KR20200112187A - Wastewater processing hydroextractor suitable for layered structures - Google Patents

Abstract

The present invention relates to a contact filter for purifying wastewater suitable for a laminated structure. Specifically, the present invention provides a structure of a contact filter for purifying wastewater suitable for a laminated structure, wherein a number of irregular foaming holes, which are created on the surface and back of the contact filter by the foaming agent added to the contact filter composed of a reinforcing part, a straight part and a vertically symmetrical arc part, can attach and grow many microorganisms. In addition, the amethyst powder which emits far-infrared rays intensively nurtures only the microorganisms which are beneficial for water purification, while microorganisms which are not useful for water purification inhibit growth, thereby purifying the water quality within a short time. Accordingly, because the highest purification efficiency is maintained, it is possible to reduce the size of the wastewater treatment plant, suppress the occurrence of bad odors, and recycle waste materials.

Description

Contact filter for wastewater purification treatment suitable for lamination structure {WASTEWATER PROCESSING HYDROEXTRACTOR SUITABLE FOR LAYERED STRUCTURES}

The present invention relates to a contact filter for purification of wastewater, and in particular, a plurality of irregular foaming holes generated on the surface and back of the contact filter by the foaming agent added to the contact filter consisting of a reinforcing part, a straight part, and an upper and lower large-layered arc part. It can grow by attaching many microorganisms, and can purify the water quality by amethyst powder that emits far-infrared rays, and because it maintains the highest purification efficiency, it is possible to reduce the size of wastewater treatment plants, suppress the occurrence of odors, and waste materials. It relates to the structure of a contact filter for wastewater purification treatment that can recycle wastewater.

In general, the method of treating wastewater using microorganisms is roughly divided into an activated sludge method using floating microorganisms and a biofilm method using adherent microorganisms.

Since the activated sludge method is difficult to control the concentration of microorganisms, it is a biofilm method that compensates for this disadvantage.

The biofilm method described above is a method of purifying water quality by culturing microorganisms after filling a water tank (aeration tank) with contact media (media, microbial carrier). Existing contact media secure a habitat (area) as much as possible to prevent a large amount of microorganisms. Although it was manufactured and installed in a structure that can be attached and propagated, it takes about 30 to 40 days for the purification efficiency to be achieved, and by growing harmful bacteria that are useless for water purification, the space for the growth of beneficial microorganisms is reduced, and eventually the wastewater treatment plant It has a problem of increasing scale.

The purpose of this paper to solve and supplement these conventional problems,

Many microorganisms can be attached and grown, and only microscopic radishes that are beneficial for water purification are intensively nurtured, whereas microorganisms that are not useful for water purification inhibit the growth so that the water quality can be purified within a short time and the highest purification efficiency can be maintained. It provides the purpose of reducing the size of wastewater treatment plants, suppressing the generation of odors, and recycling waste materials.

In order to achieve the above objectives, this paper,

If a plurality of irregular foaming holes are created on the surface and back of the contact filter, which has a reinforcing part, a straight part, and a vertically symmetrical arc part, which are made by mixing a foaming agent with a raw material composed of waste synthetic resin powder and amethyst powder You will be able to.

This paper can attach and grow many microorganisms and concentrate only microorganisms that are beneficial for water purification, whereas microorganisms that are not useful for water purification can purify water within a short time by inhibiting growth and maintain the highest purification efficiency. Therefore, it has the effect of reducing the size of the wastewater treatment plant, suppressing the generation of odors, and recycling waste materials.

1 is a perspective view showing a contact filter for wastewater purification treatment suitable for the stacked structure of this draft
Figure 2 is a cross-sectional view for explaining the configuration of a contact filter for wastewater purification treatment suitable for the stacked structure of this draft
3 is a view for explaining the action of purifying sewage and wastewater by using an extruded product of contact filter for purification of wastewater and wastewater suitable for the laminated structure of this draft.
Figure 4 is a view for explaining the action of purifying sewage and wastewater using a contact filter for wastewater purification treatment suitable for the stacked structure of this draft
5 is a photograph of a prototype of a contact filter material for purification of wastewater and wastewater suitable for the stacked structure of this draft.

The configuration of the contact filter 101 in this paper will be described with reference to FIGS. 1 and 2 as follows.

A vertically symmetrical arc portion 103 formed in a symmetrical elemental shape,

A straight portion 102 formed at both ends of the vertically symmetrical arc portion 103 for stable loading and reinforcement of the arc portion 103,

A plurality of reinforcing portions 104 formed inside the vertically symmetrical arcs 103 between the two straight portions 102 to prevent deformation of the vertically symmetrical arcs 103,

The reinforcement part 104, the straight part 102, and the vertical symmetrical arc part 103 so that many microorganisms are attached to the reinforcing part 104, the straight part 102 and the vertically symmetrical arc part 103 to grow. It is a configuration having a plurality of foam holes 105 formed on the front and rear surfaces.

In addition, the reinforcing part 104, the straight part 102, and the vertically symmetrical arc part 103 are used in 90 to 95% by weight of raw materials consisting of 80 to 90% by weight of waste synthetic resin powder and 10 to 20% by weight of amethyst powder. It is made by mixing 5-10% by weight.

The operation of the contact filter in this paper is as follows.

First, by forming the vertically symmetrical arc portion 103 in a vertically symmetrical arc shape, more foaming holes 105 can be formed.

In addition, it is possible to stably load and reinforce the vertically symmetrical arcs 103 by the straight portions 102 formed at both ends of the vertically symmetrical arcs 103.

And, a plurality of reinforcing portions 104 formed inside the vertically symmetrical arc portion 103 between the two straight portions 102 are formed to prevent deformation of the vertically symmetrical arc portion 103, and at the same time, many foaming holes ( 105).

In addition, the reinforcing portion 104, the straight portion 102, and a plurality of foam holes 105 formed on the surface and the rear surface of the vertically symmetrical arc portion 103 are formed so that many microorganisms are attached to and grow.

In addition, the reinforcing part 104, the straight part 102, and the vertically symmetrical arc part 103 are used in 90 to 95% by weight of raw materials consisting of 80 to 90% by weight of waste synthetic resin powder and 10 to 20% by weight of amethyst powder. It is produced by mixing 5 to 10% by weight.

As shown in Fig. 3, this draft is to load the contact filter extruded product 121 itself into the septic tank 121 as shown in Fig. 3 or a plurality of contact filter media 101 cut to a certain size as shown in Fig. It is used by being suspended in wastewater.

That is, microbes present in the wastewater by the air supplied to the air supply pipe 122 of the septic tank 121 are reinforced with the reinforcing part 104 and the straight part 102 and the surface and the back of the vertically symmetrical arc part 103 It is attached to a plurality of foam holes 105 formed in it to be able to grow.

At this time, the amethyst powder that emits far-infrared rays concentrates only microorganisms useful for water purification, whereas microorganisms that are not useful for water purification inhibit the growth, thereby purifying the water quality within a short time.

101-contact media 102-straight part
103-up and down symmetrical arc part 104-reinforcement part
105-foam hole 111-extrusion
121-Septic tank 122-Air supply pipe

Claims (2)

An arc part formed in a vertically symmetrical arc shape,
A straight portion formed at both ends of the vertically symmetrical arc for stable loading and reinforcement of the vertically symmetrical arc;
A plurality of reinforcing portions formed inside the vertically symmetrical arc portion between the straight line portions on both sides to prevent deformation of the vertically symmetrical arc portion;
A laminated structure comprising a plurality of foam holes formed on the surface and the back of the reinforcing part, the straight part, and the vertically symmetrical arc part so that many microorganisms are attached to and grow in the reinforcing part, the straight part, and the vertically symmetrical arc part. The structure of the contact filter for purification of wastewater and wastewater. The method of claim 1,
The reinforcing part, the straight part, and the vertically symmetrical arc part are characterized by mixing 5 to 10% by weight of a foaming agent with 90 to 95% by weight of a raw material consisting of 80 to 90% by weight of waste synthetic resin powder and 10 to 20% by weight of amethyst powder. The structure of the contact filter for purification of wastewater and wastewater suitable for the laminate structure

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