KR20090038061A - Sample picking apparatus with variable height - Google Patents

Abstract

A water sampling device of water level change variable form is provided to improve the accuracy of the survey of pollution level and to prevent the inflow of the foreign material by using a filtering member. A water sampling device of water level change variable form comprises: a container(10) installed in the location for sampling the water and accommodating the sample water; a feed port(20) hinge-coupled in the container; a float part(30) hinge-coupled in the tip-end part of the feed port, and adjusting the slope of a sample water inflow pipe; and a lid part(40) preventing the leakage of the sample water.

Description

Sample picking apparatus with variable height}

The present invention relates to a sample water collecting device used in the process of measuring the water pollution degree, and more particularly to a variable water level variable sample water collecting device in which the sample water collecting device is variable according to the water level so that only the supernatant is always taken.

In general, a sample water collecting device is a device for recognizing that rivers or rivers are contaminated due to environmental pollution or pollutants, and the sample water collecting device uses a submersible pump to measure the sample water flowing into the manhole. Water quality information is secured by sending it to the water meter and the water quality is measured through a measuring instrument.

For example, as shown in FIG. 1, the sample sink device 100 includes a manhole 110 covered with a cover 115 while being embedded in a bottom surface of an installation place, and a foreign substance of a sample water flowing into the manhole 120. It consists of a filtration member 120 for filtering, and an underwater pump 130 for pumping the sample water flowing into the manhole 110 to a measurement station.

Therefore, when the sample water collecting device 100 is embedded in the bottom surface of the river or river, the sample water filtered by the filter member 120 is introduced into the manhole 110, and then the submersible pump 130 After being transported to the measuring station during the operation of the various pollution degree is measured by the water quality measurement device.

By the way, the sample sink device 100 is buried in the bottom of the river or river, the height adjustment is impossible, when the water level of the river or river changes depending on the season and precipitation, the water harvesting work is not kept constant and only the top water is collected. Since it does not, there was a problem that the reliability of the contamination of the sample water falls.

And, when the filtration member 120 is fixed to the inlet of the manhole 110, and the filtration member 120 is blocked by floating matter floating in the river or river water, the sample water collecting device 100, the manhole 110 Since smooth inflow of the sample water is not achieved, there is a problem in that the reliability decreases according to the contamination level measurement of the sample water.

Therefore, the present invention has been made to solve the problems described above, so that the sample water collecting device is variable according to the water level to ensure accurate water quality data to improve the reliability according to the measurement of contamination of the sample water The object is to provide a variable water level sampling device.

The present invention for achieving the above object; A water container including a river or a river, which is installed at a measurement place, accommodates the sample water, and has a main / secondary submersible pump for pumping the sample water therein; A supply unit coupled to the receiving body in a hinged manner so that sample water required for measuring water pollution is introduced; A floating part hingedly coupled to the distal end of the supply part and floating according to the level of the measurement place to adjust the inclination of the sample water inlet pipe; The cover is covered with an upper portion of the container portion to protect the interior as well as the cover portion to block leakage of the sample water.

First, since the sample water collecting device is varied according to the water level, even if the water level of the pollution measuring place is changed according to season and precipitation, only the supernatant water is always taken and transported, thereby increasing reliability according to the pollution measurement.

Second, since the inflow of foreign matter is minimized by the filter member that is changed by the floating part during the operation of the sample water collection device, the reliability of the contamination measurement is increased and the life of the collection device is extended.

Third, since a pair of warning lights are installed in the sample water collecting device to visually check the operation state of the pump, the operation state of the underwater pump can be immediately recognized.

Fourth, it is possible to increase the protection and safety of the measuring instrument by placing the general item measuring tank inside the manhole.

Hereinafter, an embodiment according to the present invention will be described.

2 is a schematic view showing a sample water collecting device according to the present invention, Figure 3 (a) to (d) is an operating state diagram of the sample water collecting device according to the present invention, Figure 4 is a sample water according to the present invention As an installation state diagram of the water collecting device;

A water sample collection device which is installed at a water pollution degree measuring place including a river or a river, sucks sample water and delivers the sample water to the measuring station A; A container part 10 installed at the measuring place to accommodate the sample water, and having the main and auxiliary submersible pumps 11 and 12 pumping the sample water therein; A supply unit 20 which is coupled to the container unit 10 in a hinged manner and receives sample water necessary for measuring water pollution; A floating part 30 which is coupled to the front end of the supply part 20 in a hinged manner and floated according to the level of the measurement place to adjust the inclination of the sample water inlet pipe; Covered with the upper end of the container portion 10 is made of a cover portion 40 to protect the interior as well as to block leakage of the sample water.

First, the water collecting device 1 according to the present invention, the container portion 10 for receiving the sample water, the floating portion 30 is hingedly coupled to the container portion 10 is suspended according to the water level, the container Consisting of the supply unit 20 connecting the unit 10 and the floating portion 30, the floating portion 30 is suspended according to the water level to adjust the inclination of the supply portion 20.

In addition, the container part 10 has a space part for accommodating the sample water while being installed at the water pollution measurement place, and the main / auxiliary submersible pump 11 for transporting the sample water to the measurement station A in the space therein. 12) is arranged.

Moreover, the container part 10 is provided with the stand 14 in which the fixing means of the internal parts including the said main / subsidiary submersible pumps 11 and 12 is used in the bottom surface.

Of course, the stand 14 also serves to block the precipitate precipitated in the container portion 10 is sucked by the main / auxiliary submersible pumps (11, 12) and transported to the measuring station.

In addition, the container portion 10 has a predetermined size of the installation hole 15 is inserted into the circumferential surface of the supply portion 20 to be described later, the main / auxiliary submersible pump (11, 12) The supply line 16 which supplies the sample number conveyed by the to the measuring station A is attached.

In addition, the container portion 10, on the outer wall surface of the lifting lug 50 for connecting the chain block (not shown) in the process of replacing the various components including the main / secondary submersible pump (11, 12) A plurality of holders 13 are mounted.

And, the floating portion 30, which is coupled to one surface of the container portion 10 hinged to be floating according to the water level, is connected to the container portion 10 via the supply unit 20, the one side portion There is formed a receiving space 32 of a predetermined size used as the rotation space of the supply unit 20 and the inflow space of the sample water to be described later.

In addition, the floating part 30 is equipped with a sealing member 33 for sealing the upper side of the receiving space 32 on the upper surface, the foreign matter of the sample water flowing into the receiving space 32 on the lower surface. A filter member 31 for blocking is mounted.

At this time, the floating portion 30 is preferably mounted in the same direction as the flow direction of water or in a direction opposite to the flow direction of water, and may be suspended by injecting air therein to form its own material as a floating material. It may be.

In addition, the supply unit 20 is a tubular body which is hingedly coupled to the floating unit 30 and selects only the supernatant water to supply the container unit 10. The supply unit 20 is hinged to the floating unit 30 to introduce sample water. A link duct 22; A connecting duct 23 hingedly coupled to the link duct 22 to move a sample number; The container 10 includes a general item measuring tank 24 which can be equipped with a device for measuring general items of sample water, that is, water temperature, pH, dissolved oxygen (DO), electrical conductivity, turbidity, and the like.

In addition, the link duct 22 is hingedly coupled to the receiving space 32 to receive the sample water, and passes through the filter member 31 at one end thereof, i.e., the portion coupled to the receiving space 32. A plurality of inlet holes 21 through which the sample water is introduced are formed, and a space part through which the sample water passes is formed in the inner space.

In addition, the connection duct 23 is hingedly coupled to the link duct 22 to pass through the sample water, and serves to supply the sample water introduced by the inlet hole 21 to the container unit 10. In particular, it is fixed in a sealed state to the installation hole 15 of the container portion 10.

In addition, the general item measuring water tank 24 is assembled to the connecting duct 23 and measured raw water passes through the V-groove 25 to supply the inflow water to the underwater pump.

In addition, it is preferable that the general item measuring water tank 24 has a general item measuring device required for measuring water pollution, such as water temperature, electrical conductivity pH, dissolved oxygen, turbidity, and the like, in the container unit 10.

At this time, the connection duct 23 is coupled to the installation hole 15 of the container portion 10, while the general item measuring tank 24 is coupled to the inner wall of the container portion 10.

The cover portion 40 covers the upper end of the container portion 10 to prevent leakage of sample water, and fixes the container portion 10 and the cover portion 40 by using a locking device or a clamp. Preferably, warning lamps 41 and 42 are mounted therein for indicating the operating states of the main and auxiliary submersible pumps 11 and 12, respectively.

In addition, the cover portion 40 is preferably molded into a transparent or translucent material as a means for visually identifying the operating state of the beacon (41, 42).

In particular, the cover portion 40 is preferably formed of a fiber reinforced composite material (FRP) or polycarbonate material to improve durability and corrosion resistance.

Hereinafter, the operation according to the present invention will be described.

First, when the water collecting device 1 according to the present invention is mounted at a water pollution measurement place including a river or a river, as shown in a to d of FIG. 3, the height of the floating part 30 depends on the level of the measurement place. It is decided.

At this time, when the water level of the measuring place is normal as shown in Figure 3a, since the container portion 10 and the floating portion 30 is set to a similar height, the number of samples introduced into the container portion 10 by the supply unit 20 It is normally conveyed to measuring station A.

If, as shown in b and c of Figure 3 when the precipitation is more than the normal value in the measurement site since the floating portion 30 is up, the number of samples introduced into the container portion 10 by the supply unit 20 is also It is normally supplied to measuring station A.

At this time, as shown in a to c of Figure 3, if the precipitation of the measurement site is a normal value or more than the normal value there is no problem due to the inflow of the supernatant.

On the other hand, when the floating portion 30 is in a downward state because the precipitation is very small in the measurement site as shown in d of FIG. 3, the sample water introduced by the supply unit 20 is not properly supplied to the container unit 10. The work is interrupted.

That is, since the inclination of the supply unit 20 is formed to be lower than the inlet side, the sample water at the measurement site is not supplied to the container unit 10, so that the contaminated water, which is an inaccurate water quality data, is introduced into the container unit 10 so that the measurement station It is not supplied to (A).

Therefore, as shown in d of FIG. 3, when the contamination is severe due to low rainfall at the measurement site, the water harvesting operation is stopped. Therefore, even when the water level of the measurement location is changed, accurate water quality data is secured, thereby increasing the reliability of the pollution measurement.

On the other hand, in the case of the suspended solids suspended in the water pollution measurement place, since the filter member 31 is variable according to the level of the measurement place in the floating process of the floating portion 30, the number of samples, that is, fallen leaves, vinyl, etc. Is removed and supplied to the measuring station (A).

In addition, in the case of deposited sediment flowing into the container portion 10 without being filtered by the filter member 31, it is blocked by the stand 14 and is measured by the main / auxiliary submersible pumps 11 and 12. Since it is not pumped into, the reliability is increased.

In addition, since the main submersible pump 11 and the submersible submersible pump 12 are installed in the container part 10, the continuity of the pumping operation is improved, and the main / submersible submersible pumps 11 and 12 are operated by the main / subsidiary warning lamp ( 41, 42), the reliability is increased.

1 is a schematic view showing a sample water collection device according to the prior art,

2 is a schematic view showing a sample water collection device according to the present invention;

3 (a) to (d) is an operating state of the sample water collecting device according to the present invention,

4 is an installation state diagram of a sample water collection device according to the present invention.

Explanation of symbols on the main parts of the drawings

10: container portion 11, 12: main / auxiliary submersible pump

20: supply part 22: link duct

23: connection duct 24: measuring tank for general items

30: floating part 40: cover part

50: lifting lug

Claims (7)

A water sample collection device which is installed at a water pollution degree measuring place including a river or a river, sucks sample water and delivers the sample water to the measuring station A; A container part 10 installed at the measuring place to accommodate the sample water, and having the main and auxiliary submersible pumps 11 and 12 pumping the sample water therein; A supply unit 20 which is coupled to the container unit 10 in a hinged manner and receives sample water necessary for measuring water pollution; A floating part 30 which is coupled to the front end of the supply part 20 in a hinged manner and floated according to the level of the measurement place to adjust the inclination of the sample water inlet pipe; Cover portion 40 is covered with the upper end of the container portion 10 to protect the interior as well as to block the leakage of sample water; Variable water level variable sample water collection device characterized in that consisting of. The method of claim 1, wherein the container portion 10, Water level fluctuation, characterized in that it is fixed to the main / auxiliary submersible pump (11, 12) therein as well as to prevent the suction of sediment deposited on the bottom surface of the container portion (10) Variable sample water collection device. The method of claim 2, wherein the container portion 10, Hold 13 for removing and attaching the lifting lug 50 for connecting the chain block in the process of replacing the various components, including the main / submersible submersible pump (11, 12) on its peripheral surface Variable water level sampling device with variable water level. The method of claim 1, wherein the supply unit 20, A link duct (22) having a plurality of inflow holes (21) into which sample water is introduced while being hinged to the floating portion (30); A connecting duct 23 hingedly coupled to the link duct 22 to move the sample water through the inlet 21; A general item measuring tank 24 embedded in the container part 10 and guiding in the flow direction of the sample water; Variable water level variable sample water collection device characterized in that consisting of. The method of claim 4, wherein the link duct 22, And a filter member (31) for filtering and removing suspended substances contained in the sample water introduced through the inlet (21) of the supply unit (20). The method of claim 1, wherein the cover portion 40, Water level fluctuating variable sample water collection, characterized in that each of the main / subsidiary warning lights (41, 42) is mounted as a means for visually identifying whether the main / submersible submersible pumps (11, 12) in the inner space of the operation; Device. The method of claim 1 or 6, wherein the cover portion 40, Water level fluctuating variable sample water collecting device, characterized in that molded into a transparent or translucent material.

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