111: body block
112: pushing block 113: cover 120: water portion
130: holding part 200.200 ': floating material catching member
210: first frame 211: first body portion 212: support body
213: mesh 220: second frame 221: second main body
222: flotation 223: mesh 300.300 ': induction furnace
400: first switch 400 ': second switch 500: control unit
600: compressor 700: pneumatic cylinder 800: control valve
111a-1.112a.131: Guide groove S: Float

Claims (1)

Protruding forward and having a protrusion (111a) formed with a guide groove (111a-1) vertically penetrated at both sides, the body block 111 is placed on the bottom of the river and the guide groove of the body block 111 ( 111a-1) with a guide groove 112a in communication with each other, the pushing block 112 connected to the body block 111, and the cover 113 is detachably installed on the upper surface of the pushing block 112 A central support part 110 formed of;
And having a settling groove 121 therein, the water blocking portion 120 extending horizontally from both ends of the protrusion (111a) of the body block 111 to block the water of the river;
Blowing main body 100 having a guide groove 131 vertically penetrating, consisting of a support portion 130 extending vertically from the end of the water barrier portion 120:
'B' shaped first body portion 211 having a coupling protrusion 211a protruding horizontally outward, and formed on the side of the first body portion 211 to form a body block 111 and a pushing block ( Floating body 212 is installed to be elevated in the guide grooves (111a-1, 112a) of the 112 and the net body 213 is installed inside the first body portion 211 to pass the water and block the suspended solids (213) A first frame (210) consisting of;
A second main body portion 221 having a 'c' shape having a coupling groove 221a which is movably coupled to the coupling protrusion 211a, and is formed on the side of the second body portion 221 and is a support portion 130. Floating body 222 which is installed to be elevated in the guide groove 131 of the) and the second body portion 221 is made of a net body 223 is installed inside the second body portion 221 to pass through the water (S) is blocked A pair of floating filter members 200, 200 'consisting of two frames 220:
A pair of induction furnaces installed on an outer surface of the support body 130 of the blow-in body 100 to provide a passageway for the floating material S guided by the pair of suspended material members 200 and 200 'to be moved and collected ( 300,300 '):
First and second switches 400 and 400 'installed to be exposed to the upper surface of the floating body of the floating member 200 and 200' and operated by the floating body 212 to output the water level detection signal.
Control unit 500 for controlling the operation of the compressor 600 and the control valve 800 receives the water level detection signal from the first and second switches (400, 400 '):
Compressor 600 which is controlled by the control unit 500 and supplies compressed air to the pneumatic cylinder 700:
Pneumatic cylinder 700 which is installed in the body block 111 and receives the compressed air from the compressor 600 to move the pushing block 112 in a straight reciprocating direction:
Installed between the compressor (600) and the pneumatic cylinder (700) river maintenance cost taking care structure for maintaining the natural ecological river, characterized in that it comprises a control valve 800 for controlling the linear reciprocating movement of the pneumatic cylinder (700).

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