KR100519582B1 - A sample picking apparatus for examination of water - Google Patents

Abstract

The present invention constructs a manhole on the floor and installs a submersible pump inside the manhole to pump water introduced into the measuring station so that water can be collected even at a low level, and the sample water introduced into the manhole is filtered to contaminate the inside of the manhole. It is possible to prevent the, and is installed in the form of buried in the bottom of the sample water collecting device with low risk of loss even if the flow rate increases rapidly due to heavy rain, etc.

The sample water collecting device has a hollow body having at least one side opened, the manhole is installed in the installation place so that the opening is directed upward, the inlet and outlet through both sides of the body corresponding to the direction of the water flow; A filtering member installed to correspond to the outside of the inlet of the manhole and filtering impurities flowing into the inlet; An underwater pump installed inside the manhole and connected to a measuring station and a pipe to pump the sample water collected in the manhole into the measuring station; Support means for supporting the submersible pump to install the submersible pump inside the manhole; And a cover for detachably closing the opening of the manhole.

Description

A sample picking apparatus for examination of water}

The present invention relates to a sample water collecting device that collects sample water in order to measure the water pollution level of a river or river, and in particular, by installing a manhole on the floor and installing an underwater pump inside the manhole to pump the sample water introduced into the measuring station. It is possible to collect water even at low water level and to filter the sample water flowing into the manhole to prevent contamination in the manhole.

As environmental pollution is getting worse due to industrial development, it is required to protect and manage the water quality of rivers and rivers cleanly.

In accordance with these requirements, an automatic water quality measurement system is installed in rivers or streams to measure the water quality. The sample water collection structure includes three structures, namely, a water collection structure using a barge (1). And a water collecting structure by the cantilever 2 and a water collecting structure by the water intake port 3.

In the water collection structure using the barge 1 as shown in FIG. 1A, a barge 1 is installed in a river or a river to collect the sample water, and thus the risk of loss of the barge 1 is increased when the flow rate rapidly increases in summer when rainfall is concentrated. There is a high disadvantage.

A water collecting structure using a cantilever (water tower. 2) as shown in FIG. 1B is a method of collecting water by installing a fixed structure on a riverside. Although the cantilever 2 is structurally stable, inundation and breakage occur frequently due to an increase in flow rate during rainfall, and floating materials accumulate around the water intake tower, so the risk of damage to the water collection facility is very high.

In addition, the water intake structure by the intake port (3) as shown in Figure 1c is a method of collecting the sample water by installing a fixed intake port (3) on the river side, the inlet material and foreign matter flows into the intake port (3) A clogging phenomenon occurs and there is a problem that water cannot be collected when the flow rate is reduced.

In addition to this, there is a case in which the water collecting device is installed in the piers, but in order to install the water piers, as well as the installation of the water collecting apparatus has a disadvantage that the double.

The present invention is to solve the above problems of the conventional water collecting device, the purpose is to install the manhole on the floor and install the submersible pump inside the manhole to pump the incoming sample water to the measuring station to collect water even at low water level It is possible to prevent the contamination inside the manhole by filtering the sample water flowing into the manhole, and since it is installed in the bottom, it is installed in the bottom, so that even if the flow rate increases rapidly due to heavy rain, etc. In providing a device.

The sample water collecting device has a hollow body having at least one side opened, the manhole is installed in the installation place so that the opening is directed upward, the inlet and outlet through both sides of the body corresponding to the direction of the water flow; A filtering member installed to correspond to the outside of the inlet of the manhole and filtering impurities flowing into the inlet; An underwater pump installed inside the manhole and connected to a measuring station and a pipe to pump the sample water collected in the manhole into the measuring station; Support means for supporting the submersible pump to install the submersible pump inside the manhole; And a cover for detachably closing the opening of the manhole.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment configuration of the sample water collection device of the present invention.

2 is a conceptual view showing a sample water collection structure according to the present invention, Figures 3 to 5 is a perspective view showing the assembly process of the sample water collection device according to the present invention. 8 is a cross-sectional view showing the inside of the use state of the water collecting device according to the present invention, Figure 9 is a cross-sectional view of the open state of the cover of the water collecting device according to the present invention, Figure 10 is an enlarged installation state of the filtering member according to the present invention It is a drawing shown.

As shown in the drawing, the sample water collecting device 10 according to the present invention includes a manhole 11 embedded in a bottom of an installation place, and a sample water flowing into the manhole 11 installed at an inlet of the manhole 11. Filtration member 12 for filtering, submersible pump 13 for pumping the sample water introduced into the manhole 11 to the measuring station (A), support for installing the submersible pump 13 in the manhole 11 Means (14) and a cover (15) for detachably closing the opening to prevent the entry of floating matter into the interior of the manhole (11).

The sample water collecting device 10 includes a filter 16 having a smaller filtration hole than the filtration hole of the filtration member 12 at the inlet of the manhole 11 so as to filter impurities passing through the filtration member 12. It is better to be installed more.

In the sample water collection device 10 of the present invention configured as described above, the submersible pump 13 is housed in the manhole 11 embedded in the floor, and the cover 15 is closed in the opening of the manhole 11 so that it may be rainy. Even if the blown water flows quickly, the manhole 11 and the cover 15 do not have to be lost.

Since the manhole 11 is buried so that its inlet is exposed near the bottom, the number of samples can be measured even if the water level is lowered to the bottom due to drought.

In addition, since the filtration member 12 and the filter 16 provided at the inlet of the manhole 11 block the inflow of impurities perishable, it is possible to provide a normal sample water to the measuring station (A).

The manhole 11 has a hollow body with at least one side open. Preferably, it is preferably composed of a hollow body with both sides opened. The manhole 11 is installed at an installation place with the opening 11a facing upwards, and the inlet 11b and the outlet 11c penetrate through both sides of the body corresponding to the direction in which the water flows.

A plurality of mouths 11b and 11c are penetrated at the same height, and when the water level is located at the inlet 11b, the mouth 11b can maintain the level of the manhole 11 at a constant level. It is preferable to form the entire area wider than the entire surface of the outlet 11c.

In other words, if the area of the inlet 11b is larger and the area of the outlet 11c is smaller, the amount of sample water flowing into the inlet 11b is larger than that discharged to the outlet 11c. The internal sample water maintains a constant level. In the figure, the inlets and outlets 11c have the same size and are spaced apart at regular intervals, and six inlets 11b and three outlets 11c are penetrated.

On the other hand, the inlet (11b) of the manhole 11 is further provided with a filter 16 having a smaller filtration hole than the filtration hole of the filtration member 12 to filter the impurities passing through the filtration member 12 .

The filter 16 has a filter hole (16a) is formed on both sides of the water flow direction, the handle 16b is formed on the side corresponding to the inner side in the installation state to facilitate the use.

The manhole 11 penetrates a passage 11d so that a pipe P connecting the measurement station A and the submersible pump 13 can pass therethrough, and one side of the passage 11d supplies power to the submersible pump 13. The guide hole 11e for supplying penetrates through.

In addition, the manhole 11 has a locking step 11f formed inside the opening 11a to mount the cover 15 and the frame of the support means 14 to be described later.

The filtering member 12 filters the sample water flowing into the manhole 11 and is installed outside the inlet 11b. The filtering member 12 is an inner mesh 12a, an outer mesh 12b, a connecting member 12c for connecting the inner and outer meshes 12a and 12b, and a fixing member fixed to the manhole 11. It consists of 12d.

The filtration member 12 has a plurality of filtration holes 12e penetrating through the entire area. The filtration holes 12e may be configured in various forms, and the drawings show that the filtration member 12 penetrates in a circular shape.

The filter hole 12e is preferably not too large because the purpose is to prevent the inflow of impurities and suspended matters, preferably about 2 to 4 cm in diameter.

The inner mesh 12a has a curved surface such as the outer diameter of the manhole 11 so as to be in close contact with the manhole 11, and has an area that can cover the inlet 11b of the manhole 11. The filter holes 12e penetrate the body.

The outer mesh 12b is connected to the inner mesh 12a at a predetermined interval by using the connecting member 12c. The outer mesh 12b has a concentric circle with the inner mesh 12a and has a larger diameter than the inner mesh 12a. The surface is curved, and a plurality of filter holes 12e penetrate through the body.

The fixing member 12d is installed in the outer net 12b to fix the filtering member 12 to the manhole 11. The fixing member 12d extends above the outer mesh 12b, and the hook 12d-1 is bent so that the fixing member 12d can be locked to the opening 11a of the manhole 11.

The submersible pump 13 is installed in the manhole 11 and connected to a pipe P connected to the measuring station A, thereby providing power to pump the sample water flowing into the manhole 11 into the measuring station A. This is because it uses a well-known submersible pump that is widely used in the industry, detailed configuration is omitted.

However, the submersible pump 13 is connected to the intake pipe 13a at its inlet, and the sample pipe 13a extends near the inlet 11b of the manhole 11 so that the sample flows into the inlet 11b. Allow the water to be collected.

The support means 14 is for installing the submersible pump 13 in the manhole 11, the frame 14a installed in the opening 11a of the manhole 11, in the manhole 11 It includes a support 14b for receiving and mounting the submersible pump 13, and a connecting shaft 14c for connecting the frame 14a and the support 14b.

The frame 14a is fixed to the locking jaw 11f of the manhole 11, and a plurality of ribs 14a-1 are installed therein so as to withstand the weight of the submersible pump 13, and the hooking edge The lug 14a-2 protrudes so that it can be fixed to the jaw 11f by the anchor bolt B or the like.

The support 14b is for mounting the submersible pump 13 directly. The support 14b is installed in a horizontal state below the support 14b. The support 14b is connected to the frame 14a using the connecting shaft 14c. In the figure, the support 14b shows that a plurality of rods are fixed in parallel.

The connecting shaft 14c may be selectively determined according to the length of the manhole 11 and the size of the submersible pump 13, and if the length thereof is short, the position of the submersible pump 13 mounted on the support 14b becomes high, If the length is long, the position of the submersible pump 13 is lowered.

The cover 15 detachably opens and closes the opening 11a of the manhole 11 and is mounted on the top of the frame 14a in a state accommodated in the opening 11a of the manhole 11.

The cover 15 is rotatably connected to the door (15a) by the hinge (15b) on one side of the body, the door (15a) closes the opening (11a) when taking the sample water, the submersible pump 13 If necessary, such as when repairing will open the manhole (11). The cover 15 has a handle 15c formed on the side of the body and the door 15a to facilitate handling.

The cover 15 has a receiving hole 15d formed at the side of the body and the door 15a, and the pin 15e penetrates the side surface of the manhole 11 while being inserted into the manhole 11. 15d) It is closed inside. In this way, the lid 15 is closed because the pin 15e closes the lid 15 and the door 15a so that the water blown out during heavy rain flows quickly from the manhole 11.

The water collecting device 10 of the present invention configured as described above digs the bottom of the installation place to a certain depth and then embeds the manhole 11 there. At this time, the manhole 11 is arranged so that the inlet 11b and the outlet 11c coincide with the flow direction of the water so that the sample water naturally flows into the inlet 11b.

The filter 16 is inserted into and installed in the inlet 11b of the manhole 11, and the filtration member 12 is installed in front of the inlet 11b. At this time, the hook 12d-1 of the filtration member 12 is fixed to the opening 11a of the manhole 11.

After that, the support means 14, that is, the frame 14a and the support 14b formed integrally are inserted into the manhole 11, and the submersible pump 13 is installed in the support 14b as necessary. It is good to configure a plurality of the underwater pump 13 so that the other underwater pump 13 can be used when the underwater pump 13 in use fails. Therefore, the plurality of submersible pumps 13 are installed to be connected to the pipe P connected to the measuring station A. The structure of connecting the plurality of submersible pumps 13 to the pipe P is not widely shown in the drawings because it is a widely used technique.

Then, the pipe P connected to the measuring station A is inserted into the passage 11d of the manhole 11 and connected to the submersible pump 13, and also a power cable for driving the submersible pump 13 (not shown). ) Is also withdrawn to the outside through the guide hole (11e).

Thereafter, the opening 11a of the manhole 11 is closed by the cover 15. A pin 15e penetrating the side of the manhole 11 is disposed on the side of the body and the door 15a of the cover 15. It inserts into the formed receiving hole 15d and closes it.

The water collecting device 10 of the present invention installed as described above flows into the manhole 11 through the inlet 11b, and discharges through the outlet 11c when the water level reaches a predetermined level. The submersible pump 13 is driven under the control of the controller of the measuring station A to feed the sample water to the measuring station A so as to measure the water quality.

At this time, the filtration member 12 and the filter 16 are installed at the inlet 11b of the manhole 11 into which the sample water is introduced, and since they filter the impurities, the submersible pump 13 does not generate a load due to impurities. In addition, the pipe P may be prevented from being damaged by impurities.

The water collecting device of the present invention configured as described above has the advantage that the manhole and the underwater motor housed therein are not lost even though the manhole is installed at the bottom of the river or the river, even if the flow rate of water blown by the heavy rain is fast.

In addition, because the manhole is installed on the floor and the inlet is located near the floor, the number of samples can be measured even when the water level is almost at the bottom. Since it blocks, it has the advantage of providing a normal number of samples to the measuring station.

1 is a conceptual diagram showing a conventional sample water collection structure

2 is a conceptual diagram showing a sample water collection structure according to the present invention

3 is an exploded perspective view of a sample water collecting device according to the present invention;

Figure 4 relates to the present invention, an external perspective view showing a state in which a submersible pump is installed inside the manhole

Figure 5 is a perspective view showing a state in which the filtering member is installed outside the manhole according to the invention

6 is a perspective view of a filtration member according to the present invention

7 is a perspective view of a filter according to the invention

Figure 8 is a cross-sectional view showing the inside of the use state of the water collecting device according to the present invention

Figure 9 is a cross-sectional view of the lid open state of the water collecting device according to the invention

FIG. 10 is an enlarged view of the inner part of FIG. 9 and illustrates an installation state of a filtration member. FIG.

Explanation of symbols on the main parts of the drawings

10: water collecting device 11: manhole

12 filter element 13 submersible pump

14: support means 14a: frame

14b: support 15: cover

16: filter

Claims (5)

A manhole having a hollow body having at least one side opened and standing in an installation place such that the opening faces upward, the inlet and outlet penetrating both sides of the body corresponding to a direction in which water flows; A filtering member installed to correspond to the outside of the inlet of the manhole and filtering impurities flowing into the inlet; An underwater pump installed inside the manhole and connected to a measuring station and a pipe to pump the sample water collected in the manhole into the measuring station; A water collecting pipe connected to the submersible pump and extending to the inlet of the manhole to collect the sample water flowing into the inlet; Support means for supporting the submersible pump to install the submersible pump inside the manhole; And And a cover for detachably closing the opening of the manhole. The method of claim 1, wherein the support means comprises a frame installed inside the opening of the manhole; A support that is accommodated in the manhole and mounts a submersible pump; Connection shaft for connecting the frame and the support; Sample collection device comprising a. The sample water collecting device according to claim 1, wherein the manhole has a locking jaw formed inside the opening to mount the frame and the cover. The sample water collection device according to claim 1, wherein a filter having a smaller filtration hole than the filtration hole of the filtration member is further installed at the inlet of the manhole so as to filter the impurities passing through the filtration member. According to claim 1, wherein the filtering member has a size that can cover the inlet to the curved surface, such as the outer diameter of the manhole, the inner network having a plurality of filter holes to filter impurities; An outer network spaced apart from the inner network and having a plurality of filter holes; A connection member connecting the internal and external networks; And a fixing member installed at the outer network and having a hook formed at an upper end thereof, the fixing member being fixed to the opening of the manhole.