KR101976044B1 - LID sediment agitator for clogging experiment - Google Patents

Abstract

In the present invention, the stirrer is eccentrically disposed in the inner space of the housing to prevent the float from precipitating in the lower space of the inner space of the housing, effectively stir the float, and not only the fluid but also the solid matter such as sand, The present invention also provides an apparatus for stirring suspended solids for LID occlusion experiment, which is capable of uniformly spraying a rainfall simulator through a spray nozzle without using the spray nozzle. The present invention relates to an apparatus (10) for suspending suspended solids in an LID occlusion experiment for spraying suspended solids on a rainfall simulator (100) constituted by environmental conditions of an installation area in a water environmental efficiency validation stirring system for LID element technology, (10) comprises an inlet (21) through which a suspended matter flows, a housing (20) having an internal space (22) for receiving the suspended matter introduced through the inlet (21) and having an outlet (23) and; A stirrer (30) formed at one side of the inner space (22) of the housing (20) for stirring the suspended matter contained in the inner space (22); A compressor (40) for injecting air pressure into the suspended matter stirred in the inner space (22) of the housing (20); An injection nozzle (50) formed on an outlet (23) of the housing (20) for preventing clogging of the suspension and spraying the suspension; A controller (60) for controlling the agitator (30), the compressor (40), and the spray nozzle (50).

Description

{LID sediment agitator for clogging experiment}

The present invention relates to an apparatus for stirring suspended solids for LID occlusion experiments, and more particularly, to an apparatus for stirring an suspended solids in an inner space of a housing to prevent sedimentation of suspended solids in the lower space of the inner space of the housing, The present invention also relates to an apparatus for stirring suspended solids for an LID occlusion experiment, in which suspended solids such as sand as well as fluid are sprayed uniformly over a rainfall simulator through a spray nozzle without clogging the spray nozzles.

In recent years, due to the increase in impervious surface due to urbanization, it has been difficult to cope with rapidly increased rainwater runoff due to urbanization, and it has been difficult to cope with various environmental conditions such as flood, river pollution due to inflow of non- There is a problem.

LID (Low Impact Development) technique is one of the ways to solve these water environmental problems. The LID technique is a land that aims to restore the hydrological characteristics As a planning and engineering design technique, it is aimed at reduction of runoff, increase of infiltration and reduction of pollution source in flood, minimization of distortion of municipal waters and degradation of water quality such as streamflow, which is the result of artificial interference with nature, Active research and field applications are being conducted.

In Korea, however, interest in LID technology has recently been intensified, and the government has set up a policy base such as the government (Ministry of Environment, National Emergency Management Agency, Ministry of Land, Transport and Maritime Affairs) In terms of technology, development of integrated technology for watershed management and integrated management technology is not growing because it is focused on element technology development in a limited field centered on non-point pollution source management. In addition, Interest is very low.

Therefore, it is necessary to develop a device for verifying the hydrological cycle characteristics of the LID technique verification and other drainage facilities, and to be able to measure hydrological quantities considering the major hydrological cycle elements such as surface runoff, subsurface runoff and infiltration This technique can be used to verify the efficiency of each technical factor of the LID technique. In addition, it should be possible to examine the characteristics of nonpoint source pollution by rainfall-runoff and the infiltration ability of soil according to rainfall distribution and rainfall intensity .

In the meantime, as a method of verifying the efficiency of the LID technique as described above, the LID element technology is applied to the applied area in the past, or the efficiency is verified according to the rainfall intensity in the indoor laboratory.

However, in the case of sprinkling using a sprinkler as described above, it is difficult to quantitatively evaluate, and since it is impossible to consider rainfall characteristics similar to the natural state such as falling energy or rainfall particle shape of actual rainfall, In addition, it is impossible to apply the existing LID facilities in the laboratory considering the site conditions in case of indoor experiment.

In order to solve this problem, a rainfall simulator as disclosed in Patent Documents 1 and 2 has been disclosed. However, most of the conventional rain simulators are integrally constructed, so that it is possible to simulate rainfall only within a limited range, Buoyancy, frictional resistance and energy for gravity are not taken into consideration, which also has a problem in that reliability of experimental data is poor.

On the other hand, in case of spraying Suspended Solid for the experiment on clogging which shortens the life time of permeable pavement, it should be used in conjunction with the rainfall simulator to spray the suspended matter uniformly. For this purpose, it is possible to spray the suspension by stirring the suspension directly in the tank.

In order to spray the suspended matter in the rainfall simulator as described above, the stirring must precede the stirring. The suspension of the suspension occurs at the center of the tank, and the suspension floats in the lower part of the tank. Particularly, As a sand component, the weight of the suspended oil is too heavy to stir.

Patent Document 1: Korean Patent Registration No. 10-1270559 entitled " Boiling Point and LID Test Simulator " Patent Document 2: Korean Patent Laid-Open Publication No. 10-2011-0058478 entitled "

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an agitator which is eccentrically disposed in an inner space of a housing to prevent sedimentation of suspended solids in the inner space of the housing, The present invention is to provide a new type LID obstruction experiment stirring device for stirring suspended solid matter such as sand components evenly throughout the rainfall simulator through the injection nozzle without clogging the injection nozzle.

Another object of the present invention is to provide a new type of stirring device for suspended solids for LID occlusion experiment capable of further increasing the stirring effect by injecting air pressure to a suspended matter stirred by an agitator provided inside the housing eccentrically using a compressor It is another task.

According to an aspect of the present invention, there is provided a system for validating a water environment efficiency of a LID element technology, the system comprising: a float for an LID occlusion experiment for spraying a float into a rainfall simulator (100) In the stirring apparatus 10, the stirring apparatus 10 has an inlet 21 into which suspended matters flow, an internal space 22 in which the suspended matters introduced through the inlet 21 are received, A housing (20) having a discharge port (23) for discharging air; A stirrer (30) formed at one side of the inner space (22) of the housing (20) for stirring the suspended matter contained in the inner space (22); A compressor (40) for injecting air pressure into the suspended matter stirred in the inner space (22) of the housing (20); An injection nozzle (50) formed on an outlet (23) of the housing (20) for preventing clogging of the suspension and spraying the suspension; A controller (60) for controlling the agitator (30), the compressor (40), and the spray nozzle (50).

In the stirring device for suspended solids for LID occlusion experiment according to the present invention, the stirrer 30 includes a motor 31 installed outside the housing 20; A rotating shaft 32 rotated by driving the motor 31; And an impeller 33 formed on the rotary shaft 32 for stirring the suspended body accommodated in the inner space 22 of the housing 20 so as to be rotatably supported on one side of the inner space 22 of the housing 20 And is eccentrically installed.

The air injected by the compressor 40 in the suspension device for suspended solids for LID occlusion experiment according to the present invention injects air pressure onto the inner space 22 of the housing 20 through the porous tube 41 .

In the apparatus for stirring suspended solids for LID occlusion experiment according to the present invention, a flow meter (not shown) formed in the inner space 22 of the housing 20 for measuring the flow rate of the fluid among suspended solids flowing into the inner space 22 71); And a flow meter controller (72) for controlling the flow meter (71).

As described above, according to the stirring device for suspended solids for LID occlusion experiment according to the present invention, the stirrer is disposed eccentrically in the inner space of the housing to prevent the float from precipitating below the inner space of the housing, effectively stir the float, In addition, the suspended solids such as sand components are uniformly sprayed uniformly over the entire rainfall simulator through the injection nozzle without clogging the injection nozzle.

Further, there is an effect that the stirring effect can be further increased by injecting the air pressure to the suspended matters stirred by the stirrer provided so as to be eccentric in the inside of the housing by using the compressor.

FIG. 1 is a schematic view of an apparatus for stirring suspended solids for LID occlusion experiment according to a preferred embodiment of the present invention,
2 is a view showing a rain simulator in which suspended matters are adhered in an apparatus for stirring suspended solids for LID occlusion experiment according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In FIGS. 1 and 2, the same reference numerals are assigned to components performing the same function. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

Referring to FIGS. 1 and 2, an apparatus 10 for stirring suspended solids for LID occlusion experiment according to a preferred embodiment of the present invention includes a rainfall simulator And includes a housing 20, a stirrer 30, a compressor 40, a spray nozzle 50, and a control unit 60. The housing 20 includes a housing 20, a stirrer 30, a compressor 40, Here, the suspended body includes a fluid and a solid. In the present invention, the suspended body of solid is composed of a sand component in a unit of 1 mm to 5 mm.

The housing 20 has a cylindrical shape and has an internal space 22 and an inlet 21 through which the float is introduced into the upper portion and an outlet 23 through which the float is discharged at the lower portion. At this time, the lower part is formed in a cone shape so as to be inclined toward the center side, and the discharge port 23 is formed on the center side.

The LID occlusion experiment stirring apparatus 10 according to the preferred embodiment of the present invention is formed in the internal space 22 of the housing 20 and has a flow rate of the fluid among suspended matters flowing into the internal space 22 And a flowmeter controller 72 for controlling the flowmeter 71. The flowmeter 71 is provided with a flowmeter 71 for measuring the flow rate of the fluid.

The stirrer 30 is installed in the inner space 22 of the housing 20 to stir the suspended matter introduced into the inner space 22 of the housing 20 and the stirrer 30 is provided on the outer side of the housing 20 A rotating shaft 32 that rotates by driving the motor 31 and an impeller 32 that is formed on the rotating shaft 32 and that stirs the suspended matter contained in the inner space 22, And is disposed to be eccentric to one side of the inner space 22 of the housing 20.

Since the agitator 30 is eccentrically installed in the inner space 22 of the housing 20, the effect of agitating suspended matters introduced into the inner space 22 of the housing 20 is increased.

The compressor 40 is for spraying air pressure to the suspension suspended in the inner space 22 of the housing 20 and the air injected by the compressor 40 installed on the upper portion of the housing 20 is passed through the porous tube 41 So that the air pressure is injected onto the inner space 22 of the housing 20.

The air pressure is blown by the compressor 40 through the porous tube 41 onto the inner space 22 of the housing 20 so as to be introduced into the inner space 22 of the housing 20 to be supplied to the stirrer 30 The suspended matters stirred by the air can be vortexed by the air pressure and the stirring effect can be further increased.

The spray nozzle 50 is formed on the discharge port 23 of the housing 20 so that the suspended matter stirred by the stirrer 30 is sprayed to the rain simulator 100 without clogging. In the present invention, It consists of a spiral nozzle.

In the meantime, in the LID occlusion experiment stirring apparatus 10 according to the preferred embodiment of the present invention, the rainfall simulator 100 is composed of one unit, and the float can be sprayed. As shown in FIG. 2, A plurality of unit pieces 110 may be formed and the suspended matter sprayed through the spray nozzle 50 may be sprayed.

The control unit 60 is for controlling the agitator 30, the compressor 40, and the injection nozzle 50.

As described above, according to the present invention, the stirrer 30 is disposed eccentrically in the inner space 22 of the housing 20, so that the floating matter is prevented from being separated from the inner space of the housing 20 (Not shown) to the precipitation simulator 100 through the injection nozzle 50 without clogging the injection nozzle 50. [0040] In addition, So that it is effective to evenly spray the whole.

There is also an effect that the stirring effect can be further increased by injecting the air pressure using the compressor 40 to the suspended matters stirred by the agitator 30 provided inside the housing 20 eccentrically.

As described above, according to the preferred embodiment of the present invention, the suspension device for suspended solids for LID occlusion experiment has been described with reference to the above description and drawings. However, the present invention is merely illustrative and not restrictive within the scope of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

10: Lid clogging experiment suspended solids stirring device
20: housing 21: inlet
22: inner space 23: outlet
30: Stirrer 31: Motor
32: rotating shaft 33: impeller
40: compressor 41: porous tube
50: injection nozzle 60:
71: Flowmeter 72: Flowmeter control
100: Rainfall simulator 110: Unit

Claims (4)

In a stirring apparatus (10) for suspending an LID clogging experiment for spraying a suspension of water on a rainfall simulator (100) constituted by environmental conditions of an installation area in a stirring system,
The stirring device 10 has an inlet 21 through which the suspension is introduced and has an internal space 22 in which the suspension introduced through the inlet 21 is received and is cone- A housing (20) having an outlet (23) through which a suspended matter is discharged to the side;
A stirrer (30) formed at one side of the inner space (22) of the housing (20) for stirring the suspended matter contained in the inner space (22);
A compressor (40) for injecting air pressure into the suspended matter stirred in the inner space (22) of the housing (20);
An injection nozzle (50) formed on an outlet (23) of the housing (20) for preventing clogging of the suspension and spraying the suspension;
A controller (60) for controlling the agitator (30), the compressor (40), and the spray nozzle (50);
The stirrer (30) includes a motor (31) installed outside the housing (20);
A rotating shaft 32 rotated by driving the motor 31;
And an impeller (33) formed on the rotating shaft (32) for stirring the suspended matter contained in the inner space (22) of the housing (20)
Eccentrically installed on one side of the inner space (22) of the housing (20)
The air injected by the compressor 40 injects air pressure onto the inner space 22 of the housing 20 through the porous tube 41,
Wherein the spray nozzle (50) is made of any one of a full-cone nozzle or a spiral (spiral) nozzle.
delete delete The method according to claim 1,
A flow meter (71) formed in the inner space (22) of the housing (20) for measuring a flow rate of the fluid among suspended matters flowing into the inner space (22);
Further comprising a flow meter controller (72) for controlling the flow meter (71).

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