JPH06154729A - Purification treatment device for water to be treated of aqueous painting booth - Google Patents

Abstract

PURPOSE:To miniaturize the title device by abolishing use of a pressure water pump for supplying pressure water to a flotation treatment tank, a pressure water tank and an air compressor. CONSTITUTION:A purification treatment tank is equipped with the flotation treatment tank 6 connected to a main tank 2 through a supply pipeline 5 for water to be treated to perform the flotation treatment of water to be treated, the pump 7 for water to be treated provided to the supply pipeline 5 and the air suction device 8 provided to the supply pipeline 5 on the downstream side of the pump 7 and mixing air sucked by negative pressure action with water to be treated. A chemical agent such as a flocculant is added before and behind the air suction device 8 and certainly mixed with the water to be treated by the air sucked in the air suction device 8 to form floc. The floc formed water is guided to the flotation treatment tank 6 and flock is well floated along with air bubbles of the air sucked by the air suction device 8.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for purifying treated water in an aqueous coating booth, which purifies treated water in the aqueous coating booth so that the treated water can be repeatedly used.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 3, a circulating pump 51 sends a paint mist from a main tank 52 to a water-based coating booth 53, where the paint mist is collected and contaminated. There is known a treatment apparatus for purifying the water to be treated in the water-based coating booth 53, which purifies the water to be treated returned to the main tank 52 via the passage 54. This purification device
A pressurized flotation treatment tank 56, which is connected to the main tank 52 through a treated water supply pipeline 55 and floats the treated water.
And a treated water pump 57 that is provided in the treated water supply pipe line 55 and sends the treated water in the main tank 52 to the pressurized floating treatment tank 56, and a treated water supply downstream of the treated water pump 57. The flocculation tank 58 provided in the pipe line 55, to which a chemical such as a flocculant is added, and a part of the treated water treated in the pressurized flotation treatment tank 56 are treated as pressurized water.
It is mainly composed of a pressurized water mechanism 70 which is sent to the nozzle 6. The pressurized water mechanism 70 includes a pressurized water pump 71, a pressurized tank 72, and an air compressor 73.

In the above-mentioned purification treatment apparatus, about 1/10 to 1/4 of the amount of water in the main tank 52 is pressurized floating treatment tank 56 in the treated water pump 57 via the treated water supply pipe 55.
Sent to. In the aggregating tank 58 provided in the water to be treated supply pipe 55, chemicals such as an aggregating agent, an auxiliary agent and a pH adjusting agent are added to and mixed with the water to be treated. As a result, the paint aggregates to form flocs. Incidentally. As a coagulant,
Inorganic flocculants such as sulfuric acid band, polyaluminum chloride and iron chloride, and cationic polymer flocculants such as polyethyleneimine are used. As the auxiliary agent, an anionic polymer flocculant such as polyacrylic acid or polyacrylamide is used. As the pH adjuster, caustic soda, slaked lime, sulfuric acid, etc. are used.

The floc forming water formed in the flocculation tank 58 is mixed with pressurized water at a ratio of 50% or less with respect to the forming water, and is introduced into the pressure floating treatment tank 56. In the pressurized flotation treatment tank 56, flocs float in a short time together with fine air bubbles contained in the pressurized water, and the floated flocs are scraped off by the scraper 59. The flocs scraped off by the scraper 59 are collected in the collection tank 60, while the clarified treated water flows into the treated water tank 61.
From the treated water tank 61, the treated water of the amount of water sent from the main tank 52 to the pressurized floating treatment tank 56 by the treated water pump 57 is returned to the main tank 52, and the treated water of almost the remaining amount is pressurized water. It is sent to the pressurized water tank 72 by the pump 71. In the pressurized water tank 72, the air compressor 7
Since the compressed air is supplied from 3, the pressurized water containing air is mixed with the treated water in the treated water supply pipe 55 from the pressurized water tank 72. The condition of the pressurized water at this time is about 0.5 to ⁵ kgf / cm ² , preferably 3 kgf.
/ Cm ² Further, about 10 to 30% of the treated water in the treated water tank is discharged out of the system in the sense of measures against soluble organic substances (COD). In addition, industrial water is supplied to the main tank 52 by the amount of the discharged water.

[0005]

In the conventional purification treatment apparatus as described above, the flocs are floated by the pressure floating treatment tank 56 using the pressurized water containing air from the pressurized water mechanism 70. In the pressurized flotation treatment tank 56, the more fine bubbles having a low floating speed, the more bubbles adhere to the flocs, and the more effective the purification can be. Therefore, in order to satisfactorily purify the water to be treated, the pressurized water mechanism 70 has the pressurized water pump 71, the pressurized water tank 72, and the air compressor 7 as described above.
3 is indispensable and inevitably increases in size.

Further, in the pressure floating treatment tank 56,
The higher the pressure of the pressurized water, the higher the floc floating speed, and therefore the quicker the treatment becomes. Further, in order to obtain good treated water, pressurized water of about 30% or more of the treated water is essential. Therefore, the pressurized water mechanism 7
There is a limit to making 0 compact in terms of processing time and processing capacity, leading to an increase in size of the purification processing apparatus.

Further, the above conventional apparatus has a structure in which the treated water obtained by the purification treatment in the pressure floating treatment tank 56 is directly returned to the main tank 52. Here, in the treated water treated in the pressure floating treatment tank 56, the flocculation tank 58
It contains some coagulant and other chemicals injected in. When the treated water containing the agent such as the coagulant is mixed with the treated water returned from the coating booth 53 through the treated water return path 54 in the main tank 52, the paint in the treated water is removed. Aggregates with the above-mentioned agents to form flocs. For this reason, in the main tank 52, precipitated flocs, floating flocs, and the like are generated, which makes it difficult to collect. Also,
An agitator, an air pump, etc. are separately provided in the main tank 52,
It is also possible to float and collect and remove the flocs that settle, but this leads to an increase in the cost of the purification treatment device.

An object of the first invention is to eliminate the use of a pressurized water pump, a pressurized water tank, an air compressor, etc. as the pressurized water mechanism, and to make the apparatus compact.
A second object of the present invention is to further prevent floc precipitation in the main tank.

[0009]

The first invention for solving the above-mentioned problems is to purify the water to be treated which has been contaminated in the water-based coating booth and has returned to the main tank from the coating booth via the treated water return path. A treatment device, which is connected to the main tank via a treated water supply pipe line, is provided in the treated water supply pipe line and a floating treatment tank for levitating the treated water, and is provided in the main tank. The treated water pump for sending the treated water to the floating treatment tank, and the treated water supply pipe line on the downstream side of the treated water pump, which sucks the air sucked by the negative pressure action to the treated water. An air suction device for mixing is provided.

The second invention for solving the above-mentioned problems is also a purification treatment apparatus for purifying water to be treated, which is connected to the main tank via a treatment water supply pipe line to treat the water to be treated. A levitation treatment tank for levitation treatment, a treated water pump which is provided in the treated water supply pipeline, and which feeds the treated water in the main tank to the levitation treatment tank, and the downstream side of the treated water pump. A first air suction device that is provided in the treated water supply pipe and mixes the air sucked into the treated water by a negative pressure action, and a connection pipe that connects the floating treatment tank and the treated water return passage And a treated water pump that is provided in the connection pipeline and that feeds the treated water treated in the floating treatment tank into the treated water return passage, and the connection pipeline that is downstream of the treated water pump. , Suck the treated water by negative pressure It is characterized in that it comprises a second air suction device for mixing the air.

[0011]

In the purifying apparatus of the first aspect of the present invention, the treated water pump supplies the treated water from the main tank to the floating treatment tank through the treated water supply pipe line. Then, air is mixed with the water to be treated by a negative pressure action by the air suction device provided in the water to be treated supply line on the downstream side of the water to be treated pump. A chemical such as a coagulant, an auxiliary agent, or a pH adjusting agent is added to the water to be treated before and after the air suction device in the water to be treated supply line, and the chemical is sucked by the air suction device. It is surely mixed with the water to be treated by the stirring action of. As a result, the paint in the water to be treated aggregates to form flocs.

In the flotation treatment tank to which the flock forming water is introduced, the flocs are well floated together with the air bubbles sucked by the air suction device. Then, the floating flocs are collected in a collection tank or the like, and only the clarified treated water is returned to the main tank. As described above, in the first aspect of the present invention, the water to be treated and the chemicals such as the coagulant are reliably mixed by the stirring action of the air sucked by the air suction device, and the flocs are well floated in the flotation treatment tank. . For this reason, it is possible to abolish the use of a flocculating tank for mixing a chemical such as a flocculant with the water to be treated, a pressurized water pump as a pressurized water mechanism, a pressurized water tank, an air compressor, etc. Will be more compact.

Further, in the purification treatment apparatus of the second invention, the treated water is sent from the main tank to the flotation treatment tank, and the treated water is treated in the flotation treatment tank in the same manner as the apparatus of the first invention. It Then, the treated water treated in the flotation treatment tank is sent to the treated water return passage through the connection conduit by the treated water pump while the air is mixed by the second air suction device on the way. The treated water treated in the flotation treatment tank contains some amount of a chemical such as a coagulant added in the treated water supply pipe. When the treated water containing the air and the chemical is mixed with the treated water returning from the aqueous coating booth, the treated water returning from the aqueous coating booth is agitated by the air sucked by the second air suction device. The paint and the chemical contained in the treated water are reliably mixed. Then, the coating material in the water to be treated is aggregated according to the amount of the chemical contained in the treated water to form flocs. When the flock forming water returns to the main tank, the flock floats well together with the air bubbles sucked by the second air suction device.

As described above, according to the second aspect of the present invention, the treated water treated in the flotation treatment tank and containing a chemical such as a coagulant is sucked in the middle of the treatment water to the treated water return path which returns from the coating booth. Sent. Therefore, the chemicals in the treated water are reliably mixed with the coating material in the treated water by the agitating action of the air in the treated water return path to agglomerate the coating material, so that it depends on the amount of the chemical agent contained in the treated water. It is possible to reliably form a minute flock. Moreover, the flocs are reliably floated by the action of the air sucked from the second air suction device when being introduced into the main tank from the treated water return path.
Further, unlike the conventional apparatus, the treated water containing the chemical is not directly returned from the floating treatment tank into the main tank, and no flocs are formed in the main tank. Therefore, it is possible to effectively prevent the flocs from settling in the main tank and easily collect the floating flocs.

[0015]

EXAMPLES Examples of the present invention will be described below. The purification treatment apparatus for the water to be treated in the water-based coating booth of this embodiment is obtained by reducing the purification treatment apparatus actually used to 1/2000. As shown in FIG. 1, this purifying apparatus is sent from a main tank 2 to a water-based coating booth 3 by a circulation pump 1 and collects paint mist in the coating booth 3 to be contaminated. The water to be treated returned to the main tank 2 via the is purified.

A floating treatment tank 6 is connected to the main tank 2 via a treated water supply pipe line 5 connected to the upper portion of the main tank 2. A filter mechanism 2a is provided above the main tank 2 to which the water to be treated supply pipe 5 is connected, so that solid matters floating in the main tank 2 and floating flocs can be collected. Has become. The treated water in the main tank 2 is floated in the treated water supply pipeline 5.
A to-be-processed water pump 7 to be sent to and to the to-be-processed water pump 7, the 1st air suction device 8 which sucks air by a negative pressure action and mixes this air with to-be-processed water is provided.
The untreated water injection section is provided in the untreated water supply pipe line 5 immediately upstream of the first air suction device 8.
The first air suction device 8 is made of a metal aspirator SK (made by Kagaku Kyoei Co., Ltd.) having a substantially cylindrical overall shape, and as shown in FIG. 2, a large-diameter cylindrical portion 81 having an inner diameter of 11 mm and a length of 35 mm, and an inner diameter. Small-diameter cylindrical part 8 with a length of 5 mm and a length of 35 mm
2 and. Further, the large-diameter cylindrical portion 81 is internally provided with a funnel portion 83 having a minimum inner diameter of 2.5 mm, and an air suction port 8 having an inner diameter of 4 mm on the lower side surface thereof.
4 are provided.

The levitation processing tank 6 is provided with a scraper 9 for scraping the flocs that have floated. The flocs scraped off by the scraper 9 are collected in a collection tank 10 adjacent to the flotation processing tank 6. Then, the treated water tank 12 is connected to the levitation treatment tank 6 via the first connection conduit 11. The treated water tank 12 includes a drain pipe 13 and a second pipe.
The connection pipe line 14 is connected, and the second connection pipe line 14 is connected to the treated water return line 4 from the coating booth 3. Further, in the middle of the second connection pipeline 14, a treated water pump 15 for feeding the treated water in the treated water tank 12 to the treated water return passage 14 from the coating booth 3 and a downstream side of the treated water pump 15, A second air suction device 16 is provided for sucking air by negative pressure and mixing the air with the water to be treated. The second air suction device 16 also has the same shape as the first air suction device 8 and has the same size or a slightly smaller size.

The capacity of each of the above tanks, the chemicals used, and the like can be set and selected as appropriate, but in this embodiment, they are as follows. In addition, 1/10 to 1/4 of the water in the main tank 2
The degree can be sent to the flotation treatment tank 6 by the treated water pump 7. The ratio of the treated water treated in the flotation treatment tank 6 to the treated water returning from the coating booth 3 is preferably as large as possible, and it is effective to mix 10% or more of the treated water. Is. In addition, the amount of treated water that is discharged out of the system as a measure for soluble organic substances (COD) can be about 10 to 30% of the whole.

Main tank 2 capacity: 51 liters Initial water-based paint mixing amount in main tank 2: 250 grams Circulating pump 1 water quantity: 11.6 liters / min Coating booth 3 tank water quantity: 6 liters Coating booth 3 water-based Amount of paint mixed: 1.7 cc / min Water amount of treated water pump 7: 1.7 liters / min Water amount of flotation treatment tank 6: 3 liters Water amount of treated water tank 12: 0.5 liters Flocculant: sulfuric acid band (pair Paint 10% added) Auxiliary agent: Hakutron A27-30M (manufactured by Hakuto, 1 ppm added) pH adjuster: 1N-caustic soda (7 ± 0.5 with pH meter)
Outside the system, the amount of drainage water and the amount of make-up water: 50 cc / min In the above-mentioned purification treatment device, the treated water in the upper layer portion in the main tank 2 is floated by the treated water pump 7 via the treated water supply pipe line 5. It is sent to the tank 6. A predetermined amount of the above-mentioned medicine is added from a medicine injection portion provided in the treated water supply pipeline 5, and then the air sucked from the first air suction device 8 becomes the treated water in the treated water supply pipeline 5. Mixed. By the stirring action of this air, the paint in the water to be treated and the above-mentioned chemicals are reliably mixed, and the paint aggregates to form flocs.

The flock forming water is guided to the flotation treatment tank 6, and in the flotation treatment tank 6, the flocs are favorably levitated together with the air bubbles sucked by the first air suction device 8. Then, the floated flocs are collected by the scraper 9 in the collection tank 10, and only the clarified treated water is sent to the treated water tank 12 via the first connecting pipe 11.

The treated water in the treated water tank 12 is mixed with air by the second air suction device through the second connecting pipe line 14 while the treated water is pumped from the coating booth 3 by the treated water pump 15. Is sent to the untreated water return path 4. In addition, in the treated water treated in the floating treatment tank 6,
The chemical added in the treated water supply pipeline 5 is contained to some extent. When the treated water containing the air and chemicals is mixed with the treated water returning from the water-based coating booth 3, the treated water returning from the water-based coating booth 3 is agitated by the air sucked by the second air suction device 16. The paint in the treated water and the chemical contained in the treated water are reliably mixed. Then, the coating material in the water to be treated is aggregated according to the amount of the chemical contained in the treated water to form flocs.

When the flock forming water returns to the main tank 2 through the treated water return path 4, the flock floats well together with the air bubbles sucked by the second air suction device 16. The floating flocs that have floated in the main tank 2 are collected by the filter mechanism 2a. Further, a part of the treated water in the treated water tank 12 is soluble organic matter (CO
D) As a measure, it is discharged from the drain pipe 13 to the outside of the system.
In addition, industrial water is supplied to the main tank 2 by the amount of the discharged water.

In this embodiment, the first air suction device 8 or the second air suction device
Very small bubbles can be generated in the water to be treated or the treated water by the air sucked and mixed by the negative pressure from the air suction device 16. Therefore, the action of the air sucked by the first air suction device 8 ensures that the medicine injected immediately before the first air suction device 8 and the water to be treated are mixed, and the flocculation is performed by the floating treatment tank 6. It can be successfully surfaced. Therefore, like the conventional device, it is possible to abolish the use of a coagulation tank for mixing a chemical such as a coagulant with the water to be treated, a pressurized water pump as a pressurized water mechanism, a pressurized water tank, an air compressor, etc. Can be made compact.

Further, in the present embodiment, the treated water treated in the floating treatment tank 6 is transferred from the treated water tank 12 to the second connecting pipe line 1.
Air is sucked from the second air suction device 16 midway through 4, and is directly mixed with the treated water in the treated water return path 4 returning from the coating booth 3. Therefore, the chemicals contained in the treated water are supplied to the coating booth 3 by the stirring action of the air in the treated water return path 4 which is much narrower than the main tank 2.
Since the paint in the water to be treated returning from the water is surely mixed and the paint is aggregated, it is possible to surely form the flock corresponding to the amount of the chemical. Moreover, the flocs are reliably floated by the action of the air sucked from the second air suction device 16 when introduced into the main tank 2 from the treated water return path 4. Further, unlike the conventional device, the treated water containing the chemical is not directly returned from the floating treatment tank 6 into the main tank 2, and the flocs are not formed in the main tank 2. Therefore, it is possible to effectively prevent the flocs from settling in the main tank 2 and easily collect the floating flocs. Therefore, the main tank 2
It is possible to further clarify the water inside, and it is possible to significantly reduce the frequency of cleaning the inside of the main tank 2.

Further, since the water in the lower layer in the main tank 2 has a low SS concentration (solids concentration), the trouble of clogging of the circulation pump 1 can be reduced. Furthermore, the upper layer water in the main tank 2 has a higher SS concentration,
Since this is sent to the floating treatment tank 6, it is possible to reduce the amount of treated water, which also makes it possible to make the purification treatment apparatus compact. Furthermore, in the conventional purifying device, a stirrer, an air pump, etc. are separately provided in the main tank to remove the precipitates in the main tank 2. However, according to the device of the present embodiment, these devices are provided. It is not necessary to separately provide it, and the cost of the purification processing device can be reduced.

In the above embodiment, the first air suction device 8
Although the medicine is injected before this, that is, on the upstream side, the medicine is not limited to this location, and the medicine may be injected on the downstream side of the first air suction device 8. However, in order to reliably mix the chemicals into the water to be treated and surely aggregate the coating material by the stirring action of the air sucked by the first air suction device 8, the first air suction device as in the apparatus of this embodiment is used. It is preferable to inject the drug just before step 8. In addition, the first of the above agents is a coagulant and a pH adjuster.
By injecting immediately before the air aspirator 8 and by injecting Hactron A27-30M as an auxiliary agent immediately after the first air aspirator 8, by promoting the optimum agglutination reaction mechanism,
It is more preferable because it is possible to effectively prevent the formation of precipitated flocs in the floating treatment tank 6.

Further, the sizes of the first air suction device 8 and the second air suction device, the size of the caliber of the tapered portion 82, and the like can be appropriately set according to the size and amount of bubbles required. Furthermore, instead of the second air suction device 8 provided in the second connection conduit 14, it is possible to provide a pressurized water tank and an air compressor, or a simple air pump.

(Evaluation of Purification Performance) In order to evaluate the purification performance when the purification treatment was performed using the apparatus of the above-mentioned embodiment, the water quality of the treated water before the treatment and the quality of the treated water after the treatment for 90 minutes were compared. The results are shown in Table 1. For comparison, instead of the first air suction device 8, an air pump and a Kinoshita ball filter are set, and purification of a comparative example in which 150 cc / min of air is forcibly supplied to the flotation treatment tank 6 by the air pump Water quality was similarly compared for the treatment equipment. The results are also shown in Table 1.

[0029]

[Table 1] From these results, it is apparent that the apparatus of the present example significantly improves the clarification degree of the treated water as compared with the apparatus of the comparative example.

In the apparatus of this embodiment, almost no settling flocs were formed in the flotation treatment tank 6, whereas in the apparatus of Comparative Example, a small settling floc was formed and deposited in the flotation treatment tank 6. This is because, in the comparative device, since the air pump is used, the size of the bubbles generated is large and the flocs cannot be satisfactorily levitated.

In both devices, in the main tank 2,
Floating flocs are satisfactorily generated from the treated water return path 4,
Almost no flocs settled in the main tank 2.

[0032]

As described above in detail, the first and second inventions of the present invention
According to the device of the invention, it is not necessary to use a pressurized water pump, a pressurized water tank, an air compressor or the like as in the conventional device in order to float the flocs in the flotation treatment tank, and only the air suction device can substitute these devices. This makes it possible to significantly contribute to downsizing of the purification treatment device.

Further, according to the apparatus of the second aspect of the present invention, the action of the air sucked by the second air suction device is effectively used while effectively utilizing the chemical such as the coagulant contained in the treated water treated in the floating treatment tank. Thus, it is possible to effectively prevent the flocs from settling in the main tank 2 and to easily collect the floating flocs, and to further improve the clarity of the main tank. Therefore, it is not necessary to separately provide an agitator, an air pump, or the like in order to remove sedimented flocs in the main tank, which contributes to cost reduction of the purification treatment device.

[Brief description of drawings]

FIG. 1 is a schematic diagram schematically illustrating a purification processing apparatus of this embodiment.

FIG. 2 is an enlarged schematic view of a main part of the purification processing device.

FIG. 3 is a schematic diagram schematically illustrating a conventional purification processing device.

[Explanation of symbols]

2 ... Main tank 3 ... Water-based coating booth 4
... Treated water return path 5 ... Treated water supply pipeline 6 ... Flotation treatment tank 7
... Treated water pump 8 ... First air suction device 11 ... First connection line 1
4 ... 2nd connection pipeline 15 ... Treated water pump 16 ... 2nd air suction device

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Jun Saiki 6-6-9 Aliascho, Yokkaichi City, Mie Prefecture Yokkaichi Research Institute, Hakuto Co., Ltd.

Claims (2)

[Claims] 1. A purification treatment device for purifying water to be treated which has been contaminated in an aqueous coating booth and has returned to the main tank from the coating booth via a treated water return path, wherein the main tank and the treated water supply pipe A flotation treatment tank that is connected via a channel to levitate the treated water, and a treated water pump that is provided in the treated water supply pipe and that feeds the treated water in the main tank to the flotation tank. And an air aspirator that is provided in the treated water supply pipeline downstream of the treated water pump and that mixes the air sucked into the treated water by a negative pressure action. Purification treatment device for water to be treated in the coating booth. 2. A purification treatment device for purifying water to be treated which has been contaminated in an aqueous coating booth and returned from the coating booth to a main tank via a treated water return passage, wherein the main tank and the water to be treated supply pipe A flotation treatment tank that is connected via a channel to levitate the treated water, and a treated water pump that is provided in the treated water supply pipe and that feeds the treated water in the main tank to the flotation tank. A first air suction device which is provided in the treated water supply pipe downstream of the treated water pump and which mixes air sucked into the treated water by a negative pressure action; A connection pipe connecting the treated water return passage, a treated water pump provided in the connection pipe for feeding the treated water treated in the floating treatment tank into the treated water return passage, and the treated water In the connection line on the downstream side of the pump And a second air suction device for mixing the treated water with the air sucked by the negative pressure action, to purify the treated water of the water-based coating booth.