CN114115481B - Server device - Google Patents

Abstract

The invention relates to the technical field of servers, in particular to a server. The server comprises a first shell, a second shell, a circuit board and a monitoring module, wherein the first shell is spliced with the second shell and encloses an installation cavity; the circuit board is connected in the mounting cavity; the monitoring module is connected to the second shell and is in communication connection with the circuit board, and at least part of the monitoring module is positioned in the mounting cavity and is suitable for implementing remote monitoring in the mounting cavity through the circuit board. According to the server provided by the invention, at least part of the monitoring module is arranged in the installation cavity, so that the safety of the data of the server equipment can be monitored, the monitoring module is in communication connection with the circuit board, and the remote BMC monitoring of the environment in the installation cavity of the server can be realized through the circuit board and the mobile equipment.

Description

Server device

Technical Field

The invention relates to the technical field of servers, in particular to a server.

Background

The server is one of computers, and is faster to run and higher in load than a common computer; the server has high-speed CPU operation capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility. The server provides computing or application services to other clients in the network.

At present, in order to monitor the overall surrounding environment dynamic inside the machine room, more cameras are arranged in the machine room of the server, but the cameras arranged in the machine room of the server cannot monitor the safety of server equipment data.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the defect that the safety of the server equipment data in the prior art cannot be monitored in real time, so as to provide the server capable of monitoring the safety of the server equipment data.

In order to solve the problems, the invention provides a server, which comprises a first shell, a second shell, a circuit board and a monitoring module, wherein the first shell is spliced with the second shell and encloses a mounting cavity; the circuit board is connected in the mounting cavity; the monitoring module is connected to the second shell and is in communication connection with the circuit board, and at least part of the monitoring module is positioned in the mounting cavity and is suitable for implementing remote monitoring in the mounting cavity through the circuit board.

The server provided by the invention comprises a camera shooting structure, wherein the camera shooting structure is arranged in the mounting cavity and is in communication connection with the circuit board.

The server provided by the invention, the monitoring module also comprises a radio structure and an audio connecting wire; the radio structure is connected to the second shell and is in communication connection with the camera structure; two ends of the audio connecting wire are respectively connected with the sound receiving structure and the circuit board.

The server provided by the invention, the monitoring module also comprises a rotating shaft and a driving structure; one end of the rotating shaft is connected with the image pick-up structure; the driving structure is connected to the second shell and is in communication connection with the circuit board, and the driving end of the driving structure is connected with the other end of the rotating shaft and is suitable for driving the camera shooting structure to rotate.

The server provided by the invention further comprises a magnetic adsorption structure, and the first shell and the second shell are magnetically spliced through the magnetic adsorption structure.

The server provided by the invention comprises a first shell plate and first side walls arranged on two opposite side parts of the first shell plate, wherein the second shell plate comprises a second shell plate and second side walls arranged on two opposite side parts of the second shell plate, one end of the first side wall, which is far away from the first shell, is provided with a first mounting groove, and one end of the second side wall, which is far away from the second shell, is provided with a second mounting groove; the magnetic force adsorption structure comprises first electromagnetic adsorption strips and second electromagnetic adsorption strips, each first installation groove is internally embedded with the first electromagnetic adsorption strips, each second installation groove is internally embedded with the second electromagnetic adsorption strips, and the first electromagnetic adsorption strips are suitable for being magnetically connected with the second electromagnetic adsorption strips.

The server provided by the invention further comprises an adapter and a power connection; the switching part is arranged at one end of the second shell, and two ends of the switching part are respectively connected with the second electromagnetic absorbing strip; one end of the power connection wire is connected with the switching part, and the other end is suitable for being connected with a power supply.

The server provided by the invention further comprises an insulating base plate, wherein the insulating base plate is arranged between the circuit board and the second shell and is connected with the circuit board and the second shell through fasteners respectively.

The invention provides a server, wherein an insulating base plate comprises a plate body, a cushion block, at least three first support columns, at least three second support columns and at least three fourth support columns; the cushion block extends from the surface of one side of the board body, which faces the circuit board, and is positioned on each corner of the board body, and the circuit board is connected with the cushion block through a fastener; at least three first support columns extend from the surface of one side of the board body, which faces the circuit board, and are distributed in the middle of the board body, and the circuit board is connected with the first support columns through fasteners; the second support columns extend out from the surface of one side of the board body, which is opposite to the circuit board, and are positioned on corners of the board body, a plurality of third support columns are arranged on the second shell, and the second support columns are connected with the third support columns through fasteners; at least three fourth support columns extend from the surface of one side of the board body, which is opposite to the circuit board, and are distributed at the middle position of the board body, and the fourth support columns are connected with the third support columns through fasteners.

The server provided by the invention is characterized in that a first radiating groove is formed in the inner surface of a first side wall, and an air inlet communicated with a mounting cavity is formed in the first side wall; the inner surface of the first shell plate is provided with a second heat dissipation groove, and the first shell plate is provided with an air outlet communicated with the mounting cavity; the server also comprises a heat radiation structure, wherein the heat radiation structure comprises a first heat radiation fan and a second heat radiation fan; the first cooling fan is connected in the first cooling groove; the second cooling fan is connected in the second cooling groove.

The invention has the following advantages:

1. the server provided by the invention comprises a first shell, a second shell, a circuit board and a monitoring module, wherein the first shell is spliced with the second shell and encloses an installation cavity; the circuit board is connected in the mounting cavity; the monitoring module is connected to the second shell and is in communication connection with the circuit board, and at least part of the monitoring module is positioned in the mounting cavity and is suitable for implementing remote monitoring in the mounting cavity through the circuit board.

At least part of the monitoring module is arranged in the installation cavity, so that the safety of the data of the server equipment can be monitored, the monitoring module is in communication connection with the circuit board, and the remote BMC monitoring of the environment in the installation cavity of the server can be realized through the circuit board and the mobile equipment. And because the monitoring module is arranged on the server, the number of cameras can be reduced in a machine room of the server, and the monitoring redundancy is realized, so that the cost is saved and the monitoring can be comprehensively realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic diagram of a server of the present invention;

FIG. 2 shows an exploded view of the installation of the server of the present invention;

FIG. 3 shows a schematic view of an insulating mat of a server of the present invention;

FIG. 4 shows a partial cross-sectional view of a server of the present invention;

FIG. 5 shows a schematic diagram of a server of the present invention;

fig. 6 shows a partial cross-sectional view of a second server of the present invention.

Reference numerals illustrate:

1. a first housing; 11. a first shell plate; 12. a first sidewall; 13. a first heat sink; 14. an air inlet; 15. a second heat sink; 16. an air outlet; 2. a second housing; 21. a second shell plate; 22. a second sidewall; 23. a third support column; 3. a circuit board; 4. a monitoring module; 41. a camera structure; 42. a radio structure; 43. an audio connecting line; 44. a rotation shaft; 45. a driving structure; 46. a power supply interface; 5. a magnetic force adsorption structure; 51. a first electromagnetic suction strip; 52. a second electromagnetic suction strip; 53. a switching part; 54. a power supply wiring; 6. an insulating backing plate; 61. a plate body; 62. a cushion block; 63. a first support column; 64. a second support column; 7. a heat dissipation structure; 71. a first heat radiation fan; 72. a second heat radiation fan; 8. a fastener.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. 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 invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present invention described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1 to 6, the embodiment discloses a server, which comprises a first shell 1, a second shell 2, a circuit board 3 and a monitoring module 4, wherein the first shell 1 and the second shell 2 are spliced and enclose a mounting cavity; the circuit board 3 is connected in the mounting cavity; the monitoring module 4 is connected to the second housing 2 and in communication with the circuit board 3, at least part of the monitoring module 4 being located in the mounting cavity and adapted to perform remote monitoring of the mounting cavity via the circuit board 3.

At least part of the monitoring module 4 is arranged in the installation cavity, so that the safety of the data of the server equipment can be monitored, the monitoring module 4 is in communication connection with the circuit board 3, and the remote BMC monitoring of the environment in the installation cavity of the server can be realized through the circuit board 3 and the mobile equipment. And because the monitoring module 4 is arranged on the server, the number of cameras can be reduced in a machine room of the server, and the monitoring redundancy is realized, so that the cost is saved and the comprehensive monitoring can be realized. The monitoring module 4 is in communication connection with the circuit board 3, including electrically connected to the circuit board 3 via wires, and also including connected to the circuit board 3 via a wireless network or a wired network.

In this embodiment, the server further includes a front board and a back board, the back board is detachably connected to the rear of the first casing 1 and the second casing 2, the front board is disposed on the second casing 2, and the monitoring module 4 is connected to the front board. The front plate is provided with a mounting groove, the signal display panel is embedded in the mounting groove, and protective glass is further arranged on the periphery of the signal display panel to protect the internal structure of the server. The signal display panel is electrically connected with the magnetic adsorption structure 5 and the circuit board 3, and is suitable for displaying the equipment information of the server through the LED lamp. For example, when a server fails, the processor chip mounted in the circuit board 3 transmits data to the signal display panel, one of the LED lamp sets displays red, prompts a worker that the server needs to be overhauled, and when the LED lamp set displays yellow, the device is indicated to operate normally. The bottom of the second shell 2 is also provided with four bottom pads which are respectively arranged on the four corners of the second shell 2.

In the server of the present embodiment, the monitoring module 4 includes a camera structure 41, and the camera structure 41 is disposed in the installation cavity and is in communication connection with the circuit board 3. The camera structure 41 can realize remote BMC monitoring of the mobile device through a BMC program carried by an ARM chip of the circuit board 3, and is mainly used for monitoring image information. In particular, in one embodiment, the camera structure 41 may be a miniature camera, which has a small volume, does not occupy too much space in the server, and has powerful functions and a wide application range.

In the server of the present embodiment, the monitoring module 4 further includes a sound receiving structure 42 and an audio connecting wire 43; the radio structure 42 is connected to the second housing 2 and is in communication with the camera structure 41; both ends of the audio connecting wire 43 are respectively connected with the sound receiving structure 42 and the circuit board 3. The radio structure 42 and the camera structure 41 are matched, so that the simultaneous monitoring of images and sounds in the installation cavity is realized, and a perfect and comprehensive monitoring effect is achieved.

As an alternative embodiment, the monitoring module 4 may further include a sound receiving structure 42, where the sound receiving structure 42 is connected to the second housing 2, and is connected to both the image capturing structure 41 and the circuit board 3 through a wireless network.

In the server of the present embodiment, the monitoring module 4 further includes a rotation shaft 44 and a driving structure 45, and one end of the rotation shaft 44 is connected with the image capturing structure 41; the driving structure 45 is connected to the second housing 2 and is in communication with the circuit board 3, and the driving end of the driving structure 45 is connected to the other end of the rotation shaft 44, and is adapted to drive the image capturing structure 41 to rotate. The camera structure 41 is rotatable under the drive of the drive structure 45, and can adjust the rotation visual angle through the command transmitted to the BMC by the mobile device in the monitoring process, so that the monitoring range is wider. In a specific embodiment, the monitoring module 4 further includes a power supply interface 46, where the power supply interface 46 is electrically connected to each of the image capturing structure 41, the sound receiving structure 42, and the driving structure 45, and is used to provide power support for the image capturing structure 41, the sound receiving structure 42, and the driving structure 45.

In an alternative embodiment, the monitoring module 4 may further include a driving structure 45, where the driving structure 45 is connected to the second housing 2 and is communicatively connected to the circuit board 3, and a driving end of the driving structure 45 is connected to the image capturing structure 41 and adapted to drive the image capturing structure 41 to rotate.

In the server of this embodiment, still include magnetic force adsorption structure 5, first casing 1 and second casing 2 pass through magnetic force adsorption structure 5 magnetism concatenation, easy dismounting, and simple structure.

In the server of the present embodiment, the first casing 1 includes the first shell plate 11 and the first side walls 12 provided at opposite sides of the first shell plate 11, the second casing 2 includes the second shell plate 21 and the second side walls 22 provided at opposite sides of the second shell plate 21, the first side walls 12 are provided with the first mounting groove at the end away from the first casing 1, and the second side walls 22 are provided with the second mounting groove at the end away from the second casing 2; the magnetic force adsorption structure 5 comprises first electromagnetic adsorption strips 51 and second electromagnetic adsorption strips 52, each first installation groove is embedded with the first electromagnetic adsorption strips 51, each second installation groove is embedded with the second electromagnetic adsorption strips 52, and the first electromagnetic adsorption strips 51 are suitable for being magnetically connected with the second electromagnetic adsorption strips 52. The first electromagnetic suction strip 51 and the second electromagnetic suction strip 52 are mutually adsorbed through the magnetic force converted from electric energy, the electromagnetic adsorption fixation of the first shell 1 and the second shell 2 is completed, the maintenance process of maintenance personnel is simplified, and the first shell 1 and the second shell 2 can be easily opened only by power failure.

In the server of the present embodiment, the magnetic attraction structure 5 further includes an adapter 53 and a power connection 54; the switching part 53 is arranged at one end of the second shell 2, and two ends of the switching part 53 are respectively connected with the second electromagnetic suction strip 52; one end of the power connection 54 is connected to the adapter 53, and the other end is adapted to be connected to a power source. The power connection 54 is electrically connected to the first electromagnetic attraction strip 51 through the switching portion 53, and when the power connection 54 is connected to an external power source, the first electromagnetic attraction strip 51 is electrified and generates magnetism, and attracts the second electromagnetic attraction strip 52 mutually. The power connection 54 and the power line of the server are of separate structures, the power connection 54 and the power line of the server are not connected, and the power connection 54 can be disconnected in the normal working process of the server, so that the first shell 1 can be detached, and the server can be maintained at any time.

In the server of the present embodiment, further comprising an insulating spacer 6, the insulating spacer 6 is disposed between the circuit board 3 and the second housing 2, and is connected to the circuit board 3 and the second housing 2 by fasteners 8, respectively. In a specific embodiment, the fastener 8 may be a fastening structure such as a bolt or a screw. The insulating base plate 6 can realize insulating connection of the circuit board 3, and the safety of the server is enhanced.

In the server of the present embodiment, the insulating mat 6 includes a board body 61, a pad 62, at least three first support columns 63, a second support column 64, and at least three fourth support columns; the cushion block 62 extends from the surface of the plate body 61 toward one side of the circuit board 3 and is positioned at each corner of the plate body 61, and the circuit board 3 is connected with the cushion block 62 by the fastener 8; at least three first support columns 63 extend from the surface of the board body 61 toward one side of the circuit board 3 and are distributed in the middle of the board body 61, and the circuit board 3 is connected with the first support columns 63 through fasteners 8; the second support columns 64 extend from the surface of the side, facing away from the circuit board 3, of the plate body 61 and are positioned on corners of the plate body 61, a plurality of third support columns 23 are arranged on the second shell 2, and the second support columns 64 are connected with the third support columns 23 through fasteners 8; at least three fourth support columns extend from the surface of the side of the board body 61 facing away from the circuit board 3 and are distributed in the middle of the board body 61, and the fourth support columns are connected with the third support columns 23 through fasteners 8. Specifically, the height of the spacer 62 coincides with the height of the first support column 63, and the height of the second support column 64 coincides with the height of the fourth support column.

The spacer blocks 62 and the first support columns 63 are adapted to connect the circuit board 3 at a position having a corresponding distance from the insulating pad 6, avoiding direct contact of the circuit board 3 with the second housing 2 and preventing short-circuit conditions in use caused by direct contact of the solder joints on the back side of the circuit board 3 with the insulating pad 6.

In the server of the embodiment, a first heat dissipation groove 13 is arranged on the inner surface of a first side wall 12, and an air inlet 14 communicated with a mounting cavity is arranged on the first side wall 12; the inner surface of the first shell plate 11 is provided with a second heat dissipation groove 15, and the first shell plate 11 is provided with an air outlet 16 communicated with the installation cavity; the server further comprises a heat dissipation structure 7, the heat dissipation structure 7 comprising a first heat dissipation fan 71 and a second heat dissipation fan 72; the first heat radiation fan 71 is connected in the first heat radiation groove 13; the second heat radiation fan 72 is connected to the second heat radiation groove 15. The air flow enters the mounting cavity through the air inlet 14 under the driving of the first cooling fan 71, blows the circuit board 3 and takes away the heat of the circuit board 3, and then is discharged through the air outlet 16 under the driving of the second cooling fan 72, so that the heat dissipation of the circuit board 3 is realized. The air inlet 14 and the air outlet 16 are both strip-shaped, and the air inlet 14 and the air outlet 16 are both provided with filtering structures.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (9)

1. A server, comprising:

a first housing (1);

the second shell (2) is spliced with the first shell (1) and encloses an installation cavity;

a circuit board (3) connected within the mounting cavity;

the monitoring module (4) is connected to the second shell (2) and is in communication connection with the circuit board (3), and at least part of the monitoring module (4) is positioned in the mounting cavity and is suitable for implementing remote monitoring in the mounting cavity through the circuit board (3);

the first shell (1) and the second shell (2) are magnetically spliced through the magnetic adsorption structure (5);

the first shell (1) comprises a first shell plate (11) and first side walls (12) arranged on two opposite side parts of the first shell plate (11), the second shell (2) comprises a second shell plate (21) and second side walls (22) arranged on two opposite side parts of the second shell plate (21), one end of the first side walls (12) away from the first shell (1) is provided with a first mounting groove, and one end of the second side walls (22) away from the second shell (2) is provided with a second mounting groove; the magnetic force adsorption structure (5) comprises first electromagnetic adsorption strips (51) and second electromagnetic adsorption strips (52), each first installation groove is internally embedded with the first electromagnetic adsorption strips (51), each second installation groove is internally embedded with the second electromagnetic adsorption strips (52), and the first electromagnetic adsorption strips (51) are suitable for being magnetically connected with the second electromagnetic adsorption strips (52).

2. The server according to claim 1, wherein the monitoring module (4) comprises a camera structure (41), the camera structure (41) being arranged in the mounting cavity and being in communication connection with the circuit board (3).

3. The server according to claim 2, wherein the monitoring module (4) further comprises:

the sound receiving structure (42) is connected to the second shell (2) and is in communication connection with the image pickup structure (41);

and the two ends of the audio connecting wire (43) are respectively connected with the sound receiving structure (42) and the circuit board (3).

4. The server according to claim 2, wherein the monitoring module (4) further comprises:

a rotation shaft (44) one end of which is connected to the imaging structure (41);

the driving structure (45) is connected to the second shell (2) and is in communication connection with the circuit board (3), and the driving end of the driving structure (45) is connected with the other end of the rotating shaft (44) and is suitable for driving the image pickup structure (41) to rotate.

5. The server according to any one of claims 1 to 4, characterized in that the magnetic attraction structure (5) further comprises:

the switching part (53) is arranged at one end of the second shell (2), and two ends of the switching part (53) are respectively connected with the second electromagnetic suction strip (52);

and a power supply wiring (54) with one end connected to the switching part (53) and the other end adapted to be connected to a power supply.

6. The server according to claim 5, further comprising an insulating spacer (6), the insulating spacer (6) being arranged between the circuit board (3) and the second housing (2) and being connected to the circuit board (3) and the second housing (2) by means of fasteners (8), respectively.

7. The server according to any one of claims 1 to 4, further comprising an insulating spacer (6), the insulating spacer (6) being arranged between the circuit board (3) and the second housing (2) and being connected to the circuit board (3) and the second housing (2) by means of fasteners (8), respectively.

8. The server according to claim 6, characterized in that the insulating mat (6) comprises:

a plate body (61);

the cushion block (62) extends from the surface of the plate body (61) towards one side of the circuit board (3) and is positioned on each corner of the plate body (61), and the circuit board (3) is connected with the cushion block (62) through a fastener (8);

at least three first support columns (63) extending from the surface of the plate body (61) towards one side of the circuit board (3) and distributed in the middle of the plate body (61), wherein the circuit board (3) is connected with the first support columns (63) through fasteners (8);

the second support columns (64) extend from the surface of one side, facing away from the circuit board (3), of the plate body (61) and are positioned on corners of the plate body (61), a plurality of third support columns (23) are arranged on the second shell (2), and the second support columns (64) are connected with the third support columns (23) through fasteners (8);

at least three fourth support columns extend from the surface of one side of the plate body (61) opposite to the circuit board (3) and are distributed at the middle position of the plate body (61), and the fourth support columns are connected with the third support columns (23) through fasteners (8).

9. The server according to any one of claims 1 to 4 or 6 or 8, wherein a first heat sink (13) is provided on the inner surface of the first side wall (12), and an air inlet (14) communicating with the installation cavity is provided on the first side wall (12); a second heat dissipation groove (15) is formed in the inner surface of the first shell plate (11), and an air outlet (16) communicated with the mounting cavity is formed in the first shell plate (11); the server further comprises a heat dissipation structure (7), the heat dissipation structure (7) comprising:

a first heat radiation fan (71) connected to the first heat radiation groove (13);

and a second heat radiation fan (72) connected to the second heat radiation groove (15).

Images