CN205935175U - Rainwater recycling system - Google Patents

Abstract

The utility model discloses a rainwater recycling system. The utility model discloses a collect individualistic rainwater and utilize the unit connection shaping network to indicateing the regulation function to precipitation on the one hand, making entire system no matter face local a large amount of precipitation, still the ability of a large amount of precipitation all obtains great suggestion on a large scale, on the other hand makes the rainwater recycle shi yeneng and follows the interior resource that obtains in a big way to the better recycles the rainwater.

Description

Rain recycling system

Technical field

This utility model is related to rainwater-collecting and recycles field, more particularly to rain recycling system.

Background technology

Water, Source of life is a kind of extremely valuable resource.The water resource of China is not enriched, and there is 2/3 city in the whole nation Hydropenia.And the quickening with urbanization process, landscape water in city, road rinse, the water consumption of greening and carwash etc. is fast Speed increases and originally nervous water resource is seemed more lack.Simultaneously because the propulsion of urbanization makes more bottom surfaces various Building, road cover, so that rainwater cannot be seeped into underground down, increase the pressure of sewerage system.In recent years, usually listen Also just not at all surprising to the report of urban waterlogging.A method to be solved the above problems is to dropping to being carried out with water of city Collect and recycle.It is supplied to urban landscape water, road rinses, afforests, flush the toilet and wash in one's power after so rainwater-collecting being processed On the one hand car etc. uses, and alleviates the pressure of water resource, on the other hand also can be stored by rainwater-collecting module rainwater from And mitigate the pressure of sewerage system, reduce the generation of urban waterlogging.Mostly current rainwater-collecting module is independent one by one Point, so weaker to the pondage capacity of rainwater during urban waterlogging.And precipitation only occurs in urban region sometimes, The rainwater-collecting point that those are located at the city that precipitation does not occur just cannot play, to the precipitation in other cities, the effect regulated and stored.

Utility model content

In order to overcome drawbacks described above and not enough this utility model to provide technical scheme below：Rain recycling system and system Master Control Unit, including some rainwater catchment system units, described rainwater catchment system unit includes rainwater-collecting module, rainwater is abandoned Slime flux flow module, rainwater storage module, rainwater purification utilize module, rainwater storage mould in described some rainwater catchment system units Block connects into network by pipeline and pressurized pump station.

Preferably, described rain water drainage overflow module includes drainage tube, initial filter device, effusion meter, abandoned stream tank, Real-time Water Quality detection device A, control device, described abandoned stream pot bottom is provided with water pipe, abandoned stream pipe, and described water pipe is provided with valve B control Make its break-make, described abandoned stream pipe is provided with valve A and controls its break-make, and one end of described drainage tube is with described rainwater-collecting module even Connect, its other end is connected with the water inlet of described initial filter device, the outlet of described initial filter device and described effusion meter water inlet Connect, the outlet of described effusion meter is connected with described abandoned stream tank water inlet, the water inlet of described real-time water quality detection device A leads to Over sampling pipe is connected with described abandoned stream pot bottom, and the outlet of described real-time water quality detection device A is abandoned with described by return pipe Stream pot bottom is connected, and detection data is reached control device by described real-time water quality detection device A in real time.So not only can realize When abandoned stream is stopped according to water quality real-time control, starts water-retention；By initial filter device, larger solid pollutant is filtered simultaneously Afterwards so that follow-up equipment run safer.

Preferably, described initial filter device includes housing and the rustless steel Prefabricated combined septic tank being arranged on enclosure interior, described shell Body top is provided with access hole to be opened/closed, and described housing sidewall is provided with water inlet and outlet.Such initial filter apparatus structure Simply, long service life, maintenance is convenient, can preferably remove the function of large volume of solid pollutant in rainwater simultaneously again, Protection follow up device reliability service.

Preferably, described rainwater storage module includes the first cistern and the second cistern, described first cistern sets Put above described second cistern, in described first cistern and the second cistern, be equipped with water-level gauge, described first storage Pond is connected with overflow pipe by water-supply-pipe with the second cistern, and the rainwater of described first cistern flows through generating by water-supply-pipe Described second cistern is flowed into, described overflow pipe is provided with valve A, described valve A closes under normal circumstances, real-time water quality after machine The water inlet of testing equipment B is connected with described second cistern by intake pipe, and the outlet of real-time water quality detection equipment B passes through Return duct is connected with described second cistern.So can be generated electricity using the potential energy difference of rainwater in two cisterns, simultaneously Generator operation can be made to obtain with the rain water electricity generating in cistern more stable, electromotor will not be made due to the size of rainfall Generated energy fluctuates therewith, is more beneficial for the grid-connected of rain water electricity generating.

Preferably, described rainwater purification is included water pump, is purified submodule, rainwater user using module, described purification Module includes some quality purifying device for water being sequentially connected with, and the delivery outlet of each quality purifying device for water is also connected with rainwater user. Thus according to rainwater user different requirement, multistage purification can be carried out to rainwater, thus saving energy while satisfaction requires Source, reduces the cost of rainwater utilization.

Compared with prior art, this utility model has the advantages that：This utility model passes through single rainwater Collection utilization unit connects and forms network, thus on the one hand prompting to the Regulation Function of precipitation so that whole system either face A large amount of precipitation to local, still the ability of a large amount of precipitation all obtains larger prompting on a large scale；On the other hand make rainwater sharp again Used time also can obtain resource from interior in a big way, thus preferably recycling to rainwater.

Brief description

Fig. 1 is the schematic diagram of this utility model specific embodiment.

Fig. 2 is the schematic diagram of rain water drainage overflow module in this utility model specific embodiment.

Fig. 3 is the schematic diagram of rainwater storage module in this utility model specific embodiment.

Fig. 4 is the schematic diagram that in this utility model specific embodiment, rainwater purification utilizes module.

Specific embodiment

Below in conjunction with the accompanying drawings, specific embodiment of the present utility model is elaborated.

As shown in figure 1, rain recycling system, including some rainwater catchment system units 1 and system main-control unit, described It is net that rainwater catchment system unit 1 includes rainwater-collecting module 1a, rain water drainage overflow module 1b, rainwater storage module 1c, rainwater Change and utilize module 1d and unit control module.

Described rain water drainage overflow module 1b include drainage tube 1b1, initial filter device 1b2, effusion meter 1b3, abandoned stream tank 1b4, Water quality detection device A 1b8 in real time, described abandoned stream tank 1b4 bottom is provided with water pipe 1b5, abandoned stream pipe 1b6, on described water pipe 1b5 It is provided with valve B and controls its break-make, described abandoned stream pipe 1b6 is provided with valve A and controls its break-make, and described initial filter device 1b2 includes shell Body and the rustless steel Prefabricated combined septic tank 1b21 being arranged on enclosure interior, described housing upper is provided with access hole to be opened/closed, described shell Body sidewall is provided with water inlet and outlet, and one end of described drainage tube 1b1 is connected with described rainwater-collecting module 1a, and it is another End is connected with the water inlet of described initial filter device 1b2, the outlet of described initial filter device 1b2 and described effusion meter 1b3 water inlet Connect, the outlet of described effusion meter 1b3 is connected with described abandoned stream tank 1b4 water inlet, described real-time water quality detection device A 1b8 Water inlet be connected with described abandoned stream tank 1b4 bottom by probe tube 1b7, the outlet of described real-time water quality detection device A 1b8 It is connected with described abandoned stream tank 1b4 bottom by return pipe 1b9, described real-time water quality detection device A 1b8 and effusion meter 1b3 will examine Survey data and reach unit control module in real time.

Described rainwater storage module 1c includes the first cistern 1c1 and the second cistern 1c5, described first cistern 1c1 It is arranged on the top of described second cistern 1c5, in described first cistern 1c1 and the second cistern 1c5, be equipped with water-level gauge 1c6, described first cistern 1c1 and the second cistern 1c5 is connected with overflow pipe 1c3 by water-supply-pipe, described first cistern The rainwater of 1c1 flows into described second cistern 1c5 after water-supply-pipe flows through electromotor 1c7, and described overflow pipe 1c3 is provided with valve Door A1c2, described valve A1c2 closing under normal circumstances, the water inlet of real-time water quality detection equipment B1c4 passes through intake pipe and institute State the second cistern 1c5 connection, the outlet of real-time water quality detection equipment B1c4 passes through return duct and described second cistern 1c5 Connection.In described each rainwater catchment system unit 1, the second cistern 1c5 of rainwater storage module 1c passes through pipeline 2 and booster pump Stand and 3 connect into network.

Described rainwater purification is included water pump, is purified submodule, rainwater user using module 1d, and described purification submodule includes The some quality purifying device for water being sequentially connected with, the delivery outlet of each quality purifying device for water is also connected with rainwater user.

During precipitation, when unit control module opens if controlling according to the real-time detector data of real-time water quality detection device A 1b8 Valve A on abandoned stream pipe 1b6 carries out abandoned stream process to rainwater.Data according to effusion meter 1b3 and water-level gauge 1c6 determines simultaneously is Valve A1c2 on no unlatching rainwater storage module 1c overflow pipe 1c3, and data on flows, waterlevel data, water quality data are passed Transport to system main-control unit.When precipitation is excessive exceed this unit Regulation capacity when unit control module also can phase system master control list Unit sends alarm, and system main-control unit opens corresponding pressurized pump station 3 according to the situation of the individual unit of networking, complete after receiving alarm Regulated and controled in the range of net.Unit control module can require to arrange rain water storage to the different of water quality according to different rainwater users at ordinary times Rainwater in storing module 1c is postponed by the water quality purification cartridge of varying number and delivers to rainwater user.When in rainwater storage module 1c Equally can report to the police to system main-control unit during water shortage, system main-control unit also can be carried out in a network when receiving this alarm Adjust.

Compared with prior art, this utility model has the advantages that：This utility model passes through single rainwater Collection utilization unit connects and forms network, thus on the one hand prompting to the Regulation Function of precipitation so that whole system either face A large amount of precipitation to local, still the ability of a large amount of precipitation all obtains larger prompting on a large scale；On the other hand make rainwater sharp again Used time also can obtain resource from interior in a big way, thus preferably recycling to rainwater.

Below this utility model has been described in detail, but this utility model be not limited to described herein concrete Embodiment.It will be appreciated by those skilled in the art that in the case of without departing substantially from this utility model scope, can make other changes and Deformation.Protection domain of the present utility model is defined by the following claims.

Claims (6)

1. rain recycling system, including some rainwater catchment system units（1）And system main-control unit, described rainwater-collecting profit Use unit（1）Including rainwater-collecting module（1a）, rain water drainage overflow module（1b）, rainwater storage module（1c）, rainwater purification Using module（1d）It is characterised in that described some rainwater catchment system units（1）Middle rainwater storage module（1c）By pipeline （2）And pressurized pump station（3）Connect into network.

2. according to claim 1 rain recycling system it is characterised in that described rain water drainage overflow module（1b）Including Drainage tube（1b1）, initial filter device（1b2）, effusion meter（1b3）, abandoned stream tank（1b4）, real-time water quality detection device A（1b8）, control Device, described abandoned stream tank（1b4）Bottom is provided with water pipe（1b5）, abandoned stream pipe（1b6）, described water pipe（1b5）It is provided with valve B controls its break-make, described abandoned stream pipe（1b6）It is provided with valve A and control its break-make, described drainage tube（1b1）One end with described Rainwater-collecting module（1a）Connection, its other end and described initial filter device（1b2）Water inlet be connected, described initial filter device （1b2）Outlet and described effusion meter（1b3）Water inlet connects, described effusion meter（1b3）Outlet and described abandoned stream tank （1b4）Water inlet connects, described real-time water quality detection device A（1b8）Water inlet pass through probe tube（1b7）With described abandoned stream tank （1b4）Bottom is connected, described real-time water quality detection device A（1b8）Outlet pass through return pipe（1b9）With described abandoned stream tank （1b4）Bottom is connected, described real-time water quality detection device A（1b8）Detection data is reached in real time control device.

3. according to claim 2 rain recycling system it is characterised in that described initial filter device（1b2）Including housing and It is arranged on the rustless steel Prefabricated combined septic tank of enclosure interior（1b21）, described housing upper is provided with access hole to be opened/closed, described housing Side wall is provided with water inlet and outlet.

4. according to claim 1-3 any one rain recycling system it is characterised in that described rainwater storage module （1c）Including the first cistern（1c1）With the second cistern（1c5）, described first cistern（1c1）It is arranged on described second storage Pond（1c5）Top, described first cistern（1c1）With the second cistern（1c5）In be equipped with water-level gauge（1c6）, described First cistern（1c1）With the second cistern（1c5）By water-supply-pipe and overflow pipe（1c3）Connection, described first cistern （1c1）Rainwater electromotor is flowed through by water-supply-pipe（1c7）After flow into described second cistern（1c5）, described overflow pipe（1c3） It is provided with valve A（1c2）, described valve A under normal circumstances（1c2）Close, real-time water quality detection equipment B（1c4）Water inlet By intake pipe and described second cistern（1c5）Connection, real-time water quality detection equipment B（1c4）Outlet pass through return duct With described second cistern（1c5）Connection.

5. according to claim 1-3 any one rain recycling system it is characterised in that described rainwater purification utilizes mould Block（1d）Including water pump, purify submodule, rainwater user, described purification submodule includes some water quality purification cartridges being sequentially connected with Put, the delivery outlet of each quality purifying device for water is also connected with rainwater user.

6. according to claim 4 rain recycling system it is characterised in that described rainwater purification utilizes module（1d）Including Water pump, purification submodule, rainwater user, described purification submodule includes some quality purifying device for water being sequentially connected with, each water The delivery outlet of matter purifier is also connected with rainwater user.