KR101877766B1 - An Ultrasound Apparatus for Measuring an Interface Surface of an Active Carbon - Google Patents

Abstract

The present invention relates to an ultrasonic activated carbon interface measuring apparatus, and more particularly to an ultrasonic activated carbon interface measuring apparatus capable of measuring the expansion level of activated carbon installed on a filter paper of an advanced water purification facility. An ultrasonic activated carbon interface measuring apparatus is an interfacial measuring apparatus for measuring an interface of a fluid material disposed inside a liquid and having fluidity and forming an interface at different heights of the inside of a liquid, An ultrasonic height measuring unit (11) capable of detecting whether or not the ultrasonic wave is detected; And a signal processing unit (12) for processing ultrasonic waves and received signals transmitted at different heights, and the height of the interface is calculated according to whether the ultrasonic signals are received or not.

Description

TECHNICAL FIELD [0001] The present invention relates to an ultrasonic activated carbon interface measuring apparatus,

The present invention relates to an ultrasonic activated carbon interface measuring apparatus, and more particularly to an ultrasonic activated carbon interface measuring apparatus capable of measuring the expansion level of activated carbon installed on a filter paper of an advanced water purification facility.

The water purification plant for the supply of water is composed of a water intake point for the water supply of the water source, a mixed soil for mixing the water and the water purification agent, a sedimentation tank for precipitating and removing the foreign matter through the agglomeration process, A filtering paper to be removed, and a fixing paper for storing purified water from which impurities have been removed. Impurities in the filtering paper can be removed by the activated carbon, and if the activated carbon is used for a certain period of time, the foreign substances accumulated in the activated carbon itself must be removed for reuse. In order to remove impurities from the activated carbon, water must be backwashed by forcibly injecting water in the direction opposite to the flow of water in the purification process. During the backwashing process, the activated carbon expands, and the level of expansion of the activated carbon is detected, so that the backwashing process needs to be appropriately controlled. Various techniques for the process of backwashing such filter paper are known in the art.

Patent Publication No. 10-2009-0026693 relates to a measuring apparatus for measuring the expansion rate of a filter paper in a water treatment system, comprising: a support tube fixedly installed on one side of a filter paper or detachable; A sensor unit mounted on a lower end of the support tube and capable of measuring the concentration of the desorbed sediment from the sand or activated carbon upon backwashing of the filter paper; A screen operation unit for responding to the output of the sensor unit and calculating and storing the expansion rate of the filter paper by comparing the output position of the sensor unit with the reference point position of the support pipe; A data transfer unit mounted on an upper end of the support tube and outputting the calculated expansion rate and the output of the sensor unit to the outside; And a length adjuster mounted at the center of the support tube and adjusting the length of the support tube so as to fix the reference point of the support tube to the surface of the filter media.

Japanese Patent Application Laid-Open No. 10-2001-0006614 discloses an activated carbon adsorption paper in which an activated carbon layer is formed so as to adsorb contaminants contained in treated water flowing through a pretreatment such as an outer sand filter or an ozone contact paper; First particle size measurement means for measuring the particle size of the process water loaded on the outlet side of the activated carbon adsorption paper and detecting microorganisms leaking from the activated carbon adsorption paper through the particle size analysis, micro activated carbon and suspended matter; And control means for receiving the particle size data measured by the first particle size measurement means to determine a backwash point and outputting a control signal.

The measurement of the concentration or the particle size for determining the backwashing time of the activated carbon disclosed in the prior art can show different measurement results depending on the measurement position or the measurement environment in the actual application process, It is difficult to measure the rate of expansion or the time of backwashing. Therefore, the means of accurately measuring the timing or rate of backwash in the period of backwashing or backwashing is required, but the prior art does not disclose such a method.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Publication No. 10-2009-0026693 (Korea Institute of Construction Technology, published on Mar. 13, 2009) Real time measurement device and measurement method of sand filter paper expansion rate in water treatment process Prior Art 2: Patent Publication No. 10-2001-0006614 (published by Korea Institute of Construction Technology, Jan. 26, 2001) Automatic backwashing apparatus and method of activated carbon process

An object of the present invention is to provide an ultrasonic activated carbon interface measuring apparatus capable of measuring the level or expansion rate of activated carbon by receiving ultrasonic waves transmitted during backwashing or backwashing of activated carbon filter paper.

According to a preferred embodiment of the present invention, an ultrasonic activated carbon interface measuring apparatus is an interfacial measuring apparatus for measuring an interface of a fluid material disposed inside a liquid and having fluidity and forming an interface at different heights of liquid inside, An ultrasonic height measuring unit capable of detecting whether or not an ultrasonic signal transmitted at a different height is detected, and a signal processing unit for processing ultrasonic waves and received signals transmitted at different heights, Is calculated.

According to another preferred embodiment of the present invention, the ultrasonic height measuring unit includes a plurality of ultrasonic detecting units disposed at different heights, and each of the ultrasonic detecting units can transmit or receive ultrasonic waves.

According to another preferred embodiment of the present invention, the ultrasonic height measuring unit detects the reception of ultrasonic waves at a predetermined height according to the expansion of the activated carbon of the filter paper, and calculates the expansion level of the activated carbon.

According to another preferred embodiment of the present invention, the ultrasonic height measuring unit includes a plurality of ultrasonic detecting units disposed at different heights, and each of the ultrasonic units includes an ultrasonic transmitting unit, an ultrasonic receiving unit, and an activated carbon flow conduit bracket do.

The interfacial measuring apparatus according to the present invention allows the ultrasonic detection unit to accurately measure the level of activated carbon in the filter paper or the expansion rate in the course of backwashing. The interfacial measuring apparatus according to the present invention precisely determines whether the level or the expansion rate of activated carbon has reached a predetermined range in the backwashing process, thereby preventing the loss of activated carbon. The interface measuring apparatus according to the present invention makes it possible to perform interfacial measurement of various precipitates formed in water which are difficult to be measured by laser, microwave or other electromagnetic waves.

1 is a block diagram showing an embodiment of an interface measuring apparatus according to the present invention.
2 shows an embodiment of an ultrasonic height measuring unit applied to the interfacial measuring apparatus according to the present invention.
FIG. 3 shows an embodiment of an ultrasonic wave detection unit applied to an interface measuring apparatus according to the present invention.
FIG. 4 shows an embodiment in which the interface measuring apparatus according to the present invention is installed on a filter paper.
FIG. 5 illustrates an operation of an interface measuring apparatus according to an embodiment of the present invention. Referring to FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 is a block diagram showing an embodiment of an interface measuring apparatus according to the present invention.

Referring to FIG. 1, the ultrasonic interface active carbon interface measuring apparatus includes an ultrasonic height measuring unit 11 for detecting whether or not an ultrasonic signal transmitted at different heights is received; And a signal processing unit (12) for processing ultrasonic waves and received signals transmitted at different heights, and the height of the interface is calculated according to whether the ultrasonic signals are received or not.

The interfacial measuring apparatus according to the present invention may have a function of measuring the interface of the fluid material disposed inside the liquid and having fluidity and forming an interface at different heights of the inside of the liquid. For example, activated carbon or granular activated carbon for preventing impurities may be arranged at a predetermined height from the bottom surface of a filtering paper of a water treatment plant. The activated carbon placed on the filter paper has a function of removing fine contaminants, for example, it needs to be backwashed at intervals of one week or one month. Backwashing can be done with air and water, and the activated carbon expands during backwashing. The expansion of the activated carbon needs to be maintained at 20 to 70%, for example. If the expansion rate deviates from a predetermined level during backwashing, it may be lost through a trough installed for drainage of backwash water. Therefore, in order to determine the timing of backwashing or in the course of backwashing, the rate of expansion of the activated carbon or the interface of the activated carbon needs to be accurately detected, and thus the backwashing process needs to be controlled. The ultrasonic interface measuring apparatus according to the present invention is applied to the interface measurement of the activated carbon disposed on the filter paper, but is not limited thereto.

The interfacial measuring apparatus according to the present invention can be applied to the interface measurement of various solid or solid-like materials formed in a liquid. Therefore, the present invention can be applied to various interface measurements formed inside a liquid, including the expansion rate of activated carbon, and is not limited to the embodiments shown.

The ultrasonic height measuring unit 11 can be made, for example, in a structure in which a part of the ultrasonic height measuring unit 11 is injected into the water or the liquid in the filter paper or other liquid storage facilities whose interfaces are measured while extending linearly. An ultrasonic unit capable of generating and receiving ultrasonic waves can be disposed in a lower portion of the linearly extending ultrasonic height measuring unit 11. [ The ultrasonic units may be arranged at a predetermined number of different heights from the lower end of the linear ultrasonic height measuring unit 11, for example. For example, at the corresponding heights of activated carbon expansion rates of 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80% and 90% from the lower end of the ultrasonic height measuring unit 11 An ultrasonic unit can be disposed. The degree of swelling of the activated carbon can be detected by detecting the reception of the ultrasonic waves transmitted from the respective ultrasonic units.

Ultrasonic waves propagate through solids, liquids and gases corresponding to the longitudinal waves, and the propagation speed changes with the density of the medium. Ultrasonic waves can be transmitted through liquids, but powdered solids can not be dispersed in liquids or can not be transmitted through colloidal materials or gels. Using this characteristic, the height of the interface can be measured by detecting whether or not ultrasonic waves transmitted from the ultrasonic units of different heights of the ultrasonic height measuring unit 11 are received. The ultrasonic units installed at different heights can be located at different heights in the water or the liquid interior. Specifically, the ultrasonic units can be positioned at different levels, and ultrasonic waves in the form of pulses can be transmitted in different directions at different times. And each ultrasonic unit can be transmitted to pass water or a predetermined level inside the liquid. Each ultrasonic unit can be transmitted to pass through different levels of water inside the filter paper. Whether or not the activated carbon expands to reach the corresponding water level or whether the interface of the activated carbon is located below or above the corresponding water level can be determined depending on whether or not the transmitted ultrasound is received. As described above, the interface measuring apparatus according to the present invention can measure the height of the interface formed in the water or the liquid using the property that the ultrasonic wave can not be transmitted through the specific medium. The receiving unit for receiving the ultrasonic wave units transmitted at different heights may be provided in the ultrasonic height measuring unit 11 or may be installed in parallel with the ultrasonic wave height measuring unit 11 so as to have a shape similar to the ultrasonic wave height measuring unit 11 May be provided on the ultrasonic linear member or on the outside of the water. However, each ultrasonic wave unit may be arranged such that ultrasonic waves transmitted from the respective ultrasonic wave units pass through different water level or water level portions.

The signal processing unit 12 can transmit ultrasonic signals at different times or process the received ultrasonic signals in the respective ultrasonic units provided in the ultrasonic height measuring unit 11. [ The signal processing unit 12 may comprise a control unit, display or input unit comprising various microprocessors. The signal processing unit 12 may include various hardware or software capable of controlling the transmission or reception of ultrasound signals. For example, the signal processing unit 12 may control the transducer of the ultrasonic unit to adjust the amplitude of the ultrasonic wave or the time of generation of the ultrasonic wave. And the reception time or size of the received ultrasonic signal can be calculated. And the signal processed in the signal processing unit 12 can be transmitted to the reception sensitivity determination unit 13. [ The reception sensitivity determination unit 13 can determine whether or not to receive ultrasonic waves transmitted at a specific position or the reception sensitivity. If the ultrasound transmitted from the first level is received by the ultrasound receiving unit but the second ultrasound transmitted from the second lower level is not received, the interface of the activated carbon is between the first level and the second level. In this way, the height of the interface can be determined depending on whether ultrasonic signals transmitted at different heights are received or not. When the receiving sensitivity determining unit 13 determines whether or not to receive ultrasonic waves transmitted at different heights, the degree of expansion of the activated carbon can be determined by the degree of expansion determination unit 14. [ The degree of expansion can be predetermined according to the height of the interface, and the degree of expansion can be calculated accordingly. On the other hand, depending on the water level, the density of the activated carbon may be different from each other, and a part of the activated carbon may be delivered when the density of the activated carbon is low. The transmission distance of the ultrasonic wave according to the underwater density of the activated carbon can be determined experimentally or theoretically. Whereby the interface of the activated carbon or the substance floating inside the liquid can be calculated. The back-washing process can be controlled by the back-washing regulating unit 15 of the backwashing device in accordance with the height or expansion ratio of the interface calculated in this way. For example, the intensity of the wash water may be adjusted, the wash temporarily stopped, or the wash time adjusted. As described above, the interface in the water of the filter paper can be accurately measured by the ultrasonic activated carbon interface measuring apparatus according to the present invention. And the rate of expansion of the activated carbon can be determined based on the measured height, and the operation of the back-washing regulating unit 15 can be controlled based on the expansion rate.

As described above, the ultrasonic activated carbon interface measuring apparatus according to the present invention can measure the interface inside the liquid, which is difficult to measure by other measuring units. And the ultrasonic height measuring unit 11 can be appropriately made in various ways depending on the interface to be measured.

2 shows an embodiment of an ultrasonic height measuring unit applied to the interfacial measuring apparatus according to the present invention.

2, the ultrasonic height measuring unit 11 includes a measuring member 21 having an upper portion in a linear tube shape and a lower portion in a semi-cylindrical shape or the like; And ultrasonic detection units 22a to 22n disposed in a part made in a half-cylinder shape. Each of the ultrasonic detecting units 22a to 22n may be disposed at one height H1, two height H2, three height H3 and four height H4 from the lower end of the measuring member 21 . The heights of the first to fourth heights H1 to H4 may be predetermined, and the ultrasonic transmission directions of the respective ultrasonic detection units 22a to 22n may be preset. The number of the ultrasonic wave detection units 22a to 22n is not limited and the installation height of the ultrasonic wave detection units 22a to 22n can be appropriately determined in accordance with the expansion rate of the activated carbon. For example, the ultrasonic detecting units 22a to 22n may be disposed at positions where the expansion rates of activated carbon are 25%, 35%, 50%, and 70%, respectively. Each of the ultrasonic detecting units 22a to 22n can be connected to the signal processing unit by a transmission cable 23 extending outward through the inside of the measuring member 21. [

Each of the ultrasonic detecting units 22a to 22n disposed at different heights can detect ultrasonic waves of, for example, 0.1 to 2 MHz according to the expansion rate of activated carbon or the position of the receiving unit for detecting the reception of transmitted ultrasonic waves But is not limited thereto. According to the present invention, the ultrasonic transmission unit 221 and the ultrasonic reception unit 222 can be disposed in a flow conduit bracket 24 capable of flowing fluid. The flow conduit bracket 24 can form a flow path through which the fluid can flow and the transmitted ultrasonic waves TU transmitted from the ultrasonic transmission unit 221 pass through the flow path to the half of the flow conduit bracket 24 It can be reflected at the slope surface 241 to be the reception ultrasonic wave RU. And may be received by an ultrasonic receiving unit 222 provided separately from the ultrasonic transmitting unit 24. [ The transmission ultrasonic wave TU transmitted from the ultrasonic transmission unit 221 can be reflected by the reflection surface 241 via the flow path and can be received by the ultrasonic reception unit 222. [ If the fluid F containing the activated carbon component flows through the flow path formed in the flow conduit bracket 24 and the density of the activated carbon is large, the transmission ultrasonic wave TU transmitted from the ultrasonic transmission unit 221 is transmitted to the half It may not be reflected at the slope 241 or may not be received at the ultrasonic receiving unit 222. [ Or the intensity of the received ultrasound waves RU to be received may be weak depending on the concentration of activated carbon. The ultrasonic transmission unit 221 and the ultrasonic reception unit 222 are provided separately from each other and the ultrasonic transmission unit 221 transmits the transmission ultrasonic wave TU to the flow path of the fluid F. [ Whether or not the activated carbon has been inflated to the predetermined position according to whether the ultrasound receiving unit 222 has received the receiving ultrasonic wave RU or the receiving sensitivity can be determined. The ultrasonic transmitter unit 221 and the ultrasonic receiver unit 222 may be disposed in respective flow paths disposed at different heights and the reflecting surface 241 may be disposed on the surface forming the flow path of the flow conduit bracket 24 Or may be a separately formed reflector. The flow path may also be formed in a variety of ways and the invention is not limited to the embodiments shown.

FIG. 3 shows an embodiment of an ultrasonic wave detection unit applied to an interface measuring apparatus according to the present invention.

Referring to FIG. 3, the ultrasonic height measuring unit includes a measuring member 21 having a generally hollow tube shape; Ultrasonic wave detection units (22a, 22b, 22c) disposed separately below the measurement member (21); And a transmission cable 23. The lower part of the measuring member 21 can be separated from each other to form a plurality of cut-out parts, and the respective ultrasonic detecting units 22a, 22b, 22c are arranged on the outer surfaces of the plurality of cut- . The separation passages may be formed at different heights, and each of the ultrasonic detection units 22a, 22b, 22c may be disposed at different heights of the measurement member 21 by being installed on the outer surface of each separation passage have.

In the embodiment shown in FIG. 2, the ultrasonic transmitting unit and the ultrasonic receiving unit are installed separately from each other, but a transmitting transducer and a receiving transducer may be separately installed in one transducer, or one transducer may have both a transmitting function and a receiving function. It is advantageous that the ultrasonic wave is transmitted in the form of a pulse and that the transmission oscillator and the reception oscillator are separately formed when the reception distance of the ultrasonic wave is short. However, depending on the performance of the transducer, the transmission distance of the ultrasonic waves, or the resolution capability of the transducer, one transducer can have both transmit and receive functions.

Referring to FIG. 3 (b), the ultrasonic detection units 22a, 22b, 22c may be disposed in a hollow square box shaped flow conduit bracket 24. Two placement brackets 31a and 31b may be disposed on the outer surface of the flow conduit bracket 24 and an ultrasonic transmission unit and an ultrasonic reception unit may be disposed on the placement brackets 31a and 31b, respectively. Fluids comprising fluid or activated carbon may be filled into the interior of the flow conduit bracket 24 and the ultrasonic waves transmitted from the ultrasonic transmitting unit and the ultrasonic receiving unit disposed in the respective placement brackets 31a and 31b and the ultrasonic waves are received It may not be received. In such a configuration, the inner surface of the flow conduit bracket 24 can be a reflective surface.

According to the present invention, the ultrasonic transmission unit and the ultrasonic reception unit can be arranged at various positions, and can be arranged to face each other, for example. Further, the ultrasonic transmitting unit should be installed in the water, but the ultrasonic receiving unit may be disposed in the water or disposed outside. Further, the ultrasonic transmitting unit and the ultrasonic receiving unit may be disposed on different measuring members 21.

The ultrasonic height measuring unit may be formed in various structures, and the present invention is not limited to the embodiments shown.

FIG. 4 shows an embodiment in which the interface measuring apparatus according to the present invention is installed on a filter paper.

Referring to FIG. 4, the measuring member 21 having the ultrasonic detecting unit disposed at the lower portion thereof can be disposed on the wall surface of the filter paper 41. A plurality of troughs 43a, 43b and 43c may be disposed inside the filter paper 41 and activated carbon 42 may be disposed on the bottom surface of the filter paper 41. [ The activated charcoal 42 should be cleaned by backwashing in order to remove impurities accumulated in the activated carbon 42 after being purified in the filter paper 41 for a certain period of time. The washing water can flow backward from below the filter paper 41 for backwashing. Whereby the activated carbon 42 can expand from the bottom surface. The activated carbon 42 is located in the water in the filter paper, and the level of the activated carbon 42 expanding below the scale of the filter paper is not observed from the outside. If the activated carbon 42 is out of the predetermined level in the backwashing process, the activated carbon 42 may be lost through the troughs 43a, 43b and 43c for draining the washing water. In order to prevent this, the expansion rate of the activated carbon 42 needs to be detected. The ultrasonic activated carbon interface measuring apparatus according to the present invention can detect the expansion rate of the activated carbon in the backwashing process, thereby controlling the backwashing process.

FIG. 5 illustrates an operation of an interface measuring apparatus according to an embodiment of the present invention. Referring to FIG.

Referring to Fig. 5, when the backwash cycle is reached, the backwash operation unit RF can be operated and the operation start of the backwash operation unit RF can be transmitted to the control unit 51. [ The control unit 51 may be provided with a periodic unit 511 that sets the operation period of each ultrasonic wave detection unit. The transmission unit 511 can transmit a transmission ultrasonic wave in a pulse form in each ultrasonic wave detection unit. If the transmission ultrasonic wave transmitted to the predetermined ultrasonic wave detection unit is not detected more than the predetermined number of times, the transmission cycle may be set again for the ultrasonic wave detection unit located above the predetermined ultrasonic wave detection unit. The transmission ultrasonic wave can be transmitted from the predetermined ultrasonic wave generating unit 52 and the transmission ultrasonic wave can be detected or not detected by the ultrasonic wave detection unit 53. [ And the detection position of the ultrasonic wave can be confirmed by the check unit 54. [ For example, in the case where ultrasonic waves are received in the first ultrasonic wave detection unit 53 and ultrasonic waves are not detected in the second ultrasonic wave detection unit 53, the check unit 54 determines whether the ultrasonic wave is detected in the first ultrasonic wave detection unit 53 and the second ultrasonic detecting unit 53 can detect the reception of ultrasonic waves again. The sensitivity of the ultrasonic wave received by the reception sensitivity determination unit 55 can be confirmed as necessary, and the density of activated carbon can be confirmed at a certain water level accordingly. The expansion rate of the activated carbon can be determined by the expansion calculation unit 56. The operation of the backwashing device can be controlled by the operation control unit AC according to the determined expansion rate of the activated carbon. The backwash level can be determined accordingly. Backwashing can be effectively performed, and the loss of activated carbon can be prevented.

The ultrasonic activated carbon interface measuring apparatus according to the present invention can be applied to various purification facilities including filter paper or similar facilities, and the present invention is not limited to the embodiments shown.

The interfacial measuring apparatus according to the present invention allows the ultrasonic detection unit to accurately measure the level of activated carbon in the filter paper or the expansion rate in the course of backwashing. The interfacial measuring apparatus according to the present invention precisely determines whether the level or the expansion rate of activated carbon has reached a predetermined range in the backwashing process, thereby preventing the loss of activated carbon. The interface measuring apparatus according to the present invention makes it possible to perform interfacial measurement of various precipitates formed in water which are difficult to be measured by laser, microwave or other electromagnetic waves.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

11: ultrasonic height measuring unit 12: signal processing unit
13: reception sensitivity determination unit 14: expansion degree determination unit
15: reverse-washing regulating unit 21: measuring member
22a, 22b, 22c, 22n: ultrasonic detection unit
23: Transmission cable 24: Flow conduit bracket
31a, 31b: placement bracket 41: filter paper
42: activated carbon 43a, 43b, 43c:
51: control unit 52: ultrasound generating unit
53: Ultrasonic detection unit 54: Check unit
55: reception sensitivity determination unit 56: expansion calculation unit
221: ultrasonic transmission unit 222: ultrasonic reception unit
241: Reflecting surface 511: Periodic unit
AC: Operation control unit F: Fluid
H1: 1 height H2: 2 height
H3: 3 height H4: 4 height
RF: backwash operation unit RU: receiving ultrasound
TU: Transmission ultrasound

Claims (4)

1. An interface measuring apparatus for measuring an interface of a fluid material disposed inside a liquid and having fluidity and forming an interface at different heights of liquid inside,
An ultrasonic height measuring unit 11 for detecting whether ultrasonic signals transmitted at different heights are received; And
And a signal processing unit (12) for processing ultrasonic waves and received signals transmitted at different heights,
The height of the interface is calculated according to whether or not the ultrasonic signal is received,
The ultrasonic height measuring unit 11 includes a hollow tube-shaped measuring member 21 and a plurality of ultrasonic detecting units 22a to 22n which are separated from each other and disposed at different heights below the measuring member 21 , A lower portion of the measuring member (21) is separated from each other to form a plurality of cut portions, and the plurality of the ultrasonic wave detecting units (22a to 22n) are formed on the outer surface of a plurality of cut- Disposed,
Each of the ultrasonic wave detection units 22a to 22n includes an ultrasonic wave transmission unit 221, an ultrasonic wave reception unit 222 and placement brackets 31a and 31b, in which the ultrasonic wave transmission unit 221 and the ultrasonic wave reception unit 222 are respectively disposed. And an activated carbon flow conduit bracket (24) disposed on the outer surface. delete The ultrasonic activated carbon interface measuring apparatus according to claim 1, wherein the ultrasonic height measuring unit (11) detects the reception of ultrasonic waves at a predetermined height according to the expansion of the activated carbon of the filter paper, and calculates the expansion level of the activated carbon. delete

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