KR200346699Y1 - Disposal facilities structure used by a dike in the stream - Google Patents

Abstract

The present invention relates to a purification device structure that can be used for multi-purpose for river purification, and in particular, to be used in the blow beam installed in the river, blow blow; A tubular shape having a predetermined length having a fitting portion formed at an upper end thereof, which is installed at a predetermined interval on one surface of the blown beam upstream of the stream, and a plurality of supports having a guide line formed in a longitudinal direction on a circumferential surface thereof; A net, a frame for fixing the circumference of the net to maintain a flat shape, one end of which is fixed to be capable of vertical movement and rotational movement along the guideline, and the other end of which is firmly fixed to both ends of the bottom of the frame. A connection part for vertical movement and rotational movement along the guideline of the support, a fixing part securely fixed to both ends of the upper part of the mold, and fixed to be engaged with the fitting part so that the state is maintained when the mold is upright by rotation; A network structure composed of a buoyancy body 230 providing buoyancy so that the network and the frame are elevated along the guideline according to the change in the water level of the river; Removably fixed to the upper end of the network structure, when the network structure is horizontally seated on the surface of the adsorption cloth to cover the upper surface of the network; consisting of to be able to seat the network structure upright or on the surface as needed .

Description

Disposal facilities structure used by a dike in the stream}

The present invention relates to a structure of a purification device that can be used for multi-purpose for river purification, and in particular, the blown beam installed in the river is utilized.

There are various causes of polluting rivers, but among them, water pollution by throwing dirt or spilling oil is common.

At this time, the relatively heavy portion of the waste thrown into the river sinks to the bottom of the river, the small portion is floating on the water surface and moves according to the direction of the river. In particular, dirt that floats on the surface of water is not only good in appearance, but also moves along with the river and is the main culprit of damaging the natural environment. Therefore, the floats drifting on the surface should be effectively removed.

On the other hand, there are reports that more than half of water pollution is due to oil spills (Hanrye Newspaper; December 13, 2000), and the Ministry of Environment analyzed the causes of pollution accidents in major water systems in Korea, including the Han and Nakdong rivers, since 1997. In addition, oil spills accounted for more than half of all accidents each year.

As such, oil spills, another major contributor to environmental pollution, will be strictly prioritized to prevent accidents, but the spilled oil will need to be removed quickly from the stream.

The conventional method of removing spilled oil is to first install oil fences to prevent oil diffusion and to place large amounts of oil first by placing an absorbent cloth with high oil absorption efficiency inside the oil fences, and then spraying with gasifier It was a way to vaporize all the trace oil.

However, the oil that has already been spilled before the removal was carried out was generally widespread.

In addition, in order to use the adsorption cloth in the stream flowing at a constant flow rate, the oil fence must be installed so that the adsorption cloth is not floated, this can also be said to increase the working time.

On the other hand, in the case of small rivers, a number of blowers are installed at regular intervals in order to utilize water resources as agricultural water. Since most of these small rivers are located in the outlying areas, factories, ranches, or farms are occupied, and residents often use the small rivers directly, and thus, the area is highly polluted.

Therefore, the present invention has been devised to solve the above problems, and can efficiently and quickly handle suspended matters and oils that contaminate rivers, while providing a stream purification device structure that can be easily used and versatile. Has its purpose.

1 is a perspective view showing an embodiment to which the structure of the present invention is applied;

Figure 2 is a perspective view showing the operation of FIG.

3 is an exploded perspective view of an embodiment to which the structure according to the present invention is applied.

-Explanation of terms for main parts of attached drawings-

10; Blown beam 100, 100 '; support fixture

110; Support bar

112; Fitting 112a; Compartment

113; Guideline 120; Fastening means

200; Network structure 210; frame

220; Network 230; Buoyancy body

240; Connection 241; Sliding Block

250; Fixing part 251; Fit

300; Adsorption cloth R; Sleep

The present invention for achieving the above object,

Blown up;

A tubular shape having a predetermined length having a fitting portion formed at an upper end thereof, which is installed at a predetermined interval on one surface of the blown beam upstream of the stream, and a plurality of supports having a guide line formed in a longitudinal direction on a circumferential surface thereof;

A net, a frame for fixing the circumference of the net to maintain a flat shape, one end of which is fixed to be capable of vertical movement and rotational movement along the guideline, and the other end of which is firmly fixed to both ends of the bottom of the frame. A connection part for vertical movement and rotational movement along the guideline of the support, a fixing part securely fixed to both ends of the upper part of the mold, and fixed to be engaged with the fitting part so that the state is maintained when the mold is upright by rotation; A network structure composed of a buoyancy body 230 providing buoyancy so that the network and the frame are elevated along the guideline according to the change in the water level of the river;

An adsorption cloth detachably fixed to an upper end of the network structure to cover an upper surface of the network when the network structure is horizontally seated on the water surface;

It is made to be able to be seated on the surface standing upright or water surface as needed.

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

1 is a perspective view showing an embodiment to which the structure of the present invention is applied, FIG. 2 is a perspective view showing the operation of FIG. 1, and FIG. 3 is an exploded perspective view of an embodiment to which the structure according to the present invention is applied. Will be explained.

Purification apparatus according to an embodiment to which the structure according to the present invention is applied flows to both ends of the support beam 10, a plurality of supports (100, 100 ') fixed to the blow beam (10), and the support (100, 100'), respectively. It is composed of a network structure 200 is possibly fixed.

The blown beam 10 is installed by dashing a huge dam in order to effectively use water resources in a small river, and a plurality of blowers 10 are generally constructed along the river. The blown beam 10 is built to a certain height to store the river water, and more is to flow over the upper surface of the blown beam 10.

Therefore, the present invention can utilize the existing blow beam 10 that is being constructed as it is, it is also possible to apply the structure of the present design while expanding the construction of the blow beam 10 is desired.

The support (100, 100 ') is a tubular shape having a predetermined length, is placed in the upstream one surface of the stream in the blown beam 10, a plurality are arranged at regular intervals.

The support (100, 100 ') is composed of a support bar 110 is connected to the network structure 200, and the fastening means 120 for fixing the support bar 110 to the blown beam (10). The fastening means 120 according to the present invention is firmly fixed to the blown beam 10 in a bolting manner as shown to support the support bar 110, but this is only one embodiment of the present invention and in addition to the claims below Various modifications may be made without departing from the scope thereof.

Subsequently, a fitting portion 112 is formed at an upper end of the support bar 110, and a guide line 113 formed in the longitudinal direction of the support bar 110 is provided at a circumferential surface thereof. The fitting portion 112 is a means for fixing the upright network 200, which will be described in more detail below.

On the other hand, the guideline 113 is formed so that the network structure 200 is fixed so that it can be manually elevated according to the water level of the river, to support the plate-shaped network structure 200 at both ends, the neighboring other support It is formed to face the guideline 113 'of (100'). Therefore, when the network structure 200 is disposed between the supports 100 and 100 ', both ends thereof are engaged with the guide lines 113 and 113', respectively, and are fixed to be movable.

The network structure 200 includes a network 220 and a frame 210 fixed to the periphery thereof so that the network 220 maintains a flat shape, and the guidelines 113 and 113 ′ and A fixing part 250 which is engaged with and fixed to the connection part 240 which is engaged with each other and the fitting part 112 formed on the upper ends of the supports 100 and 100 ′ so as to maintain the state when the network structure 200 is upright. In addition, when the network structure 200 is horizontally seated on the surface of the river further includes a buoyancy body 230 to provide a buoyancy to be manually elevated according to the water level change.

The connecting portion 240 forms a structure that is engaged with the guide line 113 formed on the support bar 110, should be capable of vertical movement along the guide line 113, as well as rotational movement. At this time, the vertical movement is to allow the network structure 200 to be lifted up and down under buoyancy, and the rotational movement is to allow the network structure 200 to be folded or unfolded with the blown beam 10 as necessary. to be. Therefore, in the present invention, a sliding block 241 is provided at the connection part 240, and the sliding block 241 penetrates the guideline 113 and is easily retracted when drawn into the support bar 110. It does not form. In general, the size of the sliding block 241 may be larger than the opening diameter of the guide line 113.

On the other hand, the connection portion 240 is preferably formed at both ends of the lower portion of the network structure 200, respectively. This is because the first factor for the binding of the support (100, 100 ') located at both ends of the network structure 200, the second is because the network structure 200 should be able to be folded and unfolded. In addition, when the network structure 200 is erected according to the structure of the connection portion 240, the upper portion of the network structure 200 should be positioned to be exposed above the blown beam 10, that is, on the water surface (R) of the river. This is to filter out the floats of the river that is floating from the upstream side, whereby the blown beam 10 has a purification function of the river.

The fixing part 250 is a place corresponding to the fitting portion 112 formed on the upper end of the support (100, 100 ') to fix the network structure 200 to maintain the upright state. In the present invention, the fitting portion 112 was formed as a hole opened in the upper end surface of the support bar 110, and correspondingly, the fixing portion 250 may be fitted into the fitting portion 112, that is, a hole. Block 251 is provided.

Due to this is rotated around the connecting portion 240 while lifting the network structure 200 upwards, by inserting the fitting block 251 in accordance with the fitting portion 112, the upright state of the network structure 200 It can be maintained. On the other hand, it is preferable to fix the two network structures 200 to one support 100 in terms of cost reduction, the fitting portion 112, should also be able to accommodate each network structure 200. will be. Therefore, in the embodiment of the present invention, the fitting portion 112 is partitioned into the partition portions 112a so that the two fitting portions 112 are formed.

The buoyancy body 230 is to provide buoyancy so that the network structure 200 can be moved up and down by buoyancy, in the present invention is fixed to the top of the network structure 200.

The adsorption cloth 300 is a material that absorbs the oil is placed on the surface (R) when the oil is leaked, one end of which is fixed to the upper end of the network structure 200, the surface of the network structure 200 to remove the oil (R) When seated above), the upper surface of the mesh 220 is covered. In general, since the absorbent cloth 300 used for a company should be replaced, it should be fixed to the network structure 200 in a detachable manner. On the other hand, the adsorption cloth 300 is blocked by the periphery of the frame 210 of the network structure 200, so that the adsorption cloth 300 is not lost by the force of the river.

According to the present invention as described above, when the network structure installed in the blow beam through the support is raised or changed in accordance with the water level of the river, or when the oil spill does not occur in the usual, it is upright to filter the floating function to filter the floats. It is possible to purify the stream while performing, and when the oil spills, by placing the network structure on the surface of the water, and by adsorbing the adsorption cloth on the upper surface, it is possible to smoothly remove the oil without loss of the adsorption cloth by the force.

Claims (1)

Blown up; A tubular shape having a predetermined length having a fitting portion formed at an upper end thereof, which is installed at a predetermined interval on one surface of the blown beam upstream of the stream, and a plurality of supports having a guide line formed in a longitudinal direction on a circumferential surface thereof; A net, a frame for fixing the circumference of the net to maintain a flat shape, one end of which is fixed to be capable of vertical movement and rotational movement along the guideline, and the other end of which is firmly fixed to both ends of the bottom of the frame. A connection part for vertical movement and rotational movement along the guideline of the support, a fixing part securely fixed to both ends of the upper part of the mold, and fixed to be engaged with the fitting part so that the state is maintained when the mold is upright by rotation; A network structure composed of a buoyancy body 230 providing buoyancy so that the network and the frame are elevated along the guideline according to the change in the water level of the river; An adsorption cloth detachably fixed to an upper end of the network structure to cover an upper surface of the network when the network structure is horizontally seated on the water surface; The purification structure of the river using the river blow, characterized in that it is possible to be seated on the surface or standing up the network structure as needed.