CN109283900B - Building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system and control method - Google Patents

Abstract

The invention belongs to the technical field of building water supply management, and discloses an intelligent quality-divided water supply and power-assisted water supply energy-saving emission-reduction standardized system and a control method for a building, wherein equipment system operation data of a physical module, flow and pressure data of a quality-divided pipe network are collected through a sensor and an intelligent meter, and the data are transmitted to a data workstation for sorting and classification through a data transmission channel; data are automatically programmed and arranged into various instructions through cloud computing of a data workstation, the instructions are collected to a production scheduling management platform, and the instructions are transmitted through a data transmission channel transmission terminal to access the platform, the large-screen display platform, the physical module equipment system and the pipe network system. According to the invention, the performance configuration optimization and the working mode optimization of the physical module equipment system can be realized through cloud computing, so that the unnecessary idle performance waste caused by the interference power configuration of the traditional building water supply equipment system and the maintenance of the pressure of the water supply network by the equipment system is avoided, and the operating efficiency of the urban building water supply system is further improved.

Description

Building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system and control method

Technical Field

The invention belongs to the technical field of building water supply management, and particularly relates to a building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system and a control method.

Background

Currently, the current state of the art commonly used in the industry is such that:

direct drinking water, sanitary hot water, heating and ventilation household metering, other domestic water and the like all have relatively mature single technologies, but an integrated quality-divided water supply management system and service standards are lacked, and mass data of different water generated by each building group is difficult to acquire or form a data isolated island after the mass data is acquired, so that the system cannot be used for calculation and analysis and assisting optimization decision of various water supply and water production equipment performances, and cannot assist in building water supply energy conservation and emission reduction standardization.

The prior technical scheme for direct drinking water to enter the home at present adopts an estimation mode to configure water purification system equipment, and adopts pumping equipment with interference power to pump direct drinking water to building users; most of sanitary hot water adopts solar hot water, a gas wall-mounted boiler technology, an electric water heater technology and an air source heat pump technology, heat sources are dispersed, energy consumption is high, or the quality of the supplied hot water is unstable, municipal pipe networks are adopted in local areas to supply hot water in a unified mode, but the problems of large heat loss of the pipe networks and high pumping energy consumption generally exist; the existing technical scheme of heating and ventilation individual household metering cannot realize free switching use of a user end, and the idle heating and ventilation heat waste rate is very high; in other variable-frequency pumping technologies for domestic water, the energy consumption of pumping system equipment for maintaining the pressure of a pipe network is relatively high under the working condition of random small-flow use in most of time except the peak period of water use.

The invention mainly solves the technical problems that:

in the prior art, the integrated quality-based water supply management system engineering technology, the single water supply technologies such as direct drinking water, sanitary hot water, heating and ventilation household metering, other domestic water and the like and the water production technology all adopt interference power to configure the performance of equipment, so that the basic energy consumption of various equipment is generally high and the energy is wasted;

in the integrated quality-divided water supply management system in the prior art, a building water supply system generally has high idle energy consumption, and the idle energy consumption of urban central heating in winter is particularly serious.

The difficulty and significance for solving the technical problems are as follows:

the technical difficulty is as follows: the prior art can not collect various water consumption data of building users in real time and can not generate various production scheduling instructions by cloud computing of the water consumption data.

After the difficulties in the prior art are solved, the significance is brought as follows:

the working mode of the water supply equipment system can be directly optimized through the production instruction; the water consumption data among the building groups can generate building water supply orthogonal models with different crowd scales through cloud computing, and the orthogonal models can generate optimal performance configuration schemes of building water supply equipment systems with different crowd scales through cloud computing; the building water supply equipment system performance is optimized, the interference power configuration of the building water supply equipment system is avoided, and the idle water supply energy consumption is reduced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a building dual water supply and power-assisted water supply energy-saving emission-reduction standardized system and a control method. As an improvement of the invention, the water consumption data of each building user, the operation data of each set of water supply equipment and the pipe network data of each building in the system are collected and summarized to the data workstation for cloud computing processing through a data transmission channel;

as an improvement of the invention, the system is based on the Internet of things and an Internet architecture network element, water use data of each building group in the system is processed through cloud computing of a data workstation to generate building pipe network flow pressure modules with different crowd scales, and the building pipe network pressure modules are processed through cloud computing of the data workstation to generate building water supply equipment performance configuration modules with different crowd scales;

as improvement of the invention, the system is based on the Internet of things and Internet architecture network elements, building users and the system are provided with man-machine interaction communication channels, and the building users can independently select the switching time of different water, particularly the switching time of heating and general water, so that the idle energy consumption is greatly reduced;

as improvement of the invention, the system is based on the Internet of things and Internet architecture network elements, and can automatically optimize the working modes of water supply equipment of different building groups according to the time characteristics of water consumption of building users and the GIS (geographic information system) geographic water consumption characteristics of the building groups, thereby reducing the idle energy consumption.

The invention is realized in such a way that a standardized control method for energy conservation and emission reduction of building dual water supply and power-assisted water supply comprises the following steps:

the operation data of the physical module, the flow and pressure data of the quality-divided pipe network are collected through a sensor and an intelligent meter; transmitting the collected operation data, the quality-divided pipe network flow and the pressure data to a data workstation by a transmission channel for sorting and classifying;

after cloud computing is carried out through a data workstation, automatically programming and arranging the computed data into various instructions, and summarizing the instructions to a production scheduling management platform for storage;

various instructions of the production scheduling management platform are transmitted to the service module and the terminal module through the data transmission channel;

the terminal module transmits data to the physical module and transmits feedback to the data workstation through the transmission channel through the carried terminal access platform, the data workstation transmits the data to the production scheduling management platform through the transmission channel, and the production scheduling management platform makes access feedback.

The invention also aims to provide a computer program which runs the standardized control method for the building quality-based water supply and assisted water supply energy conservation and emission reduction.

The invention also aims to provide a terminal, which is at least provided with a controller for realizing the building dual water supply and power-assisted water supply energy-saving emission-reducing standardized control method.

Another object of the present invention is to provide a computer-readable storage medium, which includes instructions, when the computer runs on a computer, the computer executes the standardized control method for building quality-based water supply and power-assisted water supply energy conservation and emission reduction.

The invention relates to a building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system, which comprises:

building dual water supply and helping hand water supply energy saving and emission reduction standardized system includes: the system comprises a physical module, a data acquisition module, a data module, a service module and a terminal module;

the physical module is used for monitoring data through sensors arranged on various system devices and an intelligent meter arranged on a quality-divided pipe network device;

the data acquisition module is used for acquiring data monitored by the physical module, the data transmission channel transmits the data to a workstation carried by the data module, the workstation automatically programs and arranges the data into various service instructions through cloud computing, the service instructions are collected to the production scheduling management platform, and the service instructions are transmitted to the service module and the terminal module through the data transmission channel;

the terminal access platform carried by the terminal module transmits data to the physical module and feeds back the data to the workstation through the transmission channel, the data workstation processes the access data through cloud computing and transmits the access data to the production scheduling management platform, and the production scheduling management platform makes access feedback through the transmission channel.

Furthermore, the physical module is provided with a tap water raw water purification device, a water softening device, a heat pump device, a quality-divided pipe network device and a security monitoring device. The tap water raw water purification equipment transmits data to the data workstation through the data transmission channel through the sensor and the security monitoring device, and high-concentration raw water generated by the tap water raw water purification equipment is treated by the water softening device and then is conveyed to the heat pump; the water softening device transmits data to the data workstation through the sensor and the security monitoring device through the data transmission channel, and simultaneously, the water softening device treats tap water raw water and high-concentration raw water generated by the purifying equipment and transmits the treated tap water raw water and the high-concentration raw water to the heat pump; the heat pump device transmits data to the data workstation through the sensor and the security monitoring device through the data transmission channel; the quality-divided pipe network device transmits data to the data workstation through the intelligent meter and the security monitoring device through the data transmission channel; after the data are processed through cloud computing, the data workstation generates various service instructions to be collected to the production scheduling management platform, and the production scheduling management platform sends the various service instructions to each device of the physical module through the data transmission channel to be executed.

Further, the heat pump device realizes a heating device, a refrigerating device and a sanitary hot water device. The heating device comprises a compressor, a condenser, an evaporator, a circulating water pump, a hot water storage tank, a tail end hot water radiating coil and other mechanical components; the refrigerating device comprises a compressor, a condenser, an evaporator, a circulating water pump, a cold water storage tank, a tail end cold water coil fan and other mechanical components; the sanitary hot water device comprises a compressor, a condenser, an evaporator, a circulating water pump, a hot water storage tank, a tail end hot water outlet and other mechanical components;

further, the data acquisition module is provided with user terminal intelligent meter devices such as a direct-drinking water meter, a hot water meter, a heat meter, a cold air meter, a tap water meter, a pipe network pressure monitoring device, a mobile APP access device, an equipment operation monitoring device, a water quality online monitoring device and a data transmission channel. User terminal intelligent meter devices such as a direct drinking water meter, a hot water meter, a heat meter, a cold air meter, a running water meter and the like transmit data to a data workstation through a data transmission channel through a physical data and data processing chip carried by the intelligent meter and receive a switching instruction issued by a production scheduling management platform; the pipe network pressure monitoring device transmits data to the data workstation through the pressure sensor via the data transmission channel; the equipment operation monitoring device transmits the working data of the equipment to a data workstation through a data transmission channel through a data processing chip and a sensor of the equipment, and receives a production scheduling instruction issued by a production scheduling management platform; the water quality on-line monitoring device transmits real-time water quality data to a data workstation through a data transmission channel by a chip; and the terminal access device accesses the system cloud server through the transmission channel.

Furthermore, the data module is provided with a video storage array, an application service database, a real-time database and a historical theme database. The video storage array is respectively summarized into online video communication operation and abnormal event early warning through cloud computing; the application business database summarizes data such as equipment operation monitoring data, equipment operation energy consumption data, equipment operation loss data, equipment maintenance data, pipe network flow pressure data, water quality real-time monitoring data and the like into production scheduling management and equipment performance auxiliary decision and optimization through cloud computing, summarizes user water intake real-time data and user payment real-time data into production scheduling management through cloud computing, summarizes management unit orthogonal data into auxiliary decision and optimization of building water supply equipment system performance of different-scale crowds through cloud computing, and summarizes terminal access real-time data into system internal and external access communication through cloud computing; the real-time database summarizes equipment operation monitoring data, equipment operation energy consumption data, equipment operation loss data, equipment maintenance data, pipe network flow pressure data, water quality real-time monitoring data, user water intaking real-time data and user payment real-time data into online monitoring and management unit GIS positioning through cloud computing; and the historical main data summarizes the equipment operation monitoring data, the equipment operation energy consumption data, the equipment operation loss data, the equipment maintenance data, the pipe network flow pressure data, the water quality real-time monitoring data, the user water intaking real-time data and the user payment real-time data into abnormal event early warning and management unit GIS positioning through cloud computing.

Furthermore, the business module is provided with a video monitoring module, an online monitoring module, a production scheduling module, an auxiliary decision and optimization module, a management unit GIS module, an abnormal event intelligent early warning module, a data authority control module, a function authority control module, an identity authentication module and a safety access module. All the service module functions are realized by cloud computing of a data workstation, and then a service instruction is formed through a production scheduling management platform;

further, the terminal module is provided with a production scheduling management platform, a terminal access platform and a large screen display platform. And the terminal modules realize data communication through the cloud server.

Further, the building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system further comprises:

the biological infrared thermal sensing device is additionally arranged indoors of building users and is used for forming multi-scene intelligent application of an indoor unmanned scene and an indoor biological dormancy scene.

Further, the building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system further comprises: and the building group domestic sewage collecting and treating module is used for circularly introducing the treated reclaimed water into a building group tap water main pipe to form closed circulation recycling of the building group tap water supply of more than 90%.

In summary, the advantages and positive effects of the invention are:

directly saves energy. Particularly, the energy saving method is characterized in that the energy saving of water for heating, ventilation, refrigeration and sanitary hot water is realized by adopting a heat pump, taking hot water heating as an example, 1 ton of cold water with the temperature of 10 ℃ is heated to 45000Kcal of energy required by 55 ℃, under the external environment condition of more than-5 ℃, 55.08KWh energy consumption is required by using a theoretical high-quality electric water heater, only 17.44KWh energy consumption is required by using an air source heat pump, and more than 68% of energy is directly saved;

and man-machine interaction is selective and energy-saving. Taking centralized heat supply as an example, under the conditions of an external environment with the temperature of above-5 ℃ and adopting energy-saving measures, the total heat load of the municipal centralized heat supply heating season is about 130 KWh/square meter, according to survey statistics, more than 50 percent of heat supply in the municipal centralized heat supply heating season without terminal intelligent control management belongs to idle heat supply energy consumption, namely the idle heat supply energy consumption of the municipal centralized heat supply heating season is about 65 KWh/square meter; the total heat load of the distributed heat pump in the heating season is about 78 KWh/square meter, and due to the adoption of terminal intelligent control management, a building user can realize man-machine interaction selection with the system to remove 50% of idle energy consumption, the total heat load of the actual distributed heat pump in the heating season is about 39 KWh/square meter, and the energy is selectively saved by more than 70%;

the equipment performance optimization configuration saves energy. Taking 263 family domestic water supply in a high-rise (12-17-rise) area of a certain cell in Shandong as an example, the Q value is 26.03m according to the design specification of water supply and drainage of buildings³A water supply device with a model of 77 m/h H, which is actually selected from the Greenland rich CR32-5 model Q of 30m³And/h H is 75m of two water supply devices, one for one. According to the actual field survey, the water supply equipment in the high-rise area of the community supplies water at the peak time every day (24 m)³H) average 2.7 hours in duration, peak water consumption 2.7 x 8.4-22.68 KWh; low ebb water supply (3.3 m)³H) average time length of 13.1 hours, valley water supply energy consumption of 13.1 × 4.9 ═ 64.19KWh, total daily energy consumption of 86.87KWh, and annual energy consumption estimated as 31707 KWh. After the system is adopted for numerical simulation optimization, the selectable type of the water supply equipment in the high-rise district of the community is Q equal to 30m³One 75 m/h H vane pump is used for supplying water with a high peak fixed frequency, and one Q7.5 m is added³The/h H-75 m lightweight displacement pump is used for variable-frequency water supply in the valley, so that the water supply equipment in the district with high rise supplies water at the peak every day (24 m)³H) average 2.7 hours in duration, peak energy consumption for water supply was 2.7 x 6.03+2.7 x 1.13-19.33 KWh; the energy consumption of the low-valley water supply is 13.1 × 1.13 ═ 14.8KWh, the total energy consumption per day is 34.13KWh, the energy consumption in the whole year can be estimated to be 12459KWh, and the energy-saving effect is more than 60%.

The invention is used for providing standard and safe dual water supply for urban building users; the method comprises the steps that the relation between timeliness and quantity of water consumption of building users of different scales of crowds is analyzed through internet of things big data and cloud computing according to random water consumption data of the building users, and then production adjustment instructions are issued to an equipment system of a physical module in real time through a production scheduling management platform, so that management and energy saving of the device are achieved; the timeliness and quantitative relation of water consumption of building users and orthogonal data installation among building group management units can realize performance configuration optimization of a physical module equipment system through cloud computing, so that the waste of unnecessary idle performance consumption caused by interference power configuration of a traditional building water supply equipment system and maintenance of pressure of a water supply network by the equipment system is avoided, and the operating efficiency of the urban building water supply system is further improved.

Drawings

Fig. 1 is a schematic diagram of a building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system provided by an embodiment of the invention.

Fig. 2 is a schematic diagram of a building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system provided by the embodiment of the invention.

Fig. 3 is a relationship diagram of a heat pump device according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a data acquisition module apparatus according to an embodiment of the present invention.

Fig. 5 is a schematic application diagram of a data module device according to an embodiment of the present invention.

Fig. 6 is a schematic diagram of a service module device according to an embodiment of the present invention.

Fig. 7 is a plan view of a building dual water supply and power-assisted water supply energy-saving emission-reduction standardized system provided by the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Due to the lack of an integrated quality-based water supply management system engineering technology, the interference power is adopted by single water supply and water production technologies such as direct drinking water, sanitary hot water, heating and ventilation household metering, other domestic water and the like to configure the performance of the equipment, so that the basic energy consumption of various equipment is generally high, and the energy is wasted;

due to the lack of integrated quality-based water supply management system engineering technology, idle energy consumption of building water supply systems generally exists, and idle energy consumption of urban central heating in winter is particularly serious.

The invention provides a method for acquiring various water consumption data of building users in real time, generating various production scheduling instructions by cloud computing according to the water consumption data, and directly optimizing the working mode of a water supply equipment system through the production instructions; the water consumption data among the building groups can generate building water supply orthogonal models with different crowd scales through cloud computing, and the orthogonal models can generate optimal performance configuration schemes of building water supply equipment systems with different crowd scales through cloud computing; the system has the advantages of optimizing the performance of the building water supply equipment system, avoiding the interference power configuration of the building water supply equipment system and reducing the idle water supply energy consumption.

As an improvement of the invention, the water consumption data of each building user, the operation data of each set of water supply equipment and the pipe network data of each building in the system are collected and summarized to the data workstation for cloud computing processing through a data transmission channel;

as an improvement of the invention, the system is based on the Internet of things and an Internet architecture network element, water use data of each building group in the system is processed through cloud computing of a data workstation to generate building pipe network flow pressure modules with different crowd scales, and the building pipe network pressure modules are processed through cloud computing of the data workstation to generate building water supply equipment performance configuration modules with different crowd scales;

as improvement of the invention, the system is based on the Internet of things and Internet architecture network elements, building users and the system are provided with man-machine interaction communication channels, and the building users can independently select the switching time of different water, particularly the switching time of heating and general water, so that the idle energy consumption is greatly reduced;

as improvement of the invention, the system is based on the Internet of things and Internet architecture network elements, and can automatically optimize the working modes of water supply equipment of different building groups according to the time characteristics of water consumption of building users and the GIS (geographic information system) geographic water consumption characteristics of the building groups, thereby reducing the idle energy consumption.

The building dual water supply and power-assisted water supply energy-saving emission-reduction standardized control method provided by the embodiment of the invention comprises the following steps:

the operation data of the physical module, the flow and pressure data of the quality-divided pipe network are collected through a sensor and an intelligent meter; transmitting the collected operation data, the quality-divided pipe network flow and the pressure data to a data workstation by a transmission channel for sorting and classifying;

after cloud computing is carried out through a data workstation, automatically programming and arranging the computed data into various instructions, and summarizing the instructions to a production scheduling management platform for storage;

various instructions of the production scheduling management platform are transmitted to the service module and the terminal module through the data transmission channel;

the terminal module transmits data to the physical module and transmits feedback to the data workstation through the transmission channel through the carried terminal access platform, the data workstation transmits the data to the production scheduling management platform through the transmission channel, and the production scheduling management platform makes access feedback.

As shown in fig. 1 to 7, the building dual water supply and power-assisted water supply energy-saving emission-reduction standardization system provided by the embodiment of the invention is provided with:

the system comprises a physical module, a data acquisition module, a data module, a service module and a terminal module; the physical module is provided with: a tap water raw water purification device for raw water purification; a water softening device for protecting the heat pump device, the quality-divided pipe network and the pumping system equipment; the heat pump device is used for providing urban heating, refrigeration and sanitary hot water; a quality-divided pipe network device for dividing water supply with different qualities; the security monitoring device is used for monitoring the normal operation of water supply systems such as water production equipment, pumping equipment, a quality-divided pipe network and the like;

the data acquisition module is provided with: the intelligent meter device of the user terminal is arranged on a direct drinking water meter, a hot water meter, a heat meter, a cold air meter and a tap water meter of a home-entry meter box of a building user; the pipe network pressure monitoring device is used for monitoring the pipe network pipeline pressure; PC end and mobile end APP access device used for terminal access inquiry; the equipment operation monitoring device is used for monitoring the equipment operation; a water quality on-line monitoring device for monitoring water quality; the data transmission channel is used for transmitting the acquired data and receiving the production instruction;

the data module is provided with: the video data storage array is used for monitoring pipe networks and equipment; the application service database is used for inquiring and applying various data of equipment and users; the real-time database is used for monitoring various data in real time; a historical topic database for comparing and handling various exception events;

the service module is provided with: the video monitoring module is used for monitoring and inquiring the pipe network and the equipment; the online monitoring module is used for monitoring a pipe network and equipment in real time; a production scheduling module for equipment production; an aid decision and optimization module for production decisions; the management unit GIS module is used for carrying out space positioning on the device and the equipment; the intelligent early warning module of the abnormal event is used for alarming the abnormal event; the data authority control module and the function authority control module are used for controlling the data processing and function processing authority of the equipment; the identity authentication module is used for verifying the identity; the safety access module is used for ensuring the safety of each device;

the terminal module is provided with: a production scheduling integrated management platform for integrated management of production; the mobile terminal access platform is used for accessing the mobile terminal; the large-screen display platform is used for displaying data;

the heat pump device comprises heating, refrigerating and sanitary hot water, and the quality-divided pipe network device mainly divides direct drinking water, hot water, cold water and tap water.

The application service database is provided with equipment operation monitoring data, equipment operation energy consumption data, equipment operation loss data, equipment maintenance data, pipe network flow pressure data, water quality real-time monitoring data, user water intake real-time data, user payment real-time data, management unit orthogonal data and terminal access real-time data.

The physical module is provided with a tap water raw water purification device, a water quality softening device, a heat pump device, a quality-divided pipe network device and a security monitoring device; the tap water raw water is produced into pure water which can be directly drunk by the tap water raw water purifying equipment; the water softening device softens substances such as calcium and magnesium ions of tap water raw water and high-concentration raw water produced by the tap water raw water purification equipment and then transmits the softened substances to the heat pump; the heat pump device is used for producing tap water raw water and high-concentration raw water produced by tap water raw water purification equipment into sanitary hot water required by building users for washing bathrooms, heating and ventilating hot water for heating in winter and air conditioning cold water for refrigerating in summer; the quality-divided pipe network device conveys various kinds of water to building users; the security monitoring device realizes the functions of monitoring the system operation of equipment, monitoring the water quality on line, monitoring the pressure of a pipe network, monitoring lightning stroke, waterlogging, fireman, stealing and the like.

As the preferred embodiment of the present invention. Building is divided by matter water supply and helping hand water supply energy saving and emission reduction standardized system still includes:

the biological infrared thermal sensing device is additionally arranged indoors of building users and is used for forming multi-scene intelligent application of an indoor unmanned scene and an indoor biological dormancy scene.

As the preferred embodiment of the present invention. Building is divided by matter water supply and helping hand water supply energy saving and emission reduction standardized system still includes: and the building group domestic sewage collecting and treating module is used for circularly introducing the treated reclaimed water into a building group tap water main pipe to form closed circulation recycling of the building group tap water supply of more than 90%.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When used in whole or in part, can be implemented in a computer program product that includes one or more computer instructions. When loaded or executed on a computer, cause the flow or functions according to embodiments of the invention to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, the computer instructions may be transmitted from one website site, computer, server, or data center to another website site, computer, server, or data center via wire (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL), or wireless (e.g., infrared, wireless, microwave, etc.)). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that includes one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A standardized control method for energy conservation and emission reduction of building dual water supply and power-assisted water supply is characterized by comprising the following steps:

the operation data of the physical module, the flow and pressure data of the quality-divided pipe network are collected through a sensor and an intelligent meter; transmitting the collected operation data, the quality-divided pipe network flow and the pressure data to a data workstation by a transmission channel for sorting and classifying;

after cloud computing is carried out through a data workstation, automatically programming and arranging the computed data into various instructions, and summarizing the instructions to a production scheduling management platform for storage;

various instructions of the production scheduling management platform are transmitted to the service module and the terminal module through the data transmission channel;

the terminal module transmits data to the physical module and feedback to the data workstation through the transmission channel through the carried terminal access platform, the data workstation transmits the data to the production scheduling management platform through the transmission channel, and the production scheduling management platform makes access feedback;

building dual water supply and helping hand water supply energy saving and emission reduction standardized system includes: the system comprises a physical module, a data acquisition module, a data module, a service module and a terminal module;

the physical module is used for monitoring data through sensors arranged on various system devices and an intelligent meter arranged on a quality-divided pipe network device;

the data acquisition module is used for acquiring data monitored by the physical module, the data transmission channel transmits the data to a workstation carried by the data module, the workstation automatically programs and arranges the data into various service instructions through cloud computing, the service instructions are collected to the production scheduling management platform, and the data transmission channel transmits the service instructions to the service module and the terminal module;

a terminal access platform carried by a terminal module transmits data to a physical module and transmits feedback to a data workstation through a transmission channel, the data workstation processes the access data through cloud computing and transmits the processed access data to a production scheduling management platform, and the production scheduling management platform makes access feedback;

the physical module is provided with a tap water raw water purification device, a water quality softening device, a heat pump device, a quality-divided pipe network device and a security monitoring device;

the raw tap water purification equipment transmits data to a data workstation through a data transmission channel through a sensor and a monitoring device, and high-concentration raw water generated by the raw tap water purification equipment is treated by a water softening device and then is conveyed to a heat pump;

the water softening device transmits data to the data workstation through the sensor and the monitoring device through the data transmission channel, and simultaneously, the water softening device treats tap water raw water and high-concentration raw water generated by the purifying equipment and transmits the treated tap water raw water and the high-concentration raw water to the heat pump;

the heat pump device transmits data to the data workstation through the sensor and the monitoring device through the data transmission channel;

the quality-divided pipe network device transmits data to the data workstation through the intelligent meter and the monitoring device through a data transmission channel;

the data workstation generates various service instructions after the data are processed by cloud computing and collects the service instructions to the production scheduling management platform, and the production scheduling management platform sends the service instructions to each device of the physical module through the data transmission channel to be executed.

2. The building dual water supply and power-assisted water supply energy-saving emission-reducing standardized control method as claimed in claim 1,

the heat pump device comprises a heating device, a refrigerating device and a sanitary hot water device;

the heating device comprises mechanical components such as a compressor, a condenser, an evaporator, a circulating water pump, a hot water storage tank, a tail end hot water radiating coil and the like;

the refrigerating device comprises a compressor, a condenser, an evaporator, a circulating water pump, a cold water storage tank, a tail end cold water coil fan and other mechanical components;

the sanitary hot water device comprises a compressor, a condenser, an evaporator, a circulating water pump, a hot water storage tank, a tail end hot water outlet and other mechanical components;

the heating device, the refrigerating device and the sanitary hot water device can be system devices with independent functions, can also be system devices with any two-in-one combined function, and can also be system devices with three-in-one combined function.

3. The building dual water supply and power-assisted water supply energy-saving emission-reducing standardized control method as claimed in claim 1, wherein the data acquisition module is provided with a user terminal intelligent meter device, a pipe network pressure monitoring device, a terminal access device, an equipment operation monitoring device, a water quality on-line monitoring device and a data transmission channel which are integrated with a direct drinking water meter, a hot water meter, a heat meter, a cold air meter and a tap water meter;

the intelligent meter device of the user terminal of the direct drinking water meter, the hot water meter, the heat meter, the cold air meter and the running water meter transmits data to the data workstation through the physical signal and data signal processing chip of the intelligent meter and the data transmission channel, and receives a switching instruction issued by the production scheduling management platform;

the pipe network pressure monitoring device transmits data to the data workstation through the pressure sensor via the data transmission channel;

the equipment operation monitoring device transmits the working data of the equipment to a data workstation through a data signal processing chip and a sensor of the equipment and receives a production scheduling instruction issued by a production scheduling management platform;

the water quality on-line monitoring device transmits real-time water quality data to a data workstation through a data transmission channel by a chip;

the terminal access device accesses the system cloud server through the transmission channel;

the data module is provided with a video storage array, an application service database, a real-time database and a historical theme database;

the video storage array is respectively summarized into online video communication operation and abnormal event early warning through cloud computing;

the method comprises the steps that an application business database summarizes equipment operation monitoring data, equipment operation energy consumption data, equipment operation loss data, equipment maintenance data, pipe network flow pressure data and water quality real-time monitoring data into production scheduling management and equipment performance auxiliary decision and optimization through cloud computing, summarizes user water intake real-time data and user payment real-time data into production scheduling management through cloud computing, summarizes management unit orthogonal data into building quality-based water supply system performance auxiliary decision and optimization of different-scale crowds through cloud computing, and summarizes terminal access real-time data into system internal and external access communication through cloud computing; the real-time database summarizes equipment operation monitoring data, equipment operation energy consumption data, equipment operation loss data, equipment maintenance data, pipe network flow pressure data, water quality real-time monitoring data, user water intaking real-time data and user payment real-time data into online monitoring and management unit GIS positioning through cloud computing;

the historical main data summarizes equipment operation monitoring data, equipment operation energy consumption data, equipment operation loss data, equipment maintenance data, pipe network flow pressure data, water quality real-time monitoring data, user water intaking real-time data and user payment real-time data into abnormal event early warning and management unit GIS positioning through cloud computing;

the service module is provided with a video monitoring module, an online monitoring module, a production scheduling module, an auxiliary decision and optimization module, a management unit GIS module, an abnormal event intelligent early warning module, a data authority control module, a function authority control module, an identity authentication module and a safety access module which are all realized by cloud computing of a data workstation, and then a service instruction is formed through a production scheduling management platform;

the terminal module is provided with a production scheduling management platform, a mobile terminal access platform and a large screen display platform which all communicate data through a cloud server.

4. The building dual water supply and power-assisted water supply energy-saving and emission-reducing standardized control method as claimed in claim 1, wherein the building dual water supply and power-assisted water supply energy-saving and emission-reducing standardized system further comprises:

the biological infrared thermal sensing device is additionally arranged indoors of building users and is used for forming multi-scene intelligent application of an indoor unmanned scene and an indoor biological dormancy scene.

5. The building dual water supply and power-assisted water supply energy-saving and emission-reducing standardized control method as claimed in claim 1, wherein the building dual water supply and power-assisted water supply energy-saving and emission-reducing standardized system further comprises: and the building group domestic sewage collecting and treating module is used for circularly introducing the treated reclaimed water into a building group tap water main pipe to form closed circulation recycling of the building group tap water supply of more than 90%.

6. A computer program, characterized in that the computer program runs the building dual water supply and power water supply energy-saving emission-reduction standardized control method of claim 1.

7. A terminal is characterized in that the terminal is at least provided with a controller for realizing the building dual water supply and assisted water supply energy-saving emission-reduction standardized control method of claim 1.

8. A computer readable storage medium comprising instructions that when executed on a computer cause the computer to perform the building dual water supply and assisted water supply energy conservation and emission reduction standardized control method of claim 1.

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