CN211037128U - Multi-pool parallel control system for rainwater collection and utilization - Google Patents

Abstract

A rainwater is collected and is utilized many ponds parallel control system includes: the system comprises a rainwater collection and treatment substation, a water supply pipeline, a water supply subarea, a subarea communication pipeline, a cooperative water supply area and a multi-pool parallel monitoring machine room; the rainwater collecting and processing sub-station is communicated with the water supply subarea through a water supply pipeline. The utility model realizes the coordinated operation of all the rainwater collection and treatment substations by communicating the water supply subareas in real time, and can transfer the redundant stored water of a certain rainwater collection and treatment substation into other subareas after water treatment, or realize the coordinated supply by a plurality of rainwater collection and treatment substations when the water pressure in a certain water supply subarea is insufficient; or when the rainwater collecting and processing substation communicated with a certain subarea is damaged and needs to be maintained, the continuous supply of water in the subarea is ensured by introducing the water quantity of other subareas, and the integral water supply balance is realized.

Description

Multi-pool parallel control system for rainwater collection and utilization

Technical Field

The utility model relates to a water treatment field, in particular to rainwater is collected and is utilized the field.

Background

Because there is longer transmission distance to the rainwater centralized processing of collecting, and along with the popularization of small-size integration sewage treatment device for distributed retaining is handled in close proximity to collecting rainwater becomes a feasible technical direction. In the prior art, the reclaimed water used for collecting rainwater in a distributed mode is often divided into strips and blocks, one water storage tank for collecting rainwater is only supplied to a certain independent area, and imbalance of water supply and demand is easily caused, namely, a certain water storage tank forms an empty tank due to the fact that a supply area uses more reclaimed water, the other water storage tank still contains more stored water, and the water supply and demand balance between each tank and the respective water supply area needs to be improved urgently.

SUMMERY OF THE UTILITY MODEL

The purpose of the present invention is to solve at least one of the technical drawbacks.

Therefore, an object of the utility model is to provide a rainwater is collected and is utilized multicell parallel control system, include: the system comprises a rainwater collection and treatment substation, a water supply pipeline, a water supply subarea, a subarea communication pipeline, a cooperative water supply area and a multi-pool parallel monitoring machine room;

The rainwater collection and treatment substation is communicated with the water supply subarea through a water supply pipeline and is used for collecting rainwater during rainfall, utilizing stored water through daily water treatment and slowly releasing supplied reclaimed water to the water supply subarea;

More than 2 water supply subareas are communicated with the collaborative water supply subarea through the subarea communication pipeline and are used for transferring the water stored by one rainwater collection and treatment substation into other subareas after water treatment, or cooperatively supplying the water by a plurality of rainwater collection and treatment substations when the water pressure of reclaimed water supplied by one subarea is insufficient; or when the rainwater collection and treatment substation communicated with a certain subarea is damaged and needs to be maintained, the continuous supply of water in the subarea is ensured by introducing the water quantity of other subareas;

the rainwater collection and treatment substation comprises a PLC (programmable logic controller), a second communication module, a water level sensor, a water quality monitoring module, integrated sewage treatment equipment and a water pump unit;

The multi-pool parallel monitoring machine room comprises a front-end processor, a WEB server, a monitoring computer, a database server and a first communication module;

the front-end processor is respectively connected with the WEB server, the monitoring computer, the database server and the first communication module, the first communication module is connected with the second communication module, and the second communication module is connected with the PLC controller and is used for receiving the data acquisition information of the rainwater collection processing substation and sending an equipment operation instruction of the rainwater collection processing substation;

the PLC controller is connected with the water level sensor and is used for monitoring the water storage amount of a reservoir of the rainwater collection and treatment substation;

the PLC is connected with the water quality monitoring module and is used for monitoring the water quality of the inlet water and the outlet water of the rainwater collection and treatment substation;

the PLC is connected with the integrated sewage treatment equipment and is used for treating the stored rainwater of the rainwater collection and treatment substation;

and the PLC is connected with the water pump unit and is used for conveying the treated usable reclaimed water to the water supply subarea.

The utility model has the advantages and positive effects that: through communicating the water supply subareas, the coordinated operation of all the rainwater collection and treatment substations is realized, namely, redundant stored water of a certain rainwater collection and treatment substation is subjected to water treatment and then is transferred to other subareas, or the rainwater in a certain water supply subarea is supplied by a plurality of rainwater collection and treatment substations in a coordinated manner when the water pressure is insufficient; or when the rainwater collecting and processing substation communicated with a certain subarea is damaged and needs to be maintained, the continuous supply of water in the subarea is ensured by introducing the water quantity of other subareas, and the integral water supply balance is realized.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a pipeline diagram of the multi-pool parallel connection for rainwater collection and utilization of the present invention;

Fig. 2 is a diagram of the multi-pool parallel control system for rainwater collection and utilization.

Detailed Description

The present invention will now be described in more detail with reference to the accompanying drawings, in which preferred embodiments of the invention are shown, it being understood that those skilled in the art may modify the invention herein described while still achieving the beneficial results of the invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.

As shown in fig. 1 and 2, a rainwater collection and utilization multi-pool parallel control system comprises: the system comprises a rainwater collection and treatment substation 1, a water supply pipeline 2, a water supply partition 3, a partition connection pipeline 4, a cooperative water supply partition 5 and a multi-tank parallel monitoring machine room 6;

The rainwater collection and treatment substation 1 is communicated with the water supply subarea 3 through a water supply pipeline 2 and is used for collecting rainwater during rainfall, utilizing stored water through daily water treatment and slowly releasing supplied reclaimed water to the water supply subarea 3;

More than 2 water supply subareas 3 are communicated into a cooperative water supply subarea 5 through a subarea communication pipeline 4 and used for transferring the stored water of a certain rainwater collection and treatment substation 1 into other subareas after water treatment, or cooperatively supplying the water by a plurality of rainwater collection and treatment substations 1 when the water pressure of reclaimed water supplied by a certain subarea is insufficient; or when the rainwater collecting and processing substation 1 communicated with a certain subarea is damaged and needs to be maintained, the continuous supply of water in the subarea is ensured by introducing the water quantity of other subareas;

the rainwater collection and treatment substation 1 comprises a PLC (programmable logic controller) 11, a second communication module 12, a water level sensor 13, a water quality monitoring module 14, an integrated sewage treatment device 15 and a water pump unit 16;

The multi-pool parallel monitoring machine room 6 comprises a front-end processor 61, a WEB server 62, a monitoring computer 63, a database server 64 and a first communication module 65;

the front-end processor 61 is respectively connected with the WEB server 62, the monitoring computer 63, the database server 64 and the first communication module 65, the first communication module 65 is connected with the second communication module 12, the second communication module 12 is connected with the PLC controller 11, and the front-end processor 61 is used for receiving the data acquisition information of the rainwater collection processing substation 1 and sending an equipment operation instruction of the rainwater collection processing substation 1;

the P L C controller 11 is connected with the water level sensor 13 and is used for monitoring the water storage capacity of the reservoir of the rainwater collection and treatment substation 1;

the PLC 11 is connected with a water quality monitoring module 14 and is used for monitoring the water quality of the inlet and outlet water of the rainwater collection and treatment substation 1;

the PLC 11 is connected with the integrated sewage treatment equipment 15 and is used for treating the stored rainwater of the rainwater collection and treatment substation 1;

the P L C controller 11 is connected with a water pump unit 16 and used for conveying the available reclaimed water formed after treatment to the water supply subarea 3.

The present invention has been described in detail with reference to the embodiments, but the present invention is only a preferred embodiment, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still belong to the patent coverage of the present invention.

Claims (1)

1. The utility model provides a rainwater is collected and is utilized multi-pond parallel control system which characterized in that includes: the system comprises a rainwater collection and treatment substation (1), a water supply pipeline (2), a water supply partition (3), a partition connection pipeline (4), a cooperative water supply partition (5) and a multi-pool parallel monitoring machine room (6);

The rainwater collection and treatment substation (1) is communicated with the water supply subarea (3) through a water supply pipeline (2) and is used for collecting rainwater during rainfall, utilizing stored water through daily water treatment and slowly releasing supplied reclaimed water to the water supply subarea (3);

More than 2 water supply subareas (3) are communicated through the subarea communication pipeline (4) to form the cooperative water supply subarea (5) which is used for transferring the stored water of one rainwater collection and treatment substation (1) into other subareas after water treatment, or cooperatively supplying the reclaimed water by a plurality of rainwater collection and treatment substations (1) when the reclaimed water pressure supplied by one subarea is insufficient; or when the rainwater collection and treatment substation (1) communicated with a certain subarea is damaged and needs to be maintained, the continuous supply of water in the subarea is ensured by introducing the water quantity of other subareas;

the rainwater collection and treatment substation (1) comprises a PLC (programmable logic controller) (11), a second communication module (12), a water level sensor (13), a water quality monitoring module (14), an integrated sewage treatment device (15) and a water pump unit (16);

The multi-pool parallel monitoring machine room (6) comprises a front-end processor (61), a WEB server (62), a monitoring computer (63), a database server (64) and a first communication module (65);

the front-end processor (61) is respectively connected with the WEB server (62), the monitoring computer (63), the database server (64) and the first communication module (65), the first communication module (65) is connected with the second communication module (12), and the second communication module (12) is connected with the PLC controller (11) and is used for receiving data acquisition information of the rainwater collection processing substation (1) by the front-end processor (61) and sending an equipment operation instruction of the rainwater collection processing substation (1);

the PLC controller (11) is connected with the water level sensor (13) and is used for monitoring the water storage capacity of a reservoir of the rainwater collection and treatment substation (1);

the PLC (11) is connected with the water quality monitoring module (14) and is used for monitoring the water quality of the inlet and outlet of the rainwater collection and treatment substation (1);

the PLC (11) is connected with the integrated sewage treatment equipment (15) and is used for treating the stored rainwater of the rainwater collection and treatment substation (1);

and the PLC controller (11) is connected with the water pump unit (16) and is used for conveying the treated usable reclaimed water to the water supply subarea (3).

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