KR100518684B1 - Atomatic Sewage Sampling System in Manhole - Google Patents

Abstract

The present invention relates to a sewage sample automatic sampling device in the sewage manhole,

Install a compressor and electric operation panel to supply compressed air to the roadside where the sewage pipeline at the sewage sampling point is embedded, and install an air diaphragm pump operating in the middle of the sewage manhole on the sewage pipeline, At the lower end, a floating screen equipped with a contaminant inflow prevention means is mounted at a certain water level where the sewage flows.

It is to make it possible to easily and easily collect the desired sewage sample from the outside from the sewage flowing into the sewer pipe without opening the sewer pipe or the manhole cover.

Description

Automatic sewage sampling system in sewage manholes {Atomatic Sewage Sampling System in Manhole}

The present invention relates to a sewage sample automatic sampling device in the sewage manhole,

Install a compressor and electric operation panel to supply compressed air to the roadside where the sewage pipeline at the sewage sampling point is embedded, and install an air diaphragm pump operating in the middle of the sewage manhole on the sewage pipeline, At the lower end, a floating screen equipped with a contaminant inflow prevention means is mounted at a certain water level where the sewage flows.

It is to make it possible to easily and easily collect the desired sewage sample from the outside from the sewage flowing into the sewer pipe without opening the sewer pipe or the manhole cover.

In general, for the management of sewage quality, sewage samples for water quality measurement are regularly collected from sewage pipes or from time to time.

By the way, when taking these sewage samples,

First, a sample should be taken from the sewage flowing at a certain level in the middle of the water except for the surface of the surface where the contaminants or sedimented sludge is distributed and the sewage at the bottom,

Second, when sampling, avoid air contact as much as possible to prevent the sewage sample from deforming,

Thirdly, it should be possible to take the right amount of sample for water quality measurement.

Finally, due to the nature of sewage manholes, it is necessary to take samples from outside the manholes in consideration of safety, such as the generation of odors and harmful gases, for humans to enter directly.

However, according to the sewage sampling method so far,

When collecting sewage samples from sewage pipes with sewage bottles, it is very difficult to obtain standard samples for sewage water quality due to the fluctuations in the water level according to the flow rate of sewage and sludge deposited on the bottom.

In addition, because the person had to open the sewage manhole cover and take a sample directly from the sewer line, which was buried underground, it was very cumbersome and dangerous,

When collecting sewage samples with a sewage bottle, it was difficult to accurately collect only a standard sample without sediment, in which the depth of the sewage was shallow and sediment deposited on the bottom.

The present invention has been studied in consideration of all the problems that the conventional sewage sampling method has,

An object of the present invention is to make it easier and faster to collect standard sewage samples from which sewage or sludge does not flow from sewage flowing into sewage pipes more easily and to ensure accuracy in water quality measurement and management.

In order to achieve the above object, the present invention,

Install a compressor and electric operation panel to supply compressed air to the roadside where the sewage pipeline at the sewage sampling point is embedded, and install an air diaphragm pump operating in the middle of the sewage manhole on the sewage pipeline, At the lower end, a floating screen equipped with a contaminant inflow prevention means is mounted at a certain water level where the sewage flows.

It is characterized in that the suction sewage sample can be easily and automatically collected from the outside in the sewage flowing into the sewer pipe without opening the sewer pipe or manhole cover.

In addition, the present invention is applied to an air diaphragm pump operated by compressed air without the risk of explosion in consideration of the explosive gas generated in the sewage manhole, moisture and corrosiveness, and characterized by using a high-pressure hose or stainless steel material of corrosion resistance material do.

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

Figure 1 is a perspective view schematically showing the overall configuration of the present invention, Figure 2 is a schematic diagram showing the operating state of the present invention, Figure 3 is an operating state of the air diaphragm pump of the present invention,

A compressor 7 capable of supplying compressed air to the roadside 5 near the sewage manhole 3 where the sewage pipe 1 to which the sewage sample is to be collected is embedded, and an electric operation panel 9 for operating the sewage sample 1 are installed. In addition, they are installed in a rectangular lid or a home operation room 10 in consideration of the rainy weather to be able to take a sample therein,

The sewage sample discharge pipe 11, the air supply pipe 12, the solenoid valve actuated air supply pipe 13, and various valves connected thereto are provided in the operation chamber 10.

And the middle portion of the sewage manhole (3) is provided with a bracket (15) in which the air diaphragm pump (14) is installed, in order to be able to pump smoothly in the water level fluctuations, a floating screen ( 17 is integrally connected to the flexible suction hose 19 is configured to move the floating screen 17 up and down according to the water level fluctuations, so that the foreign matter is not sucked to the end of the suction hose 19 The strainer 20 is configured to be locked to a certain water level depth.

In addition, due to the explosive gas generated inside the sewage manhole (3), high humidity and condensation, non-metallic or stainless steels are used as corrosion-resistant materials in consideration of the risk of operation error and electric shock caused by gas explosion or leakage. The manhole 3 is configured to operate the air diaphragm pump 14 and the residual sewage discharge solenoid valves 22 and 22 'by supplying compressed air without any electricity supply.

In addition, in order to prevent freezing due to freezing of the winter suction and discharge pipes and to prevent decay inside the summer suction hose 19, a residual sewage discharge solenoid valve 22 is mounted on the suction hose 19 and a discharge pipe 24 is provided. In the lower part, a residual sewage discharge solenoid valve 22 'is mounted to completely drain the sewage remaining in the suction hose 19.

Figure 4 is a perspective view showing the configuration of the floating screen of the present invention,

In the floating screen 17, a cylindrical mesh 25 made of stainless steel is covered around the sides of the + and round frames 27, and the lower and upper portions thereof are open.

And both sides of the cylindrical mesh (25) so that the buoyancy box 28 made of a material having its own buoyancy, such as air pocket type or styrofoam to rise to the appropriate surface in proportion to the weight of the floating screen (17) The size is calculated and attached,

Several guide brackets 30 are attached to the circumference of the frame 27 and inserted into guide pipes 32 and 32 'installed vertically from the bottom to the vicinity of the cap 31 of the sewer manhole 3, thereby changing the water level. It can move up and down according to the back.

In addition, the wire rope 33 is connected to the pulley 37 to the upper position of the guide pipes 32 and 32 'on the upper part of the frame 27, so that when checking and cleaning the floating screen 17, It is easy to lift, and attached to the pulley 37 by attaching a weight 35 at the end thereof to improve the floating force of the floating screen 17.

In addition, the suction hose 19 connected to the air diaphragm pump 14 is lowered to an appropriate position on the upper portion of the frame 27 so that the floating screen 17 can suck the sewage sample having a proper depth from the surface despite the water level fluctuation. You can,

A strainer 38 is attached to the end of the suction hose 19 to allow the suction hose 19 to be immersed in the sewage without shaking, and to prevent inflow of fine contaminants passing through the cylindrical mesh 25.

Therefore, when the sewage sample automatic collection device in the sewage manhole of the present invention, when the sewage sample is collected, first by operating the compressor (7) installed inside the operation room 10 to open the valve connected to the air supply pipe 12, The air diaphragm pump 14 installed in the sewage manhole 3 is operated and sewage is sucked through the suction hose 19 connected thereto, and the sewage sample having the required capacity is discharged in the operation room 10 through the discharge pipe 8. Can be harvested.

By this simple operation, it is possible to take a standard sewage sample at a constant level of sewage flowing into the sewage manhole 3 without opening the manhole cover 31 more quickly and easily.

As described above, the automatic sewage sample collecting device in the sewage manhole of the present invention does not need to open the manhole cover 31 every time the sample of the sewage flowing into the sewer pipe 1 buried underground, the air diaphragm pump 14 Since it can be simply and safely collected by using the air supply, there is an advantage that can be expected to have a great effect in improving the precision of the sewage water quality measurement.

1 is a perspective view schematically showing the overall configuration of the present invention,

2 is an operating system diagram of the present invention,

3 is a configuration diagram showing an operating state of the air diaphragm pump of the present invention,

4 is a perspective view showing the configuration of the floating screen of the present invention.

* Explanation of symbols for the main parts of the drawings

1: sewer pipe 3: sewer manhole

7: Compressor 9: Electric Operation Panel

10: operation room 11: discharge tube

12 air supply pipe 14 air diaphragm pump

13: solenoid valve operation air supply line 17: floating screen

19: suction hose 22, 22 ': residual sewage discharge solenoid valve

20: strainer 25: cylindrical mesh

27 frame 28 buoyancy box

30: guide bracket 31: manhole cover

32, 32 ': guide pipe 33: wire rope

37: pulley 35: weight

Claims (2)

An operating room (10) installed at a roadside (5) near a sewer manhole (3) in which a sewage pipe (1) from which sewage samples are to be collected is installed, and an electrical operation panel (9) and a compressor (7) are installed therein; The suction air 19 and the solenoid valve 22 are installed in the middle portion of the sewer manhole 3 through the air supply pipe 12 and the solenoid valve actuating air supply pipe 13. An air diaphragm pump 14 to be supplied to the 22 ', It is integrally attached to the suction hose 19, the strainer 20 is mounted at the end, the cylindrical mesh 25 is covered on the side of the frame 27, buoyancy box 28 and guide brackets 30 on both sides. Floating screen (17) installed, A guide pipe (32) (32 ') installed vertically from the bottom of the sewer manhole (3) to the vicinity of the lid (31) into which the guide bracket (30) of the floating screen (17) is inserted; A wire rope 33 installed on an upper portion of the frame 27 of the floating screen 17 and having a weight 35 connected to an end thereof through a pulley 37; A discharge pipe 11 connected to an upper portion of the air diaphragm pump 14 and connected to the operation chamber 10; Automatic sewage sample collection device in the sewage manhole, characterized in that consisting of a residual sewage discharge solenoid valve (22) (22 ') connected to the suction hose (19) and the discharge pipe (11). 2. The apparatus for automatically collecting sewage samples in sewage manholes according to claim 1, wherein the sewage manholes (3) are made of non-metallic or stainless steels as corrosion resistant materials.