JPH02203990A - Waste water treatment apparatus, and bubble generating means and ozone generating means used therefor - Google Patents

Abstract

PURPOSE:To reduce running cost by providing a bubble generating means and an ozone generating means for mixing ozone into gases which are supplied to the bubble generating means. CONSTITUTION:When the air ratio which ozone has been mixed is forced into an air diffuser pipe 300, bubbles of various size are formed from a net member 320 and held under the under surface of an elastic thin film member 332. When the pressure of the bubbles, as they grow up, becomes higher than the water pressure, the thin film member 332 is opened upwardly, causing thereby the bubbles to float. When the bubbles pass through an opening 331, they are compressed and divided instantaneously into small bubbles, which are combined into larger bubbles again after they have passed through the opening 331. The water above the bubbles are pushed up, so that whirling currents occur, causing thereby the inside of a purification tank 200 to be agitated. When bubbles are divided or combined, ultrasonic waves are generated, so that decomposition of organic matters is accelerated.

Description

[Detailed description of the invention] "Industrial application field" The present invention increases the amount of dissolved acid in wastewater, and
4) Sewage treatment equipment that can make bacteria old and old (Lf), 1) It is important to have an ozone generating means to sterilize, and 1) sewage treatment equipment 2) In addition, the present invention 6", this dirt No. 1 ("prior technology" related to bubble generation means and ozone generation means optimal for sagi treatment equipment) Japan's sewage system completion rate is extremely low, and 71 In areas where the road is not marked, use individual septic tanks)F(
The waste was disposed of and discharged into rivers, etc. The basics of this treatment are (1) decomposition by cutilli, etc., and sterilization by chlorine. A diffuser pipe with multiple holes in a hollow cylinder is used to supply the acid + f), which requires a large amount of oxygen.And since it is necessary to stir the inside of the septic tank, a stirrer using rotary blades is used. ``Problems to be solved by the invention'' that were used in the past Dissolved oxygen increases in the trachea, which poses a problem if the processing capacity cannot be increased.Furthermore, mere aeration does not produce a swirling flow, and an externally powered agitator must be operated, making maintenance difficult. There was a problem of high cost.7 Furthermore, aeration pipes that do not have multiple holes formed in a hollow cylinder always have a constant L because they become clogged with sludge.
There was a problem in that high-pressure air had to be continuously supplied above the SJ, which resulted in extremely high running costs. In addition, conventional aeration pipes can decompose oil, but there is a problem in that it costs a lot of money to remove this oil. ``Means for Solving the Problems'' The present invention has been devised in view of the above-mentioned problems, and includes a method for generating bubbles to release air bubbles into sewage in a sewage treatment tank. and an ozone generating means for mixing ozone into the nail wood supplied to the bubble generating means.The bubble generating means of the present invention also includes a gas discharge section for connecting to the gas supply means. , ′ at least the upper surface part of the gas discharge part (
A net member having a curvature formed above the gas discharge portion, a frame member having a curvature, and a frame member C having a curvature formed above the gas discharge portion.
and an elastic member formed in the frame member for opening and closing the opening.Furthermore, the present invention provides that the bubble generating means includes a gas discharge section for connecting to the gas supply means. , a net member formed on at least the upper surface of the gas discharge section, a frame member formed above the gas discharge section and having a curvature, an opening formed in the frame member, and a loop formed in the frame member. The bubble generating means of the present invention includes a hollow member having a plurality of holes and not being connected to the gas supply means. The frame member is formed above the hollow member and has a curvature, an opening formed in the frame member, and a net member formed in the opening. Further, the present invention provides that the bubble generating means includes a hollow member in which y number of holes are bored, a hollow member for connecting the gas supply means, and a frame member formed above the hollow member and having a curvature;
The interior of the sewage treatment tank is comprised of an opening formed in this frame member and a net member formed in this opening.
The ozone generating means of the present invention is composed of a low-pressure mercury discharge lamp and a means for driving the low-pressure mercury discharge lamp. The generating means generates ozone and mixes a trace amount of ozone in the gas supplied to the bubble generating means, which does not affect bacteria, and the bubble generating means generates the bubbles mixed with ozone into the sewage treatment tank. The present invention is characterized in that the gas supplied from the gas supply means is discharged in the form of bubbles from the net member formed at least in the -F direction of the gas discharge part. Air bubbles stay in the frame member with curvature and grow into large bubbles, and when the buoyancy of the remaining gas exceeds the water pressure at the opening formed in the frame member, the air bubble is formed at the opening. Release the elastic member to remove dirt.
Furthermore, the present invention provides a plurality of holes through which the gas supplied from the gas supply means is drilled in the hollow member.

Among the air bubbles, relatively large ones stay in the mesh member formed at the opening of the frame member with curvature and continue to grow. (When force is applied to the frame member), large air bubbles pass through the opening and are released upward. Generator 1 (Example 2) The driving means can drive a low-pressure mercury discharge lamp to emit a violet ray of a certain wavelength to generate ozone. The dirt 4 ('IJL beating device) of this embodiment is as shown in Figure 1.
The sewage treatment tank 200, which is composed of the main treatment tank 200, the aeration pipe 300, the air pump 1, and the ozone generating means 5 or J', stores dirt and filtrate, and uses the decomposition power of bacteria to dissolve the waste. The air diffuser pipe 300 is a device that is sent from the air pump 1, turns the broken gas into bubbles, and releases the bubbles to the sewage in the sewage treatment tank 200. The diffuser pipe 300 corresponds to a bubble generating means, and the structure of the diffuser pipe 300 will be explained based on FIGS. 2 and 3.
20 and an outer frame body 330.
)) A net member 320 can be attached to the upper surface of this gas discharge part 311. An ozone generating means 5 is connected to this gas discharge part 311 with an appropriate hose member. A force connecting portion 312 protrudes from the side wall for connection with the outer frame 330.
is formed, and this opening 331.331 (koha,
Each thin film elastic member 332 is attached to a thin film elastic member 332. The thin film elastic member 332 is divided into a plurality of parts, and is configured so that when the buoyancy of the bubble overcomes the water pressure, one of the thin film elastic members 332 opens. . Furthermore, open holes 333, 333, . When air mixed with ozone is pumped through the air diffuser 300 configured as above, air bubbles of various sizes are generated in the net member 320 and remain on the lower surface of the thin film 9ip member 332. Then, the bubble comes into contact with the opening 337 and grows synthetically into a large bubble, but the buoyancy of the bubble causes the opening 331
For field sounds that are lower than +l<pressure by 1 degree, the thin film elastic member 3
3/) The air bubbles cannot open and the air bubbles cannot float. However, the air bubbles grow, and when the pressure becomes greater than 1, the thin film elastic member 332 opens upward, making the air bubbles float. At this time, the number of air bubbles that have accumulated is too large to instantly pass through the opening 331, so
The bubble is compressed, and immediately after passing through the opening 331, it expands greatly until the water pressure and balance settle down7.
Also, large air bubbles are instantaneously fragmented when they pass through the opening 331, and after passing through the opening 331, they are recombined and become large air bubbles. At this time, the water at the top of the large air bubbles is pushed up. As a result, a swirling flow is generated, and this swirling flow can stir the inside of the septic treatment tank 200, and when large air bubbles pass through the opening 331, they are compressed.
When the gas temperature rises to 7 and passes through the opening 331, the bubble expands again and is rapidly cooled; however, since the bubble is generated at a daytime volume at a temperature of As a result, the volume decreases and the surface tension increases.For this reason, the bubbles appear to be hard, but when these bubbles are decomposed and synthesized, they generate more energy than normal bubbles. As a result of the ultrasonic waves generated, the decomposition of organic matter is accelerated, and the amount of dissolved oxygen in the sewage treatment tank 200 can be increased due to the decomposition of air bubbles.
So, it's dirty.

The thin film elastic member 332 in the water treatment tank 200, which can activate Cucilia, moves up and down as the air bubbles float, so it is possible to strip the sludge and prevent clogging. When this embodiment was compared with the existing air diffuser pipe, it was found that the amount of dissolved oxygen could be approximately doubled.Next, a modified example of the air diffuser pipe 300 will be explained based on Fig. 4. In the aeration pipe 300, the gas discharge part 311 and the net member 3
20, a hollow cylinder 340 having a plurality of holes is used. In this embodiment, a hollow cylinder shape is used, but it is also possible to use a hollow cylinder shape with a rectangular cross section.
Then, instead of the thin film elastic member 332, a net member 3''i (
], 350 are used Hollow circle f? When air containing i3 lO mixed with ozone is pumped, air bubbles of various sizes are generated from the holes formed in the hollow cylinder 3410, and the air bubbles are transferred to the net member formed in the opening 33 I. 7 Then, when the buoyancy of the bubble becomes greater than the water pressure applied to the opening 331, the bubble passes through the opening 331 and floats up, similar to the rFr pressing example. As the bubbles pass through the net members 350, 350, they are instantaneously divided into small pieces, and after passing through, the bubbles are synthesized into large bubbles.As a result, the decomposition and synthesis of the bubbles becomes active, so that Increasing the amount of dissolved oxygen in the body.

However, since the other functions are the same as those of the previous embodiment, the explanation will be omitted.If the aeration pipe 300 configured as above is applied to the sewage treatment equipment shown in FIG. Not only does it increase the amount of dissolved oxygen in the treatment tank 200 to promote the decomposition of waste by bacteria, but it also sterilizes high-molecular substances by converting high-molecular substances into low-molecular-weight substances with one drop of ozone. In particular, the disinfecting power of ozone is said to be 50 times that of chlorine, and it is possible to reduce the amount of chlorine used in the final stage.

The air pump 4 corresponds to a gas supply means and pumps gas to the diffuser pipe 300.

This air pump 4 can employ an appropriate gas supply means such as a compressor.
Since the blowing pressure is required rather than the blowing air volume, a reciprocating pump is preferable to a rotary pump.Next, the ozone generating means 5 will be explained based on FIG. 5.
The ozone generating means 5 includes an ozone generating chamber 51, a quartz ultraviolet lamp 52, a ballast 53, and a glow lamp 54. The ozone generation chamber 51 is a sealed container, and a quartz ultraviolet lamp 52 is provided inside. This ozone generation chamber 51 has an inlet 55 and an outlet 56.
The quartz ultraviolet lamp 52 is used to generate ozone. It is a low-pressure mercury discharge lamp with 3 meters of transparent quartz tube as the outer bulb. In particular, the quartz ultraviolet lamp 52 having a wavelength of I S5 nm is configured to emit light to the outside.
The ballast 53 and the glow lamps 5 and 1, which can generate ultraviolet rays called ozone lines that generate ozone in the air, correspond to the driving means 200 of the low-pressure mercury discharge lamp. This driving means 20'O is It works in the same way as a general fluorescent light force field sound.1 Quartz ultraviolet lamp 52
This is to start the lamp 5-1 and stabilize the discharge current after starting.
The quartz ultraviolet lamp 52 can be driven using an inverter.The quartz ultraviolet lamp 52 has the advantage of being extremely safe since it does not produce nitrogenous noise.

In this embodiment configured as above, the air pump 4 pumps air to the ozone generating means 5. Here, the ozone generated by the ozone generating means 5 is mixed and sent to the aeration pipe 300. 300 generates air bubbles the size of seeds, which has the effect of decomposing various substances, and the air bubbles can dissolve a large amount of oxygen, reducing dissolved oxygen in wastewater. There are two things you can do to increase the amount.

Therefore, / (Kuderia can be activated and the sewage treatment ability can be improved, and since a small amount of ozone is stored in the bubbles by the ozone generating means 5, ozone has a sterilizing effect and causes the proliferation of various bacteria. In addition, ozone has a powerful bleaching blade and participating power, so it can increase the decomposition rate of chlorine 1 carcinogens, etc. 5 And ozone itself is unstable, and oxygen This has the effect of increasing the amount of dissolved oxygen.

It is also possible to install a plurality of air diffusers 300 and supply ozone or other mixed gas to some of the air diffusers 300. In this case, the operation may be adjusted according to the season or the type 3 (1-). For example, in the summer, the ozone mixture is increased to prevent the generation of bad odors. Since it has a structure in which large bubbles are allowed to stay and are released after growing, it has the effect of realizing energy saving.

"Effects" LJ, The present invention configured as in (g) includes a bubble generating means for releasing bubbles into the sewage in the sewage treatment tank, and a large amount of ozone added to the gas supplied to the bubble generating means. The bubble generating means increases the amount of dissolved oxygen in the water, activates bacteria, and promotes the decomposition of waste. It has the effect of improving the purification function of the septic tank using the sludge method.Moreover, the small amount of ozone generated from the ozone generating means can prevent the growth of bacteria and increase the amount of dissolved oxygen. In addition, ozone's powerful bleaching blade and oxidizing power promote the decomposition reaction of various substances by bubbles, and its strong deodorizing power can eliminate bad odors.It also decomposes oil. Because I can do it.

When can it be effective to prevent the occurrence of bad odors?
It is also possible to reduce maintenance costs by improving COD, BOD, etc. and reducing scum.

As described above, in the present invention, the bubble generating means grows small bubbles to generate large bubbles, and when the balance between buoyancy and water pressure is disrupted, the bubbles are released. The bubble generation means can be driven by a type 1 pump, etc., and it is effective to save energy by 1%. Also, since a swirling flow is generated when bubbles float, it is possible to reduce the inside of the sewage treatment tank. The bubble generating means of the present invention has a far-reaching effect in that it can stir and there is no need to prepare a separate stirrer. a frame member formed above the gas discharge part and having a curvature; an opening formed in the frame member; Since it is composed of an elastic member for opening and closing the opening, the air bubbles can be retained within the frame member, and when the buoyancy of the air bubbles exceeds the pressure, the air bubbles are instantly released from the opening. (Accordingly, the bubbles are compressed when they pass through the opening, and can be expanded again after passing through, making it possible to generate high-energy bubbles that can increase the amount of dissolved oxygen.* Furthermore, since a swirling flow is generated when the air bubbles rise, the water quality in the septic tank can be improved.Furthermore, since the elastic member is configured to open and close the opening, The air bubble generating means of the present invention has an outstanding effect of being able to remove the filth that exists in 1) and preventing clogging of the opening. A hollow member for connecting to a gas supply means, a frame member formed above the hollow member and having a curvature, an opening formed in the frame member, and a net member formed above the opening. The ozone generating means of the present invention includes a low-pressure mercury discharge lamp, and a low-pressure mercury discharge lamp.
and a driving means for driving this low-pressure mercury discharge lamp, it has the effect of providing an ozone generating means that does not emit harmful nitrogen compounds, etc.

[Brief explanation of the drawing]

The figures show an embodiment of the present invention, and FIG. 1 is a diagram explaining the configuration of the sewage treatment equipment of the present embodiment, FIG. 2 is an exploded perspective view showing the configuration of the aeration pipe, and FIG. Cross-sectional view of the diffuser pipe,
Fig. 4 is a sectional view showing a modified example of the air diffuser pipe, and Fig. 5 is a diagram showing the configuration of the ozone generating means. Pump, ozone generation means, diffuser pipe body, gas discharge part, net member, thin film elastic member, hollow member, quartz ultraviolet lamp S3 diagram (L) Procedural amendment (method) May 10, 1999 Heisei 1 Year Patent Application No. 20467 2゜Name of the invention Sewage treatment equipment and the bubble generating means and ozone generating means used in the equipment 3゜Relationship with the case of the person making the amendment Patent applicant 1-1 Kita-Shinjuku, Shinjuku-ku, Tokyo No. 15 Co., Ltd. Japan Nature Roman Representative Seiji Notomi 4゜ Agent Postal code 101 (Telephone) 293-6384 1-5-6 Kanda Surugadai, Chiyoda-ku, Tokyo

Claims (6)

[Claims] (1) Waste water characterized by comprising a bubble generating means for releasing bubbles into the waste water in the sewage treatment tank, and an ozone generating means for mixing ozone into the gas supplied to the bubble generating means. Processing equipment. (2) a gas discharge section for connection to a gas supply means; a net member formed on at least the upper surface of the gas discharge section; a frame member formed above the gas discharge section and having a curvature; 1. A bubble generating means for use in a sewage treatment apparatus, comprising an opening formed in a frame member and an elastic member formed in the frame member for opening and closing the opening. (3) the bubble generating means is formed above a gas discharge section for connecting to the gas supply means, a net member formed on at least the upper surface of the gas discharge section, and above the gas discharge section;
The sewage treatment apparatus according to claim 1, comprising a frame member having a curvature, an opening formed in the frame member, and an elastic member formed in the frame member for opening and closing the opening. (4) A hollow member having a plurality of holes bored therein for connection to a gas supply means, a frame member formed above the hollow member and having a curvature, and an opening formed in the frame member. and a net member formed in the opening. (5) The bubble generating means is formed in a hollow member having a plurality of holes and connected to the gas supply means, a frame member formed above the hollow member and having a curvature, and a frame member formed in the frame member. 2. The sewage treatment apparatus according to claim 1, comprising: an aperture formed through the sewage treatment apparatus; and a net member formed in the aperture. (6) An ozone generating means for use in a sewage treatment apparatus, comprising a low-pressure mercury discharge lamp and a driving means for driving the low-pressure mercury discharge lamp.