CN205873998U - High -efficiency biological filler - Google Patents

Abstract

The utility model discloses a high -efficiency biological filler, biofilm carrier is the tubular structure, including endocentric extexine and endosexine, the cross -section of extexine and endosexine is just changeable shape, and there are a plurality of supporting rib in the use centre of a circle for central circumference is radial equipartition in the endosexine, keeps connecting the equal range upon range of unsmooth pitted skin structure of the protruding formation of a plurality of strings of membranes that sets up on extexine and the endosexine between extexine and the endosexine through connecting the rib. Its advantage that has combined soft filler and medium -soft nature filler has compensatied both shortcomings, and it is big to have a specific surface, and shaggy easy microorganism adheres to, and filler intensity is high, and non -deformable has increased a string membrane volume, has efficient sewage treatment effect.

Description

A kind of high-performance bio filler

Technical field

This utility model relates to water-treatment technology field, especially relates to a kind of high-performance bio filler.

Background technology

Along with the fast development of domestic economy, huge industrial wastewater discharge constantly deteriorates the living environment of periphery, right Resident is healthy creates large effect.The great environmental that the improvement of trade effluent has had become as current strategic point to be solved is asked Topic.Being generally divided into coagulation, two stage treatment and tertiary treatment according to the degree of Industrial Waste Water Treatments, two stage treatment generally includes Activated sludge process, biomembrance process and anaerobic treatment etc..Biomembrance process is the surface of solids one layer of biomembrane of growth flowed through at sewage, Utilizing the BOD in the microbiological oxidation sewage on biomembrane, the existence that filler is microorganism provides place, existing soft-filler Obvious with semi soft packing shortcoming, specific surface area is little, and structural strength is inadequate, is easily deformed, and the adhesion effect of microorganism is general, empty Gap rate is little easily causes blocking, conglomeration, and biological stability is poor.

Utility model content

This utility model is for the deficiencies in the prior art, and technical problem to be solved is to provide a kind of high-performance bio and fills out Material, it combines the advantage of soft-filler and semi soft packing, compensate for both shortcomings, has specific surface area big, rough surface Being prone to microorganism attachment, filling intensity is high, is unlikely to deform, increases biofilm amount, has efficient wastewater treatment efficiency.

This utility model is to make above-mentioned technical problem be addressed by the following technical programs.

A kind of high-performance bio filler, described biologic packing material is tubular structure, including concentric extexine and endosexine, appearance The cross section of layer and endosexine is positive shape changeable, and in endosexine, centered by the center of circle, circumference is radially evenly equipped with some brace rods Bar, by connecting rib holding connection between extexine and endosexine, on extexine and endosexine, equal stacking arranges some biofilms Convex to form concavo-convex pitted skin structure.

As preferably, the cross section of extexine and endosexine is the positive shape changeable that limit number is equal.

As preferably, support rod keeps head and the tail to connect with being connected one_to_one corresponding between rib.

As preferably, the circumscribed diameter of extexine and endosexine is than for 1:0.2 to 1:0.6.

As preferably, the diameter difference between extexine and the circumcircle of endosexine is 1 to 5mm.

The beneficial effects of the utility model:

1. by the cross section of extexine and endosexine is set to positive shape changeable and stacking thereon to arrange biofilm protruding, make The specific surface area and the roughness that obtain filler all obtain increase, thus expand surface biofilm amount, and microorganism is more easy to attachment, improves The volumetric loading of biochemical reaction.

2. the inner and outer surface layers cross section of tubular structure is set to regular polygon, adds the structural strength of filler, reduces abrasion, Impact resistance deforms, and biofilm projection may also operate as the dissection to bubble, and then increases the utilization rate of aeration aerating.

3. support rod radial uniform and be connected rib connecting structure from beginning to end one to one so that biologic packing material Voidage high, be not susceptible to blocking, the phenomenon of conglomeration.

The most easy to process, with low cost, intensity is good, has bigger space, and water body flow is good, uniform air distribution, biomembrane Metabolism run steadily in the long term, water treatment efficiency is high.

Accompanying drawing explanation

Fig. 1 is plan structure schematic diagram of the present utility model；

Fig. 2 is of the present utility model to face structural representation.

In figure: 1-extexine, 2-endosexine, 3-support rod, 4-connects rib, and 5-biofilm is protruding.

Detailed description of the invention

Below by embodiment and combine accompanying drawing this utility model is described in detail.

This utility model one high-performance bio filler as depicted in figs. 1 and 2, can select modification on materials application Polyethylene, polypropylene and polystyrene and add some such as functional auxiliary material such as antioxidant, age resister.Its structure is Tubular, including concentric extexine 1 and endosexine 2, the cross section of extexine 1 and endosexine 2 is positive shape changeable, can use limit number The circumscribed diameter of equal positive shape changeable, preferably extexine 1 and endosexine 2 ratio is for 1:0.2 to 1:0.6, and further will Diameter difference between the circumcircle of extexine 1 and endosexine 2 controls at 1 to 5mm, such a structure increases the intensity of filler, has The minimizing abrasion of effect, shock resistance deforms, and, there is bigger space, water body flow is good, uniform air distribution, biomembranous the oldest Metabolism runs steadily in the long term, and water treatment efficiency is high.Can also on extexine 1 and endosexine 2 equal stacking to arrange some biofilms convex Play the 5 concavo-convex pitted skin structures of formation, the specific surface area of filler and roughness so can be made all to obtain increase, thus expand surface Biofilm amount, microorganism is more easy to attachment, improves the volumetric loading of biochemical reaction.Endosexine 2 is interior circumferential in putting centered by the center of circle Penetrate shape and be evenly equipped with some support rods 3, by connecting rib 4 holding connection between extexine 1 and endosexine 2, will prop up further Support rib 3 keeps head and the tail to connect setting with being connected one_to_one corresponding between rib 4, and this structure effectively raises the space of filler Rate, is not susceptible to blocking, the phenomenon of conglomeration.

This utility model is not limited to above-described preferred implementation, can obtain based on those skilled in the art The known technology known or use is caned the various deformation of equivalence replacement and the embodiment of change, every base in prior art Conceive, within should be included in protection domain of the present utility model in spirit of the present utility model or technology.

Claims (5)

1. a high-performance bio filler, is characterized in that: described biologic packing material is tubular structure, including concentric extexine (1) and Endosexine (2), the cross section of extexine (1) and endosexine (2) is positive shape changeable, circumferential centered by the center of circle in endosexine (2) Radially it is evenly equipped with some support rods (3), by connecting rib (4) holding even between extexine (1) and endosexine (2) Connecing, extexine (1) and endosexine (2) upper equal stacking arrange some biofilms protruding (5) and form concavo-convex pitted skin structure.

High-performance bio filler the most according to claim 1, is characterized in that: the cross section of extexine (1) and endosexine (2) is limit The positive shape changeable that number is equal.

High-performance bio filler the most according to claim 2, is characterized in that: support rod (3) be connected between rib (4) one One corresponding holding, connected from beginning to end.

High-performance bio filler the most according to claim 1, is characterized in that: extexine (1) and endosexine (2) circumscribed Diameter is than for 1:0.2 to 1:0.6.

High-performance bio filler the most according to claim 1, is characterized in that: the circumcircle of extexine (1) and endosexine (2) it Between diameter difference be 1 to 5mm.