CN209652023U - A kind of adaptive sewage disposal system - Google Patents

Abstract

The utility model discloses a kind of adaptive sewage disposal system, including the preprocessing module to sewage disinfection treatment, several to advanced treatment of wastewater and mutually connected sewage treatment modules, preprocessing module is connected by pipeline with sewage treatment module, and preprocessing module and the sewage treatment module are electrically connected with control module respectively.Compared with the prior art, technical solutions of the utility model have many advantages, such as adaptive, effectively can realize automation control to sewage treatment and reduce manufacturing cost and manpower management cost.

Description

A kind of adaptive sewage disposal system

Technical field

The utility model relates to automated sewage processing technology field, in particular to a kind of adaptive sewage disposal system.

Background technique

In the sewage treatment process of the prior art, special anaerobic film bed device is efficient sewage anaerobic treatment device, is had Starting is fast, sludge does not allow the advantages that being easy to run off and can be selected unlike material filler, and biological aerated filter is then another high The sewage aerobic processing unit of effect, the processes together as one such as collection biological oxidation and retention suspended solid, therefore technique can be simplified And reduce cost.

However, there is also certain defects for special anaerobic film bed and biological aerated filter, wherein the sewage treatment of Anaerobic Treatment is anti- Processing pond that is long and needing large area between seasonable, this results in the cesspools of anaerobic treatment process to occupy larger soil But there is situations such as processing capacity is lower in area.And the shortcomings that aerobic treatment process, then needs the concentration of suspension requirement to water inlet The disadvantages of higher, larger there are head loss and needs are periodically backwashed.At the same time, the sewage of above two technique COD level is easy to happen larger fluctuation, and sewage disposal process and result is easy to cause to become uncontrollable in this way.

In addition, the secondary biochemical that most of various sewage disposal systems at this stage are all combined using anaerobic and aerobic Technique, and use the sewage disposal system of both techniques that can either be provided simultaneously with anaerobic and aerobic advantage, but there is also aerobic The disadvantage corresponding with anaerobism needs to enter various medicaments to sewage especially in the case where the pre-processing requirements to sewage are higher Adaptation adjustment is carried out, not only extends process cycle in this way, increase operating cost and increase the yield of sludge.

Therefore how inherent defect existing for it can be overcome using above two technique, and improve system Treatment effeciency, reduce operating cost and save building area, finally make sewage disposal process become more stable and Controllably it is very necessary.

Utility model content

The main purpose of the utility model is to propose a kind of adaptive sewage disposal system, it is intended to be realized certainly to sewage treatment Dynamicization and intelligentized control method and reduction manufacturing cost and human cost.

To achieve the above object, the utility model proposes a kind of adaptive sewage disposal system, including sewage is located in advance The preprocessing module of reason, several to advanced treatment of wastewater and mutually connected sewage treatment modules, the preprocessing module are logical Piping is connected with the sewage treatment module, and the preprocessing module and the sewage treatment module are electric with control module respectively Connection.

Preferably, the preprocessing module include the medicated module being sequentially connected by pipeline, pretreatment reaction kettle and Speed filtering device.

Preferably, the medicated module includes mutually independent acid medicine-chest, alkaline medicine-chest, poly- third medicine-chest and poly-aluminium medicine Case, each medicine-chest is respectively equipped with independent loading water pump and is connected with pretreatment reaction kettle top portion, and the loading water pump It is electrically connected with the controller.

Preferably, pretreatment reaction kettle upper half structure is cylindrical cavity, and lower half structure is inverted cone cavity, institute It states and is equipped with water body parameter in pH detection probe and COD detection probe test chamber, the pretreatment reaction in pretreatment reaction kettle It is equipped in kettle top for stirring the mixing and blending machine of liquid and for the water level sensor of sensed water level height；The pH inspection Probing head, the COD detection probe, the mixing and blending machine and the water level sensor are electrically connected with the controller respectively It connects；The pretreatment reaction kettle outer peripheral surface is equipped with water level display, the water level display bottom and the pretreatment reaction kettle Bottom communicates, and communicates at the top of the water level display with pretreatment reaction kettle top portion.

Preferably, the high rate filter includes water discharging valve, filtered water pump, the waste residue separation being sequentially connected by pipeline Pipeline, high rate filter and pretreatment water discharging valve, waste residue separate pipeline downstream pipeline section are also connected with waste sludge discharge pipe Road.

Preferably, the sewage treatment module includes reaction kettle, ozone generator group, water pump group and air compressor, The reaction kettle passes through pipeline and the ozone generator group respectively and the water pump group is connected to form circulation loop；The reaction The top of kettle is cylindrical cavity and lower part is pyramid cavity, and the ozone generator group being electrically connected with the controller is by several A ozone generator composition, the ozone generator, which can partly or entirely work, conveys various concentration ozone to the reaction kettle The backwashing pump of water, the water pump group is washed away by pipeline to the reactor bottom from bottom to top.

Preferably, the other end of the backwashing pump is connected with air compressor and/or backwash reservoir.

Technical solutions of the utility model have the advantage that compared with the prior art

Technical solutions of the utility model include preprocessing module, sewage treatment module and control module, wherein pre-processing Module detects treatment sewage by pH detection probe and COD detection probe, then will test numerical value and be sent to controller Analysis and design processing scheme.If controller detection treatment sewage pH value and COD value do not meet standard parameter, control Required medical fluid is delivered in pretreatment reaction kettle corresponding loading water pump and sewage mixes, and adjusts sewage pH value and adjusts and just Step precipitating realizes that sewage and waste residue separate using highly filtered device.

Sewage after preliminary treatment enters to multiple sewage treatment modules and carries out advanced treating, passes through ozone generator The Ozone Water that group generates adaptability concentration is chemically reacted with sewage, is accelerated organic matter degradation and is killed the nuisances such as bacterium Matter finally makes sewage reach discharge standard.

Technical solutions of the utility model carry out accurate parameter detecting to sewage by controller and adaptability generates processing side Case, multiple sewage treatment modules carry out the processing modes such as concurrently or sequentially to sewage, meet technique requirement after making sewage treatment.Separately Outer technical solutions of the utility model use modular construction, so that technical solutions of the utility model can be replaced and increase easily Or module is reduced, modularization set-up mode makes technical solutions of the utility model have better conforming to property, reduce occupied area, reduce Volume and manufacture transportation cost.

Technical solutions of the utility model can realize unmanned manipulation or remote control at the same time, reduce human cost with And the operational management expense of great number, and it is suitable for the processing of multiple-quality water sewage, it can be selected automatically according to water quality detection result dirty Water treatment technology, and the conversion of technique does not need manually to shift system, therefore can reduce labor management cost.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of the adaptive sewage disposal system of the utility model embodiment；

Fig. 2 is the structure top view of the utility model embodiment preprocessing module；

Fig. 3 is the structure top view of the utility model embodiment sewage treatment module；

Fig. 4 is the structural front view of the utility model embodiment sewage treatment module.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture) Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one A this feature.It in addition, the technical solution between each embodiment can be combined with each other, but must be with ordinary skill Based on personnel can be realized, this technical side will be understood that when the combination of technical solution appearance is conflicting or cannot achieve The combination of case is not present, also not within the protection scope of the requires of the utility model.

The utility model proposes a kind of adaptive sewage disposal systems.

It mainly include referring to Figure 1 pretreated pre- for being carried out to sewage in the utility model embodiment to Fig. 4 Processing module 1, several sewage treatment modules 2 and control module 3 that advanced treating is carried out to pretreated sewage, wherein Preprocessing module 1 is led to sewage treatment module 2 by pipeline, and control module 3 pass through conducting wire respectively with preprocessing module 1 and Sewage treatment module 2 is connected, and the sewage treatment module 2 of the present embodiment includes two sewage treatment modules, and two dirts Water treating module is connected by pipeline.

Referring to Figure 1 with 2, the preprocessing module 1 of the present embodiment includes the medicated module being sequentially connected by pipeline, pre- place Reaction kettle 13 and speed filtering device 17 are managed, wherein medicated module is led to by the top of pipeline and pretreatment reaction kettle 13, And the bottom of speed filtering device 17 and pretreatment reaction kettle 13 is led to be filtered to sediment.In addition the present embodiment plus Medicine module includes regular setting and mutually independent four medicine-chests 11, including acid medicine-chest, alkaline medicine-chest, poly-aluminium medicine-chest and poly- Third medicine-chest.To improve speed and conveying capacity of each medicine-chest 11 to 13 delivered inside medical fluid of pretreatment reaction kettle, the present embodiment Each medicine-chest 11 be respectively equipped with independent loading water pump 12 be connected with pretreatment reaction kettle 13 and loading water pump 12 and control Device 3 is electrically connected.Therefore loading water pump 12 can be controlled by controller 3 and required medical fluid is quickly delivered to pretreatment reaction kettle 13 It is internal.In addition it is provided with the mixing agitator 14 for stirring liquid in 13 top of pretreatment reaction kettle of the present embodiment and uses In the water level sensor (not indicating on figure) of sensed water level height, medical fluid and sewage can be made quickly to melt by mixing agitator 14 It closes, and water level sensor height of water level and can send detection signal to controller 3 in monitor pretreatment reaction kettle 13, The water for flowing into pretreatment reaction kettle 13 is controlled by controller 3.

PH detection probe 15 is equipped in the pretreatment reaction kettle 13 of the present embodiment, COD detection probe 16 stretches to pretreatment Inside reaction kettle 13, to detect the pH value and COD value for the treatment of sewage respectively, and it is adaptively adjusted and applies as controller 3 With liquid volume standard, and 13 lateral wall of pretreatment reaction kettle is additionally provided with vertically arranged water level display 131, and wherein water level is shown The top of device 131 with lead at the top of pretreatment reaction kettle 13,131 bottom of water level display is connected with 13 bottom of pretreatment reaction kettle, Therefore water body can enter to inside water level display 131 from bottom, and such user is convenient to observation pretreatment reaction kettle 13 internal water body fluid positions.

The speed filtering device 17 of the present embodiment includes water discharging valve 171, the filtered water pump being sequentially connected by pipeline 172, waste residue separate pipeline 173, high rate filter 174 and pretreatment water discharging valve 175, wherein under waste residue separate pipeline 173 Play pipe section is also connected with waste sludge discharge pipeline 176, so as to pass through speed filtering device 17 to wastewater efficient filtration treatment, then leads to The fixed waste such as waste residue that waste sludge discharge pipeline 176 will filter out is crossed to discharge outward.

Referring to Figure 1, Fig. 3 and Fig. 4, the sewage treatment module 2 of the present embodiment include that two sewage treatment moulds are arranged side by side Block, wherein the first sewage treatment module is equipped with the first reaction kettle 21, the second sewage treatment module is equipped with the second reaction kettle 22, wherein The water inlet of first reaction kettle 21 is connected by pipeline with the water outlet of preprocessing module 1, and the second reaction kettle 22 is also by pipe Road is connected with the first reaction kettle 21 and preprocessing module 1, therefore the sewage source of the first reaction kettle 21 is in preprocessing module 1, and The sewage of second reaction kettle 22 can derive from the first reaction kettle 21 or the pretreated sewage of preprocessing module 1.First reaction kettle 21 are connected with the first ozone generator group 24 and the first water pump group respectively by pipeline, and the second reaction kettle 22 is distinguished by pipeline It is connected with the second ozone generator group 25 and the second water pump group, and first reaction kettle 21 and the second reaction kettle of the present embodiment 22 are also connected by pipeline with air compressor 23 respectively, and the backwashing pump 29 of the first water pump group passes through pipeline to the first reaction kettle 21 bottoms carry out washing away water body from bottom to top, and the backwashing pump 29 of the second water pump group passes through pipeline to 22 bottom of the second reaction kettle It carries out washing away water body from bottom to top, during the rinsing process, the backwashing pump of water pump group can be can be improved by air compressor 23 29 scouring intensities.

Wherein in structure, upper part is cylindrical, can make for first reaction kettle 21 of the present embodiment and the second reaction kettle 22 The Ozone Water and sewage that ozone generator generates are sufficiently mixed and play lasting chemical reaction, send out the substance of sewage Raw precipitating, and reaction kettle lower part is in pyramid-shaped, by the internal inclined-plane tilted down with real to the sediment generated in reaction process Now facilitate collection and later discharge.It should be noted that the first ozone generator group 24 of the present embodiment and the second ozone occur Multiple ozone generators are equipped in device group 25, it can be different dense to be provided to reaction kettle by controlling the ozone generator of different number Spend Ozone Water.

In addition, the first water pump group and the second water pump group of the present embodiment are additionally provided with circulation other than being equipped with backwashing pump 29 Treated that water body recirculates conveying to improve water body transfer efficiency by the first reaction kettle 21 or the second reaction kettle 22 for pump 28, and Ozone Water water pump 27 can accelerate flow from ozone generator group to reaction kettle delivery of ozone water and speed.

Referring to Figure 1 to Fig. 4, the working principle of the adaptive sewage disposal system of the present embodiment are as follows:

When external sewage is delivered in pretreatment reaction kettle 13 by water pump from water inlet, with pretreatment reaction kettle 13 Water level inside constantly increases, when being set to the water level sensor sensed water level inside pretreatment reaction kettle 13 and reaching preset height, Monitoring signals are sent to controller 3, controller 3 controls respective valves and closes to stop that water is added into pretreatment reaction kettle 13 Body.

Treatment sewage can be examined by being set to pH detection probe 15 and COD detection probe 16 inside pretreatment reaction kettle 13 PH value and COD value are surveyed, and the parameter that will test is sent to 3 analysis of controller processing.

If testing result is more than after setting range, controller 3 designs throwing according to difference between detection parameters and setting value Medical fluid scheme is put, is worked by controlling corresponding infusion water pump 12, the medical fluid of selection is passed through into pipeline to pretreatment reaction kettle In 13, using mixing agitator 14 to medical fluid and sewage stirring to accelerate the two to merge.By the way that corresponding medical fluid is added, make sewage PH value and COD value meet setting range and make organic matter degradation and precipitating in sewage, then pass through speed filtering device 17 Realize waste residue and sewage separation, sewage to sewage-treatment plant 2, and is precipitated by the pipeline that is connected with sewage-treatment plant 2 Object discharges outward by waste sludge discharge pipeline 176.

When sewage is after preliminary treatment and entering in the first reaction kettle 21 by pipeline, it is set to the first reaction kettle 21 After interior water level sensor detects that water level reaches setting value, controller 13 controls preprocessing module 1 and 2 phase of sewage treatment module Electromagnetic valve even is closed.COD sensor 211, which detects sewage again and will test parameter, is sent to controller 3, control Device 3 sets the working time of the first ozone generator group 24 after analysis and prepares consistency of ozone water, starts at the same time Ozone Water water pump 27 and circulating pump 28 realize the dirt in Ozone Water and the first reaction kettle 21 that the first ozone generator group 24 generates Quick dynamic circulation flowing, can speed up organic matter degradation in sewage by lasting and high concentration Ozone Water and kills between water The harmful substances such as the bacterium gone out in sewage, it is dense by the ozone of peripheral hardware during the first ozone generator group generates Ozone Water Real-time sensor 26, accurate, dynamic detection and display consistency of ozone water are spent, understands working condition in time to facilitate operation personnel. Backwashing pump 29 then extraction section water body and combines air compressor 23 to generate in the sewage reservoir periodically after processed High pressure gas inputted upwards from the inverted pyramid bottom of 21 bottom of the first reaction kettle it is anti-with the filter device to the first reaction kettle 21 It rinses, prevents waste residue from excessively assembling and block corresponding waste residue collecting chamber 221.When COD sensor 211 detects sewage water body After COD value meets control range, another step detection is carried out to sewage using pH sensor and ensures that every numerical value of sewage is equal After meeting corresponding requirements and waste residue precipitating and high-accuracy filtering, the discharge tube for eventually passing through the first reaction kettle 21 will be conformed to The sewage asked discharges outward.

It should be noted that the sewage treatment module 2 of the present embodiment is set, there are two sewage treatment modules, therefore to sewage In advanced treatment process, controller 3 is controllable, and only the first reaction kettle 21 carries out work or the first reaction kettle 21 works The second reaction kettle 22 is delivered to again afterwards to work on or 22 simultaneous mode of working of the first reaction kettle 21 and the second reaction kettle.At this In utility model embodiment, if there is multiple reaction kettles that can carry out work in such a way that serial or parallel connection or series connection and parallel connection are combined Make, to realize efficient and reliable advanced treatment of wastewater.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, It is all under the design of the utility model, equivalent structure transformation made based on the specification and figures of the utility model, or Directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (7)

1. a kind of adaptive sewage disposal system, which is characterized in that including to sewage disinfection treatment preprocessing module, to sewage depth Degree processing and several mutually connected sewage treatment modules, the preprocessing module pass through pipeline and the sewage treatment module It is connected, the preprocessing module and the sewage treatment module are electrically connected with control module respectively.

2. adaptive sewage disposal system as described in claim 1, which is characterized in that the preprocessing module includes passing through pipe Medicated module, pretreatment reaction kettle and the speed filtering device that road is sequentially connected.

3. adaptive sewage disposal system as claimed in claim 2, which is characterized in that the medicated module includes mutually indepedent Acid medicine-chest, alkaline medicine-chest, poly- third medicine-chest and poly-aluminium medicine-chest, each medicine-chest be respectively equipped with independent loading water pump with it is described Pretreatment reaction kettle top portion is connected, and the loading water pump is electrically connected with the controller.

4. adaptive sewage disposal system as claimed in claim 3, which is characterized in that pretreatment reaction kettle upper half knot Structure is cylindrical cavity, and lower half structure is inverted cone cavity, and pH detection probe is equipped in the pretreatment reaction kettle and COD is detected Pop one's head in water body parameter in test chamber, in pretreatment reaction kettle top equipped with for stirring liquid mixing and blending machine and Water level sensor for sensed water level height；The pH detection probe, the COD detection probe, the mixing and blending machine with And the water level sensor is electrically connected with the controller respectively；The pretreatment reaction kettle outer peripheral surface is equipped with water level display, The water level display bottom is communicated with pretreatment reaction bottom portion, anti-with the pretreatment at the top of the water level display Kettle top portion is answered to communicate.

5. adaptive sewage disposal system as claimed in claim 4, which is characterized in that the speed filtering device includes passing through Water discharging valve, filtered water pump, waste residue separate pipeline, high rate filter and the pretreatment water discharging valve that pipeline is sequentially connected, institute It states waste residue separate pipeline downstream pipeline section and is also connected with waste sludge discharge pipeline.

6. adaptive sewage disposal system as claimed in claim 5, which is characterized in that the sewage treatment module includes reaction Kettle, ozone generator group, water pump group and air compressor, the reaction kettle pass through pipeline and the ozone generator group respectively Circulation loop is connected to form with the water pump group；The top of the reaction kettle is cylindrical cavity and lower part is pyramid cavity, with institute State controller electrical connection the ozone generator group be made of several ozone generators, the ozone generator can part or It all works and conveys various concentration Ozone Water to the reaction kettle, the backwashing pump of the water pump group passes through pipeline to the reaction Bottom portion is washed away from bottom to top.

7. adaptive sewage disposal system as claimed in claim 6, which is characterized in that the other end and sky of the backwashing pump Air compressor and/or backwash reservoir are connected.