CN211478947U - Enterprise power consumption energy-saving device - Google Patents

Abstract

The utility model discloses an enterprise electricity utilization energy-saving device, which comprises an enterprise control layer, a network layer, a substation layer and a field layer; the enterprise control layer comprises a PC (personal computer), a server and an uninterrupted power supply; the network layer comprises a network security device, a switch and a router; the substation layer comprises a local intelligent control unit and a substation communication module; the field layer comprises an intelligent distribution box, an intelligent switch, an intelligent socket, an intelligent access control, a light sensor, an infrared detector, a temperature and humidity control unit, a light and temperature adjusting unit and a wireless temperature measuring unit; the enterprise control layer communicates with the substation layer through the network layer, collects data of the field layer from the substation layer and issues an energy-saving scheduling instruction to the substation layer, and the substation layer and the field layer perform data transmission. The utility model adopts a layered distributed management framework, each layer is mutually cooperated and independent, when a certain module is abnormal, the work of other modules is not influenced; has strong compatibility and can continuously expand functions according to the development requirements of enterprises.

Description

Enterprise power consumption energy-saving device

Technical Field

The utility model relates to an economizer especially relates to an enterprise power consumption economizer.

Background

The power consumption is one of the main energy consumptions of enterprises and is an important component of the production and operation costs of the enterprises. Besides relying on the government to reduce the cost of power consumption of enterprises, the enterprises actively, actively and effectively promote the energy-saving and consumption-reducing work, and have long-term and important significance for changing the development mode, developing roads in an intension manner, greatly saving energy and reducing consumption, reducing cost, improving benefit and enhancing the competitiveness of the enterprises.

At present, aiming at energy-saving products and energy-saving measures of enterprises, the energy-saving measures are all flowers and are diverse, some energy-saving schemes are provided from certain equipment, some energy-saving schemes are provided from certain buildings, some energy-saving effects are achieved by using distributed energy, and some energy-saving schemes are provided from the aspect of enterprise power utilization systems.

SUMMERY OF THE UTILITY MODEL

The purpose of the invention is as follows: to above problem, the utility model provides an electricity economizer is used to enterprise adopts multiple technology research and development means such as thing allies oneself with, modeling, communication, intelligent front end to build more nimble, open intelligent power consumption energy-saving management device.

The technical scheme is as follows: in order to achieve the above design purpose, the utility model adopts the following technical scheme: an enterprise electricity utilization energy-saving device comprises an enterprise control layer, a network layer, a substation layer and a field layer; the enterprise control layer comprises a PC (personal computer), a server and an uninterrupted power supply; the network layer comprises a network security device, a switch and a router; the substation layer comprises a local intelligent control unit and a substation communication module; the field layer comprises an intelligent distribution box, an intelligent switch, an intelligent socket, an intelligent access control, a light sensor, an infrared detector, a temperature and humidity control unit, a light and temperature adjusting unit and a wireless temperature measuring unit; the enterprise control layer communicates with the substation layer through the network layer, collects data of the field layer from the substation layer and issues an energy-saving scheduling instruction to the substation layer, and the substation layer and the field layer perform data transmission.

Furthermore, the substation layer and the field layer perform data transmission in a wired or wireless communication mode, and the data transmission mode comprises Ethernet, RS485, optical fiber, GPRS and WIFI.

Furthermore, the PC is used for realizing intelligent power management and is responsible for remote monitoring, data statistical analysis, energy-saving modeling and strategy scheduling; the server is used for realizing data storage and is responsible for data recording and classified filing; the uninterrupted power supply is responsible for uninterrupted power supply of the enterprise control layer and the network layer.

Further, the network security device is responsible for dividing enterprise management security partitions and security access with an external network; the switch is responsible for information interaction between all enterprise control layers on the network; the router is responsible for interconnection between different substation layers.

Furthermore, the on-site intelligent control unit is responsible for real-time power utilization monitoring, data acquisition, data uploading, control instruction issuing, superior order regulation receiving and strategy adjustment and on-site intelligent control; the sub-station communication module (12) is responsible for the communication between the local intelligent control unit and each intelligent front-end device of the field layer, data acquisition and instruction issuing.

Further, the network layer adopts a dual-fiber Ethernet topology.

Further, the sub-station layer can work according to the superior order and also can independently manage the site according to a preset model.

Has the advantages that: the utility model discloses a layering distributing type management framework, layering distributing type system's characteristics are modularization, the network deployment is nimble, divide the worker clear and definite, safety, reliable, both mutually support between each layer, and mutually independent again does not influence other module work when certain module takes place unusually or when breaking down. The utility model discloses still have powerful compatible ability and access ability, support various agreements and communication connection mode, can constantly carry out the function extension according to the needs of enterprise's development.

The utility model discloses utilize power consumption characteristics of enterprise, intelligent monitoring, big data analysis, tactics regulation and control etc. to carry out the management and control that becomes more meticulous to the power consumption, wide application in enterprise, building etc. have characteristics such as security, intellectuality, easy extension.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and examples.

As shown in figure 1, enterprise power consumption economizer constitute by enterprise accuse layer 1, network layer 2, sub-station layer 3, field layer 4, can build at the platform and use the power management strategy model to carry out unified regulation and control, also can realize each on-the-spot sub-station energy-saving management, carry out artifical takeover, intervene the operation.

The enterprise control layer 1 comprises a PC (personal computer) 5, a server 6 and an uninterrupted power supply 7; the network layer 2 comprises a network security device 8, a switch 9 and a router 10; the substation layer 3 comprises a local intelligent control unit (LCU)11 and a substation communication module 12; the field layer 4 comprises an intelligent distribution box 13, an intelligent switch 14, an intelligent socket 15, an intelligent entrance guard 16, a light sensor 17, an infrared detector 18, a temperature and humidity control unit 19, a light and temperature adjusting unit 20 and a wireless temperature measuring unit 21.

The enterprise layer 1 communicates with the substation layer 3 through the network layer 2, collects data of the field layer 4 from the substation layer 3 and issues an energy-saving scheduling instruction to the substation layer 3, and the substation layer 3 and the field layer 4 perform data transmission through various wired or wireless communication modes such as Ethernet, RS485, optical fiber, GPRS, WIFI and the like.

The enterprise control layer 1 adopts multi-service, multifunctional and modular design to perform SCADA configuration, database construction, energy-saving modeling, energy-saving strategy compilation, energy-saving management auxiliary module configuration, communication module configuration, functional parameter configuration and the like. The PC 5 is used for realizing intelligent power utilization management and is responsible for functions of remote monitoring, data statistical analysis, energy-saving modeling, strategy scheduling, strategy execution feedback, information publishing and the like; the server 6 is used for realizing data storage and is responsible for functions of data recording, classification, filing and the like; the uninterrupted power supply 7 is responsible for uninterrupted power supply of the enterprise control layer 1 and the network layer 2.

The network layer 2 is responsible for tasks such as network communication, information interaction of each site, network security, interconnection access among different networks and the like, and adopts a double-optical-fiber Ethernet topology structure and is designed according to equipment redundancy, power redundancy and the like. The network security device 8 is responsible for dividing enterprise management security partitions and security access with an external network and other networks; the switch 9 is used as a main device of a backbone communication network and is responsible for information interaction between all enterprise control layers on the network; the router 10 enables interconnection between different substation layers.

The sub-station layer 3 is a core unit for field information acquisition, transmission and control execution, and can work according to the superior regulation and independently manage the field according to a preset model. The local intelligent control unit (LCU)11 is responsible for the functions of real-time power utilization monitoring, data acquisition, data uploading, control instruction issuing, superior order regulation receiving and strategy adjustment, local intelligent control and the like of each site in the jurisdiction; the substation communication module 12 is responsible for the communication between the local intelligent control unit (LCU)11 and each intelligent front-end device/system of the field layer 4, collecting data and issuing instructions.

The field layer 4 is composed of a series of front-end intelligent devices, the devices collect various data information such as field electrical quantity, state quantity, fault, temperature, humidity, illuminance, images, personnel operation and the like, report to the substation layer, receive action instructions issued by the substation layer after analysis, all the devices are connected to the substation layer 3 through the substation communication module 12, and perform energy-saving operations such as turn-off, standby, dimming, temperature regulation and the like according to an energy-saving strategy after information collection, operation and judgment of the substation layer 3.

The utility model discloses enterprise control layer 1 control strategy is more intelligent, and the system not only can issue the management strategy to each sub-station layer 3 according to expected model, can also provide the tactics optimization suggestion according to the adjustment that the on-the-spot information and the enterprise operation management of actual monitoring required, forms closed loop feedback system. Under the condition that the enterprise control layer 1 or the backbone network is broken down, the substation layer 3 can work independently, and power utilization and energy conservation control is carried out on the site of the jurisdiction according to the effective strategy issued by the last superior.

The utility model discloses can require according to the management of authorizing, realize at power consumption data information, alarm information and the input instruction etc. of access enterprises such as cell-phone end APP, distal end computer and cloud platform.

The utility model discloses a layering distributing type management framework, the function is abundanter, the information is more synthesized, data is safer, the analysis is more comprehensive, the execution is more intelligent, the framework is more nimble. The power utilization modeling can be carried out according to different management requirements, different power utilization characteristics and different region division of different enterprises, in the model operation process, a system can carry out data analysis according to operation information, power utilization trends, power utilization events, operation behaviors and the like, model optimization suggestions and prompts are provided, the enterprises are assisted to adjust in operation, optimization is carried out in the adjustment, feedback is carried out after the optimization, and confirmation is carried out after the feedback.

The utility model relates to a more intelligent, more system, more nimble, more open, collection thing networking technology, control, protection, electric energy quality analysis, trouble early warning, failure analysis, power consumption are modeled, and the big data analysis of power consumption, power consumption trend early warning, energy-conserving model optimization guide equal integrative scheme.

Claims (7)

1. The utility model provides an enterprise power consumption economizer which characterized in that: the system comprises an enterprise control layer (1), a network layer (2), a substation layer (3) and a field layer (4);

the enterprise control layer (1) comprises a PC (personal computer) machine (5), a server (6) and an uninterrupted power supply (7); the network layer (2) comprises a network security device (8), a switch (9) and a router (10); the substation layer (3) comprises a local intelligent control unit (11) and a substation communication module (12); the field layer (4) comprises an intelligent distribution box (13), an intelligent switch (14), an intelligent socket (15), an intelligent entrance guard (16), a light sensor (17), an infrared detector (18), a temperature and humidity control unit (19), a light and temperature adjusting unit (20) and a wireless temperature measuring unit (21);

the enterprise control layer (1) communicates with the substation layer (3) through the network layer (2), collects data of the field layer (4) from the substation layer (3) and issues an energy-saving scheduling instruction to the substation layer (3), and the substation layer (3) and the field layer (4) transmit data.

2. The enterprise electricity consumption energy-saving device according to claim 1, characterized in that: the substation layer (3) and the field layer (4) carry out data transmission in a wired or wireless communication mode and comprise Ethernet, RS485, optical fiber, GPRS and WIFI.

3. The enterprise electricity consumption energy-saving device according to claim 1, characterized in that: the PC (5) is used for realizing intelligent power management and is responsible for remote monitoring, data statistical analysis, energy-saving modeling and strategy scheduling; the server (6) is used for realizing data storage and is responsible for data recording and classified filing; the uninterrupted power supply (7) is responsible for uninterrupted power supply of the enterprise control layer (1) and the network layer (2).

4. The enterprise electricity consumption energy-saving device according to claim 1, characterized in that: the network security device (8) is responsible for dividing an enterprise management security partition and performing security access with an external network; the switch (9) is responsible for information interaction between all enterprise control layers on the network; the router (10) is responsible for the interconnection between different substation layers.

5. The enterprise electricity consumption energy-saving device according to claim 1, characterized in that: the on-site intelligent control unit (11) is responsible for real-time power utilization monitoring, data acquisition, data uploading, control instruction issuing, superior order regulation receiving and strategy adjustment and on-site intelligent control; the substation communication module (12) is responsible for communication, data acquisition and instruction issuing of the local intelligent control unit (11) and each intelligent front-end device of the field layer (4).

6. The enterprise electricity consumption energy-saving device according to claim 1, characterized in that: the network layer adopts a double-optical-fiber Ethernet topology structure.

7. The enterprise electricity consumption energy-saving device according to claim 1, characterized in that: the substation layer (3) can work according to the superior order and also can independently manage the site according to a preset model.

Images