CN221175401U - Energy consumption management display system of data center equipment - Google Patents

Abstract

The utility model provides a data center equipment energy consumption management display system, which comprises a preset number of servers, a preset number of storage equipment, routers, switches and refrigeration and dehumidification equipment, wherein the preset number of servers are arranged in a data center machine room; further comprises: a control device and an upper computer; the control device comprises: the device comprises a controller, a storage, a display and a wireless communication module; the controller is connected with the electric energy metering device, and respectively acquires electric energy information of the server, electric energy information of the storage device, electric energy information of the router, electric energy information of the switch and electric energy information of the refrigeration and dehumidification device, displays the information through the display and stores the information into the storage device; the controller is connected with the upper computer through the wireless communication module and uploads the information to the upper computer. The utility model realizes the independent electric energy monitoring management of the data center equipment, displays the data in real time, can upload an upper computer for monitoring and using by a user, and plays a role in timeliness and accuracy of the energy consumption monitoring management.

Description

Energy consumption management display system of data center equipment

Technical Field

The utility model belongs to the technical field of data centers, and particularly relates to an energy consumption management display system of data center equipment.

Background

Data centers are current common equipment network centers for data processing that can be used to communicate, accelerate, display, calculate, store data information over a transit network infrastructure. With the popularization of data center application, artificial intelligence, network security and the like are also developed successively, more users are brought into the application of networks and mobile phones, the application of the Internet of things is also expanded to various fields.

Data centers require a large number of devices to support their functionality during operation. Such as servers, storage, network equipment, etc., refrigeration systems, power supply and distribution systems, lighting systems, and other facilities to meet the operational needs of the data center.

In general, a large amount of electric energy is required to ensure the stable operation of data center equipment in the operation process, and the consumed electric energy is usually required to be measured and monitored and managed. At present, an electric energy meter is arranged on a power supply line of a data center to meter electric energy, so that the method can only meter total energy consumption, can not meter the energy consumption state of each device in real time, is difficult to meet the requirement of data center energy consumption management and control, and can not display real-time to a user, and can not meter the energy consumption state of each device independently.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides the energy consumption management display system for the data center equipment, which can acquire and timely display the energy consumption of the data center equipment, realize independent monitoring and management of the energy consumption of each data center equipment and is convenient for detecting the use of data.

The data center equipment energy consumption management display system comprises a preset number of servers, a preset number of storage equipment, routers, switches and refrigeration and dehumidification equipment, wherein the preset number of servers, the preset number of storage equipment, the routers, the switches and the refrigeration and dehumidification equipment are arranged in a data center machine room; further comprises: a control device and an upper computer;

The control device comprises: the device comprises a controller, a storage, a display and a wireless communication module;

the server is provided with a first electric energy metering device for detecting electric energy information of the server;

The storage device is provided with a second electric energy metering device for detecting electric energy information of the storage device;

the router is provided with a third electric energy metering device for detecting electric energy information of the router;

the switch is provided with a fourth electric energy metering device for detecting electric energy information of the switch;

The refrigeration and dehumidification equipment is provided with a fifth electric energy metering device for detecting electric energy information of the refrigeration and dehumidification equipment;

The controller is respectively connected with the first electric energy metering device, the second electric energy metering device, the third electric energy metering device, the fourth electric energy metering device and the fifth electric energy metering device, respectively acquires server electric energy information, storage equipment electric energy information, router electric energy information, switch electric energy information and refrigeration and dehumidification equipment electric energy information, displays the information through the display and stores the information into the storage;

The controller is connected with the upper computer through the wireless communication module and uploads the information to the upper computer.

Preferably, the control device further includes: an input device;

The controller is connected with the input device to acquire parameters preset by a user and electric energy monitoring thresholds preset for each device.

Preferably, the control device further includes: a time module; the controller is connected with the time module to acquire timing information; the time module adopts a DS1302 clock module, or adopts a DS1307 clock module.

Preferably, the controller displays the power information by using the device power Sang Jitu and displays the power information to the server, the preset number of storage devices, the router, the switch, and the cooling and dehumidifying device in the form of day, week, quarter, and year, respectively.

Preferably, the controller monitors the electric energy information of the storage device, the router, the switch and the refrigeration and dehumidification device based on the electric energy monitoring threshold value respectively, and sends alarm information to the upper computer when the electric energy monitoring threshold value is exceeded.

Preferably, the controller is connected with the refrigeration and dehumidification device, and the operation information and the opening and closing history information of the refrigeration and dehumidification device in a preset time period are displayed in a graphical mode according to the preset cold machine starting and closing time and the preset operation time.

Preferably, the control device further includes: IO communication interface, 232 communication interface and 485 communication interface.

Preferably, the method further comprises: a data center power supply device; the output end of the data center power supply equipment is provided with a current transformer, a voltage transformer and an electric energy metering device;

The controller is connected with the current transformer, the voltage transformer and the electric energy metering device respectively to correspondingly acquire current information, voltage information and electric energy information.

Preferably, the controller employs an STM32F051C8T6 single-chip microcomputer, or employs a Philips LPC4350 processor, or employs an ARM microprocessor.

From the above technical scheme, the utility model has the following advantages:

The data center equipment energy consumption management display system provided by the utility model can monitor each equipment of the data center, and has the functions of independent monitoring, real-time monitoring and real-time display. The energy consumption condition of each device of the data center can be monitored, and the energy consumption data of each device can be displayed. And a plurality of display modes can be provided, so that the monitoring requirement is met.

The utility model realizes the independent electric energy monitoring management of the data center equipment, displays the data in real time, can upload an upper computer for monitoring and using by a user, and plays a role in timeliness and accuracy of the energy consumption monitoring management.

Drawings

In order to more clearly illustrate the technical solutions of the present utility model, the drawings that are needed in the description will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a data center facility energy consumption management display system.

Detailed Description

In order to make the objects, features and advantages of the present utility model more obvious and understandable, the technical solutions of the present utility model will be clearly and completely described below with reference to the drawings in this specific embodiment, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, based on the embodiments in this patent, which would be within the purview of one of ordinary skill in the art without the particular effort to make the utility model are intended to be within the scope of the patent protection.

As shown in fig. 1, the energy consumption management display system of the data center equipment provided by the utility model comprises a preset number of servers, a preset number of storage devices, a router, a switch and refrigeration and dehumidification equipment, wherein the preset number of servers are arranged in a data center machine room; of course, according to the requirements of the data center, other related devices besides the above devices may be provided to meet the use requirements of the data center and the requirements of data processing, which are not limited in detail herein.

In order to obtain the power information of each device of the data center, a first power metering device for detecting the power information of the server is arranged on the server; the storage device is provided with a second electric energy metering device for detecting electric energy information of the storage device; the router is provided with a third electric energy metering device for detecting electric energy information of the router; the switch is provided with a fourth electric energy metering device for detecting electric energy information of the switch; the refrigeration and dehumidification equipment is provided with a fifth electric energy metering device for detecting electric energy information of the refrigeration and dehumidification equipment.

The system further comprises: a control device and an upper computer; wherein the control device includes: a time module, an input device, a controller, a memory, a display, and a wireless communication module. The controller is connected with the input device to acquire parameters preset by a user and electric energy monitoring thresholds preset for each device. The controller is respectively connected with the first electric energy metering device, the second electric energy metering device, the third electric energy metering device, the fourth electric energy metering device and the fifth electric energy metering device, respectively acquires server electric energy information, storage equipment electric energy information, router electric energy information, switch electric energy information and refrigeration and dehumidification equipment electric energy information, displays the information through the display and stores the information into the storage; the controller is connected with the upper computer through the wireless communication module and uploads the information to the upper computer.

It should be noted that the input device may be a touch screen, a keypad, a mouse, a track pad, a touch pad, or the like. The communication mode of the wireless communication module may include wireless local area network (Wi-Fi, WLAN, wireless Local Area Networks), wireless broadband (Wibro), worldwide interoperability for microwave access (Wimax), high speed Downlink packet access (HSDPA, high Speed Downlink PACKET ACCESS), and so on. The controller can adopt STM32F051C8T6 singlechip, or Philips LPC4350 processor, or ARM microprocessor. The first electric energy metering device, the second electric energy metering device, the third electric energy metering device, the fourth electric energy metering device and the fifth electric energy metering device can be electric energy meters arranged on power supply lines of various equipment, and can also relate to a current transformer and a voltage transformer to collect and acquire electric energy of the equipment.

In order to realize the detection and configuration of the energy consumption, the controller is connected with the time module to acquire time information; energy consumption monitoring management of data center devices based on different time periods, or points in time, may be implemented. The time module adopts a DS1302 clock module, or adopts a DS1307 clock module.

In order to meet the data communication requirements of the control device, the control device further comprises: IO communication interface, 232 communication interface and 485 communication interface.

In order to monitor the power supply equipment of the data center, the output end of the power supply equipment of the data center of the system is provided with a current transformer, a voltage transformer and an electric energy metering device; the controller is connected with the current transformer, the voltage transformer and the electric energy metering device respectively to correspondingly acquire current information, voltage information and electric energy information.

The electric energy metering device herein may include: and the electric energy meters with various functions such as an active electric energy meter, a reactive electric energy meter, a multi-rate electric energy meter, a pulse electric energy meter and the like meet the metering requirement.

By adopting the embodiment of the utility model, the energy consumption management display system of the data center equipment can realize the energy efficient monitoring of the data center, and can realize energy conservation and consumption reduction. The system monitors the energy consumption of various aspects such as power, air conditioner, server, storage equipment, network equipment and the like by monitoring the energy use condition of the data center in real time, timely acquires the energy consumption state, and can regulate the energy consumption according to the actual state so as to realize energy conservation and consumption reduction of the data center.

The energy consumption management display system of the data center equipment can display the energy consumption data of each equipment according to the energy consumption condition of the monitoring data center, and alarm in time the abnormal energy consumption through the upper computer or the control device. The whole energy consumption of the data center can be counted, and the use efficiency and the saving condition of energy sources are displayed. An air conditioner control and refrigeration control operation interface can be provided for a user so as to realize the energy efficient management of the data center. The remote management and control of the equipment of the data center are supported, and the management efficiency is improved. Based on the input device and the remote monitoring energy consumption of the upper computer, customized development can be performed according to actual requirements, and energy management requirements of different data centers are met.

The data center equipment energy consumption management display system can be formed by setting corresponding sensors (or meters) and a monitoring software system according to actual needs, and the monitoring software system supports three interface modes to collect data center equipment energy consumption data so as to meet different machine room environment scenes, wherein the interface modes comprise sensor protocol adaptation, an API interface in a standard JSON format and an OID mapping mode of equipment.

The system display adopts the equipment power utilization Sang Jitu, so that information such as classification of electric equipment, power utilization conditions of each type of equipment (daily, weekly, quarterly and annual), equipment current flow direction and the like can be intuitively and conveniently known, other data display modes such as tables, charts or reports and the like can be supported according to requirements, and management decision-making staff can conveniently master the energy consumption condition of a data center better. The system can detect and early warn the abnormality according to the energy consumption data, and timely find out the problem of abnormal energy consumption.

The display mode can be displayed in the form of a meter panel according to the daily, weekly, monthly and quarterly modes based on the state trend of the energy consumption of the thermometer. Based on the data center load trend display, the average daily, weekly, monthly, quarterly and annual load rates are displayed in the form of an instrument panel based on the overall load rate of the data center. And supporting the real-time load rate, calculating the real-time load rate, and displaying the real-time load value of the data center in the form of an instrument panel. The outdoor temperature trend analysis can be realized, and the outdoor temperature distribution condition is displayed for 24 hours according to the time trend through double folding lines. The indoor temperature trend analysis can be realized, and the indoor temperature distribution condition of 24 hours can be displayed according to time trend through double folding lines.

For the refrigeration mode of the utility model, in order to realize energy conservation and consumption reduction of the data center, the energy consumption reduction of the refrigeration system is a core key, the operation state, equipment parameters, environmental parameters and the like of the air conditioner are comprehensively managed by monitoring the operation data of the air conditioner in real time, the problems in the operation of the air conditioner are timely found and solved, and the operation efficiency of the air conditioner is improved, and the energy conservation and the consumption reduction are realized. The cold machine starting and stopping time and the running time of the refrigeration and dehumidification equipment can be configured, and the running and closing history states within 24 hours can be displayed in a graphical mode. The temperature of cold water shortage water return water can be set, and the historical state in 24 hours can be displayed according to time trend through double folding lines. The temperature of the chilled water returned by the water supply can be set, and the historical state in 24 hours can be displayed according to the time trend through the double folding lines. The air conditioner indoor unit sends and returns air temperature, and the history state in 24 hours is displayed according to time trend through double folding lines. Fan operation data graphically shows historical status of operation and shut down for 24 hours.

The techniques described herein may be implemented in hardware, software, firmware, or any combination thereof. The various features described are modules, units, or components that may be implemented together in an integrated logic device or separately as discrete but interoperable logic devices or other hardware devices. In some cases, various features of the electronic circuit may be implemented as one or more integrated circuit devices, such as an integrated circuit chip or chipset.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a data center equipment power consumption management display system, includes the server of preset quantity, the storage device of preset quantity, router, switch and refrigeration dehumidification equipment who sets up in the data center computer lab; characterized by further comprising: a control device and an upper computer;

The control device comprises: the device comprises a controller, a storage, a display and a wireless communication module;

the server is provided with a first electric energy metering device for detecting electric energy information of the server;

The storage device is provided with a second electric energy metering device for detecting electric energy information of the storage device;

the router is provided with a third electric energy metering device for detecting electric energy information of the router;

the switch is provided with a fourth electric energy metering device for detecting electric energy information of the switch;

The refrigeration and dehumidification equipment is provided with a fifth electric energy metering device for detecting electric energy information of the refrigeration and dehumidification equipment;

The controller is respectively connected with the first electric energy metering device, the second electric energy metering device, the third electric energy metering device, the fourth electric energy metering device and the fifth electric energy metering device, respectively acquires server electric energy information, storage equipment electric energy information, router electric energy information, switch electric energy information and refrigeration and dehumidification equipment electric energy information, displays the information through the display and stores the information into the storage;

The controller is connected with the upper computer through the wireless communication module and uploads the information to the upper computer.

2. The data center equipment energy consumption management presentation system of claim 1, wherein,

The control device further includes: an input device;

The controller is connected with the input device to acquire parameters preset by a user and electric energy monitoring thresholds preset for each device.

3. The data center equipment energy consumption management presentation system of claim 1, wherein,

The control device further includes: a time module;

the controller is connected with the time module to acquire time information;

The time module adopts a DS1302 clock module, or adopts a DS1307 clock module.

4. The data center equipment energy consumption management presentation system of claim 3,

The controller displays the electric energy information by using the device power Sang Jitu and displays the electric energy information to the server, the preset number of storage devices, the router, the switch and the refrigerating and dehumidifying device in the form of day, week, quarter and year, respectively.

5. The data center equipment energy consumption management presentation system of claim 2, wherein,

The controller monitors the electric energy information of the storage device, the router, the switch and the refrigeration and dehumidification equipment based on the electric energy monitoring threshold value respectively, and sends alarm information to the upper computer when the electric energy monitoring threshold value is exceeded.

6. The data center equipment energy consumption management presentation system of claim 1, wherein,

The controller is connected with the refrigeration and dehumidification equipment, and displays the operation information and the opening and closing history information of the refrigeration and dehumidification equipment in a preset time period in a graphical mode according to the preset cold machine starting and closing time and the preset operation time.

7. The data center equipment energy consumption management presentation system of claim 1, wherein,

The control device further includes: IO communication interface, 232 communication interface and 485 communication interface.

8. The data center equipment energy consumption management presentation system of claim 1, wherein,

Further comprises: a data center power supply device;

The output end of the data center power supply equipment is provided with a current transformer, a voltage transformer and an electric energy metering device;

The controller is connected with the current transformer, the voltage transformer and the electric energy metering device respectively to correspondingly acquire current information, voltage information and electric energy information.

9. The data center equipment energy consumption management presentation system of claim 1, wherein,

The controller adopts STM32F051C8T6 singlechip, or adopts Philips LPC4350 processor, or adopts ARM microprocessor.