CN205530582U - Urban sewerage and drainage sys tem - Google Patents

Abstract

The utility model discloses an urban sewerage and drainage sys tem, pass through the sump pit that the pipeline communicates including the inspection shaft and with the inspection shaft, be equipped with the drainage water pump of the ponding that is used for discharging in the sump pit, be equipped with inspection shaft detection of water level appearance and inspection shaft wireless communication module in the inspection shaft, be equipped with sump pit detection of water level appearance and sump pit wireless communication module in the sump pit, be provided with drainage water pump data collection station and drainage water pump wireless communication module on the drainage water pump, processing center is used for receiving inspection shaft water level data, sump pit water level data and drainage water pump real -time operation data and control drainage water pump operation. Through using this application drainage system, can transmit inspection shaft water level data in processing center in advance through inspection shaft detection of water level appearance and inspection shaft wireless communication module, when the condition that meets water level steep rises such as torrential rain, the processing center control drainage water pump puts into operation into operation in advance, in time drain water automatically.

Description

A kind of sewerage system

Technical field

This utility model relates to a kind of sewerage system.

Background technology

It is known that, conventional pumps station control system is typically based on collecting well fluid level and runs to control draining pump, only when in pipeline water be flowed to sump, when sump water level rises, water pump just can put into operation, cannot put into operation in advance when the situation that water levels such as running into heavy rain steeply rises, drain the water away in time.And conventional pumps station control system does not possess the functions such as long-range monitoring record.Prior art is badly in need of a kind of sewerage system with drain function in advance.

Utility model content

The purpose of this utility model is to overcome defect present in prior art, it is provided that a kind of sewerage system with drain function in advance.

For achieving the above object, the technical solution of the utility model there is provided a kind of sewerage system, including inspection shaft and with the inspection shaft sump by pipeline communication, described sump is provided with the draining water pump for discharging hydrops；Described inspection shaft is provided with inspection shaft water level detection gauge and inspection shaft wireless communication module, described inspection shaft water level detection gauge is used for detecting inspection shaft water level and forming inspection shaft waterlevel data, and described inspection shaft wireless communication module is used for receiving inspection shaft waterlevel data and being sent to processing center by wireless network；

Described sump is provided with sump water level detection gauge and sump wireless communication module, described sump water level detection gauge is used for detecting sump water level and forming sump waterlevel data, and described sump wireless communication module is used for receiving sump waterlevel data and being sent to processing center by wireless network；

Water drain Pump data harvester and draining water pump wireless communication module it is provided with on described draining water pump, described water drain Pump data harvester is used for gathering draining water pump real-time running data, and described draining water pump wireless communication module is used for receiving draining water pump real-time running data and being sent to processing center by wireless network；

Described processing center is used for receiving inspection shaft waterlevel data, sump waterlevel data and draining water pump real-time running data and controlling water drain pump operation.

By using drainage system described herein, first, inspection shaft water level detection gauge and inspection shaft wireless communication module can be passed through by inspection shaft waterlevel data transmission in advance in processing center, when the situation that water levels such as running into heavy rain steeply rises, processing center controls draining water pump and puts into operation in advance, drains the water away in time；Secondly, can reflect which bar pipeline is in stopping state by the water-head of contrast inspection shaft and sump, the regular maintenance for pipe network provides data refer；Again, by water pump data acquisition unit and draining water pump wireless communication module, draining water pump real-time running data is sent to processing center, control centre is monitored and record, by the analysis to data such as history water pump electric current, water pump operation times, can be with the regular maintenance cycle of reasonable arrangement water pump.The safe and reliable operation of unmanned pump station is ensure that through above-mentioned series of measures.

As preferably, described processing center includes controlling computer and processing center wireless communication module, described processing center wireless communication module realizes data transmission for coordinating with inspection shaft wireless communication module, sump wireless communication module and draining water pump wireless communication module, and described draining water pump wireless communication module is additionally operable to receive the control instruction that processing center wireless communication module sends.It is easy to processing center by such design and drainage system is planned as a whole monitoring, and draining water pump is effectively controlled；Processing center can be arranged on the drainage pipeline networks processing center in city, can also arrange by the traffic control center in city simultaneously, high in inspection shaft Level Detection to water level, in the case of road is submerged, except being sent at drainage pipeline networks processing center, also can send warning message to traffic control center, notify that traffic police's road closure of reaching the spot in time directs traffic, when preventing automobile from crossing water accumulation part, water inlet is flame-out, causes damage；Simultaneously can also be connected to the network by controlling computer, from Network Capture weather forecast information, in advance whether low laying areas can be catchmented in conjunction with present sump water level and give warning in advance.

As preferably, described inspection shaft side is provided with pump-line, and described pump-line one end connects with the side wall upper part of inspection shaft, and the other end elevates above the soil and connects with vacuum pumping pump, and described vacuum pumping pump controls to be connected with processing center.Such design can be relatively big at rainfall, in the case of inspection well cover draining not in time, by vacuum pumping pump in the negative pressure that is internally formed of inspection shaft, accelerates rainwater and flows in inspection shaft, improve drainage efficiency, prevent hydrops.

As preferably, described vacuum pumping pump is provided with vacuum pumping pump wireless communication module, and described vacuum pumping pump wireless communication module is for receiving the control instruction that processing center wireless communication module sends.Such can be designed so that control centre determines as required which inspection shaft is accelerated drain operation.Multiple vacuum pumping pumps are managed respectively, carries out vacuum pumping targetedly, reduce energy loss.

As preferably, described vacuum pumping pump is 1 ~ 10m away from ground level.Such design is avoided hydrops too high and vacuum pumping pump submergence was lost efficacy.

As preferably, the described pipeline near sump is provided with lateral, one end of described lateral and pipeline communication, and the other end is the water outlet outlet towards sump, and described lateral is provided with reinforced platoon's water pump.Such design is easy to increase the pressure of draining, then accelerates the speed of water flow in pipeline, improves drainage efficiency, prevents hydrops.

As preferably, described reinforced platoon water pump is provided with reinforced platoon's water pump wireless communication module, and described reinforced platoon water pump wireless communication module is for receiving the control instruction that processing center wireless communication module sends.The processing center control to reinforced platoon's water pump is easy in such design.

As preferably, the discharge outlet end of described pipeline is provided with switch valve.Such design is easy to when using reinforced platoon's pumping drainage, closing switch valve, it is simple to form bigger discharge pressure in pipeline.

As preferably, described inspection shaft water level detection gauge and sump water level detection gauge are with pressure-type liquidometer or ultrasonic type liquidometer.Such design is a kind of optimization to scheme.

Advantage of the present utility model and having the beneficial effects that: by using drainage system described herein, first, inspection shaft water level detection gauge and inspection shaft wireless communication module can be passed through by inspection shaft waterlevel data transmission in advance in processing center, when the situation that water levels such as running into heavy rain steeply rises, processing center controls draining water pump and puts into operation in advance, drains the water away in time；Secondly, can reflect which bar pipeline is in stopping state by the water-head of contrast inspection shaft and sump, the regular maintenance for pipe network provides data refer；Again, by water pump data acquisition unit and draining water pump wireless communication module, draining water pump real-time running data is sent to processing center, control centre is monitored and record, by the analysis to data such as history water pump electric current, water pump operation times, can be with the regular maintenance cycle of reasonable arrangement water pump.The safe and reliable operation of unmanned pump station is ensure that through above-mentioned series of measures.

Accompanying drawing explanation

Fig. 1 is this utility model structural representation；

Fig. 2 is that this utility model connects block diagram.

In figure: 1, inspection shaft；2, sump；3, pipeline；4, draining water pump；5, pump-line；6, vacuum pumping pump；7, lateral；8, reinforced platoon's water pump；9, switch valve；10, inspection shaft water level detection gauge；11, inspection shaft wireless communication module；12, sump water level detection gauge；13, sump wireless communication module；14, water drain Pump data harvester；15, draining water pump wireless communication module；16, computer is controlled；17, processing center wireless communication module；18, vacuum pumping pump wireless communication module；19, reinforced platoon's water pump wireless communication module.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, detailed description of the invention of the present utility model is further described.Following example are only used for clearly illustrating the technical solution of the utility model, and can not limit protection domain of the present utility model with this.

As Figure 1-Figure 2, a kind of sewerage system, passes through, including inspection shaft 1 and with inspection shaft 1, the sump 2 that pipeline 3 connects, is provided with the draining water pump 4 for discharging hydrops in described sump 2；Described inspection shaft 1 is provided with inspection shaft water level detection gauge 10 and inspection shaft wireless communication module 11, described inspection shaft water level detection gauge 10 is used for detecting inspection shaft 1 water level and forming inspection shaft 1 waterlevel data, and described inspection shaft wireless communication module 11 is used for receiving inspection shaft 1 waterlevel data and being sent to processing center by wireless network；

Described sump 2 is provided with sump water level detection gauge 12 and sump wireless communication module 13, described sump water level detection gauge 12 is used for detecting sump 2 water level and forming sump 2 waterlevel data, and described sump wireless communication module 13 is used for receiving sump 2 waterlevel data and being sent to processing center by wireless network；

Water drain Pump data harvester 14 and draining water pump wireless communication module 15 it is provided with on described draining water pump 4, described water drain Pump data harvester 14 is used for gathering draining water pump 4 real-time running data, and described draining water pump wireless communication module 15 is used for receiving draining water pump 4 real-time running data and being sent to processing center by wireless network；

Described processing center is used for receiving inspection shaft 1 waterlevel data, sump 2 waterlevel data and draining water pump 4 real-time running data and controlling draining water pump 4 running.

Described processing center includes controlling computer 16 and processing center wireless communication module 17, described processing center wireless communication module 17 realizes data transmission for coordinating with inspection shaft wireless communication module 11, sump wireless communication module 13 and draining water pump wireless communication module 15, and described draining water pump wireless communication module 15 is additionally operable to receive the control instruction that processing center wireless communication module 17 sends.

Described inspection shaft 1 side is provided with pump-line 5, and described pump-line 5 one end connects with the side wall upper part of inspection shaft 1, and the other end elevates above the soil and connects with vacuum pumping pump 6, and described vacuum pumping pump 6 controls to be connected with processing center.

Described vacuum pumping pump 6 is provided with vacuum pumping pump wireless communication module 18, and described vacuum pumping pump wireless communication module 18 is for receiving the control instruction that processing center wireless communication module 17 sends.Described vacuum pumping pump 6 is 1 ~ 10m away from ground level.

The described pipeline 3 near sump 2 is provided with lateral 7, and one end of described lateral 7 connects with pipeline 3, and the other end is the water outlet outlet towards sump 2, and described lateral 7 is provided with reinforced platoon's water pump 8.

Described reinforced platoon water pump 8 is provided with reinforced platoon's water pump wireless communication module 19, and described reinforced platoon water pump wireless communication module 19 is for receiving the control instruction that processing center wireless communication module 17 sends.

The discharge outlet end of described pipeline 3 is provided with switch valve 9.

Described inspection shaft water level detection gauge 10 and sump water level detection gauge 12 are with pressure-type liquidometer or ultrasonic type liquidometer.

In use, inspection shaft water level detection gauge 10 and inspection shaft wireless communication module 11 are arranged in inspection shaft 1, sump water level detection gauge 12 and sump wireless communication module 13 are arranged in sump 2, described inspection shaft wireless communication module 11 and sump wireless communication module 13 are Micro Energy Lose detection and control terminal, this terminal uses lithium battery power supply, and battery can be in long-time steady operation half a year under typical work condition to about 1 year (the operation time is determined by data acquiring frequency)；Micro Energy Lose detection and control terminal uses GPRS communication modes.

Water drain Pump data harvester 14 and draining water pump wireless communication module 15 are connected with draining water pump 4, draining water pump 4 running status is carried out data acquisition, and sends to control centre；

Example one, run into have heavy rain weather time, control centre can pass through Network Capture weather forecast information, and make early warning, strengthen to inspection shaft 1 and the data monitoring of sump 2；When inspection shaft 1 water level that processing center receives is higher than ordinary water level, processing center just controls draining water pump 4 and enters hull-borne in advance, pass through pipeline 3 at the rainwater entering inspection shaft 1 and enter this section of water discharge time of sump 2, water in sump 2 is discharged part by draining water pump 4, when the rainwater in inspection shaft 1 arrives, the water level of sump 2 will not rise suddenly and sharply, and has won the time for draining.Secondly, can reflect which bar pipeline is in stopping state by the water-head of contrast inspection shaft 1 and sump 2, the regular maintenance for pipe network provides data refer；Again, by water pump data acquisition unit and draining water pump wireless communication module 15, draining water pump 4 real-time running data is sent to processing center, control centre is monitored and record, by the analysis to data such as history water pump electric current, water pump operation times, can be with the regular maintenance cycle of reasonable arrangement water pump.

Example two, a kind of optimization as example one, when running into torrential rain or extra torrential rain, the well lid inlet water stream of inspection shaft 1 flows by gravitational force into inspection shaft 1, in the case of rainfall is relatively big, the water inlet of the well lid of inspection shaft 1 is less, have little time quickly to be sucked by water and cause hydrops, now, control centre combines weather forecast and inspection shaft 1 waterlevel data, instruction is sent by processing center wireless communication module 17, after vacuum pumping pump wireless communication module 18 receives instruction, vacuum pumping pump 6 is opened, by the gas sucking-off in inspection shaft 1, negative pressure is formed in inspection shaft 1, the water inlet of the well lid of inspection shaft 1 is by rapid for hydrops suction inspection shaft 1, and by pipeline 3 row to sump 2.

Example three, a kind of optimization as example two, when running into torrential rain or extra torrential rain, while opening vacuum pumping pump 6, by processing center, reinforced platoon's water pump 8 is opened, switch valve 9 cuts out, switch valve 9 and processing center control to be connected, and in lateral 7 and pipeline 3, current accelerate the speed of (flow velocity higher than not using reinforced platoon's water pump 8) quickening current, so since, the water inlet speed of inspection shaft 1 and the drainage speed of pipeline 3 are all greatly increased, and drainage efficiency is improved.

The above is only preferred implementation of the present utility model; it should be pointed out that, for those skilled in the art, on the premise of without departing from this utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be regarded as the protection domain of utility model.

Claims (9)

1. a sewerage system, it is characterised in that: include inspection shaft and with the inspection shaft sump by pipeline communication, described sump is provided with the draining water pump for discharging hydrops；Described inspection shaft is provided with inspection shaft water level detection gauge and inspection shaft wireless communication module, described inspection shaft water level detection gauge is used for detecting inspection shaft water level and forming inspection shaft waterlevel data, and described inspection shaft wireless communication module is used for receiving inspection shaft waterlevel data and being sent to processing center by wireless network；

Described sump is provided with sump water level detection gauge and sump wireless communication module, described sump water level detection gauge is used for detecting sump water level and forming sump waterlevel data, and described sump wireless communication module is used for receiving sump waterlevel data and being sent to processing center by wireless network；

Water drain Pump data harvester and draining water pump wireless communication module it is provided with on described draining water pump, described water drain Pump data harvester is used for gathering draining water pump real-time running data, and described draining water pump wireless communication module is used for receiving draining water pump real-time running data and being sent to processing center by wireless network；

Described processing center is used for receiving inspection shaft waterlevel data, sump waterlevel data and draining water pump real-time running data and controlling water drain pump operation.

2. sewerage system as claimed in claim 1, it is characterized in that: described processing center includes controlling computer and processing center wireless communication module, described processing center wireless communication module realizes data transmission for coordinating with inspection shaft wireless communication module, sump wireless communication module and draining water pump wireless communication module, and described draining water pump wireless communication module is additionally operable to receive the control instruction that processing center wireless communication module sends.

3. sewerage system as claimed in claim 2, it is characterized in that: described inspection shaft side is provided with pump-line, described pump-line one end connects with the side wall upper part of inspection shaft, and the other end elevates above the soil and connects with vacuum pumping pump, and described vacuum pumping pump controls to be connected with processing center.

4. sewerage system as claimed in claim 3, it is characterised in that: described vacuum pumping pump is provided with vacuum pumping pump wireless communication module, and described vacuum pumping pump wireless communication module is for receiving the control instruction that processing center wireless communication module sends.

5. sewerage system as claimed in claim 4, it is characterised in that: described vacuum pumping pump is 1 ~ 10m away from ground level.

6. sewerage system as claimed in claim 5, it is characterized in that: the described pipeline near sump is provided with lateral, one end of described lateral and pipeline communication, the other end is the water outlet outlet towards sump, and described lateral is provided with reinforced platoon's water pump.

7. sewerage system as claimed in claim 6, it is characterised in that: described reinforced platoon water pump is provided with reinforced platoon's water pump wireless communication module, and described reinforced platoon water pump wireless communication module is for receiving the control instruction that processing center wireless communication module sends.

8. sewerage system as claimed in claim 7, it is characterised in that: the discharge outlet end of described pipeline is provided with switch valve.

9. sewerage system as claimed in claim 8, it is characterised in that: described inspection shaft water level detection gauge and sump water level detection gauge are with pressure-type liquidometer or ultrasonic type liquidometer.