CN108457331A - A kind of the stadiums supply and drain water system and its control method of intelligent control - Google Patents

Abstract

The invention discloses the stadiums supply and drain water systems and its control method of a kind of intelligent control, are related to Architectural Equipment technical field.The present invention includes supervision and management center and discharge water subsystem；The supervision and management center includes control subsystem；Control subsystem includes monitoring unit, central processing unit, debugging unit, storage element, video image acquisition unit, detection unit, communication unit and terminal；Monitoring unit is connect with central processing unit, communication unit and discharge water subsystem successively by data transmission module；Discharge water subsystem includes clean unit, water tank, diversion box and water pump, sewage recycling module and rainwater-collecting module.The present invention monitors discharge water subsystem in real time by the way that control subsystem is arranged, and is equipped with sewage recycling module and rainwater-collecting module, effectively increases the monitoring to discharge water subsystem in stadium, and realizes the self-sufficiencyization that supplies water, and is suitble to promote.

Description

A kind of the stadiums supply and drain water system and its control method of intelligent control

Technical field

The invention belongs to Architectural Equipment technical fields, more particularly to a kind of stadiums supply and drain water system of intelligent control And its control method.

Background technology

Under the drive of "sport for all" project, Chinese sports industry entry fast-developing period, big and medium-sized cities in recent years It is emerged in multitude with the numerous and confused investment construction stadium of colleges and universities, especially high quality, multi-functional stadium.Since field house makes Particularity, such as Games-time and post-games supply and drain water system load differ greatly, peak water and steel roof truss Big Roof occurs in the Games-time, Determine the particularity of its supply and drain water system.Stadium supply and drain water system in the prior art is generally used and is manually controlled, It is cumbersome；Simultaneously as discharge water subsystem is widely distributed in stadium, it is ensured that it is each for water subsystem hydraulic pressure enough and It can monitor at any time, existing supply and drain water system can not be accomplished；Also, existing supply and drain water system is usually only supplied by city's grid Water can not be collected voluntarily or carry out effective recycling to sewage, lead to situations such as insufficient water occur in water consumption big period.

Invention content

The purpose of the present invention is to provide the stadiums supply and drain water systems and its control method of a kind of intelligent control, pass through Supervision and management center is set to monitor discharge water subsystem in real time, and is equipped with sewage recycling module and rainwater-collecting module, is solved Manual operation existing in the prior art of having determined is cumbersome, water supply subsystem monitors are not in place and is susceptible in water consumption big period The problems such as insufficient water.

In order to solve the above technical problems, the present invention is achieved by the following technical solutions：

The present invention is a kind of stadiums supply and drain water system of intelligent control, including supervision and management center and plumbing subsystem System；The supervision and management center includes control subsystem；The control subsystem includes monitoring unit, central processing unit, tune Try unit, storage element, video image acquisition unit, detection unit, communication unit and terminal；Monitoring unit passes through data transmission Module is connect with central processing unit, communication unit and discharge water subsystem successively；Monitoring unit by data transmission module according to It is secondary to be connect with central processing unit, terminal；Debugging unit is single with central processing unit and detection successively by data transmission module Member connection；Debugging unit is connect with central processing unit and storage element successively by data transmission module；Detection unit passes through Data transmission module is connect with central processing unit and storage element successively；Detection unit is by data transmission module successively in Central Processing Unit is connected with terminal；Video image acquisition unit by data transmission module successively with central processing unit and terminal Connection；The discharge water subsystem includes water tank, diversion box and water pump；The water tank is set to the roof of stadiums；Institute State that water tank passes sequentially through water inlet pipe and solenoid valve a groups are connect with external water pipe network；The water tank passes sequentially through water pipe and electricity Magnet valve c groups are connect with diversion box；The diversion box is divided into each floor；The diversion box is connect by water-supply-pipe with water pump.

Further, the terminal includes display module and alarm module.

Further, the water tank passes sequentially through water pipe and solenoid valve b groups are connected with clean unit；The clean unit Including sewage purification module and rainwater purification module；The sewage purification module is connected with sewage recycling module by water-supply-pipe； The rainwater purification module is connected with rainwater-collecting module by water-supply-pipe.

Further, the detection unit includes flowmeter group and sensor group；The flowmeter group is arranged in water tank On water-supply-pipe between diversion box, for detecting water flow variation；The sensor group includes differential pressure pickup, level sensing Device and turbidity detector；On the water-supply-pipe that the differential pressure pickup is arranged between water tank and diversion box, for adjusting water storage The pressure balance of case and diversion box, and acquire the state aperture of solenoid valve c groups；The liquid level sensor be respectively arranged on water tank with Inside diversion box, for incuding the water position status in water tank；The turbidity detector is separately positioned on sewage purification module and rain In water purifying module, monitoring unit is fed back to for detecting water quality, and by testing result.

Further, the rainwater-collecting module includes the networking of rainwater collection collector and the first control valve group；The rainwater collection The water inlet of collector sets up the roof of storied building in gymnasium separately；The water inlet of the rainwater collection collector is pyramidal structure；First control Valve processed is divided on each rainwater collection collector, the inflow for controlling rainwater collection collector；First control valve is embedded with first Flow controller；The sewage recycling module includes the networking of sewage collecting pipe and the second control valve group；The sewage collecting pipe Water inlet sets up separately in the sewer in gymnasium；The water inlet of the sewage collecting pipe is pyramidal structure；Second control valve It is divided on each sewage collecting pipe, the inflow for controlling sewage collecting pipe；Second control valve is embedded with second flow Controller.

A kind of control method of the stadiums supply and drain water system of intelligent control, includes the following steps：

Step 1 is monitored in real time by video image acquisition unit, obtains the use regimen condition in stadium；By currently supervising The comparison of image and the testing result of liquid level sensor in diversion box is controlled, calculates the displacement variation of diversion box as follows Value, and preserve：

Wherein, Q₁For the initial value of water in diversion box before draining, μ₁For diversion box water outlet discharge coefficient, 0.8<μ₁< 0.98, d₁For diversion box water outlet diameter, H be before draining in diversion box the water surface to the height of water outlet, H₁For diversion box water outlet Negative pressure；

When displacement changing value is more than preset threshold k, calculation formula is as follows：

K=Q₀*a

Wherein, Q₀For the capacity of diversion box, a is the displacement variation coefficient of diversion box, 0.65<a<0.95；

Then think be at this time opens solenoid valve c groups opportunity, first turn on solenoid valve c groups at this time, the water in water tank into Enter in each diversion box；

Step 2 calculates storage as follows by the comparison of the detected value of liquid level sensor in flowmeter and water tank Water changing value in water tank, and preserve：

Wherein, Δ M is the initial value of water in the preceding water tank of draining, μ₂For water tank water outlet discharge coefficient, 0.85<μ₂< The number of 0.95, the n diversion box connected by water tank, d₂For water tank water outlet diameter, H is the water surface in the preceding water tank of draining To the height of water outlet, H₁For the negative pressure of water tank water outlet；

When water changing value is more than preset threshold value G, calculation formula is as follows：

G=M₁*x

Wherein, x be water tank displacement variation coefficient, 0.85<a<0.98；

Then think to open the opportunity of the second control valve before this at this time, the second control valve is opened at this time, the dirt in stadium Water, which is entered by sewage collecting pipe in sewage purification module, to be purified；

Step 3, it is whether up to standard by the sewage after the turbidity detector detection process in sewage purification module, and feed back To monitoring unit；If treated, sewage is up to standard, and by treated, sewage injects in water tank opens solenoid valve b groups；If place Sewage after reason is not up to standard, then opens solenoid valve a groups inject external tap water in water tank；And according in each diversion box and storing up The water changing value of water tank judges injection rate.

The invention has the advantages that：

1, the present invention monitors discharge water subsystem in real time by the way that control system is arranged, and is effectively improved operating personnel's Working efficiency, and the automation operated to plumbing is realized, alleviate the working strength of operating personnel.

2, the present invention is effectively prevented and goes out in water consumption big period by the way that sewage recycling module and rainwater-collecting module is arranged Existing insufficient water and so on, realize the self-sufficiencyization that supplies water.

3, the present invention is by each storey setting diversion box, being effectively improved division of labor management of each floor for water subsystem Efficiency ensure that practical value.

4, the present invention on rainwater-collecting module and sewage recycling module by being arranged flow controller, and is passed by liquid level The feedback of sensor controls the folding condition of control valve on rainwater collection collector and sewage collecting pipe, effectively ensure rainwater-collecting and The efficiency of sewage recycling, while the water tank moment also being made to be in saturation state.

Certainly, it implements any of the products of the present invention and does not necessarily require achieving all the advantages described above at the same time.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, will be described below to embodiment required Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ability For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached Figure.

Fig. 1 is a kind of stadiums supply and drain water system of intelligent control of the present invention and its logical framework knot of control method Structure schematic diagram；

Fig. 2 is a kind of stadiums supply and drain water system of intelligent control of the present invention and its control subsystem of control method Logical framework structural schematic diagram；

Fig. 3 is a kind of stadiums supply and drain water system of intelligent control of the present invention and its plumbing subsystem of control method System logical framework structural schematic diagram.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained all other without creative efforts Embodiment shall fall within the protection scope of the present invention.

It please refers to Fig.1 shown in -3, the present invention is a kind of stadiums supply and drain water system of intelligent control, including monitoring management Center and discharge water subsystem.

Supervision and management center includes control subsystem；Control subsystem includes monitoring unit, central processing unit, debugging list Member, storage element, video image acquisition unit, detection unit, communication unit and terminal.

Wherein, monitoring unit by data transmission module successively with central processing unit, communication unit and plumbing subsystem System connection；Monitoring unit is connect with central processing unit, terminal successively by data transmission module.

Wherein, debugging unit is connect with central processing unit and detection unit successively by data transmission module；Debugging is single Member is connect with central processing unit and storage element successively by data transmission module.

Wherein, detection unit is connect with central processing unit and storage element successively by data transmission module；Detection is single Member is connect with central processing unit and terminal successively by data transmission module.

Wherein, video image acquisition unit is connect with central processing unit and terminal successively by data transmission module.

Discharge water subsystem includes water tank, diversion box and water pump；Water tank is set to the roof of stadiums；Water tank according to It is secondary to be connect with external water pipe network by water inlet pipe and solenoid valve a groups；Water tank passes sequentially through water pipe and solenoid valve c groups and diversion box Connection；Diversion box is divided into each floor；Diversion box is connect by water-supply-pipe with water pump.

Wherein, terminal includes display module and alarm module.

Wherein, water tank passes sequentially through water pipe and solenoid valve b groups are connected with clean unit；Clean unit includes sewage purification Module and rainwater purification module；Sewage purification module is connected with sewage recycling module by water-supply-pipe；Rainwater purification module passes through Water-supply-pipe is connected with rainwater-collecting module.

Wherein, detection unit includes flowmeter group and sensor group；Flowmeter group is arranged between water tank and diversion box Water-supply-pipe on, for detect water flow variation；Sensor group includes differential pressure pickup, liquid level sensor and turbidity detector； On the water-supply-pipe that differential pressure pickup is arranged between water tank and diversion box, the pressure difference for adjusting water tank and diversion box is flat Weighing apparatus, and acquire the state aperture of solenoid valve c groups；Liquid level sensor is respectively arranged on inside water tank and diversion box, for incuding water Water position status in case；Turbidity detector is separately positioned in sewage purification module and rainwater purification module, for detecting water quality, And testing result is fed back into monitoring unit.

Wherein, rainwater-collecting module includes the networking of rainwater collection collector and the first control valve group；The water inlet of rainwater collection collector Set up the roof of storied building in gymnasium separately；The water inlet of rainwater collection collector is pyramidal structure；First control valve is divided into each rainwater-collecting Guan Shang, the inflow for controlling rainwater collection collector；First control valve is embedded with first flow controller；Sewage recycling module packet Include the networking of sewage collecting pipe and the second control valve group；The water inlet of sewage collecting pipe sets up separately in the sewer in gymnasium；Sewage The water inlet of collecting pipe is pyramidal structure；Second control valve is divided on each sewage collecting pipe, for controlling sewage collecting pipe Inflow；Second control valve is embedded with second flow controller.

A kind of control method of the stadiums supply and drain water system of intelligent control, includes the following steps：

Step 1 is monitored in real time by video image acquisition unit, obtains the use regimen condition in stadium；By currently supervising The comparison of image and the testing result of liquid level sensor in diversion box is controlled, calculates the displacement variation of diversion box as follows Value, and preserve：

Wherein, Q₁For the initial value of water in diversion box before draining, μ₁For diversion box water outlet discharge coefficient, 0.8<μ₁< 0.98, d₁For diversion box water outlet diameter, H be before draining in diversion box the water surface to the height of water outlet, H₁For diversion box water outlet Negative pressure；

When displacement changing value is more than preset threshold k, calculation formula is as follows：

K=Q₀*a

Wherein, Q₀For the capacity of diversion box, a is the displacement variation coefficient of diversion box, 0.65<a<0.95；

Then think be at this time opens solenoid valve c groups opportunity, first turn on solenoid valve c groups at this time, the water in water tank into Enter in each diversion box；

Step 2 calculates storage as follows by the comparison of the detected value of liquid level sensor in flowmeter and water tank Water changing value in water tank, and preserve：

Wherein, Δ M is the initial value of water in the preceding water tank of draining, μ₂For water tank water outlet discharge coefficient, 0.85<μ₂< The number of 0.95, the n diversion box connected by water tank, d₂For water tank water outlet diameter, H is the water surface in the preceding water tank of draining To the height of water outlet, H₁For the negative pressure of water tank water outlet；

When water changing value is more than preset threshold value G, calculation formula is as follows：

G=M₁*x

Wherein, x be water tank displacement variation coefficient, 0.85<a<0.98；

Then think to open the opportunity of the second control valve before this at this time, the second control valve is opened at this time, the dirt in stadium Water, which is entered by sewage collecting pipe in sewage purification module, to be purified；

Step 3, it is whether up to standard by the sewage after the turbidity detector detection process in sewage purification module, and feed back To monitoring unit；If treated, sewage is up to standard, and by treated, sewage injects in water tank opens solenoid valve b groups；If place Sewage after reason is not up to standard, then opens solenoid valve a groups inject external tap water in water tank；And according in each diversion box and storing up The water changing value of water tank judges injection rate.

In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one implementation of the present invention In example or example.In the present specification, schematic expression of the above terms may not refer to the same embodiment or example. Moreover, particular features, structures, materials, or characteristics described can be in any one or more of the embodiments or examples to close Suitable mode combines.

Present invention disclosed above preferred embodiment is only intended to help to illustrate the present invention.There is no detailed for preferred embodiment All details are described, are not limited the invention to the specific embodiments described.Obviously, according to the content of this specification, It can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to preferably explain the present invention Principle and practical application, to enable skilled artisan to be best understood by and utilize the present invention.The present invention is only It is limited by claims and its full scope and equivalent.

Claims (6)

1. a kind of stadiums supply and drain water system of intelligent control, including supervision and management center and discharge water subsystem；Its feature It is：

The supervision and management center includes control subsystem；

The control subsystem includes monitoring unit, central processing unit, debugging unit, storage element, video image acquisition list Member, detection unit, communication unit and terminal；

Wherein, monitoring unit is connected with central processing unit, communication unit and discharge water subsystem successively by data transmission module It connects；Monitoring unit is connect with central processing unit, terminal successively by data transmission module；

Wherein, debugging unit is connect with central processing unit and detection unit successively by data transmission module；Debugging unit is logical Data transmission module is crossed to connect with central processing unit and storage element successively；

Wherein, detection unit is connect with central processing unit and storage element successively by data transmission module；Detection unit is logical Data transmission module is crossed to connect with central processing unit and terminal successively；

Wherein, video image acquisition unit is connect with central processing unit and terminal successively by data transmission module；

The discharge water subsystem includes water tank, diversion box and water pump；

Wherein, the water tank is set to the roof of stadiums；The water tank pass sequentially through water inlet pipe and solenoid valve a groups with it is outer Portion's grid connection；The water tank passes sequentially through water pipe and solenoid valve c groups are connect with diversion box；

Wherein, the diversion box is divided into each floor；The diversion box is connect by water-supply-pipe with water pump.

2. a kind of stadiums supply and drain water system of intelligent control according to claim 1, which is characterized in that the terminal Including display module and alarm module.

3. a kind of stadiums supply and drain water system of intelligent control according to claim 1, which is characterized in that the water storage Case passes sequentially through water pipe and solenoid valve b groups are connected with clean unit；The clean unit includes that sewage purification module and rainwater are net Change module；

Wherein, the sewage purification module is connected with sewage recycling module by water-supply-pipe；The rainwater purification module passes through defeated Water pipe is connected with rainwater-collecting module.

4. a kind of stadiums supply and drain water system of intelligent control according to claim 1, which is characterized in that the detection Unit includes flowmeter group and sensor group；

On the water-supply-pipe that the flowmeter group is arranged between water tank and diversion box, for detecting water flow variation；

The sensor group includes differential pressure pickup, liquid level sensor and turbidity detector；

Wherein, on the water-supply-pipe that the differential pressure pickup is arranged between water tank and diversion box, for adjusting water tank and dividing The pressure balance of water tank, and acquire the state aperture of solenoid valve c groups；

Wherein, the liquid level sensor is respectively arranged on inside water tank and diversion box, for incuding the water position status in water tank；

Wherein, the turbidity detector is separately positioned in sewage purification module and rainwater purification module, for detecting water quality, and Testing result is fed back into monitoring unit.

5. a kind of stadiums supply and drain water system of intelligent control according to claim 3, which is characterized in that the rainwater Collection module includes the networking of rainwater collection collector and the first control valve group；

The water inlet of the rainwater collection collector sets up the roof of storied building in gymnasium separately；The water inlet of the rainwater collection collector is taper knot Structure；

First control valve is divided on each rainwater collection collector, the inflow for controlling rainwater collection collector；First control Valve processed is embedded with first flow controller；

The sewage recycling module includes the networking of sewage collecting pipe and the second control valve group；

The water inlet of the sewage collecting pipe sets up separately in the sewer in gymnasium；The water inlet of the sewage collecting pipe is taper Structure；

Second control valve is divided on each sewage collecting pipe, the inflow for controlling sewage collecting pipe；Second control Valve processed is embedded with second flow controller.

6. a kind of control method of the stadiums supply and drain water system of intelligent control as described in claim 1-5 any one, It is characterised in that it includes following steps：

Step 1 is monitored in real time by video image acquisition unit, obtains the use regimen condition in stadium；Pass through current monitor figure As the comparison with the testing result of liquid level sensor in diversion box, the displacement changing value of diversion box is calculated as follows, and It preserves：

Wherein, Q₁For the initial value of water in diversion box before draining, μ₁For diversion box water outlet discharge coefficient, 0.8<μ₁<0.98, d₁ For diversion box water outlet diameter, H be before draining in diversion box the water surface to the height of water outlet, H₁For the negative of diversion box water outlet Pressure；

When displacement changing value is more than preset threshold k, calculation formula is as follows：

K=Q₀*a

Wherein, Q₀For the capacity of diversion box, a is the displacement variation coefficient of diversion box, 0.65<a<0.95；

Then think be at this time opens solenoid valve c groups opportunity, first turn on solenoid valve c groups at this time, water in water tank enters each In diversion box；

Step 2 calculates water tank as follows by the comparison of the detected value of liquid level sensor in flowmeter and water tank Interior water changing value, and preserve：

Wherein, Δ M is the initial value of water in the preceding water tank of draining, μ₂For water tank water outlet discharge coefficient, 0.85<μ₂< The number of 0.95, the n diversion box connected by water tank, d₂For water tank water outlet diameter, H is the water surface in the preceding water tank of draining To the height of water outlet, H₁For the negative pressure of water tank water outlet；

When water changing value is more than preset threshold value G, calculation formula is as follows：

G=M₁*x

Wherein, x be water tank displacement variation coefficient, 0.85<a<0.98；

Then think to open the opportunity of the second control valve before this at this time, the second control valve is opened at this time, and the sewage in stadium is logical It crosses sewage collecting pipe and enters in sewage purification module and purified；

Step 3, it is whether up to standard by the sewage after the turbidity detector detection process in sewage purification module, and feed back to prison Control unit；If treated, sewage is up to standard, and by treated, sewage injects in water tank opens solenoid valve b groups；If after processing Sewage it is not up to standard, then opens solenoid valve a groups will external tap water inject water tank in；And according in each diversion box and water tank Water changing value judge injection rate.