CN220139567U

CN220139567U - Household server supporting multi-network access

Info

Publication number: CN220139567U
Application number: CN202321070285.7U
Authority: CN
Inventors: 李静; 唐志谷
Original assignee: Sichuan Huali Zhilian Technology Co ltd
Current assignee: Sichuan Huali Zhilian Technology Co ltd
Priority date: 2023-05-07
Filing date: 2023-05-07
Publication date: 2023-12-05
Anticipated expiration: 2033-05-07

Abstract

The utility model discloses a home server supporting multi-network access, which comprises a server lower shell and an antenna, wherein a PCB (printed circuit board) is arranged at the top of the server lower shell, an electronic equipment access module and a processor module are respectively arranged at the top end of the server lower shell at one side of the PCB, the network access module is connected with the processor module and used for accessing networks of operators, the electronic equipment access module is connected with the processor module and home network equipment, a heat dissipation hole is arranged at the top end of the server lower shell, and a server upper end cover is arranged at the top end of the server lower shell. According to the utility model, the heat radiation performance of the home server is improved through the upper auxiliary heat radiation structure and the lower auxiliary heat radiation structure, the working temperature in the home server is reduced, the proper working temperature is provided for the internal electric appliance parts, the working stability of the home server is improved, and the service life of the home server is prolonged.

Description

Household server supporting multi-network access

Technical Field

The utility model relates to the technical field of network servers, in particular to a home server supporting multi-network access.

Background

The intelligent home server is a brain of an intelligent home, is communicated with the outside through a network and a telephone line, is connected with all intelligent home equipment through various cables, is communicated with a person through various man-machine interfaces, can control the home equipment according to instructions of the person and programs set by software, and can be connected with different operator network signals. The home server host is mainly composed of a central processing unit, a telephone communication module, a computer Internet module, a CATV module and other communication modules, and the existing home server still dissipates heat through the heat dissipation holes on the outer wall surface of the shell along with the improvement of the processing computing capacity and the functions of the home server, so that the heat dissipation effect is poor, a large amount of heat is accumulated in the shell and is difficult to dissipate, electronic parts inside the server work in a high-temperature state, and the service life of the electronic parts is adversely affected.

Disclosure of Invention

The utility model aims to provide a home server supporting multi-network access, so as to solve the problems of poor internal heat dissipation performance and difficult control of working temperature of the home server in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a support home server of many network access, includes casing and antenna under the server, the PCB board is installed at the top of casing under the server, just electronic equipment access module and processor module are installed respectively on the casing top under the server of PCB board one side, network access module connects the processor module for access each operator's network, electronic equipment access module connects processor module and home network equipment, the louvre is installed on the top of casing under the server, the server upper end cover is installed on the top of casing under the server, just be provided with the cavity between casing under server upper end cover and the server, the internally mounted of the cavity of casing has initiative heat dissipation subassembly under the server, and initiative heat dissipation subassembly includes two sets of heat dissipation fans and last supplementary heat dissipation structure, supplementary heat dissipation structure is installed down to the inside one end of casing under the server.

Preferably, the corner positions of the bottom end of the server lower shell are provided with the foot pads.

Preferably, the lower auxiliary heat dissipation structure comprises a partition plate arranged at one end inside the lower shell of the server, and a round hole is formed in the center of the partition plate.

Preferably, the two sides of the top end of the upper end cover of the server are both provided with sloping surfaces, and a plurality of groups of equidistant heat dissipation through holes are arranged on the sloping surfaces.

Preferably, the network access module comprises an RJ45 interface arranged on one side of the lower shell surface of the server, and the electronic equipment access module comprises an ANT interface and an RS-485 interface arranged on two sides of the lower shell surface of the server.

Preferably, the upper auxiliary heat dissipation structure comprises a U-shaped heat conduction plate and a U-shaped vertical plate, the U-shaped heat conduction plate is fixed at the top end of the lower server shell, the U-shaped vertical plate is fixed at two sides of the top end of the U-shaped heat conduction plate, and the two groups of heat dissipation fans are installed at the top end of the U-shaped heat conduction plate through a back-shaped bracket.

Preferably, the upper auxiliary heat dissipation structure further comprises a plurality of groups of copper columns arranged between the two groups of U-shaped vertical plates, and a plurality of groups of equidistant heat dissipation fins are arranged on the extending directions of the plurality of groups of copper columns.

Preferably, the back font support includes stand and back template, the stand is provided with four groups, four groups the stand is installed in the both sides on U word heat conduction board top, back template is installed four groups the top of stand, two groups the top at back template is installed to the heat dissipation fan.

Compared with the prior art, the utility model has the beneficial effects that: this support home server of many network access utilizes two sets of heat dissipation fans to initiatively dispel the heat through being provided with the structure of mutually supporting such as casing under the server and server upper end cover, and in the in-process of initiatively dispelling the heat in the casing under the server is discharged downwards through the round hole, plays the effect of heat water conservancy diversion through last supplementary heat dissipation structure, improve the heat transfer area and the heat exchange efficiency of casing and air under the server, help the heat dissipation fan further heat dissipation treatment to reduce the inside operating temperature of home server, provide suitable operating temperature for its inside electrical apparatus spare part, improve home server's job stabilization nature and life.

Drawings

Fig. 1 is a schematic diagram of a front view cross-section structure of a home server supporting multiple network access according to the present utility model;

fig. 2 is a schematic diagram of a home server supporting multiple network access according to the present utility model;

fig. 3 is a schematic side view of a home server supporting multiple network access according to the present utility model;

fig. 4 is a schematic top view of a U-shaped heat conducting plate according to the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

in the figure: 1. a server lower case; 101. foot pads; 102. a partition panel; 103. a round hole; 104. a cavity; 2. an upper end cover of the server; 201. a slope; 202. a heat dissipation through hole; 3. a network access module; 301. an RJ45 interface; 302. an ANT interface; 303. an RS-485 interface; 4. a PCB board; 5. an electronic equipment access module; 6. a processor module; 7. an antenna; 8. u-shaped heat conducting plate; 801. a U-shaped vertical plate; 802. copper columns; 803. a heat sink; 9. a column; 10. a return plate; 11. a heat dissipation fan.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5 of the drawings, an embodiment of the present utility model is provided: a home server supporting multi-network access comprises a server lower shell 1 and an antenna 7, wherein a foot pad 101 is arranged at the corner position of the bottom end of the server lower shell 1;

the top of the lower server shell 1 is provided with a PCB 4, the top of the lower server shell 1 at one side of the PCB 4 is respectively provided with an electronic equipment access module 5 and a processor module 6, the network access module 3 is connected with the processor module 6 and is used for accessing networks of operators, and the electronic equipment access module 5 is connected with the processor module 6 and home network equipment;

the network access module 3 comprises an RJ45 interface 301 arranged on one side of the surface of the lower server shell 1, the electronic equipment access module 5 comprises an ANT interface 302 and an RS-485 interface 303 arranged on two sides of the surface of the lower server shell 1, the home server accesses the network of each operator through the network access module 3, and the processor module 6 is used for processing the interaction information between the network of each operator and the home electronic equipment and scheduling the operation of each module;

the top end of the server lower shell 1 is provided with a heat dissipation hole, the top end of the server lower shell 1 is provided with a server upper end cover 2, a cavity 104 is arranged between the server upper end cover 2 and the server lower shell 1, both sides of the top end of the server upper end cover 2 are provided with sloping surfaces 201, and a plurality of groups of equidistant heat dissipation through holes 202 are arranged on the sloping surfaces 201;

an active heat dissipation component is arranged in the cavity 104 of the lower server shell 1, the active heat dissipation component comprises two groups of heat dissipation fans 11 and an upper auxiliary heat dissipation structure, one end of the interior of the lower server shell 1 is provided with the lower auxiliary heat dissipation structure, after the home server is started, the processor module 6 synchronously starts the heat dissipation fans 11 to work, the heat dissipation fans 11 are utilized to bring out the heat generated by the electric appliance parts in the lower server shell 1 due to the work, namely, the heat dissipation fans 11 blow out the heat in the lower server shell 1 and the cavity 104 through heat dissipation through holes 202, so that the two groups of heat dissipation fans 11 are utilized to actively dissipate the heat;

the lower auxiliary heat dissipation structure comprises a partition plate 102 arranged at one end inside the lower server shell 1, a round hole 103 is arranged in the center of the partition plate 102, and heat in the lower server shell 1 is discharged downwards through the round hole 103 in the active heat dissipation process;

the upper auxiliary heat dissipation structure comprises a U-shaped heat conduction plate 8 and a U-shaped vertical plate 801, the U-shaped heat conduction plate 8 is fixed at the top end of the lower server shell 1, the U-shaped vertical plate 801 is fixed at the two sides of the top end of the U-shaped heat conduction plate 8, two groups of heat dissipation fans 11 are installed at the top end of the U-shaped heat conduction plate 8 through a back-shaped bracket, the upper auxiliary heat dissipation structure further comprises a plurality of groups of copper columns 802 installed between the two groups of U-shaped vertical plates 801, a plurality of equidistant groups of heat dissipation fins 803 are installed in the extending direction of the plurality of groups of copper columns 802, heat of the outer peripheral surface of the lower server shell 1 is conducted to the U-shaped heat conduction plate 8 and the plurality of heat dissipation fins 803, the copper columns 802 play a role in heat conduction, the heat conduction performance of the U-shaped heat conduction plate 8 and the heat dissipation fins is improved, and the heat exchange area and heat exchange efficiency of the shell of the lower server shell 1 and air are improved;

the back font support includes stand 9 and returns template 10, and stand 9 is provided with four groups, and four groups of stand 9 are installed in the both sides on U word heat conduction board 8 top, and the top at four groups of stand 9 is installed to back template 10, and two sets of heat dissipation fans 11 are installed on the top that returns template 10, and back template 10 plays the function of support and circulation of air.

When the embodiment of the utility model is used, firstly, the home server is connected to each operator network through the network access module 3, the processor module 6 is used for processing the interaction information between the operator network and the home electronic equipment, and the modules are scheduled to operate, after the home server is started, the processor module 6 synchronously starts the heat-radiating fan 11 to work, the heat-radiating fan 11 is utilized to take out the heat generated by the electric appliance parts in the lower shell 1 of the server due to work, namely, the heat-radiating fan 11 blows out the heat in the lower shell 1 of the server and the cavity 104 through the heat-radiating through holes 202, so that the two groups of heat-radiating fans 11 are utilized to actively radiate, in the active heat-radiating process, the heat in the lower shell 1 of the server is downwards discharged through the round holes 103, and the heat of the outer peripheral surface of the lower shell 1 of the server is conducted to the U-shaped heat-conducting plate 8 and the plurality of groups of heat-radiating fins, in the process, the copper columns 802 play the role of heat-conducting plates 8 and the heat-radiating fins, the heat-radiating performance of the U-shaped heat-conducting plate 8 is improved, the heat-radiating area of the lower shell 1 of the server and the heat-radiating fins are improved, the heat-radiating efficiency of the heat-radiating fan 11 and the heat-radiating structure is further improved, the heat of the heat-conducting plate is suitable for the inner part of the home electronic equipment, and the heat is used for the heat-radiating the heat of the inner part, and the heat of the home, and the heat is further cooled, and the heat of the service is suitable for the service and has better service life.

Claims

1. A home server supporting multiple network access, characterized by: including casing (1) and antenna (7) under the server, PCB board (4) are installed at the top of casing (1) under the server, just electronic equipment access module (5) and treater module (6) are installed respectively on casing (1) top under the server of PCB board (4) one side, and treater module (6) are connected in network access module (3) for access each operator's network, treater module (6) and home network equipment are connected in electronic equipment access module (5), the louvre is installed on the top of casing (1) under the server, server upper end cover (2) are installed on the top of casing (1) under the server, just be provided with cavity (104) between casing (1) under server upper end cover (2) and the server, the internally mounted of cavity (104) under casing (1) has initiative radiating component, and initiative radiating component includes two sets of heat dissipation fans (11) and goes up supplementary heat radiation structure under the inside one end of casing (1) under the server.

2. A home server supporting multiple network access as defined in claim 1, wherein: therefore, the corner positions of the bottom end of the server lower shell (1) are provided with the padding feet (101).

3. A home server supporting multiple network access as defined in claim 1, wherein: the lower auxiliary heat dissipation structure comprises a partition plate (102) arranged at one end inside the lower server shell (1), and a round hole (103) is formed in the center of the partition plate (102).

4. A home server supporting multiple network access as defined in claim 1, wherein: the server is characterized in that sloping surfaces (201) are arranged on two sides of the top end of the upper end cover (2) of the server, and a plurality of groups of equidistant heat dissipation through holes (202) are formed in the sloping surfaces (201).

5. A home server supporting multiple network access as defined in claim 1, wherein: the network access module (3) comprises an RJ45 interface (301) arranged on one side of the surface of the lower server shell (1), and the electronic equipment access module (5) comprises an ANT interface (302) and an RS-485 interface (303) arranged on two sides of the surface of the lower server shell (1).

6. A home server supporting multiple network access as defined in claim 1, wherein: the upper auxiliary heat dissipation structure comprises a U-shaped heat conduction plate (8) and a U-shaped vertical plate (801), wherein the U-shaped heat conduction plate (8) is fixed at the top end of a lower server shell (1), the U-shaped vertical plate (801) is fixed at two sides of the top end of the U-shaped heat conduction plate (8), and two groups of heat dissipation fans (11) are installed at the top end of the U-shaped heat conduction plate (8) through a back-shaped bracket.

7. A home server supporting multiple network access as defined in claim 1, wherein: the upper auxiliary heat dissipation structure further comprises a plurality of groups of copper columns (802) arranged between the two groups of U-shaped vertical plates (801), and a plurality of groups of equidistant heat dissipation fins (803) are arranged on the extending direction of the plurality of groups of copper columns (802).

8. A home server supporting multiple network access as defined in claim 6, wherein: the back font support includes stand (9) and returns template (10), stand (9) are provided with four groups, four groups stand (9) are installed in the both sides on U word heat conduction board (8) top, return template (10) are installed four groups the top of stand (9), two sets of heat dissipation fan (11) are installed at the top of returning template (10).