KR102032375B1 - Cistern for measuring water quality - Google Patents

Abstract

The present invention relates to a water tank apparatus for measuring water quality, which comprises: an accommodation unit (10) including a box-shaped water tank body (11), first and second partitions (12, 13) provided inside the water tank body (11) to partition a space, a first accommodation unit (14) which is a space formed by partitioning the first and second partitions (12, 13), and having sample water to be introduced therein, a second accommodation unit (15) for measuring water quality, a third accommodation unit (16) for discharging the sample water completed with the water quality measurement to the outside, and a guide plate (17) for forming lower bottom surfaces of the first to third accommodation units (14, 15, 16); a processing unit (20) having a cross-sectional L-shaped hollow part, and including a main duct (21) disposed to be spaced apart from the guide plate (17); and a pipe unit (30) including an inflow pipe (31) passing through one sidewall of the water tank body (11) and connected to the first accommodation unit (14), a drain pipe (33) disposed at a lower portion of the water tank body (11), and a third branch pipe (36) connected to the drain pipe (33), and discharging the sample water collected in the third accommodation unit (16) to the outside. According to the present invention, inflow of bubbles into the second accommodation unit is blocked through the second partition formed with a through hole at a lower end thereof, and sediment in the second accommodation unit is smoothly discharged through main and auxiliary ducts. Therefore, reliability on measurement of the water tank apparatus for measuring water quality is improved.

Description

Cistern for measuring water quality

The present invention relates to a water tank apparatus for measuring water quality, and more particularly, through a partition wall formed with a hole at the bottom to block the inflow of air bubbles that cause erroneous measurement during water quality measurement, and to temporarily stop the sediment through the duct. It relates to a water quality measuring tank apparatus that can be removed quietly without.

Currently, the TMS (Tele-Monitring System), which monitors the discharge status of sewage treatment plants and wastewater discharge sites in real time, has been established to prevent water pollution and improve the quality of water. A water tank system for measuring water quality is used to determine whether a sample is collected (hereinafter referred to as 'sample water') and whether or not it is purified.

Looking at the basic configuration of the water tank apparatus through the water quality measuring tank apparatus introduced in Korea Patent No. 10-0817329 (Registration date: March 20, 2008.), as shown in Figure 1 a plurality of tanks (1a, 1b) , 1c) perform specific water quality measurements, such as turbidity or BOD, for each tank.

In addition, as shown in Figure 2, when the sample water flows into the first tank (1a) through the inlet (2) provided on the side wall of the first tank (1a), the meter performs a water quality measurement operation, then drain The process of supplying the sample water to the next tank 1b, 1c through the pipe 3, 3 'is made continuously.

At this time, bubbles are generated in the first water tank (1a) inflow of the sample water, the bubbles may cause a mis-measurement to block the bubbles from approaching the measuring instrument through the underwater beam (4), in particular the prior art It is characterized by starting 4) in a curved structure to suppress the secondary generation of bubbles in the course of the sample water over the underwater beam (4).

On the other hand, the high specific gravity of the suspended matter is to form a precipitate, it is collected at the bottom of the first water tank (1a), if the deposit is excessively accumulated, the composition of the sample water is changed, causing the measurement error, the prior art directly mentioned However, it can be inferred that the sediment can be periodically discharged through the valve 5 located at the bottom.

However, the prior art has a limit to completely suppress the secondary generation of bubbles even when the sample number is quietly overflowed through the underwater beam 4 of the curved structure.

In addition, disturbance may occur due to the opening and closing of the valve 5 in the discharge process of the sediment, which may interfere with the measurement. There is a problem in that the measurement work should be temporarily stopped during the sediment discharge work so that the incorrect measurement due to such disturbance is not reflected.

Registered Patent Publication No. 10-0817329 (Announcement Date: March 27, 2008) Registered Patent Publication No. 10-0800170 (Announcement Date: Feb. 01, 2008)

The problem to be solved by the present invention is to provide a water tank for water quality measurement that can suppress the generation and inflow of bubbles, and can continuously remove the sediment without pausing the measurement work.

Water tank apparatus for measuring the water quality of the present invention for solving the above problems is provided with a box-shaped tank body, the first partition and the second partition wall is provided in the interior of the tank body to partition the space, the first partition and the second partition wall A space formed by a compartment, comprising: a first accommodating part into which sample water is introduced, a second accommodating part to measure water quality, a third accommodating part to externally discharge the sample water from which water quality is measured, and the first accommodating part A receiving part including a guide plate forming a lower bottom surface of the second accommodating part and the third accommodating part; A processing unit including a main duct in a shape having a hollow 'a' shape in cross section and spaced apart from the guide plate; And an inflow pipe connected to the first accommodation part through one side wall of the tank body, a drain pipe disposed under the tank body, and a sample water connected to the drain pipe and collected in the third accommodation part. Comprising a pipe portion including a third branch pipe discharged to the outside, the lower end of the first partition wall is provided in close contact with the guide plate and the second partition wall is provided spaced from the guide plate, the guide plate is made of It is made of a plate having a bending structure having a horizontal plate, the inclined plate and the second horizontal plate, wherein the first horizontal plate forms the bottom surface of the first accommodating portion and the inclined plate forms the bottom surface of the second accommodating portion and the second horizontal plate. Is characterized by forming the bottom surface of the third accommodation portion.

In another aspect, the present invention is characterized in that the processing unit further comprises an auxiliary duct adjacent to the first partition wall is arranged to be spaced apart from the inclined plate with a 'b' shaped hollow portion in cross section.

The present invention further includes an extension duct fitted to the discharge side of the main duct and the auxiliary duct in the processing unit, and one end of which is connected to the other side wall of the tank body and the other end is connected to the drain pipe. It further comprises a branch pipe and the second branch pipe.

In addition, the present invention is characterized in that the curved step is further provided on the inner wall of the inlet side of the main duct and the auxiliary duct.

In addition, the present invention is characterized in that the lower end of the main duct and the auxiliary duct is inclined in cross section parallel to the inclined plate is formed with a first suction portion and a second suction portion.

According to the water tank for water quality measurement of the present invention, the second barrier wall is formed in the bottom through the second partition blocking the inflow of the second receiving portion of the bubble is made quietly, the second through the main duct and the auxiliary duct Since the sediment discharge in the receiving portion is made smoothly, there is an effect of improving the measurement reliability of the water tank for measuring water quality.

In addition, according to the water tank apparatus for measuring water quality of the present invention, the sediment is continuously discharged through the main duct, the auxiliary duct and the extension duct can effectively prevent the accumulation of sediment in the second accommodating portion, thereby reducing the cleaning cycle of the water tank apparatus. Since it can be lengthened, there is an advantage that the management convenience of the water tank for water quality measurement is increased.

1 is a perspective view showing a water tank for measuring water according to the prior art.
Figure 2 is a sectional view of the main part of the water tank for water quality measurement according to the prior art.
3 is a cross-sectional view showing a water tank for measuring water according to the present invention.
Figure 4 is an exploded perspective view showing the receiving portion and the treatment portion of the water tank for water quality measurement according to the present invention.
5 is a view showing the operating state of the processing unit of the water tank for water quality measurement according to the present invention.
6 is a cross-sectional view showing a lower portion of the duct provided with a curved step in the water tank for measuring water according to the present invention.

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

3 to 5, the present invention includes a receiving part 10 in which the measuring device A is mounted, a processing part 20 provided inside the receiving part 10, and a pipe connected to the receiving part 10. It consists of a portion (30).

Hereinafter, the specific details of the present invention with reference to the above components, first receiving portion 10 is characterized in that the water quality measurement in the measuring device (A) in the state that the inflow, outflow of the sample water is continuously made do.

To this end, the accommodating part 10 is provided in the box-shaped water tank main body 11 and the water tank main body 11 of which the upper and lower portions are opened, so that the first partition wall 12 and the second partition wall 13 partitioning a space. ), A space formed by the partitions of the first bulkhead 12 and the second bulkhead 13, the first receiving part 14 through which sample water is introduced, and the second receiving part 15 through which water quality is measured. And a lower bottom surface of the third accommodating part 16, the first accommodating part 14, the second accommodating part 15, and the third accommodating part 16, through which external discharge of the sample water from which the water quality measurement is completed is formed. It consists of a guide plate 17, and a cover plate 19 for closing the upper portion of the tank body (11).

The lower end of the first partition 12 is fixed to be in close contact with the upper surface of the guide plate 17, the second partition 13 is spaced apart from the guide plate 17 so as to form a through hole (13a) at the lower end It is provided.

An inlet pipe 31 of the pipe part 30 passes through one side wall of the tank body 11 and is connected to the first accommodating part 14. The sample water flows into the first accommodating part 14 and then passes through the first accommodating part 14. The water quality measurement is made by entering the second accommodating part 15 through 13a, and collected in the third accommodating part 16 through the processing part 20 and then discharged to the outside.

Bubbles may occur in the process of introducing the sample water into the first accommodating part 14, but the bubbles are lost over time in a state in which the bubbles remain in the first accommodating part 14 due to the constraint of the second partition wall 13. Since the sample water is quietly introduced into the second accommodating part 15 through the through hole 13a, the measurement of the error due to air bubbles or turbulence is prevented.

Meanwhile, the measuring device A is installed to penetrate the upper surface of the cover plate 19 so that the sensor part is disposed in the second accommodating part 15, and a plurality of measuring devices A for measuring turbidity or BOD may be installed. have.

The guide plate 17 is made of a plate member having a bending structure having a first horizontal plate 17a, an inclined plate 17b, and a second horizontal plate 17c, and the boundary between the first horizontal plate 17a and the inclined plate 17b. The portion is disposed directly below the second partition wall 13, and the boundary portion between the inclined plate 17b and the second horizontal plate 17c meets the first partition wall 12, so that the first horizontal plate 17a is The bottom surface of the first accommodating part 14 is formed, the inclined plate 17b forms the bottom surface of the second accommodating part 15, and the second horizontal plate 17c forms the bottom surface of the third accommodating part 16. .

In addition, the first horizontal plate 17a, the inclined plate 17b, and the second horizontal plate 17c are provided with through holes for connection with the third to fifth branch pipes 36, 37, 38 which will be described later.

The treatment unit 20 is configured to supply the sediment p contained in the sample water collected in the second accommodating part 15 to the third accommodating part 16. The main duct 21 having a hollow portion, having a hollow portion, inserted into the first slot S1, the bent portion is disposed over the upper end of the first slot S1, and the lower end is spaced apart from the inclined plate 17b, the first partition wall. Adjacent to the (12) has a cross-section 'b' bending structure and 'a' hollow portion is inserted into the second slot (S2), the bent portion over the top of the second slot (S2), the bottom of the inclined plate (17b) The auxiliary duct 23 is disposed to be spaced apart from each other, and the main duct 21 and the extension duct 25 is fitted to the discharge side of the auxiliary duct (23).

More specifically, the main duct 21 consists of a main horizontal portion 21 ', a main vertical portion 21' 'and a protrusion 21' '' to form a bent structure of the 'ㅓ' appearance, the main horizontal portion ( 21 ') and the main vertical portion 21 ", respectively, form a hollow portion to form a' a 'hollow portion.

The auxiliary duct 23 is composed of an auxiliary horizontal portion 23 'and an auxiliary vertical portion 23' 'to form a bent structure of' A 'in appearance, and an auxiliary horizontal portion 23' and an auxiliary vertical portion 23 ''. Hollow portions are formed in each to form a 'H' hollow portion.

In addition, the lower end of the main duct 21 and the auxiliary duct 23 is inclined in cross section parallel to the inclined plate 17b to form a first suction part 21a and a second suction part 23a.

Hereinafter, an operating state of the processor 20 will be described with reference to FIG. 5.

First, when sample water flows in from the inlet pipe 31 of the pipe part 30, the sample water starts to fill the first and second receiving parts 14 and 15, and the water surface is filled with the main horizontal part 21 ′. When the auxiliary horizontal portion 23 ′ starts to be passed, the sample water begins to be discharged to the third accommodating portion 16 through the extension duct 25.

In addition, the suspended matter contained in the sample water introduced into the second accommodating part 15 becomes a precipitate p and the precipitate p moves along the slope of the inclined plate 17b.

At this time, some of the precipitates p moving along the inclination of the inclined plate 17b enter the first suction part 21a while passing under the main duct 21 and extend while flowing along the hollow part in the main duct 21. It is discharged to the third accommodating part 16 through the duct 25.

The remainder of the sediment (p) moving along the inclination of the inclined plate (17b) is collected at the corner between the first partition wall 12 and the inclined plate (17b), the sediment (p) stacked at the corner is an auxiliary duct After flowing into the second inflow portion 23a of the 23, it flows along the hollow portion of the auxiliary duct 23 and is discharged to the third accommodation portion 16 through the extension duct 25.

This feeding is a fluid movement due to the pressure difference between the water surface of the sample of the second receiving portion 15 and the third receiving portion 16, quietly made without disturbing and the deposit is continuously removed.

Therefore, the water quality measurement in the second accommodating part 15 is made without a erroneous measurement, and the water quality measurement can be performed without regular deposit (p) removal work.

In addition, as illustrated in FIG. 6, the inlet side inner walls of the main duct 21 and the auxiliary duct 23 may further include a curved step 27 in the width direction, and the curved step 27 is a duct inlet side. By partially narrowing the flow path cross-sectional area, the negative pressure is generated on the inlet side of the duct due to the increase in the flow rate, so that the smoother water inflow is achieved.

The extension duct 25 serves to smoothly supply the sample by generating the head pressure difference through the extension of the pipe.

In addition, when the sample water is discharged to the third accommodating portion 16 in the form of falling water (vibration), vibration occurs, which may cause disturbance of the sample water of the second accommodating portion 15, which may cause an incorrect duct measurement. ) Also suppresses these vibrations by preventing falling water.

On the other hand, the auxiliary duct 23 may be selectively provided according to the capacity of the tank body (11).

In addition, the main duct 21 and the auxiliary duct 23 is detachably / attached for convenience of washing. For this purpose, the first slot S1 and the inner wall of the water tank body 11 corresponding to both ends in the width direction are provided. The second slot S2 is provided.

The pipe part 30 is a pipe member connected to the water tank main body 11 for inflow and outflow of the water tank main body 11 of the sample water, and passes through one side wall of the water tank main body 11 to the first accommodation part 14. Inlet pipe 31 to be connected, the drain pipe 33 is disposed in the lower portion of the tank body 11, the first end is connected to the other side wall of the tank body 11 and the other end is connected to the drain pipe 33 The engine 34, the second branch pipe 35, and one end thereof are connected to the second horizontal plate 17c, the inclined plate 17b, and the first horizontal plate 17a, but the other end thereof is connected to the drain pipe 33. The third branch pipe 36, the fourth branch pipe 37, and the fifth branch pipe 38 are formed.

The inlet pipe 31 is fitted with an extension tube 31a for quiet water inflow as in the case of the extension duct 25.

The first branch pipe 34 and the second branch pipe 35 are provided on the other side wall of the tank body 11, first, the first branch pipe 34 has a sufficient atmospheric pressure inside the closed tank body (11) To act. The second branch pipe 35 is an auxiliary passage for discharging the sample water collected in the third accommodation portion 16 to the outside. In particular, the side wall fixing position (height) of the tank body 11 of the second branch pipe 35 is The sample water surface of the third accommodating part 16 is disposed at a position such that the water surface of the third accommodating part is kept lower than the surface of the second accommodating part 15, so that the sample water supply due to the pressure difference can be continued.

The third branch pipe 36 is connected to the second horizontal plate 17c as a cylinder for discharging the sample water collected in the third accommodation portion 16 to the outside and is connected to the drain pipe 33.

On the other hand, the present invention said that it is possible to perform the water quality measurement without regular deposit (p) removal work, it is sometimes necessary to clean the inside of the tank apparatus for more accurate water quality measurement. To this end, the fourth branch pipe 37 and the fifth branch pipe 38 are pipes provided for discharging the sample water remaining in the inner space when the water tank body 11 is cleaned inside. 38 is provided with a valve.

It is to be understood that the scope of the present invention extends to the range substantially equivalent to the embodiments of the present invention. In addition, various modifications and changes can be made by those skilled in the art without departing from the technical spirit of the present invention.

10: accommodation unit 11: tank body
12: first bulkhead 13: second bulkhead
14: first accommodating part 15: second accommodating part
16: 3rd accommodating part 17: guide plate
19: cover plate 20: processing unit
21: main duct 23: auxiliary duct
25: extension duct 27: curved step
30: piping 31: inlet pipe
33: drain pipe 34: first branch pipe
35: second branch office 36: third branch office
37: fourth branch engine 38: fifth branch engine

Claims (5)

Box-shaped tank body 11, the first partition 12 and the second partition 13, which is provided inside the tank body 11 to partition the space, the first partition 12 and the second partition ( The space formed by the section 13) includes the first accommodating part 14 into which sample water is introduced, the second accommodating part 15 into which water quality is measured, and external discharge of the sample water from which the water quality is measured. Receiving portion including a third receiving portion 16 and the guide plate 17 to form the bottom bottom surface of the first receiving portion 14, the second receiving portion 15 and the third receiving portion 16 ( 10);
A processing unit 20 having a main portion 21 formed in a cross-section having a hollow 'a' shape and spaced apart from the guide plate 17; And
An inlet pipe 31 penetrating one side wall of the tank body 11 and connected to the first accommodating portion 14, a drain tube 33 disposed below the tank body 11, and the drain tube. And a pipe part 30 connected to the head 33 and including a third branch pipe 36 for discharging the sample water collected in the third accommodation part 16 to the outside.
The lower end of the first partition 12 is provided in close contact with the guide plate 17, the second partition 13 is provided spaced apart from the guide plate 17, the guide plate 17 is a first It is composed of a plate having a bending structure having a horizontal plate (17a), the inclined plate (17b) and the second horizontal plate (17c), the first horizontal plate (17a) forms the bottom surface of the first receiving portion (14) The inclined plate (17b) forms the bottom surface of the second receiving portion (15) and the second horizontal plate (17c) constitutes the bottom surface of the third receiving portion (16). The method of claim 1, wherein the processing unit 20 further comprises an auxiliary duct 23 which is disposed to be spaced apart from the inclined plate (17b) having a '-' hollow portion in the cross section adjacent to the first partition wall (12) A water tank apparatus for measuring water quality. The method of claim 2, wherein the processing unit 20 further comprises an extension duct 25 which is fitted to the discharge side of the main duct 21 and the auxiliary duct 23,
The pipe part 30 further includes a first branch pipe 34 and a second branch pipe 35, one end of which is connected to the other side wall of the water tank body 11 and the other end of which is connected to the drain pipe 33. Water tank device for water quality measurement, characterized in that. The water quality measuring tank apparatus according to claim 2, wherein the main step (21) and the inlet side inner wall of the auxiliary duct (23) further include a curved step (27). The lower end of the main duct 21 and the auxiliary duct 23 is inclined in cross-section parallel to the inclined plate 17b, wherein the first suction part 21a and the second suction part 23a are formed. Water tank device for water quality measurement, characterized in that the.

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