CN110467310A - Pipeline shunt control method and device - Google Patents

Abstract

The present invention is suitable for technical field of sewage, provides a kind of pipeline shunt control method and device.This method comprises: obtaining the water level value in remaining pond；Judge water level value whether in water level preset range；If water level value is greater than the first watermark threshold, drives first at remaining pond to go out water controlling equipment and open, while driving second at spare pond to go out water controlling equipment and closing；If water level value drives first at remaining pond to go out water controlling equipment and closes less than the second watermark threshold, while driving second at spare pond to go out water controlling equipment and opening.The embodiment of the present invention can automatically control residual water treatment amount, while guaranteeing that residual water treatment system completes defined day output, guarantee biochemistry pool demand, improve wastewater treatment efficiency.

Description

Pipeline shunt control method and device

Technical field

The invention belongs to technical field of sewage more particularly to a kind of pipeline shunt control method and devices.

Background technique

River environmental dredging is the novel industry to grow up in the past 30 years, is hydraulic engineering, environmental project and dredger The engineering technology that journey is intersected.Since this century, China has the dredging work of many different scales implementing or starting.According to state The experience of inside and outside waste water control, under conditions of water body external source pollutes to obtain control, it is necessary to thoroughly remove endogenous pollution and pollute Bed mud rebuilds water ecosystem, and river regulation can be only achieved ideal effect, thus river environmental dredging is generally considered One of the important measures of endogenous pollution are removed during water environment treatment.But in actual process, usually there is biochemistry pool Microorganism growing environment it is poor, influence wastewater treatment efficiency.

Summary of the invention

In view of this, the embodiment of the invention provides a kind of pipeline shunt control method and devices, to solve the prior art The problem of microorganism growing environment in mesophytization pond is poor, influences wastewater treatment efficiency.

The first aspect of the embodiment of the present invention provides a kind of pipeline shunt control method, comprising:

Obtain the water level value in remaining pond；

If the water level value is greater than the first watermark threshold, drives first at the remaining pond to go out water controlling equipment and opens, It drives second at spare pond to go out water controlling equipment simultaneously to close；

If the water level value drives first at the remaining pond to go out water controlling equipment and closes less than the second watermark threshold, It drives second at the spare pond to go out water controlling equipment simultaneously to open；First watermark threshold is greater than second water level Threshold value.

Optionally, after the water level value for obtaining remaining pond, further includes:

If the water level value be greater than first watermark threshold, drive pretreatment pool at water inlet turning facilities first into Water end (W.E.) mouth is opened；First water inlet port is connect with the outlet pipe in the remaining pond；

If the water level value be less than second watermark threshold, drive pretreatment pool at water inlet turning facilities second into Water end (W.E.) mouth is opened；Second water inlet port is connect with the outlet pipe in the spare pond.

Optionally, it after the first water inlet port or the second water inlet port for driving the water inlet turning facilities are opened, also wraps It includes:

Obtain the water velocity of the water outlet port of the water inlet turning facilities；It is described water inlet turning facilities water outlet port with The water inlet pipe of pretreatment pool connects；

Judge the water velocity whether in flow velocity preset range；

If it is default that the water velocity not in the flow velocity preset range, drives the drainage equipment in corresponding pond to carry out first Operation, described the first predetermined registration operation is for controlling the water velocity in flow velocity preset range.

Optionally, it after the first water inlet port or the second water inlet port for driving the water inlet turning facilities are opened, also wraps It includes:

Obtain the water flow of the water outlet port of the water inlet turning facilities；

Judge the water flow whether in water flow preset range；

If it is default that the water flow not in the water flow preset range, drives the drainage equipment in corresponding pond to carry out second Operation, the second predetermined registration operation is for controlling the water flow in water flow preset range.

Optionally, the spare pond is clear water reserviors.

The second aspect of the embodiment of the present invention provides a kind of pipeline shunt control device, comprising: water level acquisition equipment, One goes out water controlling equipment, second water controlling equipment and concentrator out；Described first, which goes out water controlling equipment, is arranged in going out for remaining pond The mouth of a river, described second goes out the water outlet that spare pond is arranged in water controlling equipment；

The level sensor equipment is used to acquire the water level value in remaining pond and is sent to the concentrator；

The concentrator is for receiving the water level value, if the water level value is greater than the first watermark threshold, drives described the One, which goes out water controlling equipment, opens, while driving described second to go out water controlling equipment and closing；

If the water level value, less than the second watermark threshold, driving described first goes out water controlling equipment and closes, while driving institute It states second and goes out water controlling equipment opening；First watermark threshold is greater than second watermark threshold.

Optionally, the pipeline shunt control device further include: water inlet turning facilities；The first of the water inlet turning facilities Water inlet port is connect with the outlet pipe in the remaining pond, the second water inlet port and the spare pond of the water inlet turning facilities Outlet pipe connection, it is described water inlet turning facilities water outlet port and pretreatment pool water inlet pipe connect；

The concentrator is also used to: if the water level value is greater than the first watermark threshold, driving the water inlet turning facilities It opens the first water inlet port；

If the water level value drives the second water inlet port of the water inlet turning facilities to open less than the second watermark threshold.

Optionally, the pipeline shunt control device further include: water velocity acquires equipment；

The water velocity acquisition equipment is used for the first water inlet port or the second water inlet end in the water inlet turning facilities After mouth is opened, the water velocity for acquiring the water outlet port of the water inlet turning facilities is simultaneously sent to the concentrator；

The concentrator is also used to: being received the water velocity, is judged whether the water velocity in water flow velocity presets model In enclosing；

If it is default that the water velocity not in the flow velocity preset range, drives the drainage equipment in corresponding pond to carry out first Operation, described the first predetermined registration operation is for controlling the water velocity in flow velocity preset range.

Optionally, the pipeline shunt control device further include: water flow acquires equipment；

The water flow acquisition equipment is used for the first water inlet port or the second water inlet port in the water inlet turning facilities After opening, acquires the water flow of the water outlet port of the water inlet turning facilities and be sent to the concentrator；

Whether the concentrator is also used to: receiving the water flow, judge the water flow in water flow preset range；

If it is default that the water flow not in the water flow preset range, drives the drainage equipment in corresponding pond to carry out second Operation, the second predetermined registration operation is for controlling the water flow in water flow preset range.

The third aspect of the embodiment of the present invention provides a kind of sewage disposal system, including pretreatment pool, biochemistry pool and dirt Water treatment facilities further include the pipeline shunt control device as described in any one of the second aspect of above-described embodiment offer.

Existing beneficial effect is the embodiment of the present invention compared with prior art: the water level value by obtaining remaining pond, if Water level value is greater than the first watermark threshold, drives first at remaining pond to go out water controlling equipment and opens, while driving at spare pond Second go out water controlling equipment close so that the sewage quantity in remaining pond meets the demand of biochemistry pool；If water level value is less than Two watermark thresholds drive first at remaining pond to go out water controlling equipment and close, and drive second at spare pond to go out water management and set It is standby to open, so that the water in spare pond meets the demand of biochemistry pool, the residual water treatment amount that automatically controls is realized, more than guarantee Water treatment system completes the demand for meeting biochemistry pool while defined day output, and solving remaining water deficiency influences biochemistry pool Microorganism growth the problem of, improve wastewater treatment efficiency.

Detailed description of the invention

It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to embodiment or description of the prior art Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only of the invention some Embodiment for those of ordinary skill in the art without any creative labor, can also be according to these Attached drawing obtains other attached drawings.

Fig. 1 is the implementation process schematic diagram of pipeline shunt control method provided in an embodiment of the present invention；

Fig. 2 is the implementation process schematic diagram of another pipeline shunt control method provided in an embodiment of the present invention；

Fig. 3 is the implementation process schematic diagram of another pipeline shunt control method provided in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of pipeline shunt control device provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of another pipeline shunt control device provided in an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of another pipeline shunt control device provided in an embodiment of the present invention.

Specific embodiment

In being described below, for illustration and not for limitation, the tool of such as particular system structure, technology etc is proposed Body details, to understand thoroughly the embodiment of the present invention.However, it will be clear to one skilled in the art that there is no these specific The present invention also may be implemented in the other embodiments of details.In other situations, it omits to well-known system, device, electricity The detailed description of road and method, in case unnecessary details interferes description of the invention.

In order to illustrate technical solutions according to the invention, the following is a description of specific embodiments.

It is one embodiment implementation process schematic diagram of pipeline shunt control method provided in this embodiment, in detail referring to Fig. 1 It states as follows:

Step S101 obtains the water level value in remaining pond.

With the development of economy, the quantity of wastewater effluent of each factory is gradually increased, and causes serious pollution to river.Environmental protection is dredged One of the important measures for being generally considered and removing endogenous pollution during water environment treatment are dredged, in Dredged bed mud treatment process The remaining water generated contains a large amount of suspended matters, and COD, ammonia nitrogen, total nitrogen and total phosphorus are exceeded, and direct emission pollutes the environment, It needs to handle remaining water.In Practical Project, Sediment Dredging construction and sludge handling are often discontinuous, sewage treatment Factory will appear the phenomenon of remaining water deficiency, not be able to satisfy the demand of water in biochemistry pool, and sufficient water is to meet microorganism One of essential condition of growth so the water shortage of biochemistry pool will affect microorganism growth, and then influences wastewater treatment efficiency. The technology of control residual water treatment amount is the manually transfer of control water, low efficiency, and waste of manpower at present.

The present embodiment can obtain the water level value in remaining pond automatically or in real time, monitor day processing by the water level value in remaining pond Amount.Such as in remaining pond when water shortage, then need to judge whether the water level value in current remaining pond meets preset water level threshold value.Water Place value is if it is greater than the first watermark threshold, then the water in the current remaining pond of explanation is enough, if water level value is less than the second water Position threshold value, then illustrate that current remaining water is inadequate, need to be handled with the water in spare pond.

Step S102 drives first at remaining pond to go out water controlling equipment if above-mentioned water level value is greater than the first watermark threshold It opens, while driving second at spare pond to go out water controlling equipment and closing.

Step S103, if above-mentioned water level value drives first at remaining pond to go out water controlling equipment less than the second watermark threshold It closes, while driving second at spare pond to go out water controlling equipment and opening.

Illustratively, the first flowing water Valve is arranged in the exit at remaining pond, when the first flowing water Valve is opened, can incite somebody to action Water in remaining pond is discharged into pretreatment pool by pipeline carries out sewage treatment, then is discharged into biochemistry pool；Outlet at spare pond Water in spare pond can be discharged into pre- place by pipeline when the second flowing water Valve is opened by the second flowing water Valve of place's setting Reason carries out sewage treatment in pond, then is discharged into biochemistry pool, and the water in remaining pond will not be discharged into simultaneously pre- place with the water in spare pond Pond is managed, prevents the water in spare pond to be contaminated in this way, the transition of sewage disposal device is avoided to run.

Specifically, illustrating that the water in remaining pond is enough when water level value is greater than the first watermark threshold, then driving remaining pond at this time First flowing water Valve at place is opened, and the water in remaining pond is discharged into sewage treatment in pretreatment pool by pipeline, while driving standby It is closed with the second flowing water Valve at pond.When water level value is less than the second watermark threshold, illustrate that the water in remaining pond is insufficient, at this time It then drives the first flowing water Valve at remaining pond to close, while the second flowing water Valve at spare pond being driven to open, it will be spare Water in pond is discharged into pretreatment pool by pipeline, enters back into biochemistry pool, guarantees that residual water treatment system is handled day as defined in completing While amount, meet the demand of biochemistry pool, guarantee the growing environment of microorganism, improves wastewater treatment efficiency.

The present embodiment can also judge whether the water level value in remaining pond is greater than peak level threshold value, if the water level value in remaining pond Greater than peak level threshold value, then illustrate that the water in remaining pond is excessive, will lead to the transition operation of sewage disposal device below, influence to set The standby service life needs the drain valve for driving remaining pond to open at this time, and will be greater than the water of peak level threshold value, to be discharged into spare pond spare. In addition, the water in spare pond, which can be remaining pond, handles endless sewage, it is also possible to rainwater, the present embodiment is to above-mentioned spare The water in pond is not specifically limited.

Optionally, the present embodiment can also include: after the water level value for obtaining remaining pond

If above-mentioned water level value is greater than the first watermark threshold, the first water inlet end of the water inlet turning facilities at pretreatment pool is driven Mouth is opened；Above-mentioned first water inlet port is connect with the outlet pipe in remaining pond；

If above-mentioned water level value less than the second watermark threshold, drives the second water inlet end of the water inlet turning facilities at pretreatment pool Mouth is opened；Above-mentioned second water inlet port is connect with the outlet pipe in spare pond.

Illustratively, switching valve, the first water inlet port of switching valve and going out for remaining pond is arranged in the water inlet of pretreatment pool Second water inlet port of water pipe connection, switching valve is connect with the outlet pipe in spare pond, the water outlet port and pretreatment of switching valve The water inlet pipe in pond connects；Water in remaining pond can be flowed into from the first water inlet port of switching valve, from the water outlet port of switching valve Outflow enters pretreatment pool；Water in spare pond can be flowed into from the second water inlet port of switching valve, from the water outlet of switching valve Port outflow enters pretreatment pool.

Specifically, illustrating that the water in remaining pond is enough when water level value is greater than the first watermark threshold, then driving switching valve at this time First water inlet port open, the water in remaining pond is discharged into pretreatment pool by pipeline and carries out sewage treatment, pretreatment pool In water be discharged into biochemistry pool again.When water level value is less than the second watermark threshold, illustrate that the water in remaining pond is insufficient, then driving turns at this time Turn to the second water inlet port to valve, the second water inlet port is opened, the water in spare pond by pipeline be discharged into pretreatment pool into Row sewage treatment, the water in pretreatment pool are discharged into biochemistry pool again, while guaranteeing that residual water treatment system completes day output, meet The demand of biochemistry pool guarantees the growing environment of microorganism, improves wastewater treatment efficiency.

Optionally, shunting device can include the first water controlling equipment and water inlet turn out of water controlling equipment, second out simultaneously To equipment, first can also be only included go out water controlling equipment and second and go out water controlling equipment, or only include switching valve.It is set in shunting Standby include first going out water controlling equipment, second when going out water controlling equipment and water inlet turning facilities simultaneously, and the above method can also wrap It includes:

If above-mentioned water level value is greater than the first watermark threshold, drives first at remaining pond to go out water controlling equipment and open and spare Second at pond, which goes out water controlling equipment, closes, while the first water inlet port of the water inlet turning facilities at pretreatment pool being driven to beat It opens.

If above-mentioned water level value less than the second watermark threshold, drives first at remaining pond to go out water controlling equipment and closes and spare Second at pond, which goes out water controlling equipment, opens, while the second water inlet port of the water inlet turning facilities at pretreatment pool being driven to beat It opens.

Optionally, referring to fig. 2, the present embodiment is in the first water inlet port or the second water inlet for driving above-mentioned water inlet turning facilities After port is opened, can also include:

Step S201 obtains the water velocity of the water outlet port of water inlet turning facilities；The water outlet of above-mentioned water inlet turning facilities The connection of the water inlet pipe of port and pretreatment pool.

Whether step S202 judges above-mentioned water velocity in flow velocity preset range.

Step S203, if above-mentioned water velocity not in flow velocity preset range, drives the drainage equipment in corresponding pond to carry out the One predetermined registration operation, the first predetermined registration operation is for controlling above-mentioned water velocity in flow velocity preset range.

The present embodiment can also monitor the water velocity into pretreatment pool, in conjunction with the water level value of pretreatment pool, can control System enters the size of the water velocity of pretreatment pool.Illustratively, when the water level value of Yu Shuichi is greater than the first watermark threshold, judgement Whether the water velocity of acquisition is in flow velocity preset range, if such as water velocity is too small, then drives not in flow velocity preset range Drainage equipment or the pumping equipment increasing in dynamic remaining pond draw water speed (the first predetermined registration operation) or water velocity it is excessive, then drive The drainage equipment or pumping equipment in dynamic remaining pond reduce speed of drawing water.

Illustratively, if the water level value in remaining pond is less than the second watermark threshold, whether judge the water velocity obtained In flow velocity preset range, if water velocity, not in flow velocity preset range, such as water velocity is excessive, then drives spare water Pond drainage equipment or pumping equipment reduction draw water speed or water velocity it is too small, then drive the drainage equipment in spare pond Or pumping equipment increases speed of drawing water, and is guaranteeing to be timely completed day output, is saving energy while meeting the demand of biochemistry pool Source.Wherein, the shunting device of the present embodiment can not include first go out water controlling equipment and second go out water controlling equipment.

In addition, the present embodiment can also obtain the water velocity of the water inlet of above-mentioned pretreatment pool, and judge above-mentioned water flow Whether speed is in flow velocity preset range；If above-mentioned water velocity not in flow velocity preset range, drives the draining in corresponding pond to set Standby to carry out the first predetermined registration operation, the first predetermined registration operation is used to control above-mentioned water velocity in flow velocity preset range, point at this time Flow device can not include water inlet turning facilities.

Optionally, referring to Fig. 3, the present embodiment is in the first water inlet port or the second water inlet for driving above-mentioned water inlet turning facilities After port is opened, the above method can also include:

Step S301 obtains the water flow of the water outlet port of water inlet turning facilities.

Whether step S302 judges above-mentioned water flow in water flow preset range.

Step S303, if above-mentioned water flow not in water flow preset range, drives the drainage equipment in corresponding pond to carry out the Two predetermined registration operations, second predetermined registration operation is for controlling above-mentioned water flow in water flow preset range.

The present embodiment can also monitor the water flow into pretreatment pool, in conjunction with the water level value of pretreatment pool, can control Into the size of the water flow of pretreatment pool.Illustratively, when the water level value of Yu Shuichi is greater than the first watermark threshold, judge to obtain Water flow cease whether in water flow preset range, if not in water flow preset range, such as into the water of pretreatment pool Amount then drives the drainage equipment in remaining pond or pumping equipment to reduce and takes out considerably beyond day output or when being more than biochemistry pool demand Water (second predetermined registration operation), or be far smaller than day output into the water of pretreatment pool or be less than biochemistry pool demand When, then drive the drainage equipment in remaining pond or pumping equipment to increase pump-out.

Illustratively, if the water level value in remaining pond is less than the second watermark threshold, judge obtain water flow whether In water flow preset range, if water flow much surpasses not in water flow preset range, such as into the water of pretreatment pool When crossing day output or being more than biochemistry pool demand, then the drainage equipment in spare pond or pumping equipment is driven to reduce pump-out, Or enter the water of pretreatment pool far insufficient biochemistry pool demand when, then drive the drainage equipment or pumping equipment in spare pond Increase pump-out, is guaranteeing to be timely completed day output, sewage disposal device mistake is prevented while meeting the demand of biochemistry pool Ship row.Wherein, the shunting device of the present embodiment can not include first go out water controlling equipment and second go out water controlling equipment.

In addition, the present embodiment can also obtain the water flow of the water inlet of above-mentioned pretreatment pool, and judge above-mentioned water flow Whether in water flow preset range；If above-mentioned water flow not in water flow preset range, drives the drainage equipment in corresponding pond Second predetermined registration operation is carried out, second predetermined registration operation shunts set at this time for controlling above-mentioned water flow in water flow preset range Standby can not include water inlet turning facilities.

Optionally, the spare pond of the present embodiment can be clear water reserviors, in this way can be to avoid water resource waste.Practical application In, pretreatment pool may include following at least one: conditioning tank, coagulating basin, sedimentation basin and clear water reserviors, and pretreatment pool and multistage are raw Object contact-oxidation pool (biochemistry pool) connects, and the water in clear water reserviors is discharged into biochemistry pool, to meet the water demand of biochemistry pool, guarantees micro- Biological normal growth.Wherein, conditioning tank be mainly used for adjust bed mud more than water pH value；Coagulating basin is mainly used for removing more than bed mud The colloid and solid of water, solid mainly include the soluble solid and suspended solid of water more than bed mud；Sedimentation basin is mixed for precipitating Bulky grain solid or colloid after agglomerating in solidifying pond, clear water reserviors are mainly that multi-stage biological contact-oxidation pool carries out water storage, can also be sunk Suspended solid in the water of shallow lake；Multi-stage biological contact-oxidation pool is mainly used for ammonia nitrogen and total nitrogen in water removal etc., and water outlet is made to reach ground Five class of table water.

Specifically, entering conditioning tank by pipeline connection, then taken out water with immersible pump from the remaining water that sludge handling factory is discharged To coagulating basin, enter sedimentation basin later, the remaining water after coagulating sedimentation overflows to clear water reserviors, enters finally into multi-stage biological contact oxygen Change pond.Wherein, conditioning tank can control the water level in pond, and when the water level in pond is excessively high, the water being higher by can be spilled over to mixed automatically Solidifying pond；So that colloid and fine suspension in waste water is condensed into floccule body by coagulating basin, reduces the water quality such as the turbidity of raw water and refer to Mark removes a variety of hazardous contaminants by sedimentation basin；By the clean water overflow on the processed upper layer of sedimentation basin to clear water reserviors, Clear water reserviors are connect with multi-stage biological contact-oxidation pool, and multi-stage biological contact-oxidation pool reaches water outlet after water body is carried out multistep treatment To five class of surface water, finally treated, and water is discharged into artificial swamp, or irrigates land use for greening, and water resource is made to be fully used.

Optionally, the present embodiment can also be under preset trigger condition, by the water level value in remaining pond, water velocity and water Flow is sent to default terminal.The present embodiment is not specifically limited default terminal, can be the packet such as mobile phone, computer and industrial personal computer The terminal for including display screen and radio receiver facilitates staff to check water level value, water velocity and the water in remaining pond at any time The information such as flow.

Optionally, the present embodiment sends out the water level value in remaining pond, water velocity and water flow under preset trigger condition Giving default terminal includes: after checking instruction receive that default terminal issues, by the water level value in remaining pond, water velocity and Water flow is sent to default terminal.

Or, after receiving and being successfully established the instruction of communication connection with default terminal, by the water level value in remaining pond, water flow velocity Degree and water flow are sent to default terminal.

Or, at predetermined intervals, the water level value in remaining pond, water velocity and water flow are sent to default terminal.

The water level value in remaining pond, water velocity and water flow are sent to pre- by the present embodiment under preset trigger condition If after terminal, further includes: receive the default acquisition instructions of above-mentioned default terminal, and according to above-mentioned default acquisition instructions to water level It acquires equipment and sends acquisition driving signal.For example, staff needs to immediately appreciate that the specific water level value in remaining pond, can pass through The acquisition bug for operating the remaining pond of default terminal sends default acquisition instructions, and the present embodiment presets acquisition instructions based on the received Acquisition driving signal is sent to water level acquisition equipment, then water level acquisition equipment acquires the specific water level value in remaining pond.

Above-mentioned pipeline shunt control method, by obtaining the water level value in remaining pond, if water level value is greater than the first watermark threshold, It drives first at remaining pond to go out water controlling equipment to open, while driving second at spare pond to go out water controlling equipment and closing, So that the sewage quantity in remaining pond meets the demand of biochemistry pool；If water level value drives at remaining pond less than the second watermark threshold First go out water controlling equipment close, drive at spare pond second go out water controlling equipment open so that in spare pond Water meets the demand of biochemistry pool, realizes and automatically controls residual water treatment amount, guarantees that residual water treatment system completes defined day While treating capacity, meet the demand of biochemistry pool, solves the problems, such as that remaining water deficiency influences the microorganism growth of biochemistry pool, protect The growing environment of microorganism is demonstrate,proved, wastewater treatment efficiency is improved.

It will be understood by those skilled in the art that in above-described embodiment the size of the serial number of each step be not meant to execute it is suitable Sequence it is successive, the execution of each process sequence should be determined by its function and internal logic, the implementation without coping with the embodiment of the present invention Process constitutes any restriction.

Corresponding to pipeline shunt control method described in foregoing embodiments, a kind of pipeline shunt control is present embodiments provided Device.It is the structural schematic diagram of pipeline shunt control device in the present embodiment referring specifically to Fig. 4.For ease of description, it only shows Part related to the present embodiment.

Pipeline shunt control device includes: that water level acquisition equipment 110, first goes out the water management out of water controlling equipment 120, second Equipment 130 and concentrator 140；First goes out the water outlet that remaining pond is arranged in water controlling equipment 120, and second goes out water controlling equipment 130 are arranged in the water outlet in spare pond.Water level acquisition equipment 110 and concentrator 140 are wirelessly connected；First goes out water controlling equipment 120 and second go out water controlling equipment 130 can be wireless with concentrator 140, can also be connected by data/address bus.

Specifically, level sensor equipment 110 acquires the water level value in remaining pond and is sent to concentrator 140；Concentrator 140 is used In receiving the water level value, if the water level value is greater than the first watermark threshold, driving first goes out water controlling equipment 120 and opens, together When driving second go out water controlling equipment 130 close.

If the water level value, less than the second watermark threshold, driving first goes out water controlling equipment 120 and closes, while driving second Water controlling equipment 130 is opened out.

Optionally, water level acquisition equipment 110 may include: water level sensor and wireless communication module；Water level sensor is real When acquire the water level value in remaining pond；The water level value currently acquired is sent to concentrator 140 by wireless communication module.The present embodiment Water level acquisition equipment 110 can also include: power module.Power module is that water level sensor and wireless communication module are powered.This In embodiment first go out water controlling equipment 120 and second go out water controlling equipment 130 may each be flowing water Valve.

The concentrator 140 of the present embodiment can be ARM (Advanced RISC Machines, at Advanced Reduced Instruction Set Manage device), integrated level is high, small in size, functional, and dynamic is supported to reconfigure, and peripheral interface is abundant, reduces monitoring water quality dress The volume and cost set.The concentrator of the present embodiment can also include memory module.Memory module stores water level value, water velocity At least one of with water flow.

Optionally, referring to Fig. 5, the pipeline shunt control device of the present embodiment can also include: into water turning facilities 150. Water inlet turning facilities 150 can be wireless with concentrator 140, can also be connected by data/address bus；Water inlet turning facilities 150 The first water inlet port connect with the outlet pipe in remaining pond, the second of water inlet turning facilities 150 is intake port and spare pond Outlet pipe connection, the water outlet port for turning facilities 150 of intaking and the water inlet pipe of pretreatment pool connect.It intakes and turns in the present embodiment Equipment 150 can be switching valve.

Correspondingly, concentrator 140 can be also used for: if the water level value is greater than the first watermark threshold, driving the water inlet It opens first water inlet port of turning facilities.

If water level value drives the second water inlet port of the water inlet turning facilities to open less than the second watermark threshold.

Optionally, the pipeline shunt control device of the present embodiment can go out water controlling equipment 110, second including first simultaneously Water controlling equipment 120 and switching valve 150 out, can also only include first go out water controlling equipment 110 and second go out water controlling equipment 120, or only include switching valve 150.It simultaneously include the first water outlet of water controlling equipment 110, second out in pipeline shunt control device When controlling equipment 120 and switching valve 150, referring to Fig. 6, concentrator 140 is also used to: if water level value is greater than the first watermark threshold, being driven It moves first and goes out the opening of water controlling equipment 110 and the second closing of water controlling equipment 120 out, while driving water inlet turning facilities 150 It opens the first water inlet port.If above-mentioned water level value, less than the second watermark threshold, driving first goes out water controlling equipment 110 and closes and the Two, which go out water controlling equipment 120, opens, while the second water inlet port of water inlet turning facilities 150 being driven to open.

Optionally, the pipeline shunt control device of the present embodiment further include: water velocity acquires equipment.Water velocity acquisition Equipment and concentrator 140 are wirelessly connected.Water velocity acquire equipment be used for water inlet turning facilities 150 first water inlet port or After second water inlet port is opened, the water velocity of the water outlet port of acquisition water inlet turning facilities 150 is simultaneously sent to concentrator 140.

Correspondingly, concentrator 140 can be also used for: receiving above-mentioned water velocity, judge water velocity whether in water flow velocity In preset range.

If above-mentioned water velocity not in flow velocity preset range, drives the drainage equipment in corresponding pond to carry out the first default behaviour Make, the first predetermined registration operation is for controlling water velocity in flow velocity preset range.

Optionally, the pipeline shunt control device of the present embodiment further include: water flow acquires equipment.Water flow acquires equipment It is wirelessly connected with concentrator 140.Water flow acquire equipment be used for water inlet turning facilities 150 first water inlet port or second into After water end (W.E.) mouth is opened, the water flow of the water outlet port of acquisition water inlet turning facilities 150 is simultaneously sent to concentrator 140.

Correspondingly, concentrator 140 can be also used for: receiving water flow, judge water flow whether in water flow preset range It is interior.

If above-mentioned water flow not in water flow preset range, drives the drainage equipment in corresponding pond to carry out the second default behaviour Make, second predetermined registration operation is for controlling water flow in water flow preset range.

Above-mentioned pipeline shunt control device, level sensor equipment acquire the water level value in remaining pond；Concentrator receives water level value, If water level value is greater than the first watermark threshold, drives first at remaining pond to go out water controlling equipment 120 and open, while driving spare Second at pond, which goes out water controlling equipment 130, closes, so that the sewage quantity in remaining pond meets the demand of biochemistry pool；If water level When value is less than the second watermark threshold, drives first at remaining pond to go out water controlling equipment 120 and close, while driving at spare pond Second go out water controlling equipment 130 open so that the water in spare pond meets the demand of biochemistry pool, realize automatic control Residual water treatment amount processed meets the demand of biochemistry pool while guaranteeing that residual water treatment system completes defined day output, solves Remaining water deficiency influences the problem of microorganism growth of biochemistry pool, guarantees the growing environment of microorganism, improves wastewater treatment efficiency.

The pipeline shunt control device provided based on the above embodiment provides a kind of sewage treatment system in the present embodiment System, including pretreatment pool, biochemistry pool and sewage disposal device further include filling as pipeline shunt any in above-described embodiment controls It sets, it may have the beneficial effect of any pipeline shunt control device in above-described embodiment.

It is apparent to those skilled in the art that for convenience of description and succinctly, only with above-mentioned each function Can unit, model division progress for example, in practical application, can according to need and by above-mentioned function distribution by different Functional unit, module are completed, i.e., the internal structure of above-mentioned apparatus is divided into different functional unit or module, more than completing The all or part of function of description.In addition, the specific name of each functional unit, module is also only for convenience of distinguishing each other, The protection scope being not intended to limit this application.

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed The scope of the present invention.

In embodiment provided by the present invention, it should be understood that disclosed radar and method can pass through others Mode is realized.For example, radar embodiment described above is only schematical, for example, the division of above-mentioned module or unit, Only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be with In conjunction with or be desirably integrated into another system, or some features can be ignored or not executed.Another point, it is shown or discussed Mutual coupling or direct-coupling or communication connection can be through some interfaces, the INDIRECT COUPLING of device or unit or Communication connection can be electrical property, mechanical or other forms.

Above-mentioned unit as illustrated by the separation member may or may not be physically separated, it can be located at One place, or may be distributed over multiple network units.Can select according to the actual needs part therein or Whole units achieve the purpose of the solution of this embodiment.

If above-mentioned integrated module/unit be realized in the form of SFU software functional unit and as independent product sale or In use, can store in a computer readable storage medium.Based on this understanding, the present invention realizes above-mentioned implementation All or part of the process in example method, can also instruct relevant hardware to complete, above-mentioned meter by computer program Calculation machine program can be stored in a computer readable storage medium, the computer program when being executed by processor, it can be achieved that on The step of stating each embodiment of the method.Wherein, above-mentioned computer program includes computer program code, above-mentioned computer program generation Code can be source code form, object identification code form, executable file or certain intermediate forms etc..Above-mentioned computer-readable medium It may include: any entity or device, recording medium, USB flash disk, mobile hard disk, magnetic that can carry above-mentioned computer program code Dish, CD, computer storage, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), electric carrier signal, telecommunication signal and software distribution medium etc..It should be noted that above-mentioned The content that computer-readable medium includes can carry out increasing appropriate according to the requirement made laws in jurisdiction with patent practice Subtract, such as in certain jurisdictions, according to legislation and patent practice, computer-readable medium do not include be electric carrier signal and Telecommunication signal.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although with reference to the foregoing embodiments Invention is explained in detail, those skilled in the art should understand that: it still can be to aforementioned each implementation Technical solution documented by example is modified or equivalent replacement of some of the technical features；And these modification or Replacement, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution should all include Within protection scope of the present invention.

Claims (10)

1. a kind of pipeline shunt control method characterized by comprising

Obtain the water level value in remaining pond；

If the water level value is greater than the first watermark threshold, drives first at the remaining pond to go out water controlling equipment and open, simultaneously It drives second at spare pond to go out water controlling equipment to close；

If the water level value drives first at the remaining pond to go out water controlling equipment and closes, simultaneously less than the second watermark threshold It drives second at the spare pond to go out water controlling equipment to open；First watermark threshold is greater than the second water level threshold Value.

2. pipeline shunt control method as described in claim 1, which is characterized in that after the water level value for obtaining remaining pond, Further include:

If the water level value is greater than first watermark threshold, the first water inlet end of the water inlet turning facilities at pretreatment pool is driven Mouth is opened；First water inlet port is connect with the outlet pipe in the remaining pond；

If the water level value is less than second watermark threshold, the second water inlet end of the water inlet turning facilities at pretreatment pool is driven Mouth is opened；Second water inlet port is connect with the outlet pipe in the spare pond.

3. pipeline shunt control method as claimed in claim 2, which is characterized in that driving the of the water inlet turning facilities After one water inlet port or the second water inlet port are opened, further includes:

Obtain the water velocity of the water outlet port of the water inlet turning facilities；The water outlet port of the water inlet turning facilities and pre- place Manage the water inlet pipe connection in pond；

Judge the water velocity whether in flow velocity preset range；

If the water velocity not in the flow velocity preset range, drives the drainage equipment in corresponding pond to carry out the first default behaviour Make, described the first predetermined registration operation is for controlling the water velocity in flow velocity preset range.

4. pipeline shunt control method as claimed in claim 3, which is characterized in that driving the of the water inlet turning facilities After one water inlet port or the second water inlet port are opened, further includes:

Obtain the water flow of the water outlet port of the water inlet turning facilities；

Judge the water flow whether in water flow preset range；

If the water flow not in the water flow preset range, drives the drainage equipment in corresponding pond to carry out the second default behaviour Make, the second predetermined registration operation is for controlling the water flow in water flow preset range.

5. such as the described in any item pipeline shunt control methods of Claims 1-4, which is characterized in that the spare pond is clear Pond.

6. a kind of pipeline shunt control device characterized by comprising water level acquisition equipment, first go out water controlling equipment, second Water controlling equipment and concentrator out；Described first goes out the water outlet that remaining pond is arranged in water controlling equipment, and described second goes out water control The water outlet in spare pond is arranged in control equipment；

The level sensor equipment is used to acquire the water level value in remaining pond and is sent to the concentrator；

The concentrator is for receiving the water level value, if the water level value is greater than the first watermark threshold, driving described first goes out Water controlling equipment is opened, while being driven described second to go out water controlling equipment and being closed；

If the water level value, less than the second watermark threshold, driving described first goes out water controlling equipment and closes, while driving described the Two, which go out water controlling equipment, opens；First watermark threshold is greater than second watermark threshold.

7. pipeline shunt control device as claimed in claim 6, which is characterized in that the pipeline shunt control device also wraps It includes: water inlet turning facilities；It is described water inlet turning facilities first water inlet port connect with the outlet pipe in the remaining pond, it is described into Second water inlet port of water turning facilities is connect with the outlet pipe in the spare pond, the water outlet port of the water inlet turning facilities It is connect with the water inlet pipe of pretreatment pool；

The concentrator is also used to: if the water level value is greater than the first watermark threshold, driving the first of the water inlet turning facilities It opens water inlet port；

If the water level value drives the second water inlet port of the water inlet turning facilities to open less than the second watermark threshold.

8. pipeline shunt control method as claimed in claim 7, which is characterized in that the pipeline shunt control device also wraps Include: water velocity acquires equipment；

The water velocity acquisition equipment in the first water inlet port of the water inlet turning facilities or the second water inlet port for beating After opening, acquires the water velocity of the water outlet port of the water inlet turning facilities and be sent to the concentrator；

Whether the concentrator is also used to: receiving the water velocity, judge the water velocity in water flow velocity preset range；

If the water velocity not in the flow velocity preset range, drives the drainage equipment in corresponding pond to carry out the first default behaviour Make, described the first predetermined registration operation is for controlling the water velocity in flow velocity preset range.

9. pipeline shunt control method as claimed in claim 7, which is characterized in that the pipeline shunt control device also wraps Include: water flow acquires equipment；

The water flow acquisition equipment in the first water inlet port of the water inlet turning facilities or the second water inlet port for opening Afterwards, it acquires the water flow of the water outlet port of the water inlet turning facilities and is sent to the concentrator；

Whether the concentrator is also used to: receiving the water flow, judge the water flow in water flow preset range；

If the water flow not in the water flow preset range, drives the drainage equipment in corresponding pond to carry out the second default behaviour Make, the second predetermined registration operation is for controlling the water flow in water flow preset range.

10. a kind of sewage disposal system, including pretreatment pool, biochemistry pool and sewage disposal device, which is characterized in that further include as Pipeline shunt control device described in claim 6 to 9.