CN117615547A - A method and system for monitoring the heat dissipation condition of server cabinets - Google Patents

Abstract

The invention discloses a method and system for monitoring the heat dissipation condition of a server cabinet, which includes obtaining the overall information of the server cabinet and determining the working area of the server in the server cabinet; and determining the server cabinet based on the working area of the server in the server cabinet. The detection position; construct at least one detection point at the detection position of the server cabinet, and the detection point is used to obtain the state variable information inside the server cabinet. In the embodiment of the present invention, the internal status of the server cabinet is collected and monitored in a digital manner, and then the changes in the internal status of the server cabinet are displayed through data changes inside the server cabinet, and the information of the server cabinet is obtained based on the data change display. The overall internal situation, and then the real-time status of the server can be monitored and grasped. That is to say, it is effective to realize the purpose of real-time monitoring and control of the server status in the server cabinet.

Description

A method and system for monitoring the heat dissipation condition of server cabinets

Technical field

The invention relates to the technical field of server cabinet status monitoring, and in particular to a method and system for monitoring the heat dissipation condition of a server cabinet.

Background technique

A server cabinet, also known as a cabinet, rack, or mechanical rack, is a structure used to house, organize, and protect computing equipment. These devices may include servers, network equipment, storage devices, etc. Server cabinets are typically designed as a rectangular metal structure with standard sizes and specifications to accommodate standard rack-mounted equipment. Server cabinet designs and configurations can vary based on specific needs and environments. In a data center or computer room, server cabinets are an important infrastructure for maintaining and managing computing equipment.

Currently, because the server inside the server cabinet is in working state for a long time, in order to avoid unexpected server conditions that may cause the server to lose its working data or fail to work properly, it is necessary to monitor its real-time status.

Contents of the invention

The purpose of the present invention is to provide a method and system for monitoring the heat dissipation condition of a server cabinet in order to realize real-time monitoring and control of the server status in the server cabinet.

In order to achieve the above objects, the present invention implements the following technical solutions:

A first aspect of the present invention provides a method for monitoring the heat dissipation condition of a server cabinet, including:

Obtain the overall information of the server cabinet and determine the working area of the server in the server cabinet;

Determine the detection position of the server cabinet according to the working area of the server cabinet;

Construct at least one detection point at the detection position of the server cabinet, and the detection point is used to obtain state variable information inside the server cabinet;

Collect the internal state variable information of the server cabinet in at least two different time series, perform data analysis on the state variable information of the different time series inside the server cabinet, and obtain the state change information inside the server cabinet;

According to the status change information inside the server cabinet, the working status of the server inside the server cabinet is analyzed to determine the working status inside the server cabinet.

In a feasible embodiment, the state variable information inside the server cabinet includes:

One or more combinations of temperature, humidity and wind inside the server cabinet.

In a feasible embodiment, the method of obtaining status change information inside the server cabinet includes:

According to the working area of the server in the server cabinet, set two detection points at the detection position of the server cabinet, and determine the distance between the two detection points;

Use two detection points to collect the state variables of the server cabinet in the first time series to obtain two sets of state variable information inside the server cabinet;

According to the two sets of state variable information inside the server cabinet, determine the average temperature and humidity value of the server cabinet in the first time sequence;

Under the same wind power configuration, use two detection points to collect the state variables of the server cabinet in the second time series, and determine the average temperature and humidity value of the server cabinet in the second time series;

Compare the temperature average and humidity value in the second time series of the server cabinet with the temperature average and humidity value in the second time series to obtain the status change information inside the server cabinet.

In a feasible embodiment, it also includes:

Use detection points to collect internal state variable information of the server cabinet and obtain temperature and/or humidity information inside the server cabinet;

Based on the overall information of the server cabinet and the working area of the server in the server cabinet, determine the overall control area information of the server cabinet;

According to the overall control area information of the server cabinet, classify the wind power supply and demand inside the server cabinet to different degrees, and obtain at least two different configuration control information inside the server cabinet;

According to at least two different configuration control information inside the server cabinet, control the inside of the server cabinet to obtain the control effect of the server cabinet under different configuration control information;

According to the status change information inside the server cabinet and combined with the control effect of the server cabinet under different configuration control information, the control information is configured inside the server cabinet.

In a feasible embodiment, obtaining the control effect of the server cabinet under different configuration control information includes:

Based on the overall information of the server cabinet, determine the working information of the heat dissipation equipment in the server cabinet;

According to the working information of the heat dissipation equipment in the server cabinet, two different wind power control information are divided. The two different wind power control information are used to control the heat dissipation equipment to perform different wind power output;

According to the overall control area information of the server cabinet, determine the size of the control area, and match the control information of two different wind sizes to determine a control information for the current status of the cooling equipment in the server cabinet;

Use a control information of the current status of the cooling equipment to dissipate heat in the server cabinet, and collect the state variable information inside the server cabinet in different time series to obtain the control effect inside the server cabinet;

Repeat the above work, use another control information of the current status of the cooling equipment to dissipate heat from the server cabinet, and collect the state variable information inside the server cabinet in different time series to obtain the control effect inside the server cabinet.

In a feasible embodiment, the entire server cabinet controlled by the control information of two different wind forces has the same control area, the same control temperature, and the same control humidity.

In a feasible embodiment, the monitoring method further includes:

Use two detection points to collect state variable information in different states inside the server cabinet, and obtain at least two sets of state variable information in different states;

Divide the hierarchical interval according to the two sets of state variable information in different states to obtain the status information of the server cabinet to be regulated in different states;

According to the status information to be controlled of the server cabinet in different states, combined with the size of the hierarchical interval division, and matching with the control information of different wind forces, the control information corresponding to the server cabinet and the status information to be controlled is obtained respectively;

According to the obtained control information corresponding to the status information of the server cabinet and the status information to be controlled, corresponding wind power matching control is performed on the current status information of the server cabinet to be controlled.

A second aspect of the present invention provides a server cabinet heat dissipation monitoring system, which implements a server cabinet heat dissipation monitoring method as described in any one of the first aspect.

In a feasible embodiment, the monitoring system includes:

A status acquisition module, the status acquisition module is arranged at the detection position of the server cabinet, and the status acquisition module is used to collect status variable information of the server cabinet in real time;

Central main control module. The central main control module is electrically connected to the status acquisition module. The central main control module is used to analyze the internal status of the server cabinet based on the status variable information and match the control information of the server cabinet. ;

The heat dissipation control module is used to control the heat dissipation equipment according to the control information of the server cabinet.

In a feasible embodiment, the status acquisition module uses a temperature and humidity detector.

The beneficial effects of the present invention are:

In the embodiment of the present invention, the internal status of the server cabinet is collected and monitored in a digital manner, and then the changes in the internal status of the server cabinet are displayed through data changes inside the server cabinet, and the information of the server cabinet is obtained based on the data change display. The overall internal situation, and then the real-time status of the server can be monitored and grasped. That is to say, it is effective to realize the purpose of real-time monitoring and control of the server status in the server cabinet.

Description of drawings

Figure 1 is an overall flow diagram of a method for monitoring the heat dissipation of a server cabinet provided in an embodiment of the present invention;

Figure 2 is a schematic diagram of the first part of a method for monitoring the heat dissipation of a server cabinet provided in an embodiment of the present invention;

Figure 3 is a schematic diagram of the second part of a method for monitoring the heat dissipation of a server cabinet provided in an embodiment of the present invention;

Figure 4 is a schematic diagram of the third part of a method for monitoring the heat dissipation condition of a server cabinet provided in an embodiment of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without making creative efforts fall within the scope of protection of the present invention.

It should be noted that all directional indications (such as up, down, left, right, front, back...) in the embodiment of the present invention are only used to explain the relationship between components in a specific posture (as shown in the drawings). Relative positional relationship, movement conditions, etc., if the specific posture changes, the directional indication will also change accordingly.

In the present invention, unless otherwise clearly stated and limited, the terms "connection", "fixing", etc. should be understood in a broad sense. For example, "fixing" can be a fixed connection, a detachable connection, or an integral body; It can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be an internal connection between two elements or an interactive relationship between two elements, unless otherwise clearly limited. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood according to specific circumstances.

In addition, if there are descriptions involving “first”, “second”, etc. in the embodiments of the present invention, the descriptions of “first”, “second”, etc. are only for descriptive purposes and shall not be understood as indications or implications. Its relative importance or implicit indication of the number of technical features indicated. Therefore, features defined as "first" and "second" may explicitly or implicitly include at least one of these features. In addition, the meaning of "and/or" appearing in the entire text includes three parallel solutions. Taking "A and/or B" as an example, it includes solution A, or solution B, or a solution that satisfies both A and B at the same time. In addition, the technical solutions in various embodiments can be combined with each other, but it must be based on the realization by those of ordinary skill in the art. When the combination of technical solutions is contradictory or cannot be realized, it should be considered that such a combination of technical solutions does not exist. , nor within the protection scope required by the present invention.

Example

Referring to Figures 1 to 4, in this embodiment of the present invention, in order to realize the purpose of real-time monitoring and control of the server status in the server cabinet, the first aspect of the present invention provides a method for monitoring the heat dissipation condition of the server cabinet. The above monitoring method collects and monitors the internal status of the server cabinet in a digital way, and then displays the changes in the internal status of the server cabinet through data changes inside the server cabinet, and obtains the overall internal situation of the server cabinet based on the data change display. , and then the real-time status of the server can be monitored and grasped. That is to say, it is effective to realize the purpose of real-time monitoring and control of the server status in the server cabinet.

Specifically, the monitoring method includes: obtaining the overall information of the server cabinet and determining the working area of the server in the server cabinet; determining the detection position of the server cabinet according to the working area of the server in the server cabinet; that is, detecting the server cabinet. The overall size of the server cabinet is used to determine the location of the server body, and then the detection position of the server cabinet is determined based on the location of the server body and the heat dissipation position of the server cabinet, and then a detection point is constructed at the detection position of the server cabinet. position, and obtain the state variable information inside the server cabinet at the detection point (such as collecting the temperature, humidity, cooling wind force, etc. inside the server cabinet); here, in order to be able to detect the status changes of the server cabinet For real-time control, it is necessary to collect the internal state variable information of the server cabinet in two or more different time periods at the detection point, that is, to collect the internal state variable information of the server cabinet in two or more different time periods at the detection point. Collect the status of the server cabinet to obtain at least two or more data volumes that can reflect the inside of the server cabinet (that is, the status variable information of different time series), and then conduct data on the status variable information of different time series inside the server cabinet. Analysis, and then the status change information inside the server cabinet can be obtained. After obtaining the status change information inside the server cabinet, analyze the working status of the servers inside the server cabinet, determine the working status inside the server cabinet, and determine the working environment and status of the servers inside the server cabinet. , and then achieve the purpose of real-time monitoring and control of the server status in the server cabinet. In this embodiment, it should be noted that since the temperature and humidity inside the server cabinet will change with the working conditions of the server, in order to analyze the situation inside the server cabinet more scientifically and effectively, the temperature and humidity inside the server cabinet are The state variable information includes: one or more combinations of temperature, humidity and wind inside the server cabinet. That is, by collecting the temperature and humidity inside the server cabinet in real time, the purpose of real-time monitoring of the server status in the server cabinet can be achieved.

Referring to Figure 2, in this embodiment, in order to facilitate understanding of how to control the status changes inside the server cabinet in real time, the following description is provided. Specifically, the method for obtaining the status change information inside the server cabinet includes: :

According to the working area of the server in the server cabinet, set two detection points at the detection position of the server cabinet, and determine the distance between the two detection points; use the two detection points to perform the first timing sequence on the server cabinet. Segment state variable collection to obtain two sets of state variable information inside the server cabinet; based on the two sets of state variable information inside the server cabinet, determine the temperature average and humidity value in the first time sequence segment of the server cabinet; that is, pass here Construct two different detection points at the detection position of the server cabinet, and then use the two detection points to collect the state variable data inside the server cabinet in the first time series to obtain the current first time series The internal condition data of the server cabinet is then repeatedly collected under the same wind power configuration, and two detection points are used to collect the state variables of the server cabinet in the second time series, and the average temperature of the server cabinet in the second time series is determined. value and humidity value; and then numerically compare the average temperature and humidity value in the second time series of the server cabinet with the average temperature and humidity value in the second time series to obtain the status change information inside the server cabinet. It should be noted that, in order to avoid local excessive height inside the server cabinet and affecting the judgment of the overall condition inside the server cabinet, in this embodiment, two detection points are set at the detection position of the server cabinet for real-time detection. To collect real-time status data of the server cabinet, in a feasible embodiment, the detection points may be set to one, two or more. In addition, in this embodiment, by using two detection points to perform temperature averaging analysis on the state variable data of the server cabinet, the temperature values can be collected within a radius of the two detection points, and then the temperature values can be collected. The temperature values of the two data are averaged based on the distance between the two, and then the feedback effect of the temperature collection value is scientifically and effectively ensured. Then, the conditions inside the server cabinet can be scientifically and effectively analyzed digitally.

Referring to Figure 3, in this embodiment, in order to monitor and adjust the status inside the server cabinet in real time, the monitoring method also includes: using detection points to collect the internal status variable information of the server cabinet, and obtain Temperature and/or humidity information inside the server cabinet; determine the overall control area information of the server cabinet based on the overall information of the server cabinet and combined with the working area of the server in the server cabinet; that is, the situation inside the server cabinet A preliminary collection and analysis, and then based on the analysis, the information and regional location of the server cabinet that need to be controlled are determined. Then, according to the control area information that needs to be controlled as a whole, the wind power supply and demand inside the server cabinet is classified to different degrees, and at least two different configuration control information inside the server cabinet are obtained; that is, the wind power supply and demand inside the server cabinet can be obtained according to the control area information on the server cabinet. The heat dissipation equipment has different frequency conversion power to configure the control information with different control effect categories, and then control the inside of the server cabinet according to at least two different configuration control information inside the server cabinet, that is, obtain different configuration control The control effect of the server cabinet under the information; then in actual use, it can control the inside of the server cabinet based on the status change information inside the server cabinet and combined with the control effect of the server cabinet under different configuration control information. configuration. That is, in this embodiment, the heat dissipation equipment that can perform different frequency conversion power changes is arranged in advance at the heat dissipation position of the server cabinet, and then the control information with different control effects is configured according to the working conditions of the heat dissipation equipment, and then the control information of different control effects can be configured according to the working conditions of the server cabinet. The real-time status information collected from the detection points on the body controls the inside of the server cabinet accordingly, so that the servers inside the server cabinet are in a suitable working environment. Then effectively realize the purpose of real-time monitoring and control of the server status in the server cabinet. In addition, it should be noted that the heat dissipation position of the server cabinet needs to be equipped with corresponding variable frequency heat dissipation equipment. Preferably, the variable frequency heat dissipation device may be a variable frequency regulated fan. Furthermore, the variable frequency control fan is a variable frequency control fan using a transistor frequency converter, so that the transistor frequency converter can be used to adjust the wind speed of the variable frequency control fan according to the data collected at the detection point. This can effectively achieve the purpose of real-time monitoring and control of the server status in the server cabinet.

In this embodiment, in order to facilitate understanding of how to overall regulate the interior of the server cabinet according to the different wind power supply of the heat dissipation equipment, the following description is provided. The described control effect of the server cabinet under different configuration control information includes: :

According to the overall information of the server cabinet, the working information of the heat dissipation equipment in the server cabinet is determined; according to the working information of the heat dissipation equipment in the server cabinet, two different wind power control information are divided, and the two different wind power control information are used to control The heat dissipation equipment performs different wind power outputs; that is, the wind power output of the heat dissipation equipment at different wind speeds is divided into two levels according to the different working frequencies of the heat dissipation equipment, so as to control the internal control of the server based on different levels of wind power output. Before wind power matching, the area to be controlled inside the server cabinet is determined in advance based on the overall specification information of the server cabinet, and then the size of the control area is determined based on the overall control area information of the server cabinet, and then the area of the control area can be determined based on the control area. area size to achieve matching with the control information of two different wind sizes, and then determine a control information of the current status of the cooling equipment in the server cabinet, use the current control information to regulate the inside of the server cabinet, and record the control requirements time and control temperature changes, that is, a control information of the current status of the cooling equipment can be used to dissipate heat in the server cabinet, and the state variable information inside the server cabinet can be collected in different time series to obtain the control effect inside the server cabinet. ; Then the control effect inside the server cabinet under the current control information can be obtained. Then the cooling equipment can be shut down appropriately. When the test environment inside the server is consistent with that before the control with one control information, the above work can be repeated, using another control information of the current status of the cooling equipment to dissipate heat from the server cabinet, and perform maintenance on the server. The state variable information inside the cabinet is collected in different time series to obtain the control effect inside the server cabinet. Then the control information of two different wind power levels on the server cabinet is determined. It should be noted that in this embodiment, in order to ensure accurate control of the test effects of control information of two different wind sizes, the overall control area of the server cabinet controlled by the control information of two different wind sizes is consistent and controlled. The temperature is consistent and the humidity control is consistent.

In this embodiment, in order to facilitate understanding of how to configure the control information of different wind forces according to the working status inside the server cabinet, the following description is provided. The monitoring method also includes: using two detection points to monitor the server cabinet. Collect the state variable information in different states inside the server cabinet, and obtain at least two sets of state variable information in different states; that is, the state variable information can be collected in two different states under normal conditions inside the server cabinet, and then according to the two sets of The state variable information in different states is divided into hierarchies to obtain the state information of the server cabinet to be controlled in different states; then based on the state information of the server cabinet in different states to be controlled, combined with the size of the hierarchical interval division, and different The control information of the wind power is matched, and the control information corresponding to the server cabinet and the status information to be controlled is obtained respectively. According to the control information corresponding to the status information of the server cabinet and the status to be controlled, the current status information of the server cabinet to be controlled is obtained. Carry out corresponding wind power matching and control; that is, it can be divided into two judgment data intervals based on the state variable data in different states - an overheating data interval and a low data interval. Inside the server cabinet collected using two detection points When the current state variable data is within the overheating data interval, it is judged to start the control information with larger wind power output, and then use the control information with larger wind power output to regulate the inside of the server cabinet for a period of time. After a period of time, two The current state variable data inside the server cabinet collected at each detection point is collected. If it continues to be in the overheating data range, the wind power output will remain unchanged. If it is in the low data range and continues for a period of time, the wind power output will be adjusted and reduced. Quantity, that is, frequency conversion control is completed to realize control and adjustment according to the real-time status inside the server cabinet, which meets the requirements of green energy saving and environmental protection.

A second aspect of the present invention provides a server cabinet heat dissipation monitoring system, which implements a server cabinet heat dissipation monitoring method as described in any one of the first aspects. The monitoring system further includes: a status acquisition module, Central main control module and heat dissipation control module. The status acquisition module is arranged at the detection position of the server cabinet. The status acquisition module is used to collect status variable information of the server cabinet in real time; the central main control module and the The status acquisition module is electrically connected. The central main control module is used to analyze the internal status of the server cabinet based on the status variable information and match the control information of the server cabinet. The heat dissipation control module is used to control the server cabinet based on the status variable information. Information is carried out on cooling equipment. In this embodiment, the monitoring system uses the status acquisition module to collect real-time status data from the detection position of the server cabinet, and then feeds it back to the central main control module, which uses the central main control module to collect data inside the server cabinet. Data analysis is used to obtain the overall status inside the server cabinet, so as to match the corresponding control information according to the overall status inside the server cabinet, so that the heat dissipation control module can use the corresponding control information to control the heat dissipation equipment on the server cabinet. Control, and then adjust the overall state inside the server cabinet to prevent the server inside the server cabinet from being overheated and humid, and ensure that the server can be in a normal working environment, that is, it can realize the control of the server in the server cabinet. The purpose of monitoring the status in real time. In a feasible embodiment, the status acquisition module uses a temperature and humidity detector. That is, status data information such as temperature and humidity in the server cabinet can be collected at the same time to achieve a high degree of integration of the overall status collection module without occupying too much space inside the server cabinet.

In some embodiments, the monitoring system can communicate using any currently known or future developed network protocol such as HTTP (Hyper Text Transfer Protocol), and can communicate with digital data in any form or medium. Communications (e.g., communications network) interconnections. Examples of communication networks include local area networks ("LAN"), wide area networks ("WAN"), the Internet (e.g., the Internet), and end-to-end networks (e.g., ad hoc end-to-end networks), as well as any currently known or developed in the future network of.

The functions described above herein may be performed, at least in part, by one or more hardware logic components. For example, and without limitation, exemplary types of hardware logic components that may be used include: Field Programmable Gate Arrays (FPGAs), Application Specific Integrated Circuits (ASICs), Application Specific Standard Products (ASSPs), Systems on Chips (SOCs), Complex Programmable Logical device (CPLD) and so on.

A third aspect of the present invention provides a computer-readable medium on which a computer program is stored, wherein when the program is executed by a processor, the monitoring of the heat dissipation condition of a server cabinet as described in any one of the first aspects is implemented. method. The computer-readable medium in this embodiment may write computer program code for performing operations of some embodiments of the present disclosure in one or more programming languages, including object-oriented programming, or a combination thereof Languages - such as Java, Smalltalk, C++, and also include conventional procedural programming languages - such as the "C" language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In situations involving remote computers, the remote computer can be connected to the user's computer through any kind of network, including a local area network (LAN) or a wide area network (WAN), or it can be connected to an external computer (such as an Internet service provider). connected via the Internet).

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operations of possible implementations of systems, methods, and computer program products according to various embodiments of the present disclosure. In this regard, each block in the flowchart or block diagram may represent a module, segment, or portion of code that contains one or more logic functions that implement the specified executable instructions. It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown one after another may actually execute substantially in parallel, or they may sometimes execute in the reverse order, depending on the functionality involved. It will also be noted that each block of the block diagram and/or flowchart illustration, and combinations of blocks in the block diagram and/or flowchart illustration, can be implemented by special purpose hardware-based systems that perform the specified functions or operations. , or can be implemented using a combination of specialized hardware and computer instructions.

In particular, according to some embodiments of the present disclosure, the processes described above with reference to the flowcharts may be implemented as a computer software program. For example, some embodiments of the present disclosure include a computer program product including a computer program carried on a computer-readable medium, the computer program containing program code for performing the method illustrated in the flowchart.

The above description is only an illustration of some preferred embodiments of the present disclosure and the technical principles applied. Persons skilled in the art should understand that the scope of the invention involved in the embodiments of the present disclosure is not limited to technical solutions composed of specific combinations of the above technical features, and should also cover the above-mentioned technical solutions without departing from the above-mentioned inventive concept. Other technical solutions formed by any combination of technical features or their equivalent features. For example, a technical solution is formed by replacing the above features with technical features with similar functions disclosed in the embodiments of the present disclosure (but not limited to).

Claims (10)

1. The method for monitoring the heat dissipation condition of the server cabinet is characterized by comprising the following steps of:

acquiring the whole information of a server cabinet body, and determining a working area of a server in the server cabinet body;

determining the detection position of the server cabinet according to the working area of the server in the server cabinet;

constructing at least one detection point at the detection position of the server cabinet body, wherein the detection point is used for acquiring state variable information in the server cabinet body;

acquiring state variable information in the server cabinet body of at least two different time sequence sections, and carrying out data analysis on the state variable information of the different time sequence sections in the server cabinet body to obtain state change information in the server cabinet body;

and analyzing the working condition of the internal server of the server cabinet according to the state change information in the server cabinet, and determining the working state in the server cabinet.

2. The method for monitoring heat dissipation of a server cabinet according to claim 1, wherein the state variable information in the server cabinet comprises:

one or more of temperature, humidity and wind power in the server cabinet are combined.

3. The method for monitoring heat dissipation of a server cabinet according to claim 2, wherein the method for obtaining state change information of the interior of the server cabinet comprises:

setting two detection points at the detection position of the server cabinet according to the working area of the server in the server cabinet, and determining the distance between the two detection points;

respectively acquiring state variables of a first time period of the server cabinet by using the two detection points to obtain two groups of state variable information in the server cabinet;

according to two groups of state variable information in the server cabinet, determining a temperature average value and a humidity value in a first time period of the server cabinet;

under the same wind power configuration, respectively utilizing two detection points to acquire state variables of a second time sequence section of the server cabinet body, and determining a temperature average value and a humidity value in the second time sequence section of the server cabinet body;

and comparing the temperature average value and the humidity value in the second time sequence section of the server cabinet with the temperature average value and the humidity value in the second time sequence section to obtain state change information inside the server cabinet.

4. A method for monitoring heat dissipation in a server cabinet according to claim 3, further comprising:

acquiring state variable information in the server cabinet by using the detection points to acquire temperature and/or humidity information in the server cabinet;

according to the whole information of the server cabinet, and combining the working area of the server in the server cabinet, determining the whole regulation and control area information of the server cabinet;

grading the wind power supply and demand in the server cabinet to different degrees according to the integral regulation and control region information of the server cabinet to obtain at least two different configuration regulation and control information in the server cabinet;

regulating and controlling the inside of the server cabinet according to at least two pieces of different configuration regulation and control information in the server cabinet, and respectively obtaining regulation and control effects of the server cabinet under the different pieces of configuration regulation and control information;

and configuring the regulation information in the server cabinet according to the state change information in the server cabinet and combining the regulation effects of the server cabinet under different configuration regulation information.

5. The method for monitoring heat dissipation of a server cabinet according to claim 4, wherein obtaining the regulation effect of the server cabinet under different configuration regulation information comprises:

according to the overall information of the server cabinet, working information of heat dissipation equipment in the server cabinet is determined;

dividing control information of two different wind powers according to working information of heat dissipation equipment in the server cabinet body, wherein the control information of the two different wind powers is used for controlling the heat dissipation equipment to output different wind powers;

determining the area of the regulation and control area according to the integral regulation and control area information of the server cabinet, matching the control information of two different wind powers, and determining one control information of the current state of the heat radiation equipment in the server cabinet;

radiating the server cabinet by using one piece of control information of the current state of the radiating equipment, and collecting state variable information in the server cabinet in different time periods to obtain the regulation and control effect in the server cabinet;

and repeating the work, radiating the server cabinet by using the other control information of the current state of the radiating equipment, and collecting state variable information in the server cabinet in different time sequences to obtain the regulation and control effect in the server cabinet.

6. The method for monitoring heat dissipation of a server cabinet according to claim 5, wherein the control areas, the control temperatures and the control humidity of the whole server cabinet are consistent.

7. The method for monitoring heat dissipation of a server cabinet according to any one of claims 1 to 6, wherein the monitoring method further comprises:

acquiring state variable information in different states in the server cabinet by using two detection points, and at least acquiring two groups of state variable information in different states;

carrying out hierarchical interval division according to two groups of state variable information in different states to obtain state information to be regulated and controlled of the server cabinet in different states;

according to the state information to be regulated and controlled of the server cabinet body in different states, the size of the division amount of the level interval is combined, the server cabinet body is matched with the regulation and control information of different wind power sizes, and the regulation and control information corresponding to the state information to be regulated and controlled of the server cabinet body is respectively and correspondingly obtained;

and according to the obtained regulation and control information corresponding to the state information to be regulated and controlled of the server cabinet, carrying out corresponding wind power matching regulation and control on the current state information to be regulated and controlled of the server cabinet.

8. A server cabinet heat dissipation situation monitoring system, characterized by implementing a server cabinet heat dissipation situation monitoring method according to any one of claims 1 to 7.

9. The server cabinet heat dissipation situation monitoring system of claim 8, wherein the monitoring system comprises:

the state acquisition module is arranged at the detection position of the server cabinet body and is used for acquiring state variable information of the server cabinet body in real time;

the central main control module is electrically connected with the state acquisition module, and is used for analyzing the state in the server cabinet body according to the state variable information and matching with the regulation and control information of the server cabinet body;

and the heat dissipation control module is used for carrying out heat dissipation on the heat dissipation equipment according to the regulation and control information of the server cabinet body.

10. The server cabinet heat dissipation monitoring system according to claim 9, wherein the state acquisition module employs: a temperature and humidity detector.