KR102024424B1 - Purification Device For Washing Liquid Using Microorganisms - Google Patents

Abstract

The present invention is provided with an ultrasonic vibration unit for generating ultrasonic vibration in the bottom of the ultrasonic cleaning tank is contained in the cleaning solution for cleaning the object to be washed, the ultrasonic cleaning unit for precisely cleaning the object by applying ultrasonic vibration to the cleaning solution; A microbial culture unit for cleaning the washing solution by introducing a washing solution drained from the ultrasonic washing unit and biodegrading the organic components of the introduced washing solution; Purifying washing liquid storage unit for storing the washing liquid purified by the microorganism; An oil skimmer unit provided at an upper end of the purifying washing liquid storage unit to re-supply the organic component floating on the stored purifying washing liquid to a microbial tank for biodegradation of organic components; A circulation unit for resupplying the purifying washing liquid stored in the purifying washing liquid storage unit to the ultrasonic washing unit; And a control unit connected to the ultrasonic cleaning unit, the microbial culture unit, the purification washing solution storage unit, the oil skimmer unit, and the circulation unit to control the operation of each component unit.
According to an embodiment of the present invention, by recovering the oil floating on the upper surface of the purifying washing liquid stored in the purifying washing liquid storage unit and re-supply to the microbial culture unit to improve the purification efficiency of the purifying washing liquid by causing the microorganism to decompose the oil, The sludge deposited on the bottom of the washing tank is supplied to the sludge filter cartridge to filter the sludge, thereby improving the purification efficiency of the washing liquid.

Description

Purification Device For Washing Liquid Using Microorganisms

The present invention relates to an apparatus for purifying washing liquid using microorganisms, and more specifically, organic matter by biodegrading wastewater from microorganisms after washing cleansed products contaminated with organic substances, such as industrial sites or automobiles, military parts, machinery parts, and processed parts. The present invention relates to an apparatus for purifying wastewater using microorganisms which improves the purification capacity of wastewater by increasing the decomposition rate of the wastewater, and reuses the purified water as the washing liquid to reduce operating costs for washing and to prevent environmental pollution.

In general, various parts such as organic solvents, lubricants, surfactants, dusts, and other organic components are attached or applied to various mechanical parts, processing parts, automotive parts, military parts, etc., which are used in industrial sites, thereby producing precise parts. In order to clean these foreign substances, a process is required.

Ultrasonic cleaners that effectively remove and remove foreign substances by applying vibration using ultrasonic waves are widely used in the washing process.

In addition, chlorinated solvents, petroleum solvents, other organic solvents, and water-soluble surfactants or mixtures of surfactants for purifying fluids are used as washing liquids. Waste waters of organic components washed in the parts, as well as the cleaning liquids, are quite harmful and threaten the environment. It must be used and disposed of in accordance with government regulations.

Therefore, a method of preventing the air pollution and water pollution, and using the cleaning solution containing organic foreign matters in contact with microorganisms to biodegrade the organic matter and circulating the purified water to reuse it.

Korean Patent No. 10-1350613 filed "Ultrasound cleaning device" is applied to the lower part of the ultrasonic cleaning unit for ultrasonic cleaning of the part is provided with a microbial tank for accommodating the carrier to grow and culture the microorganisms, purifying to accommodate the microbial tank A storage portion of the prepared washing liquid is provided, and the microbial culture portion and the purified washing liquid storage portion are divided into screen membranes through which the microorganism is not passed but the washing liquid is passed.

That is, the contaminant washing liquid drained from the ultrasonic washing unit flows into the microbial tank into which the microorganisms grow and culture, and the microbial tank biodegrades the introduced contaminating washing liquid to purify the washing liquid, and the purified washing liquid contains the microbial tank partitioned by the screen membrane. Naturally stored in the purifying washing liquid storage unit. In addition, the washing solution stored in the purified washing liquid storage unit may be circulated to the ultrasonic washing unit to reuse the purified washing liquid.

However, since the microorganism culture unit and the purifying washing liquid storage part are partitioned by the screen membrane, organic components that are not biodegraded by the microorganism exist in the purifying washing liquid storage part. In addition, the organic component (oil) present in the purifying washing liquid storage part is floating on the purifying washing liquid, and if left for a long time, the oil decays, so that the purifying efficiency of the washing liquid is inferior.

In addition, in the ultrasonic cleaning unit, sludge included in organic foreign matter is precipitated and accumulated on the bottom. Since such precipitated sludge is drained to the microbial tank together with the contaminated washing liquid, there is a problem in that the purification efficiency of the washing liquid is lowered.

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Korea Patent Registration 10-1350613 (2014.01.23.) Korea Patent Registration 10-0876615 (2008.12.23)

The present invention has been made to solve the conventional problems,

An object of the present invention is to clean the contaminated washing solution by ultrasonic cleaning the washes contaminated with the organic material to increase the washing efficiency of the cleansing object, and to increase the decomposition rate of organic matter by biodegrading the contaminated washing solution after washing the cleansing object. It is to provide a cleaning liquid purification apparatus using microorganisms to improve the capability, and to reduce the operating costs associated with cleaning by reusing the purified cleaning liquid, and to prevent environmental pollution.

Another object of the present invention is to recover the organic component (hereinafter referred to as oil) floating on the upper surface of the purification cleaning solution stored in the purification cleaning solution storage unit and re-supplied to the microbial culture unit to purify the purification cleaning solution by causing the microorganisms to decompose the oil. The present invention provides a cleaning solution purification apparatus using microorganisms to improve efficiency.

Still another object of the present invention is to provide a cleaning solution purification apparatus using microorganisms by filtering sludge deposited on the bottom of the ultrasonic cleaning tank to improve the cleaning efficiency of the cleaning solution.

Cleaning liquid purification apparatus using a microorganism according to the present invention provided to achieve the above object is provided with an ultrasonic vibration unit for generating ultrasonic vibration at the bottom of the ultrasonic cleaning tank is contained in the cleaning liquid for washing the cleaning object and ultrasonic vibration in the cleaning liquid Ultrasonic cleaning unit for precisely washing the object to be added; A microbial culture unit for cleaning the washing solution by introducing a washing solution drained from the ultrasonic washing unit and biodegrading the organic components of the introduced washing solution; Purifying washing liquid storage unit for storing the washing liquid purified by the microorganism; An oil skimmer unit provided at an upper end of the purifying washing liquid storage unit to re-supply the organic component floating on the stored purifying washing liquid to a microbial tank for biodegradation of organic components; A circulation unit for resupplying the purifying washing liquid stored in the purifying washing liquid storage unit to the ultrasonic washing unit; And a control unit connected to the ultrasonic cleaning unit, the microbial culture unit, the purification cleaning solution storage unit, the oil skimmer unit, and the circulation unit to control the operation of each component unit.

In addition, the ultrasonic cleaning unit is further provided with a sludge filter unit for removing the sludge deposited on the bottom of the ultrasonic cleaning tank, the sludge filter unit is provided in the sludge drainage line provided in the bottom of the cleaning tank to pump the sludge deposited on the bottom And a sludge filter cartridge, a sludge filter cartridge for filtering sludge pumped and drained by the sludge pump, and a circulation line for resupplying the washing liquid filtered to the sludge filter cartridge to an ultrasonic cleaning tank.

The sludge filter unit further includes a sludge measuring sensor for measuring the amount of sludge deposited on the bottom of the washing tank, and the controller drives the sludge pump when the value measured by the sludge measuring sensor exceeds a preset value. It characterized in that the supply to the sludge filter cartridge.

The microbial culture unit is provided with a microbial tank into which the washing solution drained from the ultrasonic cleaning unit flows, a microbial filter provided in the microbial tank to supply microorganisms, and a microbial protection net provided below the microbial filter to protect the microorganisms. do.

Here, the microbial tank is separated from the purifying washing liquid storage unit by a partition partitioning the inside of the purifying washing liquid storage unit vertically, and the partition wall is characterized in that the microbial tank and the lower portion of the purifying washing liquid storage unit is spaced apart from the bottom surface. .

The microorganism culture unit may further include a heater for maintaining the culture medium and the washing solution of the microorganism at a predetermined temperature, a temperature sensor measuring the temperature of the culture medium and the washing solution, and a level switch for checking the level of the washing solution. .

The oil skimmer unit includes a driving roller that rotates by a drive of a driving motor supported by a supporting means, a driven roller that rotates by receiving a rotational force of the driving roller while being immersed in the purifying cleaning liquid, and the driving roller and the driven roller. A mesh belt for recovering the organic components contained in the purifying washing liquid wound on the outer surface, a scraper for removing oil adhered to the surface of the mesh belt, and an oil receiving part receiving the oil removed by the scraper and guiding the microorganism culture unit. It characterized by comprising;

In addition, the purifying washing liquid storage unit is provided with an organic substance measuring sensor for measuring the amount of organic components floating on the upper surface of the purifying washing liquid, the control unit of the oil skimmer unit when the value measured by the organic substance measuring sensor exceeds a predetermined value It is characterized by recovering the organic components by driving the drive motor.

The circulation unit is provided in a purifying washing liquid draining line provided in the purifying washing liquid storage unit, a circulating pump for pumping the purifying washing liquid, a purifying washing liquid filter cartridge for filtering the purifying washing liquid pumped and drained by the circulating pump, and the purifying washing liquid filter It characterized in that it comprises a circulation line for resupplying the cleaning solution filtered to the ultrasonic cleaning unit.

The washing solution of the ultrasonic cleaning unit is characterized in that the alkaline detergent for microorganisms.

According to an embodiment of the present invention, ultrasonic cleaning of a contaminated object with an organic material to increase the washing efficiency of the cleansing object, biodegrading the contaminated washing liquid after washing the object to a microorganism to increase the decomposition rate of the organic material contaminated It improves the cleaning capacity of the cleaning solution, and reuses the purified cleaning solution to reduce the operating cost of the cleaning, as well as to prevent the environmental pollution.

In addition, there is an effect of improving the purification efficiency of the purification cleaning liquid by recovering the oil floating on the upper surface of the purification cleaning liquid stored in the purification washing liquid storage unit and re-supplied to the microorganism culture unit to cause the microorganism to decompose the oil.

In addition, by supplying the sludge deposited on the bottom of the ultrasonic cleaning tank to the sludge filter cartridge to filter the sludge has an effect of improving the purification efficiency of the cleaning liquid.

1 is a block diagram showing a cleaning liquid purification apparatus using a microorganism according to an embodiment of the present invention.
Figure 2 is a front and side cross-sectional view showing the configuration of the oil skimmer unit in the washing liquid purification apparatus using a microorganism according to an embodiment of the present invention.
Figure 3 is a block diagram showing the control flow of the control unit in the washing liquid purification apparatus using a microorganism according to an embodiment of the present invention.

The above objects, features and other advantages of the present invention will become more apparent from the following detailed description of the preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings will be described in detail the washing liquid purification apparatus using a microorganism according to an embodiment of the present invention. For the purposes of this specification, like reference numerals in the drawings denote like parts unless otherwise indicated.

Referring to Figure 1 describes the configuration of the washing liquid purification apparatus using a microorganism according to an embodiment of the present invention, with reference to Figure 2 describes the configuration of the oil skimmer unit according to an embodiment of the present invention, Figure Referring to 3 will be described the control flow of the washing liquid purification apparatus using a microorganism according to an embodiment of the present invention.

1 to 3, the cleaning liquid purification apparatus using the microorganism according to an embodiment of the present invention, the ultrasonic cleaning unit 100, the microbial culture unit 200, the purifying washing liquid storage unit 300, The oil skimmer unit 400, the circulation unit 500, and the controller 600 are configured to be included.

First, the ultrasonic cleaning unit 100 is a cleaning liquid 120 for washing the object to be cleaned inside the ultrasonic cleaning tank 110, the ultrasonic vibration unit 130 is installed on the bottom.

Here, the washing liquid 120 is a microbial alkaline detergent is used, the ultrasonic cleaning tank is further provided with a level switch 111 for checking the level of the washing liquid.

The ultrasonic vibrator 130 includes an ultrasonic vibrator for generating ultrasonic vibrations and an ultrasonic oscillator for driving the ultrasonic vibrator, the ultrasonic oscillator being controlled by a control command of the controller 600 and controlling the intensity of the ultrasonic vibration. Includes features

That is, the ultrasonic vibrator 130 generates ultrasonic vibrations by the driving of the ultrasonic oscillator, and the ultrasonic vibration applied to the cleaning liquid makes the organic matter contained in the cleaning liquid harmless and makes biodegradation easier. Decompose organic matter.

In addition, the ultrasonic cleaning tank 110 is provided with a sludge filter unit 140 for removing the sludge precipitated in the process of washing the object to be cleaned.

The sludge filter unit 140 is provided in the sludge drainage line 141 provided at the bottom of the ultrasonic cleaning tank 110 to pump the sludge settled on the floor and the sludge pump 142 and the sludge pump 142 is pumped and drained Sludge filter cartridge 143 for filtering sludge, and a circulating line 144 for resupplying the cleaning liquid filtered to the sludge filter cartridge 143 to the ultrasonic cleaning tank 110, and the sludge precipitated at the bottom of the ultrasonic cleaning tank. Sludge measuring sensor 145 for measuring the amount of is provided.

That is, when sludge is deposited on the bottom of the ultrasonic cleaning tank 110 in the process of washing the washed object, the sludge measuring sensor 145 measures the amount of precipitated sludge and transmits it to the control unit 600, and the control unit 600. ) Compares the transmitted sludge measurement value with a preset value, when the sludge measurement value exceeds a predetermined value, by opening the valve of the sludge drainage line 141 and driving the sludge pump 142 to ultrasonic cleaning tank 110 Sludge accumulated at the bottom is supplied to the sludge filter cartridge 143. In addition, the sludge filter cartridge 143 includes a plurality of filters 143a having a diameter of 5 μm to 10 μm to completely filter the sludge, and the sludge filtered cleaning solution is transferred to the ultrasonic cleaning tank 110 along the circulation line 144. Resupply.

In addition, the ultrasonic cleaning tank 110 is provided with a drain pipe 112 through which the washing liquid is drained, and the drain pipe 112 is provided with a valve for controlling the drainage of the washing liquid. The outlet of the drain pipe 112 is connected to the microbial tank 210 of the microbial culture unit 200.

The microbial culture unit 200 is provided in the microbial tank 210 into which the washing liquid drained from the ultrasonic cleaning tank is introduced, the microbial filter 220 provided in the microbial tank to cure and culture the microorganisms, and a lower portion of the microbial filter. The microorganisms are protected so that the microorganisms do not escape and the microbial protection net 230 is provided.

Here, the microbial tank 210 is accommodated in the purifying washing liquid storage unit 300. More specifically, the microbial tank 210 is distinguished from the purifying washing liquid storage unit 300 by the partition 310 vertically partitioning the inside of the purifying washing liquid storage unit 300 in which the purifying washing liquid is stored. ) Is installed to be spaced apart from the bottom surface is provided so that the lower portion of the microbial tank 210 and the purifying washing liquid storage unit 300 is in communication.

Further, the microbial tank 210 includes a heater 240 for maintaining the culture medium and the washing solution of the microorganism at a constant temperature, a temperature sensor 250 for measuring the temperature of the culture medium and the washing solution, and a level switch for checking the level of the washing solution. 260 is further provided. Here, the heater, the temperature sensor, the level switch may be provided in the purifying washing liquid storage unit rather than the microbial tank because the microbial tank and the purifying washing liquid storage unit communicate with each other.

That is, the washing liquid drained from the ultrasonic washing tank 110 and introduced into the microbial tank 210 passes through the microbial filter 220 for supplying microorganisms, and impurities contained in the washing liquid are removed, and oil is biodegraded by the microorganisms to purify the washing liquid. Is done. At this time, since the oil and impurities float above the washing liquid 120 of the microbial tank, the impurities are filtered by the microbial filter and the oil is removed by the microorganisms cured by the microbial filter 220 to purify the washing liquid.

Then, the purified washing liquid is naturally stored in the purifying washing liquid storage unit 300 is in communication with the lower end of the microbial tank (210).

At this time, the cleaning liquid storage unit 300, the washing liquid drained from the ultrasonic cleaning tank 110 is introduced into the microbial filter 220 in the process of flowing into the microbial tank 210 may be introduced into the purification cleaning liquid storage unit 300, microorganisms Since the tank 210 and the lower ends of the purifying washing liquid storage unit 300 have a structure in communication with each other, oil that has not been decomposed in the microbial tank 210 may be introduced into the purifying washing liquid storage unit 300. Therefore, the phenomenon that the oil floats on the upper surface of the purifying washing liquid storage unit 300 will occur.

Therefore, the oil skimmer unit 400 is provided at the upper end of the purifying washing liquid storage unit 300 to remove the oil floating on the upper surface of the purifying washing liquid and supply it to the microbial tank 210.

As shown in (a) and (b) of FIG. 2, the oil skimmer unit 400 is supported by the support means and generates a rotational force, and is coupled to the driving shaft of the driving motor and coupled to the driving force of the driving motor. Drive roller 420 to rotate by, driven driven roller 430 is rotated by receiving the rotational force of the driving roller in the state of being immersed in the purifying cleaning liquid, and wound around the outer surface of the driving roller and the driven roller, connecting the driven roller and the driving roller and purging A mesh belt 440 for recovering the oil contained in the washing liquid, a scraper 450 for removing the oil adhered to the surface of the mesh belt, and an oil receiving part 460 for receiving the oil removed by the scraper and guiding it to the microorganism tank. It is configured to include. In addition, the purifying washing liquid storage unit 300 is provided with an organic material measuring sensor 470 for measuring the amount of oil floating on the upper surface of the purifying washing liquid.

Here, the driving roller 420 and the driven roller 430 is located on a vertical line, the lower end of the mesh belt 440 connecting the driving roller and the driven roller is immersed in the purifying washing liquid.

That is, the organic material measuring sensor 470 measures the amount of oil contained in the purifying washing liquid and transmits it to the control unit 600, and the control unit 600 may exceed the preset value measured by the organic material measuring sensor 470. When driving the drive motor 410 of the oil skimmer unit. In addition, when the mesh belt 440 connecting the driving roller 420 and the driven roller 430 is rotated by the driving motor 410, the oil floating on the upper surface of the purifying washing liquid on the surface of the mesh belt 440. It sticks and collects.

Subsequently, the oil recovered by being adhered to the surface of the mesh belt 440 is removed by the scraper 450 which is in contact with the mesh belt 440, falls to the oil receiving part 460, and is recovered to the oil receiving part 460. The oil is supplied to the microbial filter 220 of the microbial culture unit along the guide line of the oil receiving unit 460. The oil resupplied to the microbial filter 220 is decomposed by microorganisms.

In addition, the purifying washing liquid storage unit 300 is provided with a circulation unit 500 for resupplying the stored purifying washing liquid to the ultrasonic washing tank 110.

The circulation unit 500 is provided in the purifying washing liquid draining line 510 provided in the purifying washing liquid storage unit 300 to filter the circulating pump 520 for pumping the purifying washing liquid, and to purify the purifying washing liquid that is drained by the circulating pump. The purifying washing liquid filter cartridge 530, and the circulation line 540 for supplying the filtered washing liquid to the purifying washing liquid filter cartridge to the ultrasonic washing tank.

Here, a plurality of filters 530a having a diameter of 40 µm to 60 µm are built in the purifying washing liquid filter cartridge 530 to filter the fine particles contained in the purifying washing liquid. Then, the cleaning solution filtered in the purifying washing liquid filter cartridge 530 is supplied to the ultrasonic cleaning tank 110 along the circulation line 540.

The control unit 600 is connected to the ultrasonic cleaning unit 100, microbial culture unit 200, purifying washing liquid storage unit 300, oil skimmer unit, circulation unit to control the operation of each component. That is, the ultrasonic vibration unit, the sludge measuring sensor, the sludge pump, the heater, the level switch, the temperature sensor, the organic matter measuring sensor, the driving motor, the circulation pump is electrically connected to receive information and transmit commands to control.

The controller 600 is connected to a user operator (not shown) having various selection modes. Here, the user manipulation unit is preferably provided on one surface of the ultrasonic cleaning unit 100.

Referring to the action of the washing liquid purification apparatus using a microorganism according to the present invention configured as described above are as follows.

When the start mode of the user control unit is selected as shown in FIGS. 1 and 3, the control unit 600 includes the ultrasonic cleaning unit 100, the microbial culture unit 200, the purification washing liquid storage unit 300, and the oil skimmer unit 400. , Transmits an on command to the circulation unit 500.

First, the ultrasonic cleaning tank 110 of the ultrasonic cleaning unit is filled with the washing liquid 120 which is an alkaline detergent for microorganisms, and the mixing board containing the to-be-washed object is added. Subsequently, when the washing liquid 120 is filled to a predetermined level in the washing tank 110, the control unit 600 receives a signal indicating that the washing liquid is filled to a predetermined level from the level switch 111, and is then driven by the ultrasonic vibration unit 130. Send a signal.

The ultrasonic vibration unit 130 receiving the driving signal from the control unit 600 vibrates the ultrasonic vibrator according to the driving of the ultrasonic oscillation unit to apply ultrasonic vibration to the cleaning liquid, and the cleansing material introduced into the ultrasonic cleaning tank is applied by the cleaning liquid to which the ultrasonic vibration is applied. Washing is done. The organic material dropped from the object to be cleaned is firstly decomposed by ultrasonic vibration. At this time, the organic material dropped from the wash object contaminates the cleaning liquid, and the sludge of the contaminant is precipitated at the bottom of the ultrasonic cleaning tank 110.

When the cleaning of the object is completed by ultrasonic cleaning of the object for a predetermined time, the control unit 600 opens the valve of the drain pipe 112 to drain the cleaning liquid from which the object is washed. At this time, the washing liquid drained to the drain pipe 112 is introduced into the microbial tank 210 of the microbial culture unit 200.

In addition, sludge is deposited on the bottom of the ultrasonic cleaning tank 110 in the process of washing the washed object. At this time, the sludge measuring sensor measures the amount of sludge and transmits it to the control unit 600, the control unit 600 compares the transmitted sludge measurement value and the preset value, and then the sludge measurement value exceeds the preset value, The valve of the sludge drain line 141 is opened and the sludge pump 142 is driven to supply the sludge accumulated on the bottom of the ultrasonic cleaning tank 110 to the sludge filter cartridge 143. Then, the sludge filtered cleaning liquid in the sludge filter cartridge 143 is supplied back to the ultrasonic cleaning tank 110 along the circulation line (144).

On the other hand, since the oil and impurities (floating contaminants) contained in the washing solution introduced into the microbial tank 210 float above the washing solution of the microbial tank 210, the impurities are filtered by the microbial filter 220 and the oil is the microbial filter 220. It is decomposed and removed by the microorganisms cultured in) to purify the washing liquid. That is, the washing liquid introduced into the microbial tank 210 is filtered when the foreign substances and contaminants contained therein are filtered through the microbial filter 220, and then biodegradation of the organic material is performed while passing through the microbial mat containing the microorganisms to purify the washing liquid. .

At this time, the organic material subjected to the first decomposition by the ultrasonic vibration is easily biodegradable by the microorganisms can be quickly decomposed a large amount of organic material.

In addition, the washing solution purified in the microbial tank 210 is naturally stored in the purifying washing liquid storage unit 300 in communication with the lower end of the microbial tank 210. At this time, the level switch 260 of the microbial tank or the purifying washing liquid storage unit detects the water level and transmits a washing liquid replenishment signal to the control unit 600 when the level is low, and the control unit 600 generates a warning light and a warning sound.

In addition, the controller 600 drives the heater 240 of the microbial tank to maintain the microbial culture solution and the washing solution stored in the microbial tank at an appropriate temperature of 35 to 45 degrees Celsius. At this time, the temperature sensor 250 measures the temperature of the culture medium and the washing solution and transmits it to the control unit 600, the control unit 600 controls the driving of the heater 240 based on the temperature provided from the temperature sensor 250 The temperature of the culture and wash solution is kept constant. Here, when the temperature of the cleaning liquid is 35 to 45 degrees, the cleaning power of the object to be cleaned by ultrasonic vibrations is significantly improved.

In addition, the controller 600 applies a driving signal to the oil skimmer unit 400 when the oil value measured by the organic matter measuring sensor 470 of the purifying washing liquid storage unit 300 exceeds a preset value.

In addition, the driving motor 410 of the oil skimmer unit receiving the driving signal from the controller 600 generates a rotational force, and transmits the rotational force of the driving roller 420 and the driving roller coupled to the driving shaft of the driving motor 410. The driven roller 430 rotates while the mesh belt 440 rotates. Then, the oil contained in the purifying washing liquid is attached to the surface of the rotating mesh belt 440 and drawn out of the purifying washing liquid, and the oil adhered to the mesh belt 440 is removed by the scraper 450 to receive the oil receiving part 460. Drops to). The oil recovered in the oil receiver 460 is supplied to the microbial filter 220 of the microbial culture unit along the guide line of the oil receiver 460 to be decomposed by the microorganism.

In addition, when the level of the cleaning liquid is sensed by the level switch 260, the control unit 600 applies a driving signal to the circulation unit (500).

The circulation unit 500 receiving the driving signal from the controller 600 opens the valve of the purification washing liquid drain line 510 and drives the circulation pump 520 to supply the purification washing liquid to the purification washing liquid filter cartridge 530. Then, the washing liquid filtered through the purifying washing liquid filter cartridge 530 is supplied again to the ultrasonic washing tank 110 along the circulation line 540.

As described above, the present invention improves the cleaning efficiency of ultrasonically cleaned objects by cleaning ultrasonically contaminated cleaning products, and cleans the contaminated cleaning solution by increasing the decomposition rate of organic materials by biodegrading the contaminated cleaning solution after washing the cleansing materials with microorganisms. This improves the capacity and reuses the clarified cleaning solution to reduce the operating costs associated with cleaning and to prevent environmental pollution.

In addition, it is possible to improve the purification efficiency of the purification cleaning liquid by recovering the oil floating on the upper surface of the purification cleaning liquid stored in the purification washing liquid storage unit and re-supplied to the microorganism culture unit to allow the microorganisms to decompose the oil.

In addition, by supplying the sludge deposited on the bottom of the ultrasonic cleaning tank to the sludge filter cartridge to filter the sludge, it is possible to improve the purification efficiency of the cleaning liquid.

While preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments. That is, those skilled in the art to which the present invention pertains can make many changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such suitable changes and modifications Equivalents should be considered to be within the scope of the present invention.

100: ultrasonic cleaning unit 110: ultrasonic cleaning tank
111: level switch 112: drain pipe
120: washing liquid 130: ultrasonic vibration unit
140: sludge filter unit 141: sludge drainage line
142: sludge pump 143: sludge filter cartridge
144: circulation line 145: sludge measuring sensor
200: microorganism culture unit
210: microbial tank 220: microbial filter
230: microbial protection network 240: heater
250: temperature sensor 260: level switch
300: purifying washing liquid storage 310: partition wall
400: oil skimmer unit 410: drive motor
420: driving roller 430: driven roller
440: mesh belt 450: scraper
460: oil receiving unit 470: organic matter measuring sensor
500: circulation unit
510: purifying washing liquid drainage line 520: circulation pump
530: Purification Cleaning Fluid Filter Cartridge 530a: Filter
540: circulation line 600: control unit

Claims (10)

An ultrasonic vibrator for generating ultrasonic vibrations at the bottom of the ultrasonic cleaning tank, the ultrasonic vibrating unit including a cleaning liquid for cleaning the object to be cleaned and applying ultrasonic vibration to the cleaning solution to precisely clean the object; A microbial culture unit for purifying the washing solution by introducing a washing solution drained from the ultrasonic washing unit and biodegrading the organic components of the introduced washing solution; Purifying washing liquid storage unit for storing the washing liquid purified by the microorganism; An oil skimmer unit provided at an upper end of the purifying washing liquid storage part to supply the organic components floating on the upper surface of the purifying washing liquid to the microbial culture unit for biodegradation of the organic components; A circulation unit for resupplying the purifying washing liquid stored in the purifying washing liquid storage unit to the ultrasonic washing unit; And a control unit connected to the ultrasonic cleaning unit, the microbial culture unit, the purification cleaning solution storage unit, the oil skimmer unit, and the circulation unit to control the operation of each component unit.
The microbial culture unit includes a microbial tank into which the washing solution drained from the ultrasonic cleaning unit is introduced, and a microbial filter provided in the microbial tank to supply microorganisms and a microbial protection net provided below the microbial filter to protect the microorganisms. It is divided by the purifying washing liquid storage and the partition wall, the partition is installed so as to be spaced apart from the bottom surface so that the microbial tank and the lower portion of the purifying washing liquid storage communication.
The oil skimmer unit includes a driving roller that rotates by a drive of a driving motor supported by a supporting means, a driven roller that rotates by receiving a rotational force of the driving roller while being immersed in the purifying cleaning liquid, and the driving roller and the driven roller. A mesh belt for recovering the organic components contained in the purifying washing liquid wound on the outer surface, a scraper for removing oil adhered to the surface of the mesh belt, and an oil receiving part receiving the oil removed by the scraper and guiding the microorganism culture unit. Including,
The purifying washing liquid storage unit is provided with an organic material measuring sensor for measuring the amount of the organic component floating on the upper surface of the purifying washing liquid,
The ultrasonic cleaning unit is further provided with a sludge filter unit for removing the sludge deposited on the bottom of the ultrasonic cleaning tank, the sludge filter unit is provided in the sludge drainage line provided in the bottom of the cleaning tank to pump the sludge deposited on the bottom of the sludge pump And a sludge filter cartridge for filtering the sludge pumped and drained by the sludge pump, a circulation line for resupplying the washing liquid filtered to the sludge filter cartridge to an ultrasonic washing tank, and a sludge measuring the amount of sludge deposited on the bottom of the washing tank. Including a measuring sensor,
The controller recovers the organic component by driving the driving motor of the oil skimmer unit when the value measured by the organic material measuring sensor exceeds a preset value, and the value measured by the sludge measuring sensor exceeds a preset value. When the sludge pump is driven by the sludge filter cleaning device using a microorganism, characterized in that for supplying the sludge filter cartridge. delete delete delete delete The method of claim 1,
The microbial tank or the purifying washing liquid storage unit further includes a heater for maintaining the culture liquid and the washing liquid of the microorganism at a predetermined temperature, a temperature sensor measuring the temperature of the culture liquid and the washing liquid, and a level switch for checking the level of the washing liquid. Washing liquid purification apparatus using a microorganism. delete delete The method of claim 1,
The circulation unit is provided in a purifying washing liquid draining line provided in the purifying washing liquid storage unit, a circulating pump for pumping the purifying washing liquid, a purifying washing liquid filter cartridge for filtering the purifying washing liquid pumped and drained by the circulating pump, and the purifying washing liquid filter Cleaning liquid purification apparatus using a microorganism, characterized in that it comprises a circulation line for resupplying the cleaning liquid filtered in the cartridge to the ultrasonic cleaning unit. The method of claim 1,
The cleaning solution of the ultrasonic cleaning unit is a cleaning liquid purification apparatus using microorganisms, characterized in that the alkaline detergent for microorganisms.

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