KR101192064B1 - Apparatus for measuring quality of water - Google Patents

Abstract

PURPOSE: An apparatus for measuring water quality is provided to improve deaeration effect and to measure smelling material in real time. CONSTITUTION: An apparatus for measuring water quality comprises: a water bath with a device cover(101) at the upper portion and an inlet part(110) and a discharging part(120) at one side; a ultrasonic generator(200) formed at the lower portion of the water bath; a heater part(300) for heating water in the water bath; an agitator(400) which rotates a wing in the water bath; an air injection part(500) for supplying air to the water; and an air measuring unit(600) for measuring deaerated water bath.

Description

Apparatus for measuring quality of water

The present invention relates to a water quality measuring apparatus, and more specifically, to supply a sample water, such as river water (river water) to be measured in a water tank effectively degassed by the degassing device provided in the water tank to dissolve in water The present invention relates to a water quality measuring device for measuring volatile organic substances (VOC) and other odorous substances in real time.

In general, water quality is measured by various methods such as turbidity, odor, dissolved oxygen (DO), oxygen demand (BOD, COD) and microbial analysis.

In recent years, much attention and research have been conducted to measure the pollution of water quality by smell.

However, the water quality measurement of the portion corresponding to the conventional odorous substance has a problem that is quite insufficient in the method or effect.

Conventional methods for measuring odorous substances in water are to purge the sample water in a building such as a laboratory where a person directly smells the water to be measured or scoops up the water, and then separates the adsorption tube or It was adsorbed in the same place as the filter and measured in conjunction with an analytical device such as an external gas chromatography / mass spectrometer (GC / MS).

Such a conventional measuring method is subjective as if a person smells directly, or when measuring using the equipment, the number of samples cannot be measured in real time because the number of samples must be moved to the place where the equipment is located. The degassing process was not effective, so high accuracy data could not be obtained in the method of measuring odorous substances.

Prior art related to this is disclosed in Korean Patent Publication No. 10-2003-0071727 (Algae taste early warning and concentrating device in the water source), as shown in Figure 1 inlet pump (2) for constant water supply; Degassing tank (8) having an inner tube (18) designed to smoothly degas odorous substances present in the raw water introduced through the pump (2); An air pump (3) for sucking air in the tank (8) for aeration; Activated carbon adsorption column (4) for filtering contaminants in the air flowing through the pump (3); A flow meter (5) for constantly adjusting the odorless air passing through the column (4); Aeration device (11) for allowing the odorless air through the flow meter (5) to be abandoned in the degassing tank; A heating heater 9 for raising a temperature so as to promote molecular momentum of the odor-causing substance in the degassing tank; An air intake 12 for measuring the smell of the odorous substance degassed in the degassing tank with an olfactory smell; An activated carbon filter 15 for adsorbing the gas degassed in the degassing tank; The heat trap 14 device for removing water vapor that prevents adsorption from the activated carbon filter is provided.

However, since the degassing tank 8 and the inner tube 18 are configured inside the water bath 7, there is a problem of taking up a wide space and portability of the equipment, and using the heater 9 in the degassing process. Because it depends only on the aeration device 11 which injects or injects air, not only a sufficient degassing effect can be expected, but also measured by using the activated carbon filter 15 for adsorption, so that a long time must be waited until the gas that can be analyzed is adsorbed. There is a problem that the need to constantly exchange the activated carbon filter 15 for adsorption.

In addition, since the heater 9 heats and heats the water in the water bath 7, it takes a considerable amount of time before the water in the degassing tank 8 is heated, and there is a problem in terms of thermal efficiency. .

The present invention has been made to solve the above problems, degassing effect because the degassing apparatus such as ultrasonic generator, heater, air injection, agitator is configured in the water tank is supplied to make the optimum degassing conditions The purpose of the present invention is to provide a water quality measuring device that can be easily measured in real time by measuring odorous substances with an air measuring unit provided on the degassed air.

It is another object of the present invention to provide a water quality measuring apparatus which can measure quickly without waiting for a long time without adsorption without a separate adsorption member, and can continuously measure for a long time without the need to exchange the adsorption member after measurement.

The present invention is provided with a device cover at the top and the inlet-shaped water tank formed in the inlet and outlet on one side, the ultrasonic generator is provided in the lower portion of the tank, the heater installed in the lower portion of the tank to heat the water of the tank And an agitation device installed at an upper portion of the apparatus cover and rotating in a direction extending in an inner direction of the water tank to rotate the stirring blades in the water tank, an air injection portion for supplying air into the water in the water tank, and an upper portion of the device cover. And it characterized in that consisting of an air measuring unit for measuring the air degassed in the tank.

The partition is formed in the tank to provide a discharge space, characterized in that a plurality of water level control valve is formed according to the height of the partition is possible to control the level in the tank.

Characterized in that the water removal unit is installed on the measuring pipe through which the air degassed in the tank moves to the air measuring unit.

The water removal unit circulates the outside of the measuring tube with cooling water to condense the air in the measuring tube.

According to the present invention having the above configuration, a degassing apparatus such as an ultrasonic generator, a heater, an air injection unit, and an agitator is configured in a water tank to which water is supplied to improve the degassing effect, and the degassed air is provided at the top. It is easy to measure in real time by measuring odor substance with air measuring unit.

In addition, the present invention can be measured even without a separate adsorption member, it is possible to measure quickly without waiting for a long time before the adsorption, there is an effect that can be easily measured continuously for a long time without the need to replace the adsorption member after measurement .

1 is an exemplary view showing a configuration of a conventional water quality measurement device.
Figure 2 is an exemplary cross-sectional view showing the configuration of the water quality measuring apparatus according to the present invention.
Figure 3 is a plan view showing the configuration of the water quality measurement device according to the present invention.
Figure 4 is an enlarged view showing the water removal unit of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Specifically, the present invention is shown in Figures 2 to 3,

The apparatus cover 101 is provided at the top and the inlet 110 and the discharge unit 120 formed on one side of the water tank 100,

Ultrasonic generator 200 provided in the lower portion of the tank 100,

A heater 300 installed at a lower portion of the water tank 100 to heat the water of the water tank 100;

Stirring device 400 is installed on the top of the cover device 101 to rotate the shaft extending in the inner direction of the water tank 100, the stirring blade in the water tank 100,

An air injection unit 500 for supplying air into the water in the water tank 100,

It is installed on the device cover 101 relates to a water quality measuring device consisting of an air measuring unit 600 for measuring the air degassed in the water tank (100).

The water tank 100 of the present invention is configured in the form of a rectangular housing having an open top, the device cover 101 is covered with an upper portion, the river water to be measured by the inlet 110 formed on one side of the water tank 100 (river water) As the sample water is introduced into the water tank 100, the water is filled.

The inlet 110 is preferably located close to the ground of the water tank 100 so that the water is filled from the bottom, which causes turbulence when the water in the water tank 100 is filled, so that the sample water is well mixed This is to ensure that the amount of degassed air is constant because the surface of the water is not constant while the water is swollen if the sample water is supplied from the top.

The water tank 100 of the present invention is provided with a discharge space 122 of a predetermined space by forming a partition wall 121 inside the water tank 100 in order to adjust a constant water level, for each section of the height of the partition wall 121 The water level control valve is formed to open the water level control valve 123 of the desired height to send the water in the water tank 100 to the discharge space 122, and the water thus discharged is formed on one side of the water tank 100 It is discharged to the outside through 120.

In addition, a drain pipe 130 is formed at a lower portion of the water tank 100 near the ground, which is provided for cleaning and maintenance purposes in the water tank 100.

Ultrasonic generator 200 of the present invention by setting the frequency and use time of about 30 ~ 50kHz from the ultrasonic equipment provided outside the tank 100, the ultrasonic wave in the ultrasonic generator 200 installed in the lower portion of the tank 100 Degassing of sample water by generating.

The heater unit 300 of the present invention is installed in the lower portion of the water tank 100 to heat the sample water. For smooth degassing, it is preferable to heat the sample water so that the temperature of the sample water is maintained at about 50 to 60 °. .

Stirring device 400 of the present invention is a device for increasing the degassing effect by stirring the water in the water tank 100 is located on the top of the device cover 101 when the motor rotates the shaft extending into the water tank while rotating the stirring blades rotate To effect stirring.

In order to increase the degassing effect, the air injection unit 500 of the present invention also serves to aeration by supplying high purity air to which water is not added from the outside to the water in the water tank 100.

The present invention maximizes the degassing effect while the degassing apparatus interacts with each other and the degassed air is measured along the measuring pipe 610 provided on the water tank 100 while measuring the air in the air measuring unit 600. By doing so, it is possible to effectively measure odorous substances without a separate adsorption member.

The air measuring unit 600 of the present invention generally refers to equipment used for measuring air, which is a conventionally known technique, and thus a detailed description thereof will be omitted.

The present invention is provided with a water removal unit 620 on the pipe connected to the air measurement unit 600 in the water tank 100 for a more accurate measurement,

As shown in FIG. 4, the water removing unit 620 circulates the outside of the pipe with cooling water to condense the air in the measuring pipe 610 to move the water contained in the air moving to the air measuring unit 600 to the measuring pipe. When water droplets are formed on the wall surface of 610, the water falls back into the water tank 100.

The operation of the present invention will be described below.

In the present invention, the sample water, such as river water (river water) and waste water of a factory, is directly supplied into the water tank 100 through a quantitative pump (not shown), and the water is filled in the water tank 100 to be measured.

The present invention can be measured through the method of continuously supplying water from the inlet 110 of one side while the water is continuously discharged through the discharge unit 120 in the water tank 100, the water tank 100 For example, a method of supplying water to the inlet 110 and measuring the valve of the inlet 110 only with water locked in the water tank 100 and then discharging and supplying water to replace and measure again.

When water is supplied into the water tank 100 as described above, a degassing device such as the ultrasonic wave generator 200, the heater 300, the stirring device 400, the air injection unit 500 is operated to operate in the water tank 100. If the air is effectively degassed, the air degassed from the water tank 100 is measured by a small pump (not shown) inside the air measuring unit 600.

As described above, the present invention enhances the degassing effect of each degassing apparatus by interacting with the sample water introduced into the water tank 100, and measures the odorous substance in the air measuring unit 600 provided with the degassed air at the top. Can be provided in real time measurement information.

In addition, the present invention is a water quality measuring device that can be easily measured for a long time without the need to replace the adsorption member after the measurement as well as can be measured quickly without waiting for a long time before the adsorption without a separate adsorption member.

Although the present invention has been described with reference to the above embodiments, the present invention is not limited to the embodiments described herein, but various modifications can be made within the scope without departing from the spirit of the present invention. .

100: tank 101: device cover
110: inlet 120: outlet
121: bulkhead 122: discharge space
123: level control valve 130: drain pipe
200: ultrasonic generator 300: heater
400: stirring device 500: air injection unit
600: air measuring unit 610: measuring pipe
620: moisture removal unit

Claims (4)

The apparatus cover 101 is provided at the top and the inlet 110 and the discharge unit 120 formed on one side of the water tank 100,
Ultrasonic generator 200 provided in the lower portion of the tank 100,
A heater 300 installed at a lower portion of the water tank 100 to heat the water of the water tank 100;
Stirring device 400 is installed on the top of the cover device 101 to rotate the shaft extending in the inner direction of the water tank 100, the stirring blade in the water tank 100,
An air injection unit 500 for supplying air into the water in the water tank 100,
Is installed on the device cover 101 is made of an air measuring unit 600 for measuring the air degassed in the water tank 100,
The partition wall 121 is formed in the water tank 100 so that the discharge space 122 is provided, and a plurality of water level control valves 123 are formed according to the height of the partition wall 121 to control the water level in the water tank 100. Water quality measuring device, characterized in that possible.

delete The method of claim 1,
The water quality measuring device, characterized in that the water removal unit 620 is installed on the measuring pipe 610 in which the air degassed from the water tank 100 moves to the air measuring unit 600.
The method of claim 3, wherein
The water removing unit 620 circulates the outside of the measuring pipe 610 with cooling water to condense the air in the measuring pipe 610.

Images