KR101563184B1 - Portable apparatus for monitoring and measuring state of water with multi-function - Google Patents

Abstract

According to the present invention, a mobile monitoring control device, which uses a multifunctional controller to measure the water quality, is detachably connected to a drain oil pipe to measure the water quality. The device includes: a housing having an internal space; first and second coupling holes which are formed on the lower part of the housing and are respectively coupled to the other end of a drain tube and a discharging tube; a water storage unit arranged in the housing; an inlet tube connecting the first coupling hole and the water storage unit; a pump unit which draws in the water, which is the target of water quality measurement, to the water storage unit through the drain tube and the connection tube; the discharging tube which connects the discharging hole formed on top of the water storage unit and the second coupling hole; a sensor which is installed in the water storage unit and measures the quality of the water entering the water storage unit; a communication unit which transmits status data generated by processing the information measured by the sensor to a monitoring server; a storage unit which stores reference information for determining whether the water quality is normal or not; and the multi-functional controller which determines whether the water quality is normal or abnormal by comparing the information measured by the sensor with the reference information and differentially controlling the driving cycle of the pump unit depending on whether the water quality is normal or abnormal.

Description

TECHNICAL FIELD [0001] The present invention relates to a portable monitoring and control apparatus for water quality measurement using a multi-function controller,

The present invention relates to a monitoring and control apparatus that transmits and manages water quality data measured at a remote site to a management server. More particularly, the present invention realizes the convenience of installation and movement, It is possible to continuously monitor the overcurrent and the overcharging with respect to the internal storage power and to prevent the external power for driving the inside of the apparatus from being interrupted or to be out of order, And a function of transmitting the data to the management server. The present invention also relates to a mobile monitoring and control apparatus for measuring water quality using a multi-function controller.

As the water resources are closely related with the citizens' health, life, etc., and due to the increase in population density facilities and industrialization facilities, the problems such as contamination of water resources and deterioration of water quality are caused by side effects, It can be said that sustainable water quality management is more needed for pipelines, sewage pipelines, and groundwater (hereinafter referred to as "water facilities").

The subjects of water quality measurement use various parameters according to the policy and direction of water quality measurement. Usually PH, SS, COND. Temperature, BOD, COD, and specific chemical components.

Conventionally, in order to measure and manage the water quality, a method of moving the water source facilities to the water source facilities by the managers, measuring the water quality by using sensors for water quality measurement, collecting the water quality data and collecting them is mainly used. A method in which a sensor having a sensing function is immersed (immersed) in a water source facility fixedly and then the information or data measured therefrom is collected.

However, the above-mentioned first type of conventional method is a method by which an administrator directly measures and controls the quality of water and basically corresponds to a method based on a human-dependent method. Therefore, efficiency of objective management of data is extremely low, It is practically very difficult to visit the place from time to time, so there is a limit to continuous water quality management.

Also, according to the second conventional method, it is economically inefficient because expensive sensor equipment and related facilities must be fixedly installed. In addition, since expensive sensor devices or equipment must be constantly immersed in the water, there is a high possibility of loss of the sensor, and the sensor device is exposed to the water environment where naturally occurring foreign substances and byproducts are easily generated. There is a problem that the possibility of malfunction is increased because the sensor is stuck to the sensor.

In order to remove foreign matter adhered to or attached to the sensor, in the conventional method, the manager performs an operation of pulling up the sensor of the immersed (immersed) inevitably, performs a cleaning and calibration process, And therefore the efficiency of management is considerably low.

In addition, according to the conventional method, it is almost impossible to directly check turbidity or the like on the condition of the water resources located in the basement when the manager needs it, or to visually confirm the odor and the viscosity using the finger etc. .

Korean Patent Publication No. 10-0523856 and Korean Patent Laid-Open Publication No. 10-2007-0059241 disclose techniques for water quality control, meter reading, and the like, but these documents also have the problems as described above .

Korean Patent Registration No. 10-0523856 (Oct. 18, 2005) Korean Patent Publication No. 10-2007-0059241 (2007.06.12)

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned problems in the background as described above, and it is an object of the present invention to provide an apparatus and a method for providing convenience of installation and movement and a function of data transfer to a management server The sensor can be prevented from being lost or damaged by introducing the water source to be inspected into the device at a predetermined period or at a different period and infiltrating the sensor into the water source introduced into the device, thereby preventing malfunction due to foreign matter And it is an object of the present invention to provide a mobile surveillance control apparatus for water quality measurement that can simplify and simplify subsequent work such as calibration as well as reduce the possibility.

Other objects and advantages of the present invention will become apparent from the following description, and it will be apparent from the description of the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by a combination of the constitution shown in the claims and the constitution thereof.

In order to accomplish the above object, a mobile monitoring and control apparatus for measuring water quality using a multifunctional controller includes a drain tube having one end thereof immersed in water to be subjected to water quality measurement and the other end thereof being exposed outside the ground, A portable monitoring and control apparatus for measuring water quality, comprising: a housing having an inner space; First and second fastening holes formed at the lower portion of the housing and detachably coupled to the other end of the drain tube and the discharge tube, respectively; A water storage unit provided in an inner space of the housing; An inflow tube connecting the storage unit and the first fastening hole; A pump unit for introducing water to be subjected to water quality measurement through the drain tube and the connection tube into the water storage unit; An outlet tube connecting the outlet hole formed in the upper portion of the water storage unit and the second fastening hole; A sensor installed inside the water storage unit and measuring a quality of water introduced into the water storage unit; A communication unit for transmitting state data obtained by processing the information measured by the normal sensor to the management server; A storage unit for storing reference information for determining whether the water quality is normal; And a multi-function controller for determining whether the water quality is normal or abnormal by comparing the information measured by the sensor with the reference information to differentially control the driving cycle of the pump unit according to whether the water quality is normal or abnormal. .

In addition, the inflow tube and the outflow tube of the present invention are made of a stretchable structure, and the storage unit is made of a transparent material, and the housing has a transparent window or an openable / closable door on the outside of a height corresponding to the height of the human body In this case, the present invention can be applied to an infrared sensor which senses the proximity of a person. And in the case of this embodiment, when the proximity of a person is sensed or a drive switch provided outside the housing is turned on, the multifunctional controller of the present invention may be configured such that, And controls the driving of the unit so that the water storage unit is moved up and down to the transparent window or the door position. When the proximity of a person is not sensed or the drive switch is turned off, And may be configured to control the driving of the unit.

Further, the water storage unit of the present invention has a plurality of partition walls having a height different from that of the outer wall of the water storage unit and having a different height, the inlet tube being divided into a space And the sensor is configured to be installed in a space including the highest partition wall.

Further, in order to realize the preferred embodiment, the present invention may further include a GPS module for generating location information of the mobile communication terminal, and the communication unit may communicate with another device so as to transmit / receive data including location information of another device And the storage unit may further store map data including path data on the inflow or outflow of sewage or river. In this case, when the water quality is determined to be abnormal, the multifunctional controller of the present invention requests water quality data from another device located within a reference distance by using the location information of the other device and the map data, And generates path data for the water in the abnormal state to flow into the current position using the received water quality data, and further transmits the generated path data to the management server.

More preferably, the drain tube of the present invention is provided with a filter at one end thereof, the drain tube further includes an air tube having one end connected to the filter, and the lower end of the drain tube is detachably attached to the other end of the air tube The present invention may further comprise a compression driving part connected to the third fastening hole and injecting the compressed air into the filter through the air tube.

Further, the present invention provides a power generating apparatus comprising: a power generating unit generating electric energy using a flow of water discharged through the outflow tube; And an energy storage unit for storing the electric energy generated by the power generation unit. In this case, the multi-function controller monitors an overcurrent or an overcharge of the energy storage unit, And control information such that the status data and the normal or abnormal status of the water quality are transmitted to the portable terminal of the management server and the manager using electric power.

Also, the communication unit of the present invention can be connected to the management server through a redundant network by wire and wireless communication. In this case, the multifunctional controller is set to a subordinate state when a failure occurs in a communication network set as a priority among wired and wireless communication And to switch the communication network to the communication network.

The mobile monitoring and control device for water quality measurement using the multi-function controller according to the present invention can be implemented as a device detachably connected to a tube (oil pipe, etc.) connected to a water source to be subjected to water quality measurement, Can be implemented as a single device, thereby making it possible to further improve the convenience of movement and installation.

In addition, according to another embodiment of the present invention, the elevation of the water storage unit provided inside the apparatus can be elevated and lowered, so that the administrator can directly and easily check the condition of the water quality and the like.

According to another embodiment of the present invention, when the water quality is abnormal, path data in which an abnormal water (water quality) is generated can be easily and accurately generated through communication with other adjacent devices, It is possible to create effects that can lead to easier and more accurate follow-up.

Further, according to another embodiment of the present invention, the circulation cycle to flow into and out of the apparatus is differentially adjusted depending on the degree of water quality or whether the water quality is normal or abnormal, thereby improving the accuracy, It can be implemented more effectively.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the detailed description of the invention given below, serve to better understand the technical idea of the invention, And shall not be construed as limited to such matters.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view generally showing a monitoring control device and a related configuration according to a preferred embodiment of the present invention;
2 is a view showing a connection relationship between a structure of a monitoring control device and a tube (oil pipe) according to a preferred embodiment of the present invention,
3 is a diagram showing the configuration of a monitoring control apparatus according to a preferred embodiment of the present invention,
4 is a block diagram showing a detailed configuration of a monitoring control apparatus according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

FIG. 1 is a view generally showing a mobile monitoring and control apparatus 100 (hereinafter referred to as a monitoring control apparatus) and a related configuration for a water quality measurement using a multifunction controller according to a preferred embodiment of the present invention.

The monitoring and controlling apparatus 100 of the present invention is connected to the portable terminal 200 and the management server 300 such as a smart phone, a PDA, a tap, etc., .

As will be described later, the monitoring control apparatus 100 (100-1, 100-2, ..., 100-n) of the present invention communicates with another monitoring control apparatus 100 installed at an adjacent place or another location State data on the water quality state, information on whether the state data is normal or abnormal, or location information on which the monitoring control apparatus 100 is installed are mutually shared.

The monitoring control apparatus 100 of the present invention may be implemented as an integrated unit (hereinafter, referred to as " unit ") in which various units, modules, and the like for implementing the various functions described below and their functions are described and illustrated in FIG. .

As shown in FIG. 1, the monitoring and controlling apparatus 100 of the present invention includes a wheel for facilitating movement of the apparatus on the bottom surface of the casing or the housing 110 of the monitoring and controlling apparatus 100, And may be provided with a fixed support means 112 for physically fixing and supporting the apparatus by being raised or lowered according to the rotation direction to be in contact with the ground.

As shown in FIG. 1, the monitoring control apparatus 100 of the present invention includes one or more fastening holes 113, 114, and 115 as an interfacing means for fastening or connecting with several tubes as described below Respectively. The fastening holes 113, 114 and 115 may be provided on the bottom surface or the side surface of the housing 110 according to the embodiment.

The network 5 is a network between the supervisory control apparatus 100 of the present invention (specifically, the communication section 170 controlled by the multifunctional controller 190 of the supervisory control apparatus 100) and the adjacent configurations 200 and 300 It is a matter of course that the present invention can be implemented by various protocols and methods such as LAN, CDMA, WCDMA, LTE, and WiFi without distinction of wired and wireless if data transmission is possible.

Furthermore, in order to maintain the communication network without interruption, the communication port and the network are duplicated in consideration of the installation environment and the area, and the priority is set differentially for the redundant network so that the communication line (network) It is preferable to implement automatic transfer of data to a subordinate communication line (network) so that non-stop data transmission can be performed. That is, if a failure occurs in the wire communication, it is desirable to realize a communication rate reduction and stable communication by instantly switching to wireless communication and assigning a differential ranking of the data communication method.

As will be described later, the monitoring and controlling apparatus 100 of the present invention transmits the measured water quality data or data on the normal state of the water quality to the portable terminal 200 of the manager using SMS or the like, .

The monitoring and controlling apparatus 100 according to the present invention can be installed and operated in various positions and locations and the information and data acquired from the monitoring and controlling apparatus 100 are transmitted to the management server 300 through the network 5 So that statistical data on water quality, policy data, and subsequent processing for water quality management can be integrally operated in the management server or control server 300.

The monitoring and controlling apparatus 100 of the present invention can be detachably attached to a tube (oil pipe) means that is not fixedly installed at a specific position but is extended and connected to a water source such as a river or a sewer so as to be easily re- And all the modules or units for water quality measurement (proofing), data processing, control, etc. except for these tube means are integrated in one device, so that it is possible to easily and conveniently It can be moved to another place.

Hereinafter, the detailed configuration, structure, and operation processing of the monitoring and controlling apparatus 100 according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing a connection relationship between a monitoring control device 100 and a tube (oil pipe) according to a preferred embodiment of the present invention. FIG. 3 is a block diagram of a monitoring control device 100 shown in FIG.

The monitoring control device 100 of the present invention is detachably connected to the drain oil pipe 400 as shown in FIG. As described above, the monitoring and controlling apparatus 100 of the present invention is configured to be detachably connected to the drain oil pipe 400, thereby effectively overcoming a problem (installation, reinstallation work, demolition work, etc.) Convenience mobility of the device can be realized.

The drain pipe 400 according to the present invention may include a drain tube 410 and a drain tube 430 as shown in FIG. 2, and may further include an air tube 420 according to an embodiment of the present invention. The drain pipe 400 of the present invention can be realized in a form having two or three tubes in a pipe having a large diameter.

As shown in FIG. 2, one end of the drain tube 410 is submerged in the water to be measured for water quality and the other end is exposed to the outside of the ground. The discharge tube 430 may be formed in a shape similar to that of the drain tube 410, and the discharge tube 430 may be formed in a manner such that the water introduced into the monitoring and controlling apparatus 100 is discharged again, So that one end thereof is exposed to the outside of the ground like the drain tube 410 to be connected to the monitoring and controlling apparatus 100 and the other end is connected to the inlet where the water is introduced again as shown in FIG. And may be provided at a position where a channel can be formed in the water or in the water and in the water so as to flow.

As described above, the housing 110 of the monitoring and controlling apparatus 100 of the present invention performs a case function of the apparatus. In the lower part or the lower surface of the housing 110, Holes 113, 114, and 115 are formed.

The first fastening hole 113 shown in the drawing is detachably connected to the other end of the drain tube 410 (the opposite end of the one end of the drain tube 410 which is submerged in water), and the second fastening hole 115 is connected to the drain tube 430 and one end thereof.

The monitoring and controlling apparatus 100 of the present invention includes a water storage unit 120 in which water to be subjected to water quality measurement is stored for a predetermined period of time and a pump unit 150 for introducing water into the water storage unit 120 And is provided inside the housing 110.

As shown in FIG. 3, the monitoring control device 100 of the present invention further includes an inlet tube 130 connecting the first fastening hole 113 and the storage unit 120, and an outlet formed in the storage unit 120, And an outlet tube 140 connecting the hole 121 and the second fastening hole 115 is provided.

When the pump unit 150 is driven, the water to be subjected to the water quality measurement outside the apparatus flows through the drain tube 410, the first tightening hole 113, the inlet tube 130, the water storage unit 120, And then stored in the storage unit 120. When proper subsequent processing is completed, the storage unit 120 (specifically, the outlet hole 121 of the storage unit 121, the outlet tube 140, the second fastening hole 115, And the water is discharged out in the order of the discharge tube 430 to form one circulation cycle.

One end of the drain tube 410 is immersed in the water to be subjected to the water quality measurement. At this time, a filter (not shown) is attached to one end of the drain tube 410 so that water can be effectively filtered. 411 may be provided.

3, the monitoring and controlling apparatus 100 of the present invention includes a sensor 160. The sensor 160 is installed inside a water storage unit 120 provided inside the housing 110, The water quality of the water stored in the water tank 120 is measured.

 When the sensor 160 completes sensing processing of the water quality, the sensed information is transmitted to the communication unit 170 of the present invention. The communication unit 170 of the present invention transmits the information measured by the sensor 160 to the communication unit 170 And transmits the processed data to the management server 300 or the portable terminal 200 of the administrator.

The communication unit 170 of the present invention can be configured to transmit information measured by the sensor 160 to the management server 300 or the like and to transmit measured information and data to data Thereby generating data on normal / abnormal water quality and transmitting the data to the management server 300 or the like.

When an event such as the detection of a degree of pollution that requires immediate action is generated according to the embodiment, the identification code or the position information of the monitoring control device 100 for transmitting the alarm information and the alarm information to the portable terminal 200) using SMS or the like. To this end, the monitoring control device 100 of the present invention may further include a GPS module 198 capable of generating current position information.

4) and a multifunctional controller (190 in FIG. 4) may be further included in the monitoring and controlling apparatus 100 of the present invention. In this storage unit 180, reference information for determining whether the water quality is normal or not Is stored. In this case, the multifunctional controller 190 of the present invention judges whether the water quality is normal or abnormal by comparing the information measured by the sensor with the reference information, and determines whether the water quality is normal or abnormal, 150 in a differential manner.

That is, when the water quality is abnormal, the multifunctional controller 190 of the present invention performs the process of circulating the water in a shorter cycle through the driving control of the pump unit 150 and re-reading the water, And furthermore, when the water quality is abnormal, the monitoring period for the water quality is further shortened so that monitoring of the present water quality state can be performed more intensively and precisely.

The multifunctional controller 190 of the present invention controls the communication unit 170 connected through the I / O of the present invention to communicate with the management server 300, as described below, as well as the above-described functions, When the external power supply is cut off or is interrupted by monitoring and managing the power generation unit 195 and the energy storage unit 197 provided therein, And performs control such that communication with the management server 300 or the manager's portable terminal 200 can be continued without interruption by effectively replacing the power of the management server 300 or the administrator. It is preferable that the multifunctional controller 190 is interlocked with a screen display means such as an LCD for interfacing.

4 is a block diagram showing a detailed configuration of the monitoring control apparatus 100 according to a preferred embodiment of the present invention.

4, the monitoring and controlling apparatus 100 of the present invention includes a storage unit 120, a driving unit 193, a multifunction controller 190, a GPS module 198, a communication unit 170, a sensor 160, A storage unit 180, a compression driving unit 194, a pump unit 150, and an infrared sensor 192.

Each component of the multifunctional controller 190, the communication unit 170, the storage unit 180, etc. of the present invention can be implemented by a combination or combination of various electrical and electronic elements, As shown in FIG.

That is, since each constitution corresponds to a logical constituent element for realizing the technical idea of the present invention, even if each constituent element is constituted integrally or separately, if the function performed by the logical constitution of the present invention can be realized, It is to be understood that any component that performs the same or similar function should be interpreted as falling within the scope of the present invention regardless of the consistency of the name.

As described above, the multifunctional controller 190 of the present invention controls the driving of the pump unit 150 according to the degree of normal / abnormal or abnormality of the water quality, so that the cycle in which the water is circulated is controlled in a differential manner. The multifunctional controller 190 according to the present invention performs a function of integrally controlling various physical devices and electronic devices provided in the monitoring control device 100.

In the meantime, the inlet tube 130 and the outlet tube 140 provided in the monitoring and controlling apparatus 100 of the present invention may be constructed in a structure or form that can be stretched and expanded. In the housing 110 of the present invention, Similarly, a transparent window 117 may be provided on the outside of a height corresponding to the height of a person's body. The transparent window 117 may be implemented in the form of a door that can be opened and closed according to an embodiment.

In addition, the present invention may further include a sensor 160 for sensing the proximity of a person. The sensor may be one of a variety of sensors using various physical phenomena. In order to effectively sense the proximity of a person (manager), it is preferable to implement an infrared sensor that recognizes a wavelength corresponding to a person's infrared wavelength.

In addition, the present invention may further include a drive unit 193 for lifting and lowering the water storage unit 120 in which water to be measured for water quality is stored temporarily or for a specific time. This drive unit 193 is provided with a device for connecting the storage unit 120 to the rail means and moving the rail means if the storage unit 120 can be lifted or lowered, a plate on the bottom of the storage unit 120, And a device for lifting and lowering by hydraulic pressure.

Since the present invention includes a structure for allowing water to be subjected to water quality measurement into the inside of the apparatus, it is preferable to control the water storage unit 120 to be positioned low so that power can be minimized.

In this regard, the present invention can be embodied as an embodiment for further facilitating the process of manually confirming the state of water that is the subject of current water quality inspection by the administrator.

That is, when the infrared sensor 192 of the present invention senses the proximity of a person (manager), the multifunctional controller 190 of the present invention controls the drive unit 193 to raise the storage unit 120, The multifunctional controller 190 of the present invention is controlled to move up to the position where the transparent window 117 or the door provided outside the housing 110 is raised and the infrared sensor 192 does not sense the proximity of a person. Unit 193 to control the water storage unit 120 to descend to a predetermined position.

The multifunctional controller 190 of the present invention drives the drive unit 193 as described above by turning ON or OFF the drive switch provided outside the housing instead of the sensor for sensing the proximity of a person according to the embodiment And the like. In this embodiment, the water storage unit 120 of the present invention is preferably formed of a transparent material.

According to the preferred embodiment of the present invention, when the manager approaches, the storage unit 120 is automatically raised to a height corresponding to the level of the human eye, so that the manager can control the transparent window 117 or the door It is possible to directly confirm the turbidity of the water to be directly subjected to the water quality, and to confirm the presence or absence of the chemical substance or the viscosity of the water directly by means of the smell and the touch.

In addition, since the sensor 160 is composed of a precise element or the like, cleaning and measurement error correction can be periodically performed. In this embodiment of the present invention, And the sensor 160 (located inside the water storage unit 120) is automatically moved to a position corresponding to the height of the manager's body, so that the operation for such cleaning and measurement error correction is further improved So that it can be performed by a user.

3, the water storage unit 120 of the present invention includes a plurality of partition walls 123 separated from each other by a plurality of internal spaces and having heights lower than the outer wall of the water storage unit 120 and having different heights . As shown in FIG. 3, the following description will be made with reference to an embodiment in which four partition walls having different heights are provided.

In the embodiment of the present invention, the inflow tube 130 described above is connected to a space including the lowest one of the water storage units 120 so that the water introduced from the outside flows through the space (the first space- The lower left corner of the reference in Fig. 3).

When the water rises in the first space, the water flows over the partition wall to the space (second space) (upper left end) including the partition wall of the next height, the water moves to the third space which is the next space sequentially, The water in the last fourth space where the sensor 160 is located is filled with water.

The sensor 160 for performing the water quality inspection is composed of a device for measuring various parameters of the water quality through various chemical reactions and the like. If the flow rate of the water to be measured or vortex occurs, the measurement accuracy may be lowered. Therefore, according to the present invention, the inflow water can be gradually directed toward the sensor 160 through the above-described structure, thereby further improving the precision of the sensing process. In this embodiment, the outflow hole 121 through which the water is discharged from the water storage unit 120 may be formed on the upper part of the fourth space.

The multifunctional controller 190 of the present invention electronically controls the degree of opening or closing of the outflow hole 121 by connecting a solenoid valve to the outflow hole 121 according to the embodiment, And the amount of emission can be differentially adjusted.

As described above, the supervisory control apparatus 100 of the present invention can be communicably connected to other supervisory control apparatuses 100 installed at different locations and locations.

In this embodiment, a GPS module 198 for generating its own position information can be mounted inside the apparatus, and the GPS module 198 can be connected to the monitoring control device 100 at an adjacent or other location, It is possible to mutually exchange and transmit the information and the information or data measured by itself.

Since the present invention is configured so that it can be installed at any time according to need, it is more preferable to construct and share location information that can be varied through the GPS module, rather than a method of making its own location information into a DB desirable.

In this regard, the storage unit 180 of the present invention may further store map data including route data in which water such as sewage or river flows in or out, in addition to storing reference information for determining whether the water quality is normal .

 When the water quality of the water to be measured is determined to be abnormal through the processing as described above, the multifunctional controller 190 of the present invention uses the positional information received from the other apparatus and the map data stored in the storage unit 180 And transmit the request signal requesting the water quality data to another device located within the reference distance.

When the water quality data measured by the other apparatuses 100-2 to 100-n are received from other apparatuses 100-2 to 100-n using the above-described structure, water in an abnormal state is obtained by using the received water quality data and shared position information It is possible to generate the route data flowing into the current location.

When the path data for the inflow of abnormalities generated through the processing is generated, the path data is transmitted to the management server 300 or the portable terminal 200 of the administrator through the communication unit 170 of the present invention.

A filter 411 is provided at one end of the drain tube 410. The filter 411 typically functions to prevent foreign matter having a specific size or more from flowing into the drain tube 410. However, Foreign matter is adhered to the filter and the efficiency of water inflow into the apparatus can be lowered.

In order to effectively solve such a problem, the drain pipe 400 of the present invention may further include an air tube 420 to which the filter and one end of the filter are connected. In the case of the housing 110 of the present invention, And a third coupling hole 114 that is detachably coupled to the other end of the air tube 420 may be further provided at the lower portion.

The housing 110 has a compression driving unit 194 connected to the third coupling hole 114 and injecting compressed air to the filter 411 through the air tube 420. 3, the third coupling hole 114 and the compression driving unit 194 may be connected to each other through the intermediate tube 135.

When strong compressed air is injected into the filter 411 through the third coupling hole 114 and the air tube 420 through the driving of the compression driving unit 194 as described above, The foreign matter can be effectively removed.

The multifunctional controller 190 of the present invention functions as a function of the current driving power of the pump unit 150 and the flow rate of the water storage unit 120 flowing in accordance with the current driving power so that the amount of water flowing per unit time is lower than a proper level It is preferable to control the compression drive unit 194 to be driven only when it is low.

3, the present invention has a circulation structure in which water flows in and flows out from the outside. In order to effectively utilize the circulation structure, the power generation unit 195, which may be an aberration wing, 140 and may be configured to generate electric energy using the flow of water discharged through the outflow tube 140. The generated battery energy may be supplied to an energy storage unit 197 such as a secondary battery, It can be configured to be stored and utilized.

In this case, the multifunctional controller 190 of the present invention monitors the overcurrent or overcharging of the energy storage unit 197 so that the charging efficiency can be maintained. In addition, when the driving power supplied to the apparatus from outside is interrupted, Information on normal or abnormality of the state data and the water quality is transmitted to the management server 300 and the manager by using the power stored in the energy storage unit 197 To be transmitted to the terminal 200.

Further, the alarm information informing that the device is being operated by the charging power is transmitted to the management server 300 or the portable terminal 200 of the manager by a power failure or the like to effectively induce recognition of the situation and subsequent measures Lt; / RTI >

As described above, the communication unit 170 of the present invention may be configured to be connected to the management server 300 through a redundant network by wire and wireless communication. In this case, the multifunctional controller 190 of the present invention may be connected to a wired and / When a failure occurs in a communication network set as a priority in the wireless communication, the communication network may be switched to a communication network set in a subordinate order so that communication can be continuously performed by actively responding to the communication situation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It should be understood that various modifications may be made in the ordinary skill in the art.

100: The monitoring control device of the present invention
200: Manager's mobile terminal 300: Management server
110: housing 120: water storage unit
130: inlet tube 140: outlet tube
150: pump unit 160: sensor
170: communication unit 180:
190: Multi-function controller 192: Infrared sensor
193: drive unit 194: compression drive unit
195: power generation section 197: energy storage section
198: GPS module
400: drain pipe
410: drain tube 420: air tube
430: exhaust tube 411: filter

Claims (7)

A movable monitoring control device for detachably connecting the drain pipe including the drain tube and the drain tube exposed at the outside of the ground to the inside of the water which is once subjected to the measurement of the water quality and the other end is detached from the ground,
A housing having a transparent window or a door capable of being opened and closed at an outside of a height corresponding to a height of a person's body and having an internal space;
First and second fastening holes formed at the lower portion of the housing and detachably coupled to the other end of the drain tube and the discharge tube, respectively;
A water storage unit provided in an inner space of the housing and made of a transparent material;
An inflow tube having a structure capable of expanding and contracting by connecting the storage unit and the first fastening hole;
A pump unit for introducing water to be subjected to water quality measurement through the drain tube and the connection tube into the water storage unit;
An outflow tube having a structure capable of expanding and contracting by connecting an outflow hole formed in an upper portion of the water storage unit and the second fastening hole;
A sensor installed inside the water storage unit and measuring a quality of water introduced into the water storage unit;
A communication unit for transmitting state data obtained by processing the information measured by the normal sensor to the management server;
A storage unit for storing reference information for determining whether the water quality is normal;
An infrared sensor for sensing the proximity of a person;
A drive unit for lifting and lowering the water storage unit; And
The controller may determine whether the water quality is normal or abnormal by comparing the measured information with the reference information, differentially control the driving cycle of the pump unit depending on whether the water quality is normal or abnormal, Wherein when the driving switch provided outside the housing is turned on, the driving unit controls the driving of the driving unit such that the water storage unit is moved up and down to the transparent window or the door position, And a multi-function controller for controlling driving of the driving unit such that the water storage unit is lowered to a predetermined position when the water storage unit is turned off. delete The water treatment system according to claim 1,
A plurality of partition walls having a height different from that of the outer wall of the storage unit and having a different height are formed,
Wherein the inflow tube is connected to the water storage unit through a space including the lowest partition wall,
Wherein the sensor is installed in a space including the highest partition wall. The method according to claim 1,
Further comprising a GPS module for generating its own location information,
The communication unit is communicably connected to another device so as to transmit and receive data including location information of another device,
Wherein the storage unit further stores map data including route data into which sewage or a river flows or flows,
When the water quality is determined to be abnormal, the multifunctional controller requests water quality data from another device located within a reference distance using the location information of the other device and the map data, and when the water quality data is received from another device, Wherein the controller generates path data for introducing the water in the abnormal state to the current position using the water quality data, and further transmits the generated path data to the management server. The apparatus of claim 1,
A filter is provided at one end,
The drain pipe may further include an air tube having one end connected to the filter,
And a third coupling hole detachably coupled to the other end of the air tube at a lower portion of the housing,
Further comprising a compression driving unit connected to the third fastening hole and injecting compressed air to the filter through the air tube. The method according to claim 1,
A power generator for generating electric energy using a flow of water discharged through the outlet tube; And
Further comprising an energy storing unit for storing electric energy generated in the power generating unit,
The multi-
Monitoring the overcurrent or overcharge of the energy storage unit and using the power stored in the energy storage unit when the power of the drive power is cut off so that the normal or abnormal information of the status data and the water quality is transmitted to the portable terminal of the management server and the manager Wherein the control unit is configured to control the operation of the multi-function controller. The communication apparatus according to claim 1,
And a management server connected to the management server through a redundant network by wire and wireless communication,
The multi-
Wherein the communication network is switched to a communication network set in a subordinate state when a failure occurs in a communication network set as a priority among wired and wireless communication.

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