CN112982571A

CN112982571A - Intelligent water supply system based on industrial Internet of things

Info

Publication number: CN112982571A
Application number: CN202110123902.4A
Authority: CN
Inventors: 安周; 黎熠
Original assignee: Enabling Eco Environment Nanjing Co ltd
Current assignee: Enabling Eco Environment Nanjing Co ltd
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-18

Abstract

The invention discloses an intelligent water supply system based on an industrial Internet of things, and relates to the technical field of Internet of things water supply. The system comprises a water supply monitoring module, a water plant water supply system, a city water supply system, a factory water supply system and a sewage purification system, wherein the water supply system of the water plant is arranged at the output end of the water supply monitoring module, the input end of the water plant water supply system is electrically connected with the output end of the water supply monitoring module through a wire harness, and the city water supply system, the factory water supply system and the sewage purification system are all arranged at the output end of the water supply system of the water plant. The urban water module, the factory water module and the sewage treatment module are arranged to provide multiple choices for the water supply system of the water plant, so that the versatility of the water supply system is improved, the water supply system of the water plant can make corresponding choices according to actual needs, and the practicability and the application range of the water supply system are improved.

Description

Intelligent water supply system based on industrial Internet of things

Technical Field

The invention belongs to the technical field of water supply of the Internet of things, and particularly relates to an intelligent water supply system based on the industrial Internet of things.

Background

The water supply system is a complex of water storage, water pump, pipeline and other projects which are required by different water departments according to certain quality requirements. In terms of the skill and function of the water supply system, the whole water supply system should meet the requirements of users on water quality, water quantity and water pressure. In addition, the whole infrastructure process and the operation of producing output still need the capital construction investment to be economized, often the operating cost is low, the operation is handled conveniently, no tower water supply equipment can produce output safely and give full play to the economic benefits of whole water supply system, nevertheless current water supply system still has certain weak point when using, current water supply system does not distinguish city water and industrial water when using, and the function singleness is used comparatively inconveniently, reduces water supply system's practicality.

Disclosure of Invention

The invention aims to provide an intelligent water supply system based on an industrial Internet of things, which solves the existing problems: the existing water supply system does not distinguish city water and industrial water when in use, has single function and is inconvenient to use, and the practicability of the water supply system is reduced.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an intelligent water supply system based on an industrial Internet of things, which comprises a water supply monitoring module, a water plant water supply system, a city water supply system, a factory water supply system and a sewage purification system, wherein the water supply system of the water plant is arranged at the output end of the water supply monitoring module, the input end of the water supply system of the water plant is electrically connected with the output end of the water supply monitoring module through a wire harness, the city water supply system, the factory water supply system and the sewage purification system are all arranged at the output end of the water supply system of the water plant, and the input ends of the city water supply system, the factory water supply system and the sewage purification system are respectively electrically connected with the output end of the water supply system of.

Further, urban water supply system includes urban water module, temperature detection module, first circulation module, purification module, microelement detection module, goes out water module, municipal water end, domestic water end and fire control water end, urban water module sets up the output at water supply system of water factory, the input of urban water module passes through pencil and water supply system's of water factory output electric connection, temperature detection module sets up the output at urban water module.

Furthermore, the input of the water temperature detection module is electrically connected with the output of the city water utilization module through a wiring harness, the purification module is arranged at the output of the water temperature detection module, the input of the purification module is electrically connected with the output of the water temperature detection module through a wiring harness, the trace element detection module is arranged at the output of the purification module, and the input of the trace element detection module is electrically connected with the output of the purification module through a wiring harness.

Furthermore, the first circulation module is arranged between the purification module and the trace element detection module, the input end of the first circulation module is electrically connected with the output end of the trace element detection module through a wiring harness, the output end of the first circulation module is electrically connected with the input end of the purification module through the wiring harness, and the water outlet module is arranged at the output end of the trace element detection module.

Furthermore, the input of going out the water module passes through pencil and microelement detection module's output electric connection, municipal administration water end, domestic water end and fire control water end all set up the output at the water module, municipal administration water end, domestic water end and fire control water end's input is respectively through pencil and the output electric connection of going out the water module.

Further, sewage purification system includes sewage treatment module, instils into antiseptic solution module, second circulation module, stirring mixing module, water quality testing module and sewage recovery module, sewage treatment module sets up the output at water supply system of water factory, the input of sewage treatment module passes through pencil and water supply system's output electric connection of water factory, instils into the setting of antiseptic solution module at sewage treatment module's output.

Further, the input that instils into antiseptic solution module passes through pencil and sewage treatment module's output electric connection, the setting of stirring mixing module is at the output that instils into antiseptic solution module, the input of stirring mixing module is through pencil and the output electric connection who instils into antiseptic solution module, the setting of water quality testing module is at the output of stirring mixing module, the input of water quality testing module is through pencil and the output electric connection that stirs mixing module.

Further, the second circulation module is arranged between the water quality detection module and the sterilization liquid dropping module, the input end of the second circulation module is electrically connected with the output end of the water quality detection module through a wiring harness, the output end of the second circulation module is electrically connected with the input end of the sterilization liquid dropping module through a wiring harness, the sewage recovery module is arranged at the output end of the water quality detection module, and the input end of the sewage recovery module is electrically connected with the output end of the water quality detection module through a wiring harness.

Further, mill's water supply system includes mill's water module, impurity detection, water volume, water velocity of flow and delivery port switch, mill's water module sets up the output at water supply system of water factory, mill's water module's input passes through pencil and water supply system's output electric connection of water factory, impurity detection sets up the output at mill's water module, the input that impurity detected passes through pencil and mill's water module's output electric connection.

Further, the water volume sets up the output that detects at impurity, the output electric connection that the input of water volume detected through pencil and impurity, the water velocity of flow sets up the output at the water volume, the input of water velocity of flow passes through pencil and the output electric connection of water volume, the delivery port switch sets up the output at the water velocity of flow, the output electric connection of the input of delivery port switch through pencil and water velocity of flow.

The invention has the following beneficial effects:

1. the urban water module, the factory water module and the sewage treatment module are arranged to provide multiple choices for the water supply system of the water plant, so that the versatility of the water supply system is improved, the water supply system of the water plant can make corresponding choices according to actual needs, and the practicability and the application range of the water supply system are improved.

2. According to the invention, the purification module, the trace element detection module, the first circulation module, the water quality detection module, the second circulation module, the sterilization liquid dropping module and the stirring and mixing module are arranged, so that the water quality of the urban water module and the sewage treatment module can be detected, the water supply quality is improved, bacteria are prevented from being stored in the supplied water, and the water supply of people is healthier.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a connection block diagram of the overall structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a water affair monitoring module; 2. a water supply system of a water plant; 3. a municipal water supply system; 301. a municipal water module; 302. a water temperature detection module; 303. a first circulation module; 304. a purification module; 305. a trace element detection module; 306. a water outlet module; 307. a municipal water end; 308. a domestic water end; 309. a fire-fighting water end; 4. a plant water supply system; 401. a factory water module; 402. detecting impurities; 403. volume of water used; 404. the flow rate of water; 405. a water outlet switch; 5. a sewage purification system; 501. a sewage treatment module; 502. a sterilization liquid dropping module; 503. a second cycle module; 504. a stirring and mixing module; 505. a water quality detection module; 506. and a sewage recovery module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-1, the invention is an intelligent water supply system based on an industrial internet of things, which includes a water supply monitoring module 1, a water plant water supply system 2, a municipal water supply system 3, a factory water supply system 4 and a sewage purification system 5, wherein the water plant water supply system 2 is arranged at the output end of the water supply monitoring module 1, the input end of the water plant water supply system 2 is electrically connected with the output end of the water supply monitoring module 1 through a wire harness, the municipal water supply system 3, the factory water supply system 4 and the sewage purification system 5 are all arranged at the output end of the water plant water supply system 2, and the input ends of the municipal water supply system 3, the factory water supply system 4 and the sewage purification system 5 are respectively electrically connected with the output end of the water plant water supply system 2 through the.

Urban water supply system 3 includes urban water module 301, temperature detection module 302, first circulation module 303, purification module 304, microelement detection module 305, go out water module 306, municipal water end 307, domestic water end 308 and fire-fighting water end 309, urban water module 301 sets up the output at water supply system 2 of water factory, urban water module 301's input passes through pencil and water supply system 2's output electric connection of water factory, temperature detection module 302 sets up the output at urban water module 301, urban water supply system 3 can detect the microelement in the quality of water, make water satisfy people's daily water demand, make people can be more healthy when the water simultaneously.

The input of water temperature detection module 302 passes through pencil and city water module 301's output electric connection, and purification module 304 sets up the output at water temperature detection module 302, and purification module 304's input passes through pencil and water temperature detection module 302's output electric connection, and microelement detection module 305 sets up the output at purification module 304, and microelement detection module 305's input passes through pencil and purification module 304's output electric connection.

The first circulation module 303 is disposed between the purification module 304 and the trace element detection module 305, an input end of the first circulation module 303 is electrically connected to an output end of the trace element detection module 305 through a wire harness, an output end of the first circulation module 303 is electrically connected to an input end of the purification module 304 through a wire harness, and the water outlet module 306 is disposed at an output end of the trace element detection module 305.

The input end of the water outlet module 306 is electrically connected with the output end of the trace element detection module 305 through a wire harness, the municipal water end 307, the domestic water end 308 and the fire-fighting water end 309 are all arranged at the output end of the water outlet module 306, and the input ends of the municipal water end 307, the domestic water end 308 and the fire-fighting water end 309 are respectively electrically connected with the output end of the water outlet module 306 through the wire harness.

Sewage purification system 5 includes sewage treatment module 501, drip into antiseptic solution module 502, second circulation module 503, stirring mixing module 504, water quality testing module 505 and sewage recovery module 506, sewage treatment module 501 sets up the output at water supply system 2 of water factory, the input of sewage treatment module 501 passes through pencil and water supply system 2's output electric connection of water factory, drip into antiseptic solution module 502 and set up the output at sewage treatment module 501, sewage purification system 5 can purify sewage, and test the sewage after purifying, make sewage purification reach the standard of retrieving.

The input that drips into antiseptic solution module 502 passes through pencil and sewage treatment module 501's output electric connection, stirring mixing module 504 sets up the output that drips into antiseptic solution module 502, the input that stirs mixing module 504 passes through the pencil and drips into antiseptic solution module 502's output electric connection, water quality testing module 505 sets up the output at stirring mixing module 504, water quality testing module 505's input passes through pencil and stirring mixing module 504's output electric connection.

The second circulation module 503 is arranged between the water quality detection module 505 and the drip sterilization liquid module 502, the input end of the second circulation module 503 is electrically connected with the output end of the water quality detection module 505 through a wiring harness, the output end of the second circulation module 503 is electrically connected with the input end of the drip sterilization liquid module 502 through a wiring harness, the sewage recovery module 506 is arranged at the output end of the water quality detection module 505, and the input end of the sewage recovery module 506 is electrically connected with the output end of the water quality detection module 505 through a wiring harness.

Factory water supply system 4 includes factory water module 401, impurity detection 402, water volume 403, water flow rate 404 and delivery port switch 405, factory water module 401 sets up the output at water supply system 2, factory water module 401's input passes through pencil and water supply system 2's output electric connection, impurity detection 402 sets up the output at factory water module 401, impurity detection 402's input passes through pencil and factory water module 401's output electric connection, impurity detection 402 can detect whether there is impurity to factory water supply, and then guarantee the purity of water.

The water usage volume 403 is arranged at the output end of the impurity detection 402, the input end of the water usage volume 403 is electrically connected with the output end of the impurity detection 402 through a wiring harness, the water usage flow rate 404 is arranged at the output end of the water usage volume 403, the input end of the water usage flow rate 404 is electrically connected with the output end of the water usage volume 403 through a wiring harness, the water outlet switch 405 is arranged at the output end of the water usage flow rate 404, and the input end of the water outlet switch 405 is electrically connected with the output end of the water usage flow rate 404.

One specific application of this embodiment is: whether the municipal water module 301 and the factory water module 401 need water can be monitored through the water affair monitoring module 1, when the municipal water module 301 needs water, the water supply system 2 supplies water to the municipal water module 301, then the water is purified through the purification module 304, the purified water is detected through the trace element detection module 305, when the water is qualified, the water enters the municipal water end 307, the domestic water end 308 or the fire water end 309 through the water outlet module 306, when the water is unqualified, the water enters the purification module 304 through the first circulation module 303, the water is purified again until the trace element detection module 305 is qualified, when the water is supplied to the factory water module 401, the water is detected through the impurity detection 402, whether impurities exist is detected, the water flow rate is adjusted through the water flow rate 404, and finally the water is sprayed through the water outlet switch 405, when the sewage treatment module 501 is needed, sewage is purified by the dripping sterilizing liquid module 502 and the stirring mixing module 504, the purified sewage is detected by the water quality detection module 505 after purification is completed, the sewage is recovered by the sewage recovery module 506 after detection is qualified, and the sewage is added into the dripping sterilizing liquid module 502 again by the second circulating module 503 after detection is unqualified until the sewage is detected to be qualified by the water quality detection module 505.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides an intelligence water supply system based on industry thing networking, includes water utilities monitoring module (1), water supply system (2) of water factory, urban water supply system (3), water supply system (4) and sewage purification system (5) of mill, its characterized in that: water plant water supply system (2) sets up the output in water utilities monitoring module (1), the output electric connection of pencil and water utilities monitoring module (1) is passed through to the input of water plant water supply system (2), city water supply system (3), mill water supply system (4) and sewage purification system (5) all set up the output in water plant water supply system (2), the output electric connection of pencil and water plant water supply system (2) is respectively passed through to the input of city water supply system (3), mill water supply system (4) and sewage purification system (5).

2. The intelligent water supply system based on the industrial internet of things as claimed in claim 1, wherein: urban water supply system (3) include urban water module (301), temperature detection module (302), first circulation module (303), purification module (304), microelement detection module (305), go out water module (306), municipal water end (307), domestic water end (308) and fire-fighting water end (309), urban water module (301) sets up the output in water supply system (2) of water factory, the output electric connection of pencil and water supply system (2) is passed through to the input of urban water module (301), temperature detection module (302) sets up the output in urban water module (301).

3. The intelligent water supply system based on the industrial internet of things as claimed in claim 2, wherein: the input of temperature detection module (302) passes through the output electric connection of pencil with city water module (301), purification module (304) set up the output at temperature detection module (302), the input of purification module (304) passes through the output electric connection of pencil with temperature detection module (302), microelement detection module (305) sets up the output at purification module (304), the output electric connection of pencil with purification module (304) is passed through to the input of microelement detection module (305).

4. The intelligent water supply system based on the industrial Internet of things as claimed in claim 3, wherein: the water purification device is characterized in that the first circulation module (303) is arranged between the purification module (304) and the trace element detection module (305), the input end of the first circulation module (303) is electrically connected with the output end of the trace element detection module (305) through a wiring harness, the output end of the first circulation module (303) is electrically connected with the input end of the purification module (304) through the wiring harness, and the water outlet module (306) is arranged at the output end of the trace element detection module (305).

5. The intelligent water supply system based on the industrial Internet of things as claimed in claim 4, wherein: the input of going out water module (306) passes through pencil and microelement detection module (305) output electric connection, municipal administration water end (307), domestic water end (308) and fire control water end (309) all set up the output at play water module (306), municipal administration water end (307), domestic water end (308) and fire control water end (309) the input respectively through pencil and the output electric connection of going out water module (306).

6. The intelligent water supply system based on the industrial internet of things as claimed in claim 1, wherein: sewage purification system (5) include sewage treatment module (501), drip into sterilization liquid module (502), second circulation module (503), stirring and mix module (504), water quality testing module (505) and sewage recovery module (506), sewage treatment module (501) set up the output at water supply system (2) of water works, the input of sewage treatment module (501) passes through the output electric connection of pencil with water supply system (2) of water works, drip into sterilization liquid module (502) and set up the output at sewage treatment module (501).

7. The intelligent water supply system based on the industrial Internet of things as claimed in claim 6, wherein: the input that drips into antiseptic solution module (502) passes through the output electric connection of pencil with sewage treatment module (501), stirring mixing module (504) set up the output that drips into antiseptic solution module (502), the input that stirs mixing module (504) passes through the pencil and drips into the output electric connection of antiseptic solution module (502), water quality testing module (505) sets up the output at stirring mixing module (504), the output electric connection of pencil and stirring mixing module (504) is passed through to the input of water quality testing module (505).

8. The intelligent water supply system based on the industrial internet of things as claimed in claim 7, wherein: the second circulation module (503) is arranged between the water quality detection module (505) and the dripping sterilization liquid module (502), the input end of the second circulation module (503) is electrically connected with the output end of the water quality detection module (505) through a wiring harness, the output end of the second circulation module (503) is electrically connected with the input end of the dripping sterilization liquid module (502) through a wiring harness, the sewage recovery module (506) is arranged at the output end of the water quality detection module (505), and the input end of the sewage recovery module (506) is electrically connected with the output end of the water quality detection module (505) through a wiring harness.

9. The intelligent water supply system based on the industrial internet of things as claimed in claim 1, wherein: factory water supply system (4) are including factory water module (401), impurity detection (402), water volume (403), water velocity of flow (404) and delivery port switch (405), factory water module (401) sets up the output at water supply system (2) of water factory, the input of factory water module (401) passes through the pencil and the output electric connection of water supply system (2) of water factory, impurity detection (402) set up the output at factory water module (401), the input that impurity detection (402) passes through the pencil and the output electric connection of factory water module (401).

10. The intelligent water supply system based on the industrial internet of things as claimed in claim 9, wherein: the water consumption volume (403) is arranged at the output end of the impurity detection (402), the input end of the water consumption volume (403) is electrically connected with the output end of the impurity detection (402) through a wiring harness, the water consumption flow rate (404) is arranged at the output end of the water consumption volume (403), the input end of the water consumption flow rate (404) is electrically connected with the output end of the water consumption volume (403) through the wiring harness, the water outlet switch (405) is arranged at the output end of the water consumption flow rate (404), and the input end of the water outlet switch (405) is electrically connected with the output end of the water consumption flow rate (404) through the wiring harness.