KR102083319B1 - stand erect-block, portable wastewater treatment system for easy space utilization - Google Patents

Abstract

The present invention is an upright block assembly type in which a space for a wastewater treatment and a body portion formed therein are made of a block, and space is available for treatment in response to the capacity of the wastewater through additional installation according to the capacity of the wastewater. As a mobile wastewater treatment device, an inlet through which wastewater is introduced is formed on one side, a filter is connected to the other end, formed in a tube shape having a long length, and a flow portion formed in a wave shape along the longitudinal direction of the pipe ; An input unit formed on the flow unit to input an external reactant; A reaction unit formed on the flow portion and formed on a rear side of the input portion to mix and react the wastewater flowing in the flow portion and the reactant input through the input portion; Agglomerated reacted with wastewater discharged from the fluidized part formed at the end of the fluidized part is temporarily stored, and connected to the fluidized part and the fluidized part formed by the filter and the input part and the reaction part to float the aggregated water separately from the wastewater. A filter portion is formed inside, and a body portion is formed so that a through hole is formed so that the inlet portion of the flow portion and the outlet portion of the filter portion protrude to the outside. It is characterized in that it can be processed.

Description

Stand erect-block, portable wastewater treatment system for easy space utilization}

The present invention relates to an upright block assembly type portable wastewater treatment device that is easy to utilize space, and more specifically, it consists of a body part formed inside a flow part and a filter part for wastewater treatment, and additionally installed according to the capacity of the wastewater. It relates to an upright block assembly type portable wastewater treatment device that is easy to utilize space that can be treated in response to the capacity of the wastewater through.

If the wastewater treatment method is divided into two, it can be classified into physical treatment method and chemical treatment method. The physical treatment method is usually performed through precipitation or filtration, and the chemical treatment method is performed in the form of exchanging redox reactions, neutralization reactions or ionized ions.

Electrolysis, a commercialized chemical treatment method and one of eco-friendly technologies, decomposes contaminants through direct anodization and indirect oxidation on the anode surface.

Hydroxide ions (OH-) generated by electrolysis of water are converted to radical hydroxide (HO) after electron exchange at the cathode end surface to decompose contaminants, and chlorine ions (Cl-) in aqueous solution are converted to chlorine molecules at the anode end surface. , Hypochlorous acid (HOCl) and hypochlorous acid ion (OCl-) generated by electrolysis decompose contaminants to purify water.

However, in the reality that water scarcity and ecosystem destruction are increasing day by day, the water quality improvement treatment technology requires more advanced technologies and at the same time needs to consider economics.

In addition, environmental enhancement due to the regulation of the gradually increasing spill limit and the impact on the ecosystem according to water quality requires economical and eco-friendly technologies.

The prior patent describes an existing electrolysis method, an apparatus for simultaneously performing a microbubble purification reaction, and a wastewater treatment method using the same.

However, the prior patent has a problem that must be performed after the process of neutralizing the acid separately in order to treat the wastewater generated in the plating process to treat the wastewater, it is impossible to move, and a large-scale site and There is a problem that requires equipment.

Prior Patent: Korean Registered Patent Publication No. 10-1784299 (September 27, 2017)

The present invention consists of a main body part formed inside a flow part and a filtration part for wastewater treatment, and assembles an upright block that facilitates space utilization for treatment in response to the capacity of the wastewater through additional combined installation according to the capacity of the wastewater. The purpose is to provide a portable mobile wastewater treatment system.

The upright block assembly type portable wastewater treatment device for easy space utilization according to the present invention for achieving the above-mentioned object is formed with an inlet through which wastewater is introduced into one side, a filter is connected to the other end, and a tubular shape having a long length It is formed of, a flow portion formed in a wave shape along the longitudinal direction of the tube; An input unit formed on the flow unit to input an external reactant; A reaction unit formed on the flow portion and formed on a rear side of the input portion to mix and react the wastewater flowing in the flow portion and the reactant input through the input portion; Agglomerated reacted with wastewater discharged from the fluidized part formed at the end of the fluidized part is temporarily stored, and connected to the fluidized part and the fluidized part formed by the filter and the input part and the reaction part to float the aggregated water separately from the wastewater. A filter portion is formed inside, and a body portion is formed so that a through hole is formed so that the inlet portion of the flow portion and the outlet portion of the filter portion protrude to the outside, and the body portion is installed to process wastewater, and a plurality of body portions are connected to treat a large amount of wastewater. It is characterized in that it can be processed.

The flow portion is formed of a wave-shaped or spiral-shaped tube, and is arranged in a zigzag shape in a plane on the inside of the body portion, so that the reaction of the wastewater and the reactant is performed for a predetermined time or more.

The input section is formed in a straight section on the flow section, is formed in a double structure of the input and the blocker, and after introducing the reactant into the input, the inlet of the input is blocked, and the blocker is opened to allow the input to flow into the flow tube. It is characterized in that the wastewater does not flow out when the reactant is added.

The reaction unit is characterized in that the plate is formed in an intersection so that the wastewater can flow in a zigzag shape so that the reaction between the reactant and the wastewater can be achieved.

The main body portion is formed with a flow portion inside, a through-hole is formed so that the inlet of the flow portion, the outlet of the filter portion and the discharge pipe of the filter portion protrude to the outside on the upper side or the side, and the injection portion to inject the reactant into the input portion It characterized in that the inlet is connected to the upper or side formed, the coupling body is formed on the front so that it can be combined with other body parts.

The filter unit, the waste water and aggregates discharged through the flow portion is temporarily stored, a storage body is formed on the outer surface of the discharge port for discharging the waste water from which the aggregates are removed to the outside; A flotation body that floats aggregates in the wastewater stored in the reservoir through air supplied from a pump; The discharge body for discharging the aggregates supported through the flotation body to the outside of the storage body and the discharge carrier for discharging the aggregates discharged to the outside of the storage body through the discharge body to the outside through the discharge pipe formed through the body portion It is characterized by including.

At the rear end of the filtration unit, an aggregate storage unit and an aggregate compressor are formed and provided inside the main body, temporarily storing the aggregates of the filter unit in the aggregate storage unit, and compressing the aggregates of the aggregate storage unit in the aggregate compressor to separate aggregates and wastewater. It is characterized by.

The present invention has the effect of treating the wastewater by moving the body portion to the required position since the body portion formed in the udon portion and the filtration portion is formed in a movable block shape.

In addition, according to the amount of wastewater, the main body part is additionally connected and installed to treat the increased wastewater, and the main body part is stacked in a narrow space to treat a large amount of wastewater.

In addition, since the main body portion can be moved and stacked, there is an effect that a large-scale space for a large-scale processing facility is not required.

1 is an overall block diagram of an upright block assembly type portable wastewater treatment device for easy space utilization according to an embodiment of the present invention.
2 is a view showing the shape of the moving part of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention.
3 is a view showing the shape of the reaction unit of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention.
4 is a view showing that the main body portion of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention is connected by being upright stacked.
5 is a view showing a filtration unit of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention.
6 is a view showing that the main body portion of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention is transferred through a vehicle.

Hereinafter, specific embodiments for carrying out the present invention will be described with reference to the drawings. The embodiments of the present invention are for explaining one invention, and the scope of rights is not limited to the illustrated embodiment, and the illustrated drawings are limited to the drawings because only the essential contents are enlarged and the accompanying elements are omitted for clarity of the invention. It should not be interpreted.

In the present invention, an inlet 11 through which wastewater is introduced is formed on one side, and a filtration unit 50 is connected to the other end, formed in a tube shape having a long length, and formed in a wave shape along the length direction of the pipe. A moving part 10; An input unit formed on the flow unit 10 to input external reactants; A reaction unit 30 formed on the flow unit 10 and formed on a rear side of the input unit to mix and react the wastewater flowing in the flow unit 10 and the reactant introduced through the input unit; An aggregate formed at the end of the flow part 10 and reacted with the wastewater discharged from the flow part 10 is temporarily stored, and the filtration part 50 that floats the aggregate and separates it from the wastewater and the input part and the reaction part The flow part 10 in which the 30 is formed and the filtration part 50 connected to the flow part 10 are formed therein, and the inlet 11 of the flow part 10 and the outlet part of the filtration part 50 ( 54) including a body portion 40 through which a through hole is formed so as to protrude to the outside, the body portion 40 is installed to process wastewater, and a plurality of body portions 40 are connected to connect a large amount of wastewater. It is characterized in that it can be processed.

The flow part 10 is formed of a wave-shaped or spiral-shaped tube, and is arranged in a zigzag shape in a planar shape inside the body part 40, so that the reaction of the wastewater and the reactant is performed for a predetermined time or more.

The input section is formed in a straight section on the flow section 10, is formed in a dual structure of the input and the blocker, and after introducing the reactant into the input, the inlet of the input is blocked, and the blocker is opened to allow the input to flow. It is characterized in that the wastewater does not leak to the outside when the reactant is input by allowing it to flow inside.

The reaction unit 30 is characterized in that the plate 31 is formed in an intersection so that the wastewater can flow in a zigzag shape so that the reaction between the reactant and the wastewater can be achieved.

The body portion 40 is formed with a flow portion 10 therein, the inlet 11 of the flow portion 10 on the upper side or side, the outlet 54 of the filter portion 50 and the filter portion 50 The through-hole is formed so that the discharge pipe of the outside protrudes, and the inlet 20 connected to the inlet is formed on the upper side or the side so as to inject the reactant into the inlet, and to be combined with the other body portion 40 It characterized in that the coupling body 41 is formed on the front surface.

The filtration unit 50, the wastewater and aggregates discharged through the flow unit 10 are temporarily stored, and a storage body 51 having an outlet 54 for discharging the wastewater from which the aggregates have been removed to the outside is formed on the outer surface. ); A flotation body (52) for flocculating aggregates from wastewater stored in the storage body (51) through air supplied from a pump (P); The discharge body 53 for pushing and discharging the aggregates supported through the floating body 52 to the outside of the storage body 51 and the aggregate body discharged to the outside of the storage body 51 through the discharge body 53 It characterized in that it comprises a discharge carrier 55 for discharging to the outside through the discharge pipe 55 formed through the (40).

At the rear end of the filtration unit 50, an aggregate storage unit and an aggregate compressor are formed to be provided inside the main body 40, and temporarily store the aggregates of the filter unit 50 in the aggregate storage unit, and aggregate the aggregates of the aggregate storage unit It is characterized by separating aggregates and wastewater by compressing in a compressor.

1 is an overall block diagram of an upright block assembly type portable wastewater treatment device for easy space utilization according to an embodiment of the present invention, wherein an inlet 11 through which wastewater is introduced is formed at one side, and a filtering unit ( 50) is connected, formed in a tubular shape having a long length, the flow portion 10 formed in a wave shape along the longitudinal direction of the pipe; It is formed on the flow unit 10, the input unit for introducing an external reactant; A reaction unit 30 formed on the flow unit 10 and formed on the rear side of the input unit to mix and react the wastewater flowing in the flow unit 10 and the reactant input through the input unit; The aggregate formed at the end of the flow unit 10 and reacted with the wastewater discharged from the flow unit 10 is temporarily stored, and the filtration unit 50 and the input unit and the reaction unit 30 to float the aggregate and separately discharge the wastewater ) Is formed a flow portion 10 and the filter portion 50 connected to the flow portion 10 is formed therein, the inlet 11 of the flow portion 10 and the outlet 54 of the filter portion 50 It includes a body portion 40 is formed with a through-hole to protrude to the outside.

Here, the wastewater refers to the washing water for washing the plating solution used in the plating process from the object, and the washing water has strong acidity, and at the same time neutralizes it and the reactant that is added to agglomerate inclusions such as metal components is caustic soda. Says

2 is a view showing the shape of the moving part of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention.

1 and 2, the flow portion 10 is formed with an inlet 11 through which wastewater is introduced into one side, a filter portion 50 is connected to the other end, and formed into a tubular shape having a long length. It is formed in a wave shape or a spiral shape along the longitudinal direction of the tube.

The flow portion 10 is formed in a wave-shaped or spiral-shaped tube on the side, and is arranged in a zigzag shape in a planar shape inside the body portion 40 so that the reaction of the wastewater and the reactant is performed for a predetermined time or more.

On the flow portion 10, an input portion capable of injecting a reactant is formed, and a reactant is introduced through the input portion to react with wastewater flowing in the flow portion 10.

To this end, the input section is formed in a straight section on the flow section 10, and is formed in a double structure of the input section and the blocker, after the reaction agent is introduced into the input section, the inlet of the input section is blocked, and the blocker is opened to input. The sieve is allowed to flow into the flow pipe so that the wastewater does not flow out when the reagent is added.

The input unit may be operated through a separate driving force, and when the user completely blocks the inlet of the input unit, the input unit is interlocked with this to open the blocker so that the reactant is input.

3 is a view showing the shape of the reaction unit of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention.

Referring to FIG. 3, the reaction unit 30 may be formed in a curved portion of the wave shape of the flow unit 10, and is formed at a rear side of the input unit and is injected through waste water and an input unit flowing in the flow unit 10 The reactant to be mixed is reacted.

The reaction unit 30 is formed so that the plate 31 is crossed so that the wastewater can be flowed in a zigzag shape so that the reaction between the reactant and the wastewater can be achieved.

That is, only one side or the other side in the reaction unit 30 is formed to be coupled to the wall surface of the reaction unit 30 in the form of up, down, up, down, left and right, and crosses the inner wall surface of the reaction unit 30. , Through the space between the inner wall surface of the reaction unit 30 and the other side spaced apart from the inner wall surface of the reaction unit 30 so that the wastewater flows in a zigzag form so that the mixing of the reactant and the wastewater input through the input unit can be made quickly do.

The plate 31 of the reaction unit 30 may be formed in a spiral shape along the inner wall of the reaction unit 30 so that the wastewater is rotated and flows in a spiral shape.

The input unit and the reaction unit 30 are formed on the flow unit 10 in a large number, so that a large amount of reactants can be introduced into the fluid unit 10 to rapidly react a large amount of wastewater.

The flow portion 10 in which the input portion and the reaction portion 30 are formed is formed inside the body portion 40, the inlet 11 of the flow portion 10 and the outlet portion 54 of the filtration portion 50 The through-hole is formed on the outer surface so that it protrudes to the outside.

4 is a view showing a filtration unit of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention.

Referring to FIG. 4, at this time, the filtration unit 50 is connected to the end of the flow unit 10 to temporarily store aggregates reacted with wastewater discharged, and float the aggregates to discharge them separately from the wastewater.

The filtration unit 50 is formed to be movable like the main unit 40, so that a plurality of filtration units 50 are connected to each of the filtration units 50 to process a large amount of wastewater and aggregates.

The filtration unit 50 temporarily stores waste water and aggregates flowing through the flow unit 10, and a storage body 51 in which an outlet 54 for discharging the waste water from which the aggregates have been removed is formed on the outer surface, A flotation body (52) for supporting agglomerates from the wastewater stored in the storage body (51) through the air and a discharge body (53) for pushing the aggregates supported through the support body (52) to the outside of the storage body (51) for discharge Includes.

The storage body 51 is formed with an inlet to be connected to the end of the flow part 10 on one side, an outlet 54 for discharging waste water from which aggregates are removed is formed on the other side, and an exhaust port through which gas is discharged is sealed. It can be formed, the exhaust port can be discharged to the outside through the body portion, or is connected to the discharge port 54 to be discharged together with wastewater.

On the bottom of the storage body 51 is formed a floater 52 that continuously generates an air chamber and forcibly supports the aggregates that sink to the floor.

The floating body 52 is formed in an elongated bar shape, and a plurality of bubble pipes in which a plurality of pores are formed along the lengthwise direction on the upper side is connected to a single supply pipe to generate air supplied through the pump P as bubbles. Ordered.

The bubble tube of the floating body 52 may be formed in a wave shape in a plane to generate bubbles.

Agglomerates that are supported through the air bubbles in the support body 52 are supported on the surface of the wastewater of the storage body 51, which is discharged to the discharge transporter by pushing it in one direction of the left side, the other side, the front side or the rear side through the discharge body 53. can do.

To this end, the discharge body 53 is formed with a guide on the upper side of the storage body 51 so that the long bar-shaped removal table slides in a direction to remove the aggregate, and the removal table stores the aggregate by sliding along the guide. When it is pushed and removed to one side of 51), it is moved up and down through an elevating member for elevating the removal table to be transported to the initial position on the storage body 51 so that the aggregates can be pushed and removed again.

The elevating member may be formed in an elevating transport form so as to transport the elimination table at a predetermined interval on the surface of the water surface, or may be formed in a caterpillar shape to transport the elimination table with continuous rotation.

The discharge body 53 may be configured to suck wastewater in a direction to be removed and spray it onto the water surface to push and remove aggregates, or may be configured to push and remove aggregates by spraying high pressure air instead of wastewater.

As such, the wastewater from which the aggregate is discharged through the discharge body 53 is drained through the discharge port 54 of the storage body 51 and is transferred to a storage tank or a treatment tank provided outside the main body 40.

The aggregates discharged through the discharge body 53 are discharged to the discharge pipe 55 through the discharge transfer body provided in the filtration unit 50 and transferred to the aggregate storage tank connected to the discharge pipe 55 and then through the aggregate compressor. The compressed wastewater and aggregates are separated to reduce the content of the wastewater and then discharged separately, and the generated wastewater is again introduced into the inlet 11.

5 is a view showing that the main body portion of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention is connected by being upright stacked.

Referring to FIG. 5, the main body 40 has a flow portion 10 formed therein, and an inlet port 11 of the flow portion 10 and an outlet port 54 of the filter portion 50 on the upper side or the side surface. The through-hole is formed on the outer surface so that it protrudes to the outside, and the inlet 20 connected to the inlet is formed on the upper side or the side so as to inject the reactant into the inlet, and to be combined with the other body portion 40 The coupling body 41 is formed on the front surface so as to be possible.

That is, the body portion 40 is formed to be fixed to the flow portion 10 and the filtration portion 50 therein is composed of a single module, which makes it possible to easily move the body portion 40 to install, a number of The body portion 40 is combined to treat a large amount of wastewater even in a narrow space.

6 is a view showing that the main body portion of the upright block assembly type portable wastewater treatment apparatus for easy space utilization according to the present invention is transferred through a vehicle.

Referring to FIG. 6, the main body 40 can be easily moved through a moving vehicle, and the main body 40, which has been moved and installed, is connected to an agglomerate compressor and an agglomerate storage tank to remove aggregated wastewater. Can be discharged separately.

When the main body 40 is connected or stacked in multiple numbers, wastewater is introduced into the inlet 11 protruding from the main body 40, and the main body 40 is different from the outlet 54 of the filtration unit 50. It is possible to process a large amount of wastewater by connecting a plurality of main body parts 40 by repeating a plurality of configurations in which the inlet 11 of the connecting pipe is connected.

In this way, the filtration unit 50 is connected to the end of the flow unit 10 where wastewater is treated, temporarily storing wastewater and aggregates to separate wastewater and aggregates and storing and discharging them in each storage unit. Since the eastern part 10 and the filter part 50 are provided to be configured in a module form, it is possible to move and install an upright stack.

In addition, the flow unit 10 and the filtration unit 50 is provided with a condensate compressor and a condensate storage tank inside or outside the main body 40, which is built into one treatment block 100, and transported through a transport vehicle. This is possible, and it is also possible to make upright lamination possible.

The present invention configured as described above has an effect of treating wastewater by moving the body part to a required position since the body part formed in the udon and filter parts is formed in a movable block shape.

In addition, according to the amount of wastewater, the main body part is additionally connected and installed to treat the increased wastewater, and the main body part is stacked in a narrow space to treat a large amount of wastewater.

In addition, since the main body portion can be moved and stacked, there is an effect that a large-scale space for a large-scale processing facility is not required.

The upright block assembly type portable wastewater treatment device that is easy to utilize the space as described above is not limited to the configuration and operation method of the above-described embodiments. The above embodiments may be configured such that all or part of each embodiment is selectively combined to make various modifications.

10: floating portion 11: inlet
20: inlet
30: reaction unit 31: plate
40: body portion 41: a combination body
50: filtration unit 51: storage body
52: floating body 53: discharge body
54: outlet 55: discharge pipe
P: Pump
100: processing block

Claims (7)

An inlet 11 through which wastewater is introduced is formed on one side, and a filtration unit 50 is connected to the other end, is formed in a tubular shape having a long length, and is formed in a wave shape along the longitudinal direction of the pipe ( 10);
An input unit formed on the flow unit 10 to input external reactants;
A reaction unit 30 formed on the flow unit 10 and formed on a rear side of the input unit to mix and react the wastewater flowing in the flow unit 10 and the reactant introduced through the input unit;
An aggregate formed at the end of the flow portion 10 and reacted with the waste water discharged from the flow portion 10 is temporarily stored, and the filtration portion 50 that floats the aggregate and separates it from the waste water.
The input portion and the reaction portion 30 is formed in the flow portion 10 and the filter portion 50 connected to the flow portion 10 is formed therein, the inlet 11 and the filter portion of the flow portion 10 Including the body portion 40 is formed through-hole so that the outlet 54 of 50 is projected to the outside,
The main body 40 is moved to process wastewater, and a plurality of main body parts 40 can be connected or stacked in a narrow space according to the amount of wastewater to process a large amount of wastewater.
The flow part 10 is formed in a wave-shaped or spiral-shaped tube, and is arranged in a zigzag shape in a flat shape inside the body part 40 so that the reaction of the wastewater and the reactant is performed for a predetermined time or more,
The input section is formed in a straight section on the flow section 10, is formed in a double structure of the input and the blocker, and after introducing the reactant into the input, the inlet of the input is blocked, and the blocker is opened, and the reactant flows It is allowed to flow inside so that when the reagent is added, the wastewater does not leak out.
The reaction unit 30 is formed to cross the plate 31 so that the wastewater can flow in a zigzag shape so that the reaction between the reactant and the wastewater can be made well,
Also, optionally,
The flow part 10 and the filtration part 50 are provided with an agglomerate compressor and an agglomerate storage tank inside or outside the main body part 40, which is built into one treatment block 100, and the treatment block 100 is An upright block assembly type portable wastewater treatment device that is easy to utilize space, characterized in that it is possible to transport through a transport vehicle and that the treatment block 100 can be stacked upright.
delete delete delete According to claim 1,
The body portion 40 is formed with a flow portion 10 therein, the inlet 11 of the flow portion 10 on the upper side or side, the outlet 54 of the filter portion 50 and the filter portion 50 The through-hole is formed so that the discharge pipe of the outside protrudes, and the inlet 20 connected to the inlet is formed on the upper side or the side so as to inject the reactant into the inlet, and to be combined with the other body portion 40 Upright block assembly type portable wastewater treatment device that is easy to utilize space, characterized in that the coupling body (41) is formed on the front surface.
According to claim 1,
The filtration unit 50,
A storage body 51 in which wastewater and aggregates discharged through the flow part 10 are temporarily stored, and an outlet 54 for discharging the wastewater from which aggregates are removed to the outside is formed on an outer surface;
A flotation body (52) for flocculating aggregates from wastewater stored in the storage body (51) through air supplied from a pump (P);
The discharge body 53 for pushing and discharging the aggregates supported through the floating body 52 to the outside of the storage body 51 and
It characterized in that it comprises a discharge carrier for discharging the aggregates discharged to the outside of the storage body 51 through the discharge body 53 to the outside through the discharge pipe 55 formed through the body portion 40 Upright block assembly type portable wastewater treatment device for easy space utilization.
The method of claim 1 or 6,
At the rear end of the filtration unit 50, an aggregate storage unit and an aggregate compressor are formed to be provided inside the main unit 40, and temporarily store the aggregates of the filter unit 50 in the aggregate storage unit and aggregate the aggregates in the aggregate storage unit. An upright block assembly type portable wastewater treatment device that is easy to utilize space characterized by separating aggregates and wastewater by compressing in a compressor.

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