CN117075662A - Automatic change computer lab control alarm system - Google Patents

Abstract

The application relates to the technical field of monitoring systems, in particular to an automatic machine room monitoring alarm system, which comprises a server control platform for acquiring the CPU utilization rate in each server cabinet, a temperature detection module for detecting the ambient temperature in a machine room and detecting the cabinet temperature in the server cabinet in real time, a humidity monitoring module for detecting the ambient humidity in the machine room in real time, a calculation module for reading the CPU utilization rate and calculating the CPU change rate, reading the ambient temperature, the cabinet temperature and the ambient humidity and calculating the ambient temperature change rate, the cabinet temperature change rate and the ambient humidity change rate, an alarm module for receiving control signals of the server control platform and giving an alarm, and a ventilation device for receiving control signals of the server control platform and ventilating the whole machine room or a single server cabinet, wherein the ventilation device can monitor, pre-regulate and pre-alarm the machine room environment and the server cabinet, and improve the control effect on the temperature and the humidity of the machine room and the server cabinet.

Description

Automatic change computer lab control alarm system

Technical Field

The application relates to the technical field of monitoring systems, in particular to an automatic machine room monitoring alarm system.

Background

As is well known, a machine room generally refers to a place for storing servers and providing IT services for users and employees, in which two thirty cabinets are generally placed in a small tens of square meters, thousands of cabinets are placed in a large tens of square meters, even more, various servers and small machines, such as IBM small machines, HP small machines, SUN small machines, etc., are generally placed in the machine room, temperature and humidity of the machine room and antistatic measures are strictly required, non-professional project personnel cannot generally enter, in present society, the machine room is important, no machine room is available, work and life are greatly affected, and therefore, each machine room is managed by professional personnel, and normal operation of the service is ensured.

When the temperature and the humidity of a machine room in the prior art are controlled, the air flow in the machine room is accelerated by controlling the air flow, so that the temperature in the machine room is lower, the humidity is lower, and a relatively dry environment is maintained. However, this method can only monitor the whole temperature and the whole humidity of the machine room by the whole, and in practice, when the temperature and the humidity of the machine room are abnormal, the temperature and the humidity of the individual server cabinets are generally changed, and then the temperature value and the humidity value of the whole machine room are affected, and obviously, the monitoring and control method in the prior art consumes larger electric power, but the actual monitoring and control effects are not good.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the application provides an automatic machine room monitoring alarm system which can monitor, pre-regulate and pre-alarm the machine room environment and the server cabinet and improve the control effect on the temperature and the humidity of the machine room and the server cabinet.

(II) technical scheme

To achieve the above object, an embodiment of the present application provides an automated machine room monitoring alarm system, including:

the server control platform is used for acquiring the CPU utilization rate in each server cabinet;

the temperature detection module is used for detecting the ambient temperature in the machine room and detecting the cabinet temperature in the server cabinet in real time;

the humidity monitoring module is used for detecting the ambient humidity in the machine room in real time;

the computing module is used for reading the CPU utilization rate, computing the CPU change rate, reading the environment temperature, the cabinet temperature and the environment humidity, computing the environment temperature change rate, the cabinet temperature change rate and the environment humidity change rate, and transmitting the computed CPU change rate, the environment temperature change rate, the cabinet temperature change rate and the environment humidity change rate to the server control platform;

the alarm module is used for receiving the control signal of the server control platform and alarming based on the received control signal;

and the ventilation device is used for receiving the control signals of the server control platform and ventilating the whole machine room or a single server cabinet based on the received control signals.

Preferably, the server control platform controls the ventilation device and the alarm module based on ambient humidity, and includes:

when the ambient humidity is greater than the set ambient humidity, controlling the ventilation device to ventilate the environment in the machine room;

after reaching a set time period t1, when the ambient humidity is smaller than the set ambient humidity, controlling the ventilation device to continuously ventilate for the set time period t1, and closing the ventilation device; when the ambient humidity is greater than or equal to the set ambient humidity and the change rate of the ambient humidity is greater than 0, keeping the ventilation device working, and simultaneously, carrying out humidity unbalance alarm by the alarm module; and when the ambient humidity is greater than or equal to the set ambient humidity and the change rate of the ambient humidity is less than or equal to 0, keeping the ventilation device working.

Preferably, the server control platform controls the ventilation device based on an ambient temperature and a cabinet temperature, and includes:

when the ambient temperature is greater than or equal to the set temperature T0, controlling the ventilation device to ventilate the machine room, and controlling whether the ventilation device ventilates the server cabinets or not based on the cabinet temperature, the cabinet temperature change rate and the CPU utilization rate in each server cabinet; when the ambient temperature is less than the set temperature T0, whether the ventilation device ventilates the machine room or not is controlled based on the ambient temperature change rate, and meanwhile, the ventilation device ventilates the server cabinet is controlled based on the CPU utilization rate.

Preferably, when the ambient temperature is greater than or equal to the set temperature T0, controlling whether the ventilation device ventilates the server cabinet based on the cabinet temperature, the cabinet temperature change rate and the CPU usage rate in each server cabinet specifically includes: when the temperature of the cabinet is higher than the ambient temperature, the ventilation device ventilates the server cabinet; when the temperature of the cabinet is smaller than or equal to the ambient temperature, if the temperature change rate of the cabinet is larger than a first set threshold value and the CPU utilization rate is larger than a second set threshold value, the ventilation device ventilates the server cabinet, otherwise, the ventilation device does not ventilate the server cabinet.

Preferably, when the ambient temperature is less than the set temperature T0, controlling whether the ventilation device ventilates the machine room based on the ambient temperature change rate includes:

when the environmental temperature change rate is larger than a third set threshold value, controlling the ventilation device to ventilate the machine room, otherwise, enabling the ventilation device to not ventilate the machine room; the ventilation device for controlling ventilation of the server cabinet based on the CPU utilization rate comprises: and when the CPU utilization rate is greater than a second set threshold value, the ventilation device ventilates the server cabinet, otherwise, the ventilation device does not ventilate the server cabinet.

Preferably, the server control platform controls the alarm module based on an ambient temperature, a cabinet temperature and a CPU usage rate, and includes: when the ambient temperature is higher than the set temperature T1, the alarm module alarms to display that the temperature of the machine room is too high; when the environmental temperature is smaller than the set temperature T1 and is larger than or equal to the set temperature T0, whether the alarm module alarms or not is controlled based on the cabinet temperature in each server cabinet, the cabinet temperature change rate and the CPU utilization rate, and when the alarm is performed, the condition that the temperature of a single server cabinet is too high is displayed; when the ambient temperature is smaller than the set temperature T0, the alarm module is closed; the set temperature T1 is greater than the set temperature T0.

Preferably, when the environmental temperature is less than the set temperature T1 and greater than or equal to the set temperature T0, controlling whether the alarm module alarms based on the cabinet temperature, the cabinet temperature change rate and the CPU usage rate in each server cabinet includes: when the temperature of the cabinet in one server cabinet is greater than or equal to the set temperature T1, if the temperature change rate of the cabinet is greater than or equal to 0, the alarm module displays that the temperature of the server cabinet is too high, otherwise, the alarm module does not alarm the server cabinet; when the temperature of a cabinet in one server cabinet is smaller than a set temperature T1 and larger than the environment temperature, if the temperature change rate of the cabinet is larger than 0 and the CPU utilization rate is smaller than a second set threshold, the alarm module displays that the server cabinet is abnormal, otherwise, the alarm module does not alarm the server cabinet; when the temperature of the cabinet in one server cabinet is less than the ambient temperature, the alarm module does not alarm the server cabinet.

(III) beneficial effects

The application provides an automatic machine room monitoring alarm system, which is characterized in that a CPU (central processing unit) utilization rate of a server in a machine room is acquired through a server control platform arranged in the machine room, so that the service condition of the server is judged, meanwhile, a temperature value and a humidity value in the machine room and a temperature value in the machine room are detected in real time through a temperature detection module and a humidity detection module which are arranged, the temperature values in the machine room and the temperature change values are monitored and compared in real time, so that the high-heating machine room is judged rapidly, and the maintenance of a single machine room are facilitated. Meanwhile, the whole machine room and the single server cabinet can be monitored, pre-regulated and pre-warned, and the normal operation of the servers in the machine room is ensured.

Drawings

Fig. 1 is a schematic structural diagram of an automatic machine room monitoring alarm system according to the present application.

The reference numerals in the drawings:

100. a machine room; 200. a server cabinet; 300. a server control platform; 400. a humidity monitoring module; 500. a temperature detection module; 600. a computing module; 700. an alarm module; 800. and a ventilation device.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Examples

The application provides an automatic machine room monitoring alarm system which is used for monitoring, controlling and alarming a server cabinet 200 in a machine room 100. Wherein, a plurality of cabinets are provided in the machine room 100, and a group of servers is provided in each cabinet.

The monitoring and alarm system includes a server control platform 300 for obtaining the CPU usage rate in each server cabinet 200, a humidity monitoring module 400 for detecting the ambient humidity in the machine room 100 in real time, a temperature detecting module 500 for detecting the ambient temperature in the machine room 100 in real time and detecting the cabinet temperature in the server cabinet 200, a calculating module 600, an alarm module 700, and a ventilation device 800. The calculating module 600 is configured to read the CPU usage rate, calculate the CPU change rate, and simultaneously read the ambient temperature, the cabinet temperature, and the ambient humidity, calculate the ambient temperature change rate, the cabinet temperature change rate, and the ambient humidity change rate, and transmit the calculated CPU change rate, the calculated ambient temperature change rate, the calculated cabinet temperature change rate, and the calculated ambient humidity change rate to the server control platform 300.

The alarm module 700 is configured to receive a control signal of the server control platform 300, and alarm based on the received control signal; the ventilation device 800 is used for receiving a control signal of the server control platform 300 and ventilating the entire machine room 100 or the single server cabinet 200 based on the received control signal.

The server control platform 300 controls the ventilation device 800 and the alarm module 700 based on the ambient humidity to dehumidify and alarm the humidity of the air in the machine room 100. The method specifically comprises the following steps:

when the environmental humidity is greater than the set environmental humidity, the ventilation device 800 is controlled to ventilate the environment in the machine room 100; after reaching the set time period t1, when the ambient humidity is less than the set ambient humidity, the ventilation device 800 is controlled to ventilate for the set time period t1, and then the ventilation device 800 is turned off. When the ambient humidity is greater than or equal to the set ambient humidity and the change rate of the ambient humidity is greater than 0, the ventilation device 800 is kept working, and at the same time, the alarm module 700 performs a humidity unbalance alarm.

When the ambient humidity is greater than or equal to the set ambient humidity and the rate of change of the ambient humidity is less than or equal to 0, the ventilation device 800 is kept working, and the alarm module 700 does not report the humidity imbalance.

The server control platform 300 controls the ventilation device 800 based on the ambient temperature and the cabinet temperature, including:

when the ambient temperature is greater than or equal to the set temperature T0, the ventilation device 800 is controlled to ventilate the machine room 100, and whether the ventilation device 800 ventilates the inside of the server racks 200 is controlled based on the rack temperature, the rack temperature change rate, and the CPU usage rate in each server rack 200.

Specifically, when the ambient temperature is greater than or equal to the set temperature T0, the ventilation device 800 is controlled to ventilate the server cabinet 200 based on the cabinet temperature, the cabinet temperature change rate and the CPU usage rate in each server cabinet 200, and specifically includes:

when the cabinet temperature is greater than the ambient temperature, the ventilation device 800 ventilates the server cabinet 200; when the cabinet temperature is less than or equal to the ambient temperature, if the cabinet temperature change rate is greater than the first set threshold and the CPU utilization is greater than the second set threshold, the ventilation device 800 ventilates the server cabinet 200, otherwise, the ventilation device 800 does not ventilate the server cabinet 200.

When the ambient temperature is less than the set temperature T0, whether the ventilation device 800 ventilates the machine room 100 is controlled based on the ambient temperature change rate, and at the same time, the ventilation device 800 ventilates the server cabinet 200 is controlled based on the CPU usage rate.

When the ambient temperature is less than the set temperature T0, controlling whether the ventilation device 800 ventilates the machine room 100 based on the ambient temperature change rate includes:

and when the change rate of the environmental temperature is greater than the third set threshold, controlling the ventilation device 800 to ventilate the machine room 100, otherwise, controlling the ventilation device 800 not to ventilate the machine room 100.

Controlling the ventilation device 800 to ventilate the server cabinet 200 based on the CPU usage includes:

when the CPU usage is greater than the second set threshold, the ventilation device 800 ventilates the server cabinet 200, otherwise the ventilation device 800 does not ventilate the server cabinet 200. It will be appreciated that when the CPU utilization is low, the server heat generation amount is relatively low, the heat of the server cabinet 200 is caused by the temperature outside the machine room 100, and the server cabinet 200 itself generates less heat, and ventilation may not be performed.

The first set threshold value, the second set threshold value, and the third set threshold value are numbers greater than zero.

The server control platform 300 controls the alarm module 700 based on the ambient temperature, the cabinet temperature and the CPU usage, and specifically includes:

when the ambient temperature is greater than the set temperature T1, the alarm module 700 alarms, and displays that the temperature of the machine room 100 is too high.

When the environmental temperature is less than the set temperature T1 and greater than or equal to the set temperature T0, the alarm module 700 is controlled based on the cabinet temperature, the cabinet temperature change rate and the CPU usage rate in each server cabinet 200 to alarm, and when the alarm is given, the temperature of the single server cabinet 200 is displayed to be too high.

When the ambient temperature is less than the set temperature T0, the alarm module 700 is turned off.

Note that the set temperature T1 is greater than the set temperature T0. The set temperature T1 is an external environment temperature value which is greatly affected when the server normally works, and the set temperature T0 is an external environment temperature which is less affected when the server normally works.

When the environmental temperature is less than the set temperature T1 and greater than or equal to the set temperature T0, controlling whether the alarm module 700 alarms based on the cabinet temperature, the cabinet temperature change rate, and the CPU usage rate in each server cabinet 200 includes:

when the temperature of the cabinet in one server cabinet 200 is greater than or equal to the set temperature T1, if the temperature change rate of the cabinet is greater than or equal to 0, the alarm module 700 displays that the temperature of the server cabinet 200 is too high, otherwise, the alarm module 700 does not alarm the server cabinet 200. In this process, it can be determined that the server cabinet 200 is an abnormal heating cabinet, which causes a temperature in the machine room 100 to generally rise, and by alarming the server cabinet 200, it is convenient for a worker to maintain the server cabinet 200, and the influence on the overall server of the machine room 100 is reduced.

When the cabinet temperature in one server cabinet 200 is less than the set temperature T1 and greater than the ambient temperature, if the cabinet temperature change rate is greater than 0 and the CPU utilization rate is less than the second set threshold, the alarm module 700 displays that the server cabinet 200 is abnormal, otherwise the alarm module 700 does not alarm the server cabinet 200. When the CPU utilization rate is smaller, the heat productivity of the server is lower at the moment, but when the temperature value in the detection cabinet is abnormally increased, the abnormal condition in the server cabinet 200 can be judged, an alarm can be given, and the maintenance of staff is facilitated.

When the cabinet temperature within a server cabinet 200 is less than the ambient temperature, the alarm module 700 does not alarm the server cabinet 200.

Through the above arrangement, when the environmental temperature value is greater than the set temperature T1, all servers in the machine room 100 will be affected during operation, and the alarm module 700 is controlled to alarm, so that the maintenance of staff is facilitated. When the environmental temperature is less than the set temperature T1, only each server cabinet 200 needs to be monitored, and when the temperature of one server cabinet 200 is abnormal, only the server needs to be warned.

In the description of the present application, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," "front," "rear," and the like indicate an azimuth or a positional relationship based on that shown in the drawings, and are merely for convenience of description and to simplify the description, but do not indicate or imply that the apparatus or elements to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected through an intermediary, or communicating between the two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art. Embodiments of the application and features of the embodiments may be combined with each other without conflict.

The foregoing examples merely illustrate embodiments of the application and are described in more detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (7)

1. An automated machine room monitoring alarm system, comprising:

the server control platform (300) is used for acquiring the CPU utilization rate in each server cabinet (200);

the temperature detection module (500) is used for detecting the ambient temperature in the machine room (100) and detecting the cabinet temperature in the server cabinet (200) in real time;

the humidity monitoring module (400) is used for detecting the ambient humidity in the machine room (100) in real time;

a calculation module (600) for reading the CPU usage rate and calculating a CPU change rate, for reading the ambient temperature, the cabinet temperature, and the ambient humidity, and calculating the ambient temperature change rate, the cabinet temperature change rate, and the ambient humidity change rate, and transmitting the calculated CPU change rate, the ambient temperature change rate, the cabinet temperature change rate, and the ambient humidity change rate to the server control platform (300);

the alarm module (700) is used for receiving the control signal of the server control platform (300) and alarming based on the received control signal;

and the ventilation device (800) is used for receiving the control signals of the server control platform (300) and ventilating the whole machine room (100) or the single server cabinet (200) based on the received control signals.

2. The automated machine room monitoring alarm system of claim 1 wherein: the server control platform (300) controls the ventilation device (800) and the alarm module (700) based on ambient humidity, comprising:

when the ambient humidity is greater than the set ambient humidity, controlling the ventilation device (800) to ventilate the environment in the machine room (100);

after the set period of time t1 has been reached,

when the ambient humidity is smaller than the set ambient humidity, controlling the ventilation device (800) to continuously ventilate for a set period of time t1, and closing the ventilation device (800);

when the ambient humidity is greater than or equal to the set ambient humidity and the change rate of the ambient humidity is greater than 0, keeping the ventilation device (800) working, and simultaneously, carrying out humidity unbalance alarm by the alarm module (700);

and when the ambient humidity is greater than or equal to the set ambient humidity and the change rate of the ambient humidity is less than or equal to 0, keeping the ventilation device (800) working.

3. The automated machine room monitoring alarm system of claim 1 wherein: the server control platform (300) controls the ventilation device (800) based on an ambient temperature and a cabinet temperature, comprising:

when the ambient temperature is greater than or equal to the set temperature T0, controlling the ventilation device (800) to ventilate the machine room (100), and controlling whether the ventilation device (800) ventilates the server cabinets (200) or not based on the cabinet temperature, the cabinet temperature change rate and the CPU utilization rate in each server cabinet (200);

when the ambient temperature is less than the set temperature T0, whether the ventilation device (800) ventilates the machine room (100) is controlled based on the ambient temperature change rate, and meanwhile, the ventilation device (800) ventilates the server cabinet (200) based on the CPU utilization rate.

4. An automated machine room monitoring alarm system according to claim 3 wherein: when the ambient temperature is greater than or equal to the set temperature T0, controlling whether the ventilation device (800) ventilates the server cabinets (200) based on the cabinet temperature, the cabinet temperature change rate and the CPU usage rate in each server cabinet (200), specifically comprising:

the ventilation device (800) ventilates a server rack (200) when the rack temperature is greater than an ambient temperature;

when the cabinet temperature is less than or equal to the ambient temperature, if the cabinet temperature change rate is greater than a first set threshold and the CPU usage rate is greater than a second set threshold, the ventilation device (800) ventilates the server cabinet (200), otherwise, the ventilation device (800) does not ventilate the server cabinet (200).

5. An automated machine room monitoring alarm system according to claim 3 wherein: when the ambient temperature is less than the set temperature T0, controlling whether the ventilation device (800) ventilates the machine room (100) based on the ambient temperature change rate includes:

when the ambient temperature change rate is greater than a set third set threshold, controlling the ventilation device (800) to ventilate the machine room (100), otherwise, the ventilation device (800) does not ventilate the machine room (100);

the controlling ventilation device (800) to ventilate a server cabinet (200) based on the CPU usage includes:

when the CPU usage is greater than a second set threshold, the ventilation device (800) ventilates the server cabinet (200), otherwise the ventilation device (800) does not ventilate the server cabinet (200).

6. The automated machine room monitoring alarm system of claim 1 wherein: the server control platform (300) controls the alarm module (700) based on an ambient temperature, a cabinet temperature, and a CPU usage, comprising:

when the ambient temperature is greater than the set temperature T1, the alarm module (700) alarms to display that the temperature of the machine room (100) is too high;

when the environmental temperature is smaller than the set temperature T1 and is larger than or equal to the set temperature T0, whether the alarm module (700) alarms or not is controlled based on the cabinet temperature, the cabinet temperature change rate and the CPU utilization rate in each server cabinet (200), and when the alarm is carried out, the condition that the temperature of the single server cabinet (200) is too high is displayed;

when the ambient temperature is less than a set temperature T0, the alarm module (700) is turned off;

the set temperature T1 is greater than the set temperature T0.

7. The automated machine room monitoring alarm system of claim 6 wherein: when the environmental temperature is less than the set temperature T1 and greater than or equal to the set temperature T0, controlling whether the alarm module (700) alarms based on the cabinet temperature, the cabinet temperature change rate and the CPU usage rate in each server cabinet (200), comprising:

when the temperature of the cabinet in one server cabinet (200) is greater than or equal to the set temperature T1, if the temperature change rate of the cabinet is greater than or equal to 0, the alarm module (700) displays that the temperature of the server cabinet (200) is too high, otherwise, the alarm module (700) does not alarm the server cabinet (200);

when the cabinet temperature in one server cabinet (200) is smaller than a set temperature T1 and larger than the environment temperature, if the cabinet temperature change rate is larger than 0 and the CPU utilization rate is smaller than a second set threshold, the alarm module (700) displays that the server cabinet (200) is abnormal, otherwise, the alarm module (700) does not alarm the server cabinet (200);

when the cabinet temperature in one server cabinet (200) is less than the ambient temperature, the alarm module (700) does not alarm the server cabinet (200).