CN204752305U - Micropore aeration system - Google Patents

Abstract

The utility model discloses a micropore aeration system, include liquid container and be located the aeration equipment bottom this liquid container, be equipped with elevating gear above this aeration equipment, aeration equipment and this elevating gear are connected, aeration equipment with lead to an automatic connection of opening and shutting between liquid container's the inner wall, automatically, the piece that opens and shuts includes U type resilient clip and joint plug, and the joint plug stretches into both connect behind the U type resilient clip, the joint plug is extracted both break away from behind the U type resilient clip. Adopt the utility model discloses an it is to show the effect, is connected through automatic opening and shutting between aeration equipment and liquid container's the inner wall, directly fixes through external force plug messenger aeration equipment to make aeration equipment be connected with elevating gear, the aeration equipment of damage promotes out the liquid level by elevating gear and maintains, and is convenient, quick, can not influence the dirty operation of handling the station, has improved efficiency greatly, has got rid of the potential safety hazard.

Description

Micro-pore aeration system

Technical field

The utility model relates to microporous aeration device, is specifically related to a kind of micro-pore aeration system.

Background technology

Micro-hole aerator is the oxygen transfer equipment of aerobic unit.Aerobic unit is as technique unit very important in sewage treatment process, and its stability is the key of sewage works steady running.Aerobic unit oxygen transfer equipment comprises blower fan, micro-hole aerator and filler (using during biomembrance process).Often there is the situation that micro-hole aerator damages in sewage work's operational process and cause Aerobic Pond aeration uneven, Aerobic Pond occurs that dissolved oxygen is inadequate immediately, and then sludge bulking occurs, and aerobic unit pollution load reduces, COD clearance declines, and effluent quality exceeds standard.

Therefore the instantaneously changing after micro-hole aerator damage, it is the key guaranteeing sewage works steady running, but be installed on bottom aeration tank due to micro-hole aerator, the traditional method after micro-hole aerator damages be by aerobic pool inner water and mud emptying after, then to change.First water inlet will be stopped in this process, the water surface is determined damaged aerator Position Approximate, then selects the scratch pool of aeration waste water and mud, sewage in aeration tank and mud are evacuated to scratch pool with interim pump and temporarily deposit, the last artificial lower aerator that searching damages at the bottom of pond, and change.Mainly contain following technical disadvantages:

(1) length is lasted, maintenance cycle 1 day at least, 3 ~ 5 days at most.And sewage treatment facility must be stopped transport in maintenance process, production must stop;

(2) owing to cultured mud at the bottom of pond etc. need be drained, rear section microorganism of again intaking must be cultivated again, has a strong impact on the steady running of dirty treatment station;

(3) owing to must manually keep in repair at the bottom of pond, maintenance process has larger potential safety hazard, and has mud at the bottom of pond, when for biomembrance process, also hangs with large number of biological filler in pond, makes the construction environment condition rather harsh of service worker.

Utility model content

For solving above technical problem, the utility model provides a kind of after aerating apparatus damages, the aerating system of convenient for maintaining.

Technical scheme is as follows:

A kind of micro-pore aeration system, its main points are: comprise fluid container and be positioned at the aerating apparatus of this bottom of liquid container, lifting device is provided with above this aerating apparatus, described aerating apparatus is connected with this lifting device, and between the inwall of described aerating apparatus and described fluid container, logical automatic open-close part connects;

Described automatic open-close part comprises U-shaped resilient clip and clamping plug, described U-shaped resilient clip is arranged on described fluid container or described aerating apparatus, described clamping plug is arranged on described aerating apparatus or described fluid container, after described clamping plug stretches into described U-shaped resilient clip, both connect, and after described U-shaped resilient clip extracted by described clamping plug, both depart from.

Adopt the unusual effect of above technical scheme to be no longer be fixedly connected with between aerating apparatus and the inwall of fluid container, but connected by automatic open-close part, direct by external force plug realization connection or disengaging between the two; Aerating apparatus promotes aerating apparatus by lifting device, makes clamping plug extract U-shaped resilient clip after damaging, the aerating apparatus of damage is proposed liquid level keep in repair, easily and fast, the operation of dirty treatment station can not be affected, substantially increase efficiency, eliminate potential safety hazard.After having keeped in repair, then aerating apparatus is displaced downwardly to bottom of liquid container, makes clamping plug insert U-shaped resilient clip, aerating apparatus is fixed.

Above-mentioned aerating apparatus comprises at least two aeration units, and described aeration unit is connected to air-supply duct, and described aeration unit is separately installed with micro-hole aerator, and described aeration unit is connected to described lifting device.Adopt above technical scheme, aerating apparatus is divided into multiple aeration unit, make it be distributed in fluid container different local, during maintenance, only the part of damage need be mentioned, avoid impacting the aeration unit of normal work.

Above-mentioned aeration unit is connected with described lifting device by lifting rod.Adopt above technical scheme, lifting rod is directly connected with aeration unit, plays castering action to it.

Above-mentioned air-supply duct is vertically arranged, and lower end and the described aeration unit of described air-supply duct are connected, the upper termination source of the gas of described air-supply duct, and described aeration unit is connected with described lifting device by described air-supply duct.Adopt above technical scheme, air-supply duct can play the effect of air feed and lifting simultaneously, and structure is more simplified.

Above-mentioned air-supply duct is connected with same air supply manifold by rapid-acting coupling.Adopt above technical scheme, air supply manifold is to air-supply duct air feed, and rapid-acting coupling can realize departing from fast between air-supply duct and air supply manifold or connecting.

Above-mentioned aeration unit comprises rectangular box-like aeration supervisor, at least one aeration branch pipe is provided with in this aeration supervisor, the two ends of described aeration branch pipe are responsible for described aeration respectively and are communicated with, described aeration supervisor is communicated with the lower end of described air-supply duct, described aeration branch pipe is separately installed with described micro-hole aerator, described aeration unit is connected to four described lifting rods, and four nooks that the lower end of four described lifting rods is responsible for described aeration are respectively connected.Adopt above technical scheme, aeration unit Stability Analysis of Structures is reasonable, and aeration is effective, convenient lifting.

Above-mentioned aeration unit comprises horizontal aeration pipe, and the two ends of this horizontal aeration pipe are separately installed with described micro-hole aerator, and middle part and the described air-supply duct of described horizontal aeration pipe are connected.Adopt above technical scheme, aeration unit structure is simple, small and exquisite, easy to maintenance, affects little.

Beneficial effect: adopt micro-pore aeration system of the present utility model, be connected by automatic open-close part between aerating apparatus and the inwall of fluid container, directly by external force plug, aerating apparatus is fixed, and aerating apparatus is connected with lifting device, the aerating apparatus damaged is lifted out liquid level by lifting device and keeps in repair, and easily and fast, can not affect the operation of dirty treatment station, substantially increase efficiency, eliminate potential safety hazard.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment 1;

Fig. 2 is the structural representation of aeration unit 21 in Fig. 1;

Fig. 3 is embodiment 2 structural representation;

Fig. 4 is the structural representation of aeration unit 21 in Fig. 3;

Fig. 5 is the structural representation of automatic open-close part 4 in Fig. 2 and Fig. 4.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail.

Embodiment 1:

As shown in Figure 1, Figure 2 with shown in Fig. 5, a kind of micro-pore aeration system, comprise fluid container 1 and be positioned at the aerating apparatus 2 bottom this fluid container 1, lifting device 3 is provided with above this aerating apparatus 2, described aerating apparatus 2 is connected with this lifting device 3, and between described aerating apparatus 2 and the inwall of described fluid container 1, logical automatic open-close part 4 connects;

Described aerating apparatus 2 comprises at least two aeration units 21, described aeration unit 21 is connected to air-supply duct 22, described aeration unit 21 comprises horizontal aeration pipe c, the two ends of this horizontal aeration pipe c are separately installed with micro-hole aerator 23, the described middle part of horizontal aeration pipe c and the lower end of described air-supply duct 22 are connected, the upper end of described air-supply duct 22 is connected with same air supply manifold 5 by rapid-acting coupling, and described aeration unit 21 is connected to described lifting device 3 by described air-supply duct 22.

Described automatic open-close part 4 comprises U-shaped resilient clip 41 and clamping plug 42, described U-shaped resilient clip 41 is arranged on described fluid container 1 or described aerating apparatus 2, described clamping plug 42 is arranged on described aerating apparatus 2 or described fluid container 1, after described clamping plug 42 stretches into described U-shaped resilient clip 41, both connect, and after described U-shaped resilient clip 41 extracted by described clamping plug 42, both depart from.

Embodiment 2:

From Fig. 3, Fig. 4 and Fig. 5 can find out, the present embodiment is from the different of embodiment 1: described aeration unit 21 comprises rectangular box-like aeration and is responsible for a, at least one aeration branch pipe b is provided with in this aeration supervisor a, the two ends of described aeration branch pipe b are responsible for a with described aeration respectively and are communicated with, described aeration supervisor a is communicated with the lower end of described air-supply duct 22, described aeration branch pipe b is separately installed with micro-hole aerator 23, described aeration unit 21 is connected with described lifting device 3 by lifting rod 6, described aeration unit 21 is connected to four described lifting rods 6, the lower end of four described lifting rods 6 is responsible for a respectively four nooks with described aeration are connected.

Finally it should be noted that; foregoing description is only preferred embodiment of the present utility model; those of ordinary skill in the art is under enlightenment of the present utility model; under the prerequisite without prejudice to the utility model aim and claim; can make like multiple types and representing, such conversion all falls within protection domain of the present utility model.

Claims (7)

1. a micro-pore aeration system, it is characterized in that: comprise fluid container (1) and be positioned at the aerating apparatus (2) bottom this fluid container (1), lifting device (3) is provided with in this aerating apparatus (2) top, described aerating apparatus (2) is connected with this lifting device (3), and between the inwall of described aerating apparatus (2) and described fluid container (1), logical automatic open-close part (4) connects;

Described automatic open-close part (4) comprises U-shaped resilient clip (41) and clamping plug (42), described U-shaped resilient clip (41) is arranged on described fluid container (1) or described aerating apparatus (2), described clamping plug (42) is arranged on described aerating apparatus (2) or described fluid container (1), described clamping plug (42) stretches into described U-shaped resilient clip (41), and both connect afterwards, and described clamping plug (42) extracts described U-shaped resilient clip (41), and both depart from afterwards.

2. micro-pore aeration system according to claim 1, it is characterized in that: described aerating apparatus (2) comprises at least two aeration units (21), described aeration unit (21) is connected to air-supply duct (22), described aeration unit (21) is separately installed with micro-hole aerator (23), described aeration unit (21) is connected to described lifting device (3).

3. micro-pore aeration system according to claim 2, is characterized in that: described aeration unit (21) is connected with described lifting device (3) by lifting rod (6).

4. micro-pore aeration system according to claim 2, it is characterized in that: described air-supply duct (22) is vertically arranged, lower end and the described aeration unit (21) of described air-supply duct (22) are connected, the upper termination source of the gas of described air-supply duct (22), described aeration unit (21) is connected with described lifting device (3) by described air-supply duct (22).

5. the micro-pore aeration system according to claim 2,3 or 4, is characterized in that: described air-supply duct (22) is connected with same air supply manifold (5) by rapid-acting coupling.

6. micro-pore aeration system according to claim 3, it is characterized in that: described aeration unit (21) comprises rectangular box-like aeration supervisor (a), at least one aeration branch pipe (b) is provided with in this aeration supervisor (a), the two ends of described aeration branch pipe (b) are responsible for (a) with described aeration respectively and are communicated with, described aeration supervisor (a) is communicated with the lower end of described air-supply duct (22), described aeration branch pipe (b) is separately installed with described micro-hole aerator (23), described aeration unit (21) is connected to four described lifting rods (6), the lower end of four described lifting rods (6) is responsible for (a) respectively four nooks with described aeration are connected.

7. micro-pore aeration system according to claim 4, it is characterized in that: described aeration unit (21) comprises horizontal aeration pipe (c), the two ends of this horizontal aeration pipe (c) are separately installed with described micro-hole aerator (23), and middle part and the described air-supply duct (22) of described horizontal aeration pipe (c) are connected.