KR102222156B1 - A miniaturized wastewater disposal system - Google Patents

Abstract

According to one embodiment, provided is a wastewater treatment system, which comprises: a wastewater treatment device purifying and discharging introduced wastewater; a drug injection device controlling the amount of drug injected into the wastewater introduced into the wastewater treatment device; and a control device collecting information from the wastewater treatment device and the drug injection device in real time and controlling the wastewater treatment device and the drug injection device based on the collected information. Wastewater treatment devices are configured in plurality, and the wastewater may cross and flow between the plurality of wastewater treatment devices.

Description

A miniaturized wastewater treatment system {A MINIATURIZED WASTEWATER DISPOSAL SYSTEM}

The following embodiments relate to a wastewater treatment system.

In general, if household wastewater or industrial wastewater is discharged as it is, it causes environmental pollution such as land pollution as well as water resource destruction, so the wastewater must be discharged in a purified state, while purifying the wastewater. A purification device was devised and used that allowed wastewater to be discharged, exhaled, anaerobic, and precipitated the introduced wastewater, and then allowed it to flow out.

On the other hand, various purification devices currently in use are designed to filter the wastewater flowing into the water tank by a filtration net while stirring the wastewater, and to purify the filtered wastewater by mixing chemicals that decompose the wastewater, The purification device was configured to act by discharging the purified wastewater.

However, in the general wastewater treatment method as described above, the operation of removing the sludge due to the filtering became very cumbersome, and the wastewater was decomposed by the chemicals and the decomposed wastewater was filtered several times. There was a disadvantage that the device for the wastewater became very large, and the wastewater treatment state was also dependent on the filtering device, so the wastewater treatment could not be reliably performed, and there was a defect in mass production of many sludges in the filtration network or the water tank, and the work to remove it. As this becomes enormous, there is a problem of lighting in which continuous wastewater treatment cannot be performed.

In addition, the government policy currently requires only large factories to reduce the amount of wastewater discharged, but in the future, such treatment may be required even in small factories due to environmental issues. Therefore, it is expected that wastewater treatment systems that can be used in small factories will be needed.

At this time, in the case of factory wastewater, various chemicals are mixed depending on the process, and accordingly, the properties of the wastewater are all different, and different treatment chemicals/systems may be required.

Republic of Korea Patent Publication No. 1994-0019616 proposed a wastewater and waste oil treatment device.

An object according to an embodiment is to provide a wastewater treatment system that is formed in a small scale and has mobility.

An object according to an embodiment is to provide a wastewater treatment system capable of increasing work efficiency by treating wastewater by simultaneously treating several chemicals.

An object according to an embodiment is to provide a wastewater treatment system capable of effectively purifying wastewater to a predetermined level of water quality.

An object according to an embodiment is to provide a wastewater treatment system capable of easily introducing wastewater from an existing wastewater discharging facility.

A wastewater treatment system according to an embodiment includes a wastewater treatment device that purifies and discharges incoming wastewater, a drug injection device that controls the amount of drug injection injected into the wastewater introduced into the wastewater treatment device, and the wastewater treatment device and the drug injection. It includes a control device for collecting information from the device in real time and controlling the wastewater treatment device and the drug injection device based on the collected information, and the wastewater treatment device is composed of a plurality of wastewater treatment devices. Can cross each other and flow.

The wastewater treatment device accommodates wastewater, a stirrer for accommodating the chemicals injected from the chemicals treatment device, and agitates the wastewater and the chemicals, the wastewater introduced from the stirrer, and foreign substances contained in the wastewater and the The sediment generated by the reaction of the drug sinks downward to separate the wastewater from the sediment, and a discharge unit to receive the wastewater introduced from the sedimentation unit, and to discharge the wastewater to the outside of the wastewater treatment device. can do.

At this time, the wastewater and the first chemical may be agitated in the first stirring unit of the first wastewater treatment device, and the wastewater and the second chemical may be stirred in the second stirring unit of the second wastewater treatment unit.

In addition, the wastewater treatment system includes a first flow path connecting a first discharge part of the first wastewater treatment device and a second stirring part of the second wastewater treatment device, and a second discharge part and a first flow path of the second wastewater treatment device. It may include a second flow path connecting the first stirring unit of the wastewater treatment device.

Thus, the wastewater optionally accommodated in the first discharge unit of the first wastewater treatment device may not be discharged to the outside and may flow to the second agitation unit of the second wastewater treatment unit, and accommodated in the second discharge unit of the second wastewater treatment unit. The wastewater may not be discharged to the outside and may flow to the first stirring unit of the first wastewater treatment apparatus.

In addition, the wastewater treatment system may further include a supply passage disposed at a front end of the first wastewater treatment device and the second wastewater treatment device.

In this case, the supply flow path is formed in a Y-shape, the first path extends toward the first wastewater treatment device, the second path extends toward the second wastewater treatment device, and the first path extends toward the second wastewater treatment device. The path and the second path may be selectively open or closed.

In addition, the wastewater treatment system includes a frame capable of accommodating a plurality of wastewater treatment devices, the chemical injection device, the control device, and the supply flow path, and a moving means disposed under the frame to move the frame. It further includes, and one end of the supply passage may be selectively attached to and detached from the wastewater discharging facility disposed outside the frame.

In addition, the frame further includes a support part protruding outward from one side of the frame and supporting a portion of the supply passage, and a guide part extending along a height direction of one side of the frame to guide the movement of the support part. And, the height of the support part may be adjusted as it moves up and down along the guide part.

A suction pump is disposed at one end of the supply channel to suck wastewater from the wastewater discharging facility and flow it toward the wastewater treatment device, and the supply channel is formed of a flexible material to move the supply channel according to the movement of the support unit. The height of some parts can be changed.

In addition, the wastewater treatment device is disposed inside the discharge unit to measure the water quality of the wastewater accommodated in the discharge unit, and the agitating unit, the settling unit, and the discharging unit are disposed at end portions of each of the discharging units to face the supply flow path. By artificially providing air pressure, it may further include a flow forming unit capable of forming a flow so that the wastewater contained in the discharge unit can be directed to the stirring unit.

At this time, the sensor unit measures the water quality of the wastewater when the wastewater flows from the sedimentation unit to the discharge unit, and when the measured water quality exceeds a preset value, the wastewater flows to the stirring unit of another wastewater treatment device. Or discharged to the outside of the wastewater treatment system, and when the measured water quality is less than or equal to a preset value, the flow forming unit may be driven to guide the wastewater contained in the discharging unit to forcibly flow toward the stirring unit.

The wastewater treatment system according to an embodiment may be formed in a small scale and have mobility.

The wastewater treatment system according to an embodiment may improve work efficiency by treating wastewater by simultaneously treating several chemicals.

The wastewater treatment system according to an embodiment may effectively purify wastewater to a predetermined level of water quality.

The wastewater treatment system according to an embodiment may easily introduce wastewater from an existing wastewater discharge facility.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 and 2 show a wastewater treatment system according to an embodiment.
3 shows in detail a frame and a supply flow path of a wastewater treatment system according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. The following description is one of several aspects of the embodiments, and the following description forms part of a detailed description of the embodiments.

However, in describing one embodiment, detailed descriptions of known functions or configurations will be omitted in order to clarify the gist of the present invention.

In addition, terms or words used in this specification and claims should not be interpreted in a conventional or dictionary meaning, and the inventor may appropriately define the concept of terms in order to describe his own invention in the best way. Based on the principle that there is, it should be interpreted as a meaning and concept consistent with the technical idea of the wastewater purification system according to an embodiment.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the wastewater purification system according to the embodiment, and do not represent all the technical ideas of the wastewater purification system according to the embodiment. As such, it should be understood that there may be various equivalents and modified examples that can replace them at the time of the present application.

1 and 2 illustrate a wastewater treatment system according to an exemplary embodiment, and FIG. 3 illustrates in detail a frame and a supply flow path of the wastewater treatment system according to an exemplary embodiment.

Referring to FIG. 1, a wastewater treatment system according to an embodiment includes a wastewater treatment device 10 that purifies and discharges incoming wastewater, and a drug injection device that controls the amount of chemicals injected into the wastewater introduced into the wastewater treatment device ( 20) and a control device 30 for controlling the wastewater treatment device and the drug injection device based on the collected information by collecting information in real time from the wastewater treatment device and the drug injection device, and the wastewater treatment device 10 includes a plurality of It is composed of dogs, and the wastewater may cross each other and flow between the plurality of wastewater treatment devices.

As an example, the wastewater treatment device may include a first wastewater treatment device 100 and a second wastewater treatment device 200.

At this time, the wastewater treatment apparatus 100, 200 accommodates wastewater, receives the chemicals injected from the chemical treatment apparatus, stirs the wastewater and the chemicals, and receives the wastewater flowing from the stirrer. Sediment generated by the reaction of foreign substances and chemicals contained in the wastewater sinks downwards, sedimentation units 120 and 220 where wastewater and sediment are separated, and wastewater introduced from the sedimentation unit is received, and the wastewater is transferred to the outside of the wastewater treatment device. It may include a discharge unit (130, 230) to discharge.

The stirrer (110, 210) may be provided with a stirrer (111, 211) inside, and the foreign substances and chemicals contained in the wastewater are agitated by the stirrer (111, 211) to shorten the time that the precipitate is generated. have.

As an example, the stirrer may be formed as an air whirl, but is not limited thereto, and may be replaced with other configurations capable of agitating chemicals and foreign substances contained in wastewater.

In addition, the discharge units 130 and 230 may discharge wastewater inside the discharge unit through a discharge pipe using pumps 131 and 231 provided therein.

At this time, the wastewater and the first chemical (A) are agitated in the first stirring unit 110 of the first wastewater treatment device 100, and the second agitating unit 210 of the second wastewater treatment unit 200 is used as wastewater. And the second drug (B) can be stirred. As an example, the first drug and the second drug may be different kinds of drugs.

In addition, the wastewater treatment system includes a first flow path 40 connecting the first discharge unit 130 of the first wastewater treatment device 100 and the second stirring unit 210 of the second wastewater treatment device 200, and A second flow path 50 connecting the second discharge unit 230 of the second wastewater treatment apparatus 200 and the first stirring unit 110 of the first wastewater treatment apparatus 100 may be included.

Thus, the wastewater optionally accommodated in the first discharge unit 130 of the first wastewater treatment apparatus 100 may not be discharged to the outside and may flow to the second stirring unit 210 of the second wastewater treatment apparatus 200. . In addition, the wastewater accommodated in the second discharge unit 230 of the second wastewater treatment apparatus 200 may not be discharged to the outside and may flow to the first stirring unit 110 of the first wastewater treatment apparatus 100.

Through this structure, the wastewater treatment system according to an embodiment simultaneously purifies a certain amount of wastewater with the first chemical (A) in the first wastewater treatment device 100, and provides another certain amount of wastewater. On the other hand, the second wastewater treatment apparatus 200 may perform a purification operation with another type of second chemical (B). After that, the wastewater from which the purification operation by the second drug (B) has been completed is flowed to the first treatment device 100 to perform the purification operation by the first drug (A), and The wastewater from which the purification operation has been completed may be flowed to the second treatment device 200 to perform a purification operation using the second chemical (B).

That is, the wastewater treatment system according to an exemplary embodiment may perform an operation of effectively purifying wastewater by using different types of chemicals at the same time.

In addition, the wastewater treatment system may further include a supply passage 60 disposed at a front end of the first wastewater treatment device 100 and the second wastewater treatment device 200.

At this time, the supply flow path 60 is formed in a Y-shape, the first path 61 extends toward the first wastewater treatment device 100, and the second path 62 is a second wastewater treatment device 200 It can be extended toward ).

In this case, the first path and the second path may be selectively opened or closed by the control device. Accordingly, wastewater may be simultaneously supplied to the first treatment device and the second treatment device, or alternatively, the entire amount of wastewater may be supplied to either the first treatment device or the second treatment device.

In addition, the wastewater treatment device is disposed inside the discharge units 130 and 230 to measure the water quality of the wastewater accommodated in the discharge unit, and the sensor units 140 and 240 are disposed at the ends of each of the stirring units, the settling unit and the discharging unit. The flow forming unit 150 capable of forming a flow so that the wastewater contained in the discharge units 130 and 230 can be directed to the stirring units 110 and 210 by artificially providing air pressure in the direction toward the supply flow path 60, 250) may be further included.

In this case, the sensor units 140 and 230 may measure the quality of the wastewater when the wastewater flows from the sedimentation unit to the discharge unit.

Accordingly, when the measured water quality exceeds a preset value and it is determined that the purification operation in the wastewater treatment device is completed, the wastewater may be flowed to the stirring section of another wastewater treatment device or discharged to the outside of the wastewater treatment system. .

On the contrary, if it is determined that the purification operation in the wastewater treatment device has not been completed due to the measured water quality being less than a preset value, the wastewater contained in the discharge unit is driven by driving the flow forming unit 150, 250 to the agitating unit. By guiding the flow toward the forced flow, the purification operation in the wastewater treatment apparatus can be performed again.

That is, through such a structure, the wastewater treatment system according to an embodiment may purify wastewater more precisely and effectively.

In the above description, the wastewater treatment device was described as an example consisting of two wastewater treatment devices, but the present invention is not limited thereto, and three or more wastewater treatment devices may be configured as necessary.

Referring to FIG. 2, the wastewater treatment system includes a frame 70 capable of accommodating a plurality of wastewater treatment devices, a chemical injection device, a control device, and a supply flow path, and a moving means disposed under the frame to move the frame. It further includes 80, and one end of the supply passage may be selectively attached to and detached from the wastewater discharge facility disposed outside the frame.

Although FIG. 2 shows that the moving means is formed of a transportation means such as a vehicle, it is not necessarily limited thereto, and the moving means may be formed in a shape that does not substantially include a driving element such as an engine such as a trailer.

Through such a structure, the wastewater treatment system according to an embodiment may be selectively disposed in a place where several wastewater purification operations are required to perform a purification operation, and when the purification operation is unnecessary, it may be moved out of the site to increase the efficiency of the space.

3, the frame 70 is formed to protrude outward from one side of the frame and extends along a height direction of one side of the frame and a support 71 that is formed to support a part of the supply passage 60. A guide portion 72 for guiding the movement of the 71 is further included, and the height of the support portion 71 may be adjusted while being moved up and down along the guide portion 72.

At this time, a suction pump is disposed at one end of the supply flow path 60 to suck wastewater from the wastewater discharge facility existing outside the wastewater treatment system and flow it toward the wastewater treatment device. In addition, the supply passage 60 is formed of a flexible material, and the height of a portion of the supply passage may be changed according to the movement of the support portion 71. Accordingly, in response to the height or shape of the wastewater discharging facility existing outside the wastewater treatment system, the arrangement of the supply channel may be changed according to the situation, so that wastewater can be easily introduced from the existing wastewater discharging facility. .

The wastewater treatment system according to an embodiment including the above-described configurations may be formed in a small scale and have mobility, and may improve work efficiency by treating wastewater by treating several chemicals at the same time. In addition, the wastewater treatment system can effectively purify wastewater to a predetermined level of water quality, and can easily introduce wastewater from existing wastewater discharging facilities.

The metal processing apparatus according to an embodiment including such a configuration can effectively provide lubricant to a portion of a metal material to be processed, and can effectively remove residues generated in a metal processing process. In addition, the metal processing apparatus can efficiently dissipate heat generated in the metal processing process, and can effectively remove foreign substances present on the metal material processed in the metal processing process.

As described above, in the embodiment, the embodiment has been described by specific items such as specific components and the limited embodiment and drawings, but this is provided to help overall understanding. In addition, the present invention is not limited to the above-described embodiments, and various modifications and variations are possible from these descriptions by those of ordinary skill in the field to which the present invention pertains. Therefore, the spirit of the present invention is limited to the above-described embodiments and should not be defined, and all things that have equivalent or equivalent modifications to the claims as well as the claims to be described later belong to the scope of the inventive concept.

10: wastewater treatment device
20: drug injection device
30: control device
40: first euro
50: 2nd euro
60: supply euro
70: frame
80: means of transportation
100: first wastewater treatment device
200: second wastewater treatment device

Claims (10)

A wastewater treatment device that purifies and discharges the incoming wastewater;
A chemical injection device for controlling an injection amount of a chemical injected into the wastewater introduced into the wastewater treatment device; And
A control device for controlling the wastewater treatment device and the drug injection device based on the collected information by collecting information in real time from the wastewater treatment device and the drug injection device;
Including,
The wastewater treatment device is composed of a plurality,
The wastewater may cross each other to flow between the plurality of wastewater treatment devices,
The wastewater treatment device,
A stirrer for accommodating the wastewater, receiving the drug injected from the drug injection device, and agitating the wastewater and the drug;
A sedimentation unit for receiving wastewater introduced from the stirring unit and separating the wastewater and the sediment as the sediment generated by the reaction of the foreign matter contained in the wastewater and the drug sinks downward; And
A discharge unit for receiving the wastewater introduced from the settling unit and discharging the wastewater to the outside of the wastewater treatment apparatus;
Including,
The wastewater and the first chemical are agitated in the first agitation part of the first wastewater treatment device, and the wastewater and the second chemical are agitated in the second agitation part of the second wastewater treatment device,
A first flow path connecting the first discharge part of the first wastewater treatment device and the second stirring part of the second wastewater treatment device;
A second flow path connecting the second discharge part of the second wastewater treatment device and the first stirring part of the first wastewater treatment device;
A supply passage disposed at a front end of the first wastewater treatment device and the second wastewater treatment device; And
A frame capable of accommodating a plurality of wastewater treatment devices, the chemical injection device, the control device, and the supply flow path;
Including more,
Optionally, the wastewater accommodated in the first discharge unit of the first wastewater treatment unit may not be discharged to the outside and may flow to the second stirring unit of the second wastewater treatment unit, and the wastewater accommodated in the second discharge unit of the second wastewater treatment unit is It is not discharged to the outside and can be flowed to the first stirring unit of the first wastewater treatment device,
The supply flow path is formed in a Y-shape, the first path extends toward the first wastewater treatment device, and the second path extends toward the second wastewater treatment device,
The first path and the second path may be selectively opened or closed by the control device,
One end of the supply passage may be selectively attached to and detached from the wastewater discharge facility disposed outside the frame,
The frame,
A support part protruding outward from one side of the frame and supporting a portion of the supply passage; And
A guide part extending along a height direction of one side of the frame to guide the movement of the support part;
Including more,
The height of the support part may be adjusted while moving up and down along the guide part,
The supply passage is formed of a flexible material so that the height of a portion of the supply passage may be changed according to the movement of the support portion,
Wastewater treatment system.
delete delete delete delete The method of claim 1,
A moving means disposed under the frame and capable of moving the frame;
Further comprising,
Wastewater treatment system.
delete The method of claim 6,
A suction pump is disposed at one end of the supply passage to suck wastewater from the wastewater discharge facility and flow it toward the wastewater treatment device,
Wastewater treatment system.
The method of claim 8,
The wastewater treatment device,
A sensor unit disposed inside the discharge unit to measure the quality of the wastewater contained in the discharge unit; And
A flow forming unit disposed at an end of each of the agitating unit, the settling unit, and the discharging unit to form a flow so that the wastewater contained in the discharging unit can be directed to the agitating unit by artificially providing air pressure in a direction toward the supply channel;
Further comprising,
Wastewater treatment system.
The method of claim 9,
The sensor unit measures the water quality of the wastewater when the wastewater flows from the settling unit to the discharge unit,
When the measured water quality exceeds a preset value, the wastewater is flowed to an agitator of another wastewater treatment device or discharged to the outside of the wastewater treatment system,
When the measured water quality is less than a preset value, driving the flow-forming unit to guide the wastewater contained in the discharge unit to forcibly flow toward the stirring unit,
Wastewater treatment system.

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