KR101698203B1 - Cleaner for automatic water measuring devices - Google Patents

Abstract

The present invention relates to an automatic water quality measuring apparatus, and more particularly, to a water quality measuring apparatus for measuring a water quality, comprising a water quality measuring unit positioned at a central portion of a body housing which is placed in a disk shape and immersed in water, And a discharge portion for discharging the measured water, the inlet portion further including a catching portion for preventing foreign matter from flowing into the inflow end portion into which water is introduced, A cleaning frame rotatably provided in the housing, and a scraper provided on the cleaning frame.
As described above, according to the present invention, since the water is located in the water to be measured and the water is introduced in many directions, the diversification can measure irrespective of the flow of the water, can clean the foreign matter, Measurement accuracy can be improved.

Description

{Cleaner for automatic water measuring devices}

The present invention relates to a cleaning device, and more particularly, to a cleaning device capable of cleaning a measuring device that measures the quality of water by flowing into the water regardless of the direction of water flow, The present invention relates to a cleaning device for a water quality automatic meter.

In general, contamination by wastewater or other pollutants, such as rivers, rivers, and factory effluents, has a significant impact on people, ecosystems, and the environment.

Therefore, rivers and rivers are managed by checking the pollution degree of water periodically by a water pollution measuring device.

As a method of water quality inspection by a water pollution measuring device, there are a method of performing a test with a water pollution measuring device installed in a separate laboratory by directly taking water by a person, and a method of directly installing a water pollution measuring device in a river, a river, A method of performing inspection is used.

In the case of a measuring device that installs a water pollution measuring device directly in a river, a river, or a plant discharge water, the contaminated measuring water such as an external river or a river is measured by a water pump. The number of measurements is stored in the tank.

The measured water stored in the circulating storage tank is measured in the circulating storage tank by measuring the pH of the water (acidity of the water), the electric conductivity, the oxygen and the turbidity, and the stored measurement number is sampled through the sampling line. .

However, other substances may be contaminated in the process of transferring the measurement water, which results in a problem that the inspection accuracy of the measurement water to be inspected is deteriorated.

In order to overcome this problem, as disclosed in Japanese Patent Application Laid-Open No. 2002-0089065, a sample collector equipped with a door for discharging a sample is placed in water to collect a sample.

However, there is a problem in that the sampler is difficult to collect the sample due to the flow of water, which is diversified according to the environment, as the water flows in through the inlet formed at a certain position.

In addition, since the sampler located in the water is moved out of the water to perform cleaning, it is troublesome and the working efficiency is deteriorated.

Accordingly, there is an urgent need to develop a technique for easily introducing irrigation water irrespective of the water flow in the water, preventing foreign matter from blocking the inlet, and performing various inspections in real time.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a water quality measurement unit positioned at a central portion of a body housing, And an outlet for discharging the measured water, the inlet being further provided with a catch for preventing foreign matter from flowing into the inlet end of the water, A cleaning frame rotatably provided on the body housing, and a scraper provided on the cleaning frame to scrape the fastening part. The scraper is positioned in the water to be measured and flows in various directions. It is possible to measure without using the sensor And to provide a cleaning device for a water quality automatic measuring device capable of improving measurement accuracy.

According to an aspect of the present invention, there is provided a water treatment apparatus including a water quality measuring unit positioned at a center of a body housing that is placed in a disk shape so as to be submerged in water, an inlet unit for flowing water into the water quality measuring unit along an edge of the body housing, And a discharge part for discharging the measured water, wherein the inlet part further includes a latching part for preventing foreign matter from flowing into the inflow end part into which the water flows, and wherein the body housing is rotatable And a scraping unit provided on the cleaning frame and scraping the fastening part to remove foreign substances.

Preferably, the upper end of the body housing is formed with an upper projection in a cylindrical shape, the cleaning frame includes a connection frame connected to be rotatable along the outer periphery of the upper projection, and one end connected to the connection frame, And the end portion includes a rotating frame formed to protrude outside the edge of the body housing.

When viewed from the front, the rotating frame is formed parallel to the upper surface of the body housing.

The scraping unit may include a scraping frame connected to the other end of the rotating frame and formed to be parallel to an outer surface of the engaging portion, and a scraper for scraping an outer circumferential surface of the engaging portion, , ≪ / RTI >

The connection frame includes a guide groove formed along an outer periphery of the upper projection, a first connection frame having a first guide protrusion protruding from the guide groove to cover a portion of the outer periphery of the upper projection, A second connection frame having a second guide protrusion protruding from the other end of the guide protrusion so as to correspond to the remaining portion of the guide groove, A hinge portion for rotatably connecting one end portion thereof and a fixing portion for fixing the other end portions of the first connection frame and the second connection frame.

Further, a rotating unit for rotating the scraping unit is further included.

The swivel portion is a swing vane protruding outwardly from the scraping portion, and rotates the scraping portion and the cleaning frame as the running water moves.

The rotating unit may include a gear tooth formed on the cleaning frame, a driving gear meshed with the gear tooth, and a driving motor provided on the body housing to rotate the driving gear. As the driving gear rotates to rotate the gear teeth that are engaged, the cleaning frame and the scraping unit are rotated.

As described above, according to the automatic water quality measuring apparatus of the present invention, since water is placed in the water to be measured and the water is introduced in many directions, diversification can be performed regardless of the flow of water, This is a very useful and effective invention that enables continuous measurement and improves measurement accuracy.

1 is a view showing an automatic water quality measuring instrument provided with a cleaning device according to the present invention,
2 is a plan view of an automatic water quality measuring instrument provided with a cleaning device according to the present invention,
3 is a view showing a cleaning device according to the present invention,
4 is a view showing a connection frame of the cleaning device according to the present invention,
FIG. 5 is a view showing a turning unit of the cleaning device according to the present invention,
6 is a view showing another embodiment of the turning unit according to the present invention,
7 is a view showing still another embodiment of the turning unit according to the present invention.

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

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

FIG. 1 is a view showing an automatic water quality measuring instrument provided with a cleaning device according to the present invention, FIG. 2 is a plan view of an automatic water quality measuring device provided with a cleaning device according to the present invention, FIG. FIG. 4 is a view showing a connection frame of the cleaning device according to the present invention, FIG. 5 is a view showing a turning part of the cleaning device according to the present invention, and FIG. FIG. 7 is a view showing still another embodiment of the turning unit according to the present invention. FIG.

As shown in the figure, the cleaning device 500 of the automatic water quality measuring device includes a cleaning frame 510 and a scraping unit 520.

First, the water quality measuring instrument 10 includes a water quality measuring part 200 located at the center of the body housing 100, which is positioned to be submerged in water, and a water quality measuring part 200 and an outlet 400 for discharging the measured water located below the water quality measuring unit 200.

The water quality measuring unit 200 of the water quality automatic meter 10 can measure the temperature of the water quality, the dissolved oxygen amount, the electric conductivity, the salinity, the total dissolved solid amount, the ORP, the turbidity, the ammonium content, the PH and the nitrate level , It is natural that the corresponding sensor is provided, and it is a matter of course that the measurement item can be selected and changed according to the installed environment.

And the discharge portion 400 is composed of a discharge port and a discharge fan.

The discharge port is formed at the lower side of the center of the body housing 100 and the discharge fan is formed at the discharge port to discharge the water that has passed through the water quality measuring part 200.

The discharge fan may be used by receiving a power source used for the water quality measuring unit 200 or may be supplied with a separate power source.

In addition, when the discharge fan is operated, water is introduced into the inflow part 300 and discharged through the water quality measuring part 200 as the discharge port is opened.

This opening / closing door is provided to prevent water from flowing into the discharge unit 400, and is opened only at the time of operation of the discharge fan, so that the water flows into the discharge unit 400 and is discharged to the discharge unit 400 .

The inflow part 300 is formed with a plurality of inflow space parts 320 along the edges of the body housing 100 by the inflow partitions 310 so as to introduce water in all directions from the water quality measuring part 200 .

The inlet partition wall 310 is formed in a straight line or arc shape from the edge of the body housing 100 toward the water quality measuring unit 200.

The sectional area of each inflow space 320 divided by the linear or arc-shaped inlet partition 310 gradually decreases from the edge of the body housing 100 toward the water quality measuring part 200, And is easily introduced into the water quality measuring unit 200.

The inflow portion 300 is further provided with a locking portion 330 for preventing foreign matter from entering the inflow end portion of each inflow space portion 320.

The latching part 330 may be formed in a perforated plate or a net having a plurality of through holes, or may be a mesh.

The cleaning frame 510 of the cleaning device 500 of the automatic water quality measuring device for cleaning the locking part 330 is rotatably provided in the body housing 100.

The scraping unit 520 is provided on the cleaning frame 510 to scrape the fastening part 330 to remove foreign matter.

Here, as shown in FIG. 3, an upper end protrusion 110 is formed in a cylindrical shape at an upper center portion of the body housing 100.

The cleaning frame 510 is composed of a connection frame 530 and a rotation frame 540.

The connection frame 530 is connected to be rotatable along the outer periphery of the upper projection 110.

One end of the rotation frame 540 is connected to the connection frame 530 and the other end of the rotation frame 540 protrudes outside the edge of the body housing 100.

Here, the rotating frame 540 is formed parallel to the upper surface of the body housing 100 when viewed from the front.

In other words, when the top surface of the body housing 100 is flat, the rotating frame 540 is formed flat.

When the upper center portion of the body housing 100 is flat and the edge is formed upward or downward toward the upper side, the rotary frame 540 is formed to correspond to the upper or lower side.

The scraping unit 520 includes a scraping frame 522 and a scraper 524.

The scraping frame 522 is connected to the other end of the rotating frame 540 and is formed to be parallel to the outer surface of the engaging portion 330.

The scraper 524 is provided on the scraping frame 522 to scrape the outer circumferential surface of the latching part 330.

4, the connection frame 530 includes a guide groove 531 and a first connection frame 532, a first connection frame 533, a hinge portion 534, and a fixing portion 535 .

The guide groove 531 is formed along the outer periphery of the upper projection 110.

The first connection frame 532 is formed to surround a part of the outer circumference of the upper protrusion 110 and has a first guide protrusion 532a protruded to correspond to a part of the guide groove 531. [

The second connection frame 533 is formed to surround the remaining part of the outer circumferential portion of the upper end protrusion 110 and has a second guide protrusion 533a protruded to correspond to the rest of the guide groove 531. [

The hinge portion 534 rotatably connects one end portion of each of the first connection frame 532 and the second connection frame 533, which are adjacent to each other.

The fixing portion 535 is provided to fix the other ends of the first connection frame 532 and the second connection frame 533.

5, a rotating unit 550 for rotating the scraping unit 520 is further included.

The rotating unit 550 of the embodiment rotates the scraping unit 520 and the cleaning frame 510 as the rotating water blades are moved by being pushed outwardly in the scraping unit 520.

In other words, the swinging blade, which is the swinging unit 550, is formed on the scraping frame 522 of the scraping unit 520 and is formed on the opposite side where the scraper 524 is formed.

6, the rotation unit 550 'of another embodiment includes the gear teeth 552', the drive gear 554 ', and the drive motor 556'.

The gear teeth portion 552 'is formed in the cleaning frame 510, and the drive gear 554' is engaged with the gear teeth portion 552 '.

The drive motor 556 'is provided in the body housing 100 to rotate the drive gear 554'.

The gear teeth portion 552 'is formed in the connection frame 530 of the cleaning frame 510. The upper end of the connection frame 530 is protruded from the upper end protrusion 110 of the body housing 100, And a gear tooth portion 552 'is formed along the inner peripheral surface.

Here, when the connecting frame 530 is formed by the first connecting frame 532 and the second connecting frame 533, the gear teeth 552 'are also formed by the first gear teeth and the second gear teeth, And is formed in the connection frame 532 and the second connection frame 533, respectively.

7, in another embodiment, the gear teeth portion 552 'includes a gear tooth frame 552a' fixed to the upper side of the connection frame 530, and a gear tooth 552a 'formed along the inner circumferential surface of the gear tooth frame 552a' (552b ').

It is a matter of course that the gear teeth frame is protruded from the upper end protrusion 110 of the body housing 100.

The drive gear 554 'is rotated by the drive motor 556' to rotate the coupled gear teeth 552 'so that the cleaning frame 510' And the scraping unit 520 are rotated.

10: Automatic water quality measuring apparatus 100: Body housing
110: upper protrusion 200: water quality measuring part
300: inlet portion 310: inlet partition wall
320: inflow space part 330:
400: discharging part 500: cleaning device
510: Cleaning frame 520: Scraping unit
530: connecting frame 540: rotating frame
550:

Claims (5)

A body housing disposed in the body so as to be submerged in water, a water quality measuring unit positioned at the center of the body housing for measuring water quality, an inlet for flowing water into the water quality measuring unit along the edge of the body housing, And a discharge part for discharging the measured water which is positioned below the water quality measuring part and has a plurality of inflow spaces formed along the edge of the body housing by the inlet partition wall, And a discharge pan formed in the discharge port and discharging the water that has passed through the water quality measurement part, wherein the inlet part of the water quality automatic measuring device includes: And a stopper for preventing foreign matter from flowing into the inflow end portion of each inflow space portion into which water is introduced, It is included,
A cleaning frame rotatably mounted on the body housing; And
And a scraping unit provided on the cleaning frame and scraping the fastening part to remove foreign objects,
An upper end protruding portion is formed in a cylindrical shape at an upper center portion of the body housing,
The cleaning frame
A connecting frame rotatably connected along an outer periphery of the upper projection; And
And a rotation frame having one end connected to the connection frame and the other end protruding outside the edge of the body housing,
The connection frame includes:
A guide groove formed along the outer periphery of the upper projection;
A first connection frame having a first guide protrusion formed to surround a part of an outer circumferential portion of the upper protrusion and protruding to correspond to a portion of the guide groove;
A second connection frame having a second guide protrusion formed to surround the remaining portion of the outer circumferential portion of the upper protrusion and protruding to correspond to the remaining portion of the guide groove;
A hinge unit rotatably connecting one end of each of the first connection frame and the second connection frame adjacent to each other; And
And a fixing part for fixing respective other ends of the first connection frame and the second connection frame,
The scraping unit includes:
A scraping frame connected to the other end of the rotating frame and formed to be parallel to an outer surface of the engaging portion; And
And a scraper provided on the scraping frame for scraping the outer circumferential surface of the engaging portion,
When viewed from the front, the rotating frame is formed parallel to the upper surface of the body housing,
And a rotating unit for rotating the scraping unit,
The pivoting portion,
As the swirling vane protruding outwardly from the scraping portion moves water while flowing, the scraping portion and the cleaning frame are rotated to clean the engaging portion from time to time,
A gear tooth formed on the cleaning frame;
A driving gear engaged with the gear teeth; And
And a driving motor provided on the body housing to rotate the driving gear so that the driving gear is rotated by the driving motor to rotate the meshed gear teeth to rotate the cleaning frame and the scraping unit A cleaning device for the automatic measuring device. delete delete delete delete

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