CN-121996040-A - Server monitoring device and monitoring method

CN121996040ACN 121996040 ACN121996040 ACN 121996040ACN-121996040-A

Abstract

The invention discloses a server monitoring device and a monitoring method, which relate to the technical field of server hardware monitoring and comprise a cabinet body, wherein servers are layered in the cabinet body, a front door plate is arranged on the front side of the cabinet body, a rear door plate is arranged on the rear side of the cabinet body, exhaust fans are arranged on the rear door plate, electric sliding rails are arranged on the inner walls of the front side and the rear side of the cabinet body, a front monitoring assembly is arranged on the electric sliding rails on the front side and comprises an extending mechanism provided with an extending seat, a front camera is embedded in the middle of the extending seat, a double-shaft motor is arranged in the extending seat, electric telescopic rods are arranged on output shafts on the two sides of the double-shaft motor through mounting seats, mounting frames are arranged at telescopic ends of the electric telescopic rods on the two sides, and hollow shafts are rotationally connected between the mounting frames on the two sides. The invention realizes the accurate heat dissipation of the channels between the servers, prevents local overheating, and in addition, effectively processes dust attached to the surfaces of the channels between the upper server and the lower server, thereby improving the heat dissipation efficiency.

Inventors

HUANG TIAN
LI NING
ZHOU WEI
CHEN JIAXUE

Assignees

宝德网络安全系统(深圳)有限公司

Dates

Publication Date: 20260508
Application Date: 20260127

Claims (8)

1. A server monitoring device, comprising: The novel intelligent cabinet temperature control device comprises a cabinet body (1), wherein a server (101) is arranged in the cabinet body (1), a front door plate (102) is arranged on the front side of the cabinet body (1), a rear door plate (103) is arranged on the rear side of the cabinet body (1), an exhaust fan (104) is arranged on the rear door plate (103), and electric sliding rails (105) are arranged on the inner walls of the front side and the rear side of the cabinet body (1); Front monitoring assembly (2), locate on the electronic slide rail (105) of front side, including the extension mechanism that is equipped with extension seat (110), the middle part of extension seat (110) inlays and is equipped with preceding camera (201), and the inside of extension seat (110) is equipped with biax motor (202), all be equipped with electric telescopic handle (204) on the both sides output shaft of biax motor (202) through mount pad (203), the flexible end of electric telescopic handle (204) of both sides all is equipped with mounting bracket (205), rotates between mounting bracket (205) of both sides and is connected with cavity axle (206), the side of cavity axle (206) is equipped with cleaning part (207), and the tip of mounting bracket (205) is equipped with rotation motor (208) that is connected with cavity axle (206) transmission, and the gas pocket has been seted up to the side of cavity axle (206); The front monitoring assembly (2) further comprises a mounting groove (209), the mounting groove (209) is formed in the side face of the extension seat (110), an air inlet fan (210) is arranged at the end portion of the mounting groove (209), an air pipe (211) communicated with the mounting groove (209) is arranged on the extension seat (110), and the end portion of the air pipe (211) is rotationally connected with the end portion of the hollow shaft (206).
2. The server monitoring device according to claim 1, further comprising a rear monitoring assembly (3) arranged on the rear side electric sliding rail (105), and also comprising an extension mechanism provided with an extension seat (110), wherein the extension seat (110) positioned at the rear side is provided with a groove seat (301), the middle part of the groove seat (301) is embedded with a rear camera (302), side grooves at two sides of the groove seat (301) are provided with filter plates (303), and one side of the filter plate (303) away from the groove seat (301) is provided with a fan (304).
3. The server monitoring device according to claim 2, wherein the filter plate (303) is provided with a gas flow rate sensor, the induced fan (304) is used for generating negative pressure inside the tank base (301), a filter element is arranged inside the tank base (301) between the filter plate (303) and the induced fan (304), and a temperature sensor is arranged inside the tank base (301).
4. The server monitoring device according to claim 1, further comprising an air inlet assembly (4), wherein the air inlet assembly (4) comprises an air inlet groove (401), the air inlet groove (401) is arranged on the front door plate (102), rotating shafts (402) are uniformly arranged on the inner side surface of the air inlet groove (401), and air guide plates (403) are arranged at the inner ends of the rotating shafts (402).
5. The server monitoring device according to claim 4, wherein the outer end of each rotating shaft (402) is provided with a gear (404), a rack (405) is connected to the external meshing transmission of the gear (404), and damping sliding connection is formed between the rack (405) and the side wall of the air inlet groove (401).
6. The server monitoring device according to claim 5, wherein an electric push rod (406) is arranged on the side face of the rack (405), a clamping seat (407) is arranged at the telescopic end of the electric push rod (406), and a filter screen (408) is arranged on the outer side of the air inlet groove (401).
7. The server monitoring device according to claim 1, wherein the stretching mechanism comprises a guide rail (106), the guide rail (106) is arranged on a sliding part of the electric sliding rail (105), the guide rail (106) is rotationally connected with a bidirectional screw (107), threads with opposite screw directions are arranged on two sides of the bidirectional screw (107), sliding seats (108) are sleeved on two sides of the bidirectional screw (107) in a threaded manner, connecting rods (109) are hinged on the sliding seats (108) on two sides, opposite ends of the connecting rods (109) on two sides are hinged with two sides of the stretching seat (110) respectively, and a driving motor (111) in transmission connection with the end parts of the bidirectional screw (107) is embedded on the guide rail (106).
8. A monitoring method of a server monitoring device, the monitoring method implementing monitoring of a server by using the server monitoring device according to any one of claims 1 to 7, characterized by comprising the steps of: S1, when a server (101) is in a normal working state, an exhaust fan (104) is started, so that external air flow enters the cabinet body (1) through an air inlet groove (401) to form basic heat dissipation circulation, and front and rear monitoring assemblies (2, 3) are respectively driven by corresponding electric sliding rails (105) to move along the vertical direction to periodically patrol the layered servers (101); S2, in the inspection process, a temperature sensor monitors the air flow temperature of channels between adjacent servers (101) in real time, if the air flow temperature is monitored to exceed a set threshold value, local high temperature of the corresponding channel is judged, a double-shaft motor (202) is controlled to drive a hollow shaft (206) to rotate and align to a height Wen Tongdao, an electric telescopic rod (204) pushes the hollow shaft (206) to extend into a front port of the channel, meanwhile, an inlet fan (210) is started, and external low-temperature air is sprayed into the channel through air holes on the side surface of the hollow shaft (206) to perform accurate heat dissipation; S3, in the inspection process, a rear camera (302) detects dust attached to a lens, if the dust attached to the lens exceeds a set value, a hollow shaft (206) is controlled to be adjusted to be horizontal and extend into a corresponding channel, an air inlet fan (210) is started to jet air into the channel, meanwhile, a double-shaft motor (202) drives the hollow shaft (206) to swing up and down, a rotating motor (208) drives the hollow shaft (206) to rotate, so that a cleaning part (207) brushes out dust on the surface of a server (101), and dust is sucked into a filter element in a groove seat (301) by using a guide fan (304) to be collected; S4, in the cleaning process, if a gas flow rate sensor on the filter plate (303) detects that the flow rate is lower than a set threshold value, the hollow shaft (206) is controlled to horizontally extend to the outer side of the filter plate (303), the cleaning part (207) is in contact with the surface of the filter plate (303), the rotating motor (208) drives the hollow shaft (206) to rotate so as to clean the filter plate (303), and meanwhile the fan (304) is led to keep working, so that fallen dust is sucked into the filter element; S5, in the heat dissipation and monitoring process, the front guide rail (106) is moved to a position corresponding to the clamping seat (407) through the electric sliding rail (105), the clamping seat (407) is pushed by the electric push rod (406) to be clamped with the guide rail (106), and when the guide rail (106) moves up and down, all air guide plates (403) are driven to swing synchronously through racks (405) and gears (404), so that the air inlet flow angle is adjusted; And S6, uploading temperature, image and air flow data acquired in the monitoring process to an external control terminal in real time through a communication control module, and automatically triggering corresponding cooling, dedusting and air guide adjusting operations based on the data.

Description

Server monitoring device and monitoring method Technical Field The invention relates to the technical field of server hardware monitoring, in particular to a server monitoring device and a monitoring method. Background In the digital age, the server plays a crucial role, the server is used as a data processing core device, the running stability directly determines the service continuity, and the server is especially a standard rack-mounted server widely applied to a data center and is core hardware for bearing calculation, storage and network service. The China patent with the application number 202111157763.3 discloses monitoring equipment of a server and a control method thereof, the monitoring equipment comprises a server case, the server is arranged in the server case, the monitoring equipment further comprises a monitoring device and a brake component, the brake component is arranged at the top of the server case, the monitoring device is arranged in an inner cavity of the server case, the monitoring device is connected with the brake component, the brake component controls the monitoring device to rotate around the server in the inner cavity of the server case, a cabinet door is hinged to the front side of the server case, and a display screen for displaying monitoring data and a control panel for controlling the monitoring device are arranged on the cabinet door. However, due to the extremely compact space inside the servers, especially the narrow spacing between servers within the cabinet, airflow from between the servers is severely restricted, possibly resulting in localized overheating. In addition, since the servers need to continuously circulate air with the outside to dissipate heat, dust is attached, and particularly, surface air flow between two adjacent servers is difficult to circulate, so that dust stays and attaches to the surfaces of the servers, and heat dissipation is affected. Disclosure of Invention The invention aims to overcome the existing defects, provide a server monitoring device and a monitoring method, can realize the accurate heat dissipation of channels between servers, prevent local overheat, in addition, effectively handle the dust that the passageway surface attached between upper and lower server, promote radiating efficiency, can effectively solve the problem in the background art. In order to achieve the above purpose, the invention discloses a server monitoring device, comprising: The cabinet body is internally provided with servers in a layered manner, the front side of the cabinet body is provided with a front door plate, the rear side of the cabinet body is provided with a rear door plate, the rear door plate is provided with an exhaust fan, and the inner walls of the front side and the rear side of the cabinet body are respectively provided with an electric sliding rail; The front monitoring assembly is arranged on the electric sliding rail at the front side and comprises an extending mechanism provided with an extending seat, a front camera is embedded in the middle of the extending seat, a double-shaft motor is arranged in the extending seat, electric telescopic rods are arranged on output shafts at two sides of the double-shaft motor through mounting seats, mounting frames are arranged at telescopic ends of the electric telescopic rods at two sides, a hollow shaft is rotationally connected between the mounting frames at two sides, a cleaning part is arranged on the side face of the hollow shaft, a rotating motor in transmission connection with the hollow shaft is arranged at the end part of the mounting frame, and air holes are formed in the side face of the hollow shaft; the front monitoring assembly further comprises a mounting groove, the mounting groove is formed in the side face of the extension seat, an air inlet fan is arranged at the end portion of the mounting groove, an air pipe communicated with the mounting groove is arranged on the extension seat, and the end portion of the air pipe is rotationally connected with the end portion of the hollow shaft. Preferably, the electric sliding rail further comprises a rear monitoring assembly, the electric sliding rail is arranged on the rear side, the electric sliding rail also comprises an extension mechanism provided with an extension seat, a groove seat is arranged on the extension seat on the rear side, a rear camera is embedded in the middle of the groove seat, filter plates are arranged in side grooves on two sides of the groove seat, and a fan is arranged on one side of the filter plates away from the groove seat. Preferably, a gas flow rate sensor is arranged on the filter plate, the induced fan is used for generating negative pressure in the tank seat, a filter element is arranged in the tank seat and between the filter plate and the induced fan, and a temperature sensor is arranged in the tank seat. Preferably, the air inlet assembly comprises an air inlet groove, the air inlet groove is arranged