KR102266394B1 - Water treatment equipment Water treatment method using the same - Google Patents

Abstract

The present invention relates to a water treatment apparatus and a water treatment method using the same, and more particularly, to a water treatment apparatus capable of adjusting the height using the water level of a wastewater as a reference height, and a water treatment method using the same. The water treatment apparatus includes a storage tank (100) into which wastewater is introduced and stored; a stirring unit (200) for stirring the wastewater stored in the storage tank (100); a vertical movement unit (300) for vertically moving the stirring unit (200); a water level measuring unit (400) for measuring the level of wastewater introduced into the storage tank (100); and a control unit (500) for controlling the vertical movement unit (300) so that the stirring unit (200) is located at a preset depth from the water surface of the wastewater based on the level of the wastewater received from the water level measurement unit (400).

Description

Water treatment equipment and water treatment method using the same

The present invention relates to a water treatment apparatus and a water treatment method using the same, and more particularly, to a water treatment apparatus capable of adjusting the height using the water level of a wastewater as a reference height, and a water treatment method using the same.

Wastewater discharged from homes, factories, businesses, and nuclear power plants contains pollutants and harmful substances such as sludge, and must be discharged through a wastewater treatment process to preserve water quality in public waters.

In general, in the storage tanks of water purification plants, sewage treatment plants, wastewater treatment plants, etc. used in the wastewater treatment process, a water treatment device for agitating wastewater is installed so that microorganisms in the input wastewater are agglomerated, mixed with chemicals, and foreign substances are prevented smoothly.

However, in the prior art, it was difficult to determine the optimal stirring height of the water treatment device under the condition of severe fluctuations in the flow rate of the storage tank. In particular, in the deep structure storage tank, a plurality of water treatment devices are provided in consideration of the stirring height, or the diameter of the stirring member is large. There was a problem that a water treatment device had to be used.

In order to solve the above problems, the present invention discloses a water treatment device capable of exhibiting optimum stirring efficiency by adjusting the height of the water treatment device and a water treatment method using the same.

The present invention has been created to achieve the above object, and the present invention includes: a storage tank 100 into which wastewater is introduced and stored; a stirring unit 200 for stirring the wastewater stored in the storage tank 100; a vertical movement unit 300 for vertically moving the stirring unit 200; a water level measuring unit 400 for measuring the level of wastewater introduced into the storage tank 100; Based on the level of the wastewater received from the water level measurement unit 400, the stirring unit 200 includes a control unit 500 for controlling the vertical movement unit 300 to be located at a preset depth from the water surface of the wastewater Disclosed is a water treatment device.

The control unit 500 may control the vertical movement unit 300 to move the stirring unit 200 according to the water level change when the water level change of the storage tank 100 according to the inflow of wastewater is 0.5 m or more. have.

The stirring unit 200 includes a stirring member 210 for stirring the wastewater; It may include a body part 220 supporting the stirring member 210 .

The vertical moving part 300 includes a screw part 310 which is installed in the storage tank 100 and rotates; a driving unit 320 for rotating the screw unit 310; The stirring unit 200 is seated, coupled to the screw unit 310 and vertically moved by the rotation of the screw unit 310 to include a seating unit 330 for vertically moving the stirring unit 200 . can

The vertical movement unit 300 may include a guide unit 340 for guiding the vertical movement of the seating unit 330 .

In addition, the water treatment apparatus according to the present invention may further include one or more separation preventing parts 600 in order to prevent the agitation part 200 from being separated from the seating part 330 .

The separation preventing part 600 is provided with a locking part 610 protruding from the stirring part 200 in the direction of the seating part 330, and the seating part 330, and is made of an elastically deformable material. It may include an elastically deformable part 620 that enables elastically fastening and detachment with the engaging part 610 .

In addition, the water treatment method using the water treatment apparatus according to the present invention, the water level measuring step (S10) of measuring the level of wastewater introduced into the storage tank 100; Based on the measured water level of the wastewater, the height adjustment step (S20) of adjusting the height of the stirring unit 200 so that the stirring unit 200 is located at a preset depth from the water surface of the wastewater may be included.

In the height adjustment step (S20), when the water level change of the storage tank 100 according to the inflow of wastewater is 0.5 m or more, the height of the stirring unit 200 may be adjusted according to the water level change.

In the height adjustment step ( S20 ), when the water level of the wastewater introduced into the storage tank 100 is the minimum water level, the height adjustment of the stirring unit 200 may be stopped.

The present invention has the advantage that the efficiency of wastewater agitation can be improved by adjusting the height of the stirring part through the vertical moving part even if the water level of the wastewater is changed.

In addition, the present invention has an advantage in that the optimum wastewater agitation efficiency can be exhibited by adjusting the height of the stirring unit through the vertical moving unit in conjunction with the water level measuring unit.

In addition, the present invention has the advantage of enabling a wide range of stirring by repeatedly moving the stirring unit up and down through the vertical moving unit even in the deep structure storage tank.

In addition, the present invention has an advantage in that it is possible to reduce the maintenance area, improve economic efficiency, and reduce power cost by improving the efficiency of wastewater agitation by adjusting the height of the stirring unit.

In addition, the present invention has the advantage of allowing the stirring unit to be stably seated on the seating part by forming a groove corresponding to the outer shape of the stirring part on the upper surface of the seating part.

In addition, the present invention has an advantage that can reduce the vibration generated from the stirring unit, including the vibration reducing unit in the seating portion.

In addition, the present invention has the advantage of being able to easily separate the stirring part from the seating part during maintenance of the stirring part by including the separation preventing part, and preventing the stirring part and the seating part from being separated by buoyancy when adjusting the height of the stirring part There is this.

In addition, the present invention has the advantage of being able to prevent frequent movement of the stirring unit by configuring the control unit to control the vertical moving unit only when the water level change of the wastewater is at least 0.5 m or more.

1 is a conceptual diagram showing the concept of a water treatment apparatus according to the present invention.
FIG. 2A is a plan view showing the upper part of the stirring unit as viewed from the I-I direction of FIG. 1 .
Figure 2b is a front view showing the front of the stirring unit according to the present invention.
Figure 3a is a side view showing a lifting unit according to the present invention.
Figure 3b is an enlarged view of part A of Figure 3a, an enlarged view showing the lifting unit according to the present invention in more detail.
4 is a side cross-sectional view showing a driving unit according to the present invention.
5A is a perspective view showing a seating part according to the present invention.
FIG. 5A is a perspective view showing a state in which the stirring unit is seated on the seating part shown in FIG. 5A.
6A to 6C are side views showing the operation of the escape prevention unit according to the present invention.

Hereinafter, a water treatment apparatus according to the present invention and a water treatment method using the same will be described with reference to the accompanying drawings.

A water treatment apparatus according to the present invention includes: a storage tank 100 into which wastewater is introduced and stored; a stirring unit 200 for stirring the wastewater stored in the storage tank 100; a vertical movement unit 300 for vertically moving the stirring unit 200; a water level measuring unit 400 for measuring the level of wastewater introduced into the storage tank 100; Based on the level of the wastewater received from the water level measurement unit 400, the stirring unit 200 includes a control unit 500 for controlling the vertical movement unit 300 to be located at a preset depth from the water surface of the wastewater Disclosed is a water treatment device.

The storage tank 100 is a configuration in which wastewater is introduced and stored, and various configurations are possible.

Specifically, the storage tank 100, as shown in FIG. 1 , wastewater can be introduced through one or more pumps (not shown), and the supplied wastewater is stored inside the storage tank 100 so that it can be stirred through a stirrer to be described later. It may have the shape of an enclosure in which a water storage space is provided.

In addition, the storage tank 100 may be provided with an air diffuser (not shown) and a UV lamp (not shown) to oxidize the sludge contained in the wastewater.

In addition, the storage tank 100 may include a plurality of storage tanks divided according to treatment steps, and the plurality of storage tanks may be respectively pipe-connected to enable movement of wastewater and treated water.

The stirring unit 200 is configured to stir the wastewater stored in the storage tank 100 , and various configurations are possible.

The stirring unit 200 may have various materials, for example, may have aluminum, iron, metal alloy, etc.

For example, the stirring unit 200 may include a stirring member 210 for stirring wastewater; It may include a body part 220 supporting the stirring member 210 .

Here, the stirring member 210 is a configuration for stirring the wastewater, and various configurations are possible.

The stirring member 210 may have any configuration as long as it is a configuration capable of stirring wastewater. For example, the stirring member 210 is provided with a plurality of blades, as shown in FIGS. 2A and 2B . It may have a structure of one propeller.

Here, of course, the width, number, shape, material, etc. of the blades may be variously configured according to the needs of the user.

Here, the body 220 is a configuration for supporting the stirring member 210, and various configurations are possible.

Specifically, as shown in FIGS. 2A to 2B , the body 220 can support the stirring member 210 by installing a rotation shaft of the stirring member 210, and the stirring member 210 ) may include one or more motors therein so that it can be driven.

In addition, the body 220 may have various shapes, for example, the body 220 may have various shapes, such as a cylindrical shape, a polygonal prism shape, and the like.

Here, the extension part 230 is a configuration in which an insertion hole into which the guide part 340 is inserted is formed, and various configurations are possible.

On the other hand, when the stirring unit 200 is vertically moved by the vertical movement unit 300 to be described later, the stirring unit 200 is to be inserted into the guide unit 340 to be described below for stable movement of the stirring unit 200 . It may include an extension part 230 that can be used.

That is, as shown in FIGS. 2A and 3A , the extension part 230 is formed to extend from the body part 220 in a direction opposite to the stirring member 210, and the guide part 240 is One or more insertion holes into which can be inserted may be formed.

At this time, the extension part 230 includes one or more roller parts 231 in contact with at least one side of the guide part 340 so that the stirring part 200 can move smoothly along the guide part 340 . may include

Here, the roller part 231 is a configuration in contact with at least one side of the guide part 340 so that the stirring part 200 can move smoothly along the guide part 340 , and various configurations are possible.

Specifically, as shown in FIG. 2A , the roller part 231 may be disposed to be in contact with at least one side of the guide part 340 , and is rolled along the vertical movement direction of the stirring part 200 . and reduce friction between the guide part 340 and the inner surface of the insertion hole so that the stirring part 200 moves smoothly along the guide part 340 .

On the other hand, in order for the agitator to have optimal efficiency, it should be installed at a certain distance downward based on the water level of the wastewater stored in the storage tank. However, in the prior art, since the agitator was fixedly installed in the storage tank, the amount of wastewater inflow fluctuates. Even though the height of the stirring device could not be adjusted, there was a problem that the efficiency of the water treatment device was reduced.

In addition, in the deep-structure storage tank, there was a problem in that two or more stirring devices must be configured or a stirring device having a large diameter of the impeller must be used.

In the present invention, in order to solve the above problems, the vertical movement unit 300 for vertically moving the stirring unit 200 is configured so that the height of the stirring unit 200 can be adjusted according to the inflow of wastewater.

Specifically, the vertical movement unit 300 is a configuration for vertically moving the stirring unit 200, and various configurations are possible.

The vertical moving part 300 may have various materials, for example, it may have iron, aluminum, a metal alloy, and the like.

For example, the vertical movement unit 300 includes a screw unit 310 installed inside the storage tank 100 to rotate; a driving unit 320 for rotating the screw unit 310; The stirring unit 200 is seated, coupled to the screw unit 310 and vertically moved by the rotation of the screw unit 310 to include a seating unit 330 for vertically moving the stirring unit 200 . can

Here, the screw part 310 is installed in the storage tank 100 and rotates, and various configurations are possible.

Specifically, as shown in FIG. 4 , the screw unit 310 may move vertically through rotation in conjunction with a driving unit 320 to be described later.

In addition, the screw part 310 may be installed in various ways, such as installed vertically or installed at a predetermined angle inside the storage tank 100 . For example, as shown in FIG. 1 , the The storage tank 100 may be vertically installed in the vertical direction of the storage tank 100 .

On the other hand, for stable installation of the screw unit 310 , as shown in FIG. 1 , one or more support units 700 , which rotatably support the screw unit 310 , may be installed in the storage tank 100 . have.

Here, the support part 700 is a configuration that rotatably supports the screw part 310 , and various configurations are possible.

The support part 700 may have any shape as long as it has a shape capable of rotatably supporting the screw part 310 , and may have various shapes, for example, a flange shape, a rod shape, a polygonal column shape, and the like.

Here, the driving part 320 is a configuration for rotating the screw part 310 , and various configurations are possible.

The driving unit 320 may be directly or indirectly connected to the screw unit 310 , and any configuration may be used as long as it is capable of rotating the screw unit 310 .

For example, the driving unit 320 may have various configurations such as a rack & pinion, a bevel gear, a worm gear, a chain/belt, and the like, and as shown in FIG. 4 , the screw unit 321 through the gear unit 321 310) can be vertically moved.

Here, the seating part 330, the stirring part 200 is seated, is coupled to the screw part 310 and moves vertically by the rotation of the screw part 310 to vertically move the stirring part 200. As the configuration, various configurations are possible.

Specifically, the seating part 330, as shown in FIGS. 5A to 5B, the stirring part 200 may be seated, and is coupled with the screw part 310 as shown in FIG. 2A . By forming a coupling hole capable of doing so, it can be coupled to the screw unit 310 .

However, the seating unit 330 may be configured not only to support the stirring unit 200, but also to support the stirring unit 200, for example, one or more supporting units (not shown). ) is fixed to the outer surface of the stirring unit 200 by bolt fixing, welding fixing, etc., so that the stirring unit 200 can be supported, of course.

In the seating part 330 , a mounting groove 331 corresponding to a portion of the outer shape of the stirring part 200 may be formed on the upper surface so that the stirring part 200 is stably seated.

Here, the mounting groove 331 is a configuration corresponding to a portion of the outer shape of the lower part of the stirring part 200 on the upper surface so that the stirring part 200 is stably seated, and various configurations are possible.

That is, as shown in FIG. 5A , the mounting groove 331 has a shape corresponding to a portion of the outer outer portion of the stirring unit 200 , so that the position changes and seating according to the vibration of the stirring unit 200 . It is possible to prevent separation into the part 330 .

In this case, the mounting groove 331 may have any shape as long as it corresponds to a portion of the outer outer portion of the stirring unit 200 , and may have various shapes such as a streamlined shape.

Furthermore, when the holder part 810 to be described later is configured to surround the circumference of the stirring part 200 , as shown in FIG. 5A , a corresponding groove 331 corresponding to a portion of the outer shape of the holder part 810 . ') may be additionally formed, of course.

In addition, the seating unit 330 may include a vibration reducing unit 332 for reducing vibration of the stirring unit 200 .

Here, the vibration reducing unit 332 is a configuration for reducing the vibration of the stirring unit 200, and various configurations are possible.

That is, the vibration reducing unit 332 is configured to prevent a position change of the stirring unit 200 and separation from the seating unit 330 due to vibration according to the driving of the stirring unit 200, and FIG. 2b, FIG. 5A and 5B , it may be disposed between the stirring unit 200 and the seating unit 330 .

In addition, the vibration reducing unit 332 may be formed of various materials, but is preferably made of a rubber material having elasticity in order to effectively alleviate the vibration of the stirring unit 200 .

Meanwhile, the vertical movement unit 300 may include a guide part 340 for preventing the left and right movement of the seating part 330 and guiding the vertical movement of the seating part 330 .

Here, the guide part 340 is a configuration for guiding the vertical movement of the seating part 330 , and various configurations are possible.

Specifically, the guide part 340 may be coupled to the seating part 330 in various ways. For example, as shown in FIG. 3A , the guide part 340 penetrates the seating part 330 and the seating part 330 . ) can be combined with

At this time, when the stirring part 200 includes the extension part 230 in which the insertion hole is formed, the extension part 230 and the seating part 330 pass through the extension part 230 and the seating part 330 . 330), of course.

In addition, the guide part 340 may be installed in various ways in the storage tank 100 , and as shown in FIG. 1 , may be installed in parallel with the screw part 310 .

In addition, the guide part 340 may have various shapes, but in order to prevent the left and right direction movement of the seating part 330 and the extension part 230 , as shown in FIG. 2A , a vertical cross-section It is preferable to have this polygonal shape.

On the other hand, in the water treatment apparatus according to the present invention, the stirring unit 200 is lifted for maintenance such as replacement and repair of the stirring unit 200 to separate the stirring unit 200 from the seating unit 330 . It may include a lifting unit 800 that does.

Here, the lifting unit 800 is configured to lift the stirring unit 200 to separate the stirring unit 200 from the seating unit 330 , and various configurations are possible.

For example, the lifting unit 800 includes one or more holder units 810 surrounding the circumference of the stirring unit 200; a lifting driving unit 820 for lifting the holder unit 810; A connection part 830 for connecting at least one or more of the holder part 810 and the lifting driving part 820 may be included.

Here, the holder part 810 is a configuration surrounding the circumference of the stirring part 200, and various configurations are possible.

That is, as shown in FIGS. 2A to 3A , the holder part 810 may be configured in plurality to form a shape surrounding the body part 220 of the stirring part 200 , and a connection part to be described later. One or more protrusions having a connection hole in the upper portion may be formed so that the 830 can be connected thereto.

In addition, the holder part 810 may have various materials, for example, may have a material such as a metal such as iron or aluminum or a synthetic resin.

Here, the lifting driving part 820 is a configuration for lifting the holder part 810, and various configurations are possible.

At this time, the lifting driving unit 820 may have any configuration as long as it is configured to lift the holder unit 810 , and for example, as shown in FIGS. 3A to 3B , the holder unit 810 is lifted. To do this, a plurality of frames and pulleys may be provided.

In addition, the lifting driving unit 820 is configured manually with a handle or automatically with a motor, depending on the configuration, so that it can be operated in various ways.

Furthermore, as shown in FIG. 3A , the lifting driving unit 820 is integrally formed with the above-described guide unit 340 , thereby simplifying the structure of the water treatment device and reducing the installation cost of the water treatment device. may do it

Here, the connection part 830 is a configuration for connecting the holder part 810 and the lifting driving part 820 , and various configurations are possible.

The connection part 830 may have any configuration as long as it can connect the holder part 810 and the lifting driving part 820 , and may be configured of, for example, a rope.

In addition, the connection part 830 may have various materials, for example, may have a material such as synthetic resin.

On the other hand, there is concern that the stirring unit 200 and the seating unit 330 may be separated or separated by lifting the stirring unit 200 through the lifting unit 800 or by buoyancy during vertical movement of the stirring unit 200 . there is

Accordingly, the water treatment apparatus according to the present invention may include one or more separation preventing units 600 to prevent separation and separation of the stirring unit 200 and the seating unit 330 .

Specifically, the separation preventing part 600 is installed in the agitating part 200 and the engaging part 610 protruding in the direction of the seating part 330, and the seating part 330, and is elastically deformable material. and may include an elastically deformable part 620 that is elastically fastened to and separated from the engaging part 610 .

Here, the locking part 610 is a configuration protruding from the stirring part 200 in the direction of the seating part 330 , and various configurations are possible.

Specifically, as shown in FIGS. 6A to 6C , the locking part 610 may be formed to protrude from the body 220 in the direction of the seating part 330 , and in this case, the locking part 610 may be formed to protrude in the direction of the seating part 330 . ) may be protruded in various shapes.

More specifically, the locking part 610 may have any shape as long as it has a shape that can interfere with at least a portion of the elastically deformable part 620 , for example, it is formed by dividing a vertical part and a horizontal part, or a 'L' shape. , 'B' shape, 'C' shape, etc. may be formed in a bent shape.

Here, the elastically deformable part 620 is installed on the seating part 330 and is made of an elastically deformable material to be elastically fastened to and separated from the engaging part 610 , and various configurations are possible. Do.

For example, the elastically deformable part 620 may be supported directly or indirectly on one side of the seating part 330 , and has a hinge structure in which an elastic member is used, so that the hinge coupling part is rotated by an elastic force. It can be configured to be possible.

In this case, the elastically deformable part 620 can be any configuration as long as it can be elastically deformed, and for example, it can be elastically deformed using a material that can be elastically deformed, such as a spring.

Hereinafter, an operating state of the separation preventing unit 600 will be described with reference to FIGS. 6A to 6C .

First, when the stirring part 200 descends to be seated on the seating part 330, as shown in FIG. 6a, the engaging part 610 formed on the stirring part 200 is the elastically deformable part ( One side of the 620 is pressed, and thus one side of the elastically deformable part 620 is rotated in the direction in which the engaging part 610 presses.

At this time, when the elastically deformable part 620 is rotated enough that the engaging part 610 does not interfere with the elastically deformable part 620, the elastically deformable part 620 returns to its original shape by a restoring force. and, as shown in FIG. 6B , the elastically deformable part 620 presses one side of the locking part 610 .

That is, even if the stirring unit 200 is subjected to a rising force due to the buoyancy force, since the engaging unit 610 is caught by the elastically deformable unit 620 , the stirring unit 200 is moved from the seating unit 300 . will not escape.

In addition, when lifting of the stirring unit 200 is required for maintenance of the stirring unit 200, the stirring unit 200 is lifted above the elastic force of the elastically deformable unit 620 and shown in FIG. 6c As described above, the elastically deformable part 620 can be rotated.

That is, one side of the elastically deformable part 620 rotates in a direction in which the engaging part 610 is pressed, and the elastically deformable part does not interfere with the engaging part 610 and the elastically deformable part 620 . When the 620 is rotated, the stirring unit 200 can be separated from the seating unit 330 .

At this time, the rotated elastic deformation part 620, as shown in FIG. 6c, the stirring part 200 is separated from the seating part 330 and at the same time returns to its original shape by the elastic force.

On the other hand, in the water treatment apparatus of the present invention, as described above, since the water level of the wastewater contained in the storage tank 100 varies according to the inflow amount of the wastewater, it interlocks with the water level of the wastewater when the stirring unit 200 moves vertically. The water level measurement unit 400 and the control unit 500 were additionally configured so that the stirring unit 200 could be positioned at a height having an optimum efficiency.

The water level measuring unit 400 is configured to measure the water level of the wastewater introduced into the storage tank 100 , and various configurations are possible.

For example, the water level measuring unit 400 is composed of various types of water level sensors, such as an ultrasonic water level sensor, a semiconductor water level sensor, a hydraulic water level sensor, a capacitive water level sensor, and a contact water level sensor, depending on the measurement method. can be

In addition, the water level measuring unit 400 may be installed in various positions depending on the measurement method, for example, in the case of an ultrasonic water level sensor, as shown in FIG. 1 , it is installed on the upper part of the storage tank 100 . can be

The control unit 500 controls the vertical movement unit 300 so that the stirring unit 200 is located at a preset depth from the water surface of the wastewater based on the level of the wastewater received from the water level measurement unit 400 . As a configuration to do, various configurations are possible.

Specifically, the control unit 500 receives the water level of the wastewater received from the water level measuring unit 400, and through the input water level, the vertical movement unit ( 300) to control the vertical movement unit 300 .

Here, the preset depth of the stirring unit 200 may be variously set in consideration of the stirring ability of the stirrer, for example, may be set to a depth between 2 to 3 m from the water surface of the wastewater.

However, in order to prevent frequent movement of the stirring unit 200, the control unit 500 adjusts the stirring unit 200 to the water level change only when the water level change in the storage tank 100 changes by more than a set value. It may be set to control the vertical movement unit 300 to move accordingly.

Here, the set value may be variously set according to the stirring ability of the stirring unit 200 , the depth of the storage tank 100 , and the like, and may be set to, for example, 0.5 m.

That is, when the set value is 0.5 m, the control unit 500 moves the stirring unit 200 according to the water level change when the water level change in the storage tank 100 according to the inflow amount of wastewater is 0.5 m or more. It may be set to control the vertical movement unit 300 .

In addition, when the water level of the storage tank 100 is the minimum water level, the control unit 500 may control the vertical movement unit 300 to stop so that the stirring unit 200 does not descend any further.

On the other hand, the present invention discloses a water treatment method using the above-described water treatment apparatus.

The water treatment method according to the present invention comprises: a water level measuring step (S10) of measuring the level of wastewater introduced into the storage tank 100; Based on the measured water level of the wastewater, the height adjustment step (S20) of adjusting the height of the stirring unit 200 so that the stirring unit 200 is located at a preset depth from the water surface of the wastewater may be included.

Here, the water level measuring step ( S10 ) is a step of measuring the level of the wastewater introduced into the storage tank 100 , and various configurations are possible.

Specifically, in the water level measurement step S10 , after the wastewater flows into the storage tank 100 , the water level of the wastewater contained in the storage tank 100 may be measured through the water level measurement unit 400 .

Here, the height adjusting step (S20) is a step of adjusting the height of the stirring unit 200 so that the stirring unit 200 is located at a preset depth from the water surface of the wastewater based on the measured water level of the wastewater. configuration is possible.

Specifically, the height adjustment step (S20) is performed so that the stirring unit 200 is positioned at a preset depth from the water surface of the wastewater based on the level of the wastewater measured in the water level measurement step (S10) so that the vertical movement unit 300 is positioned at a preset depth. ) to control the height of the stirring unit 200 .

Here, the preset depth of the stirring unit 200 may be variously set in consideration of the stirring ability of the stirrer, for example, may be set to a depth between 2 to 3 m from the water surface of the wastewater.

In addition, in the height adjustment step (S20), in order to prevent the frequent movement of the stirring unit 200, the stirring unit 200 is raised only when the water level change in the storage tank 100 changes by more than a set value. It can be set to control the vertical movement unit 300 to move according to the change.

Here, the set value may be variously set according to the stirring ability of the stirring unit 200 , the depth of the storage tank 100 , and the like, and may be set to, for example, 0.5 m.

That is, in the height adjustment step (S20), when the water level change of the storage tank 100 according to the inflow of wastewater is 0.5 m or more, the height of the stirring unit 200 may be adjusted according to the water level change.

As an example, when the water level of the storage tank 100 is changed from 6m to 5.7m, the control unit 500 does not adjust the height of the stirring unit 200, and the water level of the storage tank 100 is 6m When the change is less than 5.5m, the height of the stirring unit 200 can be adjusted.

In addition, in the height adjustment step ( S20 ), when the water level of the wastewater introduced into the storage tank 100 is the minimum water level, the height adjustment of the stirring unit 200 may be stopped.

Specifically, when the level of wastewater introduced into the storage tank 100 is the same as a preset depth of the agitator 200 from the water surface of the wastewater based on the water level of the wastewater, the agitator 200 does not move The height adjustment of the stirring unit 200 may be stopped.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as noted, should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

100: storage tank 200: stirring part
300: Shanghai east 400: water level measurement unit
500: control unit 600: escape prevention unit
700: support part 800: lifting part

Claims (9)

a storage tank 100 into which wastewater is introduced and stored;
a stirring unit 200 for stirring the wastewater stored in the storage tank 100;
a vertical movement unit 300 for vertically moving the stirring unit 200;
a water level measuring unit 400 for measuring the level of wastewater introduced into the storage tank 100;
a control unit 500 for controlling the vertical movement unit 300 such that the stirring unit 200 is located at a preset depth from the water surface of the wastewater based on the level of the wastewater received from the water level measurement unit 400;
In order to prevent the separation of the stirring unit 200, it includes one or more separation prevention unit (600);
The control unit 500,
when the water level change of the storage tank 100 according to the inflow of wastewater is 0.5 m or more, controlling the vertical movement unit 300 to move the stirring unit 200 according to the water level change;
The stirring unit 200,
a stirring member 210 for stirring the wastewater;
and a body part 220 supporting the stirring member 210;
The up-and-down east part 300,
a screw part 310 which is installed in the storage tank 100 and rotates;
a driving unit 320 for rotating the screw unit 310;
The stirring unit 200 is seated, coupled to the screw unit 310 and vertically moved by rotation of the screw unit 310 to include a seating unit 330 for vertically moving the stirring unit 200, ;
The up-and-down east part 300,
and a guide part 340 for guiding vertical movement of the seating part 330;
The seating part 330 is
a mounting groove 331 formed on the upper surface to correspond to a portion of the outer shape of the stirring unit 200;
and a vibration reducing unit 332 for reducing the vibration of the stirring unit 200;
The vibration reduction unit 332,
a rubber material having elasticity, which is spread on the upper portion of the mounting groove 331 and disposed between the mounting groove 331 and the stirring unit 200;
The departure prevention unit 600,
A locking part 610 protruding from the stirring part 200 in the direction of the seating part 330,
It is installed on the seating portion 330, and includes an elastically deformable material made of an elastically deformable material and an elastically deformable portion 620 that enables elastically fastening and separation with the engaging portion 610;
The elastic deformation part 620,
It is supported directly or indirectly on one side of the seating part 330, and has a hinge structure using an elastic member, so that the hinge coupling part is rotatable by an elastic force,
When the stirring part 200 descends to be seated on the seating part 330, the engaging part 610 formed in the stirring part 200 presses one side of the elastically deformable part 620, Accordingly, one side of the elastically deformable part 620 rotates in a direction in which the engaging part 610 presses,
When the elastically deformable part 620 is rotated enough that the engaging part 610 does not interfere with the elastically deformable part 620, the elastically deformable part 620 returns to its original shape by a restoring force. , characterized in that the elastic deformation part 620 presses one side of the locking part 610 , so that the separation prevention part 600 prevents the agitation part 200 from being separated from the seating part 330 . A water treatment device, characterized in that delete delete delete delete delete As a water treatment method using the water treatment apparatus of claim 1,
a water level measurement step (S10) of measuring the level of wastewater introduced into the storage tank 100;
A height adjustment step (S20) of adjusting the height of the stirring unit 200 so that the stirring unit 200 is positioned at a preset depth from the water surface of the wastewater based on the measured water level of the wastewater (S20) water treatment method. 8. The method of claim 7,
The height adjustment step (S20),
When the water level change in the storage tank 100 according to the inflow of wastewater is 0.5 m or more, the water treatment method characterized in that the height of the stirring unit 200 is adjusted according to the water level change. 8. The method of claim 7,
The height adjustment step (S20),
When the water level of the wastewater introduced into the storage tank (100) is the minimum water level, the water treatment method, characterized in that the height adjustment of the stirring unit (200) is stopped.

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