CN219938787U - Matched heat radiation ventilation module for large networking server - Google Patents

Abstract

The utility model discloses a matched heat dissipation and ventilation module of a large networking server, which comprises a first heat absorption plate, wherein a plurality of heat dissipation fins are welded on the periphery of the upper part of the first heat absorption plate, a heat dissipation shell is fixedly arranged on the inner sides of the plurality of heat dissipation fins, a fixing frame is welded at the bottom end of the inner part of the heat dissipation shell, a heat dissipation fan is fixedly arranged in the fixing frame, a plurality of turbine blades are arranged at the output end of the heat dissipation fan, and a plurality of drainage holes are formed in the heat dissipation shell; a plurality of heat pipes are embedded and installed in the first heat absorbing plate, and the end parts of the heat pipes are fixedly connected with the second heat absorbing plate; the two sides of the heat dissipation fins are movably connected with connecting rods, and mounting plates are fixedly arranged at the bottom ends of the connecting rods at the two sides. The utility model has the advantages of multiple heat dissipation modes, common heat dissipation of multiple modules, heat dissipation efficiency improvement, capability of forming vortex airflow, stable airflow output realization, heat dissipation treatment realization and the like.

Description

Matched heat radiation ventilation module for large networking server

Technical Field

The utility model relates to the technical field of radiators, in particular to a heat dissipation and ventilation module matched with a large networking server.

Background

Under the background of the development of the cloud computing industry, more and more data centers are built, and a server is used as the most core equipment of the data center, so that the high performance, the high availability and the high cost performance of the server become important indexes for measuring the quality of the server. Because of the limited volume of the server, whether a plurality of high-power electronic components run for a long time and under high load can timely transfer the heat generated by the electronic components to the outside is directly related to the running stability of the server. Therefore, the heat dissipation problem of the server becomes a big obstacle to the development of the server.

The server heat dissipation technology mainly comprises the following steps: air-cooled heat dissipation, liquid-cooled heat dissipation, heat transfer and intelligent control. The air cooling heat dissipation and the liquid cooling heat dissipation are two core technologies in the technical field of server heat dissipation, however, when the existing heat dissipation technology is used, especially air cooling heat dissipation, heat is conducted only by using the radiating fins and the radiating fins, and then is dissipated through the fan, so that the fan heat of the server is generally generated by adopting the fan, the vortex effect of the fan is poor, airflow is overflowed, heat dissipation cannot be effectively realized, and the heat dissipation mode is single, and the problems of heat dissipation in multiple modes, heat dissipation treatment on multiple chip modules and the like cannot be solved.

Disclosure of Invention

The utility model aims to provide a large networking server matched heat dissipation and ventilation module which has the advantages of multiple heat dissipation modes, common heat dissipation of multiple modules, heat dissipation efficiency improvement, capability of forming vortex airflow, stable airflow output, heat dissipation treatment realization and the like, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the large networking server matched heat dissipation and ventilation module comprises a first heat absorption plate, wherein a plurality of heat dissipation fins are welded on the periphery of the upper part of the first heat absorption plate, a heat dissipation shell is fixedly arranged on the inner sides of the plurality of heat dissipation fins, a fixing frame is welded at the bottom end of the inner part of the heat dissipation shell, a heat dissipation fan is fixedly arranged in the fixing frame, a plurality of turbine blades are arranged at the output end of the heat dissipation fan, and a plurality of drainage holes are formed in the heat dissipation shell;

a plurality of heat pipes are embedded and installed in the first heat absorbing plate, and the end parts of the heat pipes are fixedly connected with the second heat absorbing plate;

the two sides of the heat dissipation fins are movably connected with connecting rods, and mounting plates are fixedly arranged at the bottom ends of the connecting rods at the two sides.

Preferably, the inner sides of the heat dissipation fins are provided with mounting stepped planes, and the bottom ends of the heat dissipation shells are fixedly mounted on the mounting stepped planes.

Preferably, the upper ends of the heat dissipation fins are embedded and provided with annular connecting rings, and the first heat absorption plates, the heat dissipation fins, the annular connecting rings, the heat pipes, the second heat absorption plates, the heat dissipation shell and the fixing frame are heat dissipation devices made of one of aluminum, copper, steel-aluminum composite, copper-aluminum composite, stainless steel-aluminum composite and enamel materials.

Preferably, a plurality of movable connecting holes are formed in two sides of the radiating fins, the connecting rods are movably connected in the movable connecting holes, and a plurality of mounting threaded holes are formed in the mounting plate.

Preferably, the fixing frame is a cross-shaped fixing frame, an installation head is fixedly arranged at the end part of an output shaft of the heat radiation fan, and a plurality of turbine blades are fixedly connected to the installation head.

Preferably, the plurality of drainage holes are correspondingly arranged between the plurality of gaps of the heat dissipation fins, and the drainage holes are obliquely arranged.

Preferably, the plurality of heat dissipation fins are circumferentially arranged, a cavity is formed between the plurality of heat dissipation fins, and the heat dissipation fan is installed in the cavity through the heat dissipation shell.

Compared with the prior art, the utility model has the beneficial effects that:

when the heat-dissipating device is used, equipment is installed and connected through the connecting rod and the mounting plate, the plurality of heat-dissipating fins are arranged on the upper portion of the first heat-absorbing plate, the plurality of heat-dissipating fins form a cavity, the heat-dissipating fan and the turbine blade are arranged in the cavity, the heat-dissipating shell is provided with the drainage holes, gaps between the drainage holes and the heat-dissipating fins correspond to each other, the drainage holes are obliquely arranged and are the same as the inclination of the turbine blade, air flow is convenient to convey, the turbine blade is convenient to form stable air flow, heat dissipation is convenient to realize, the second heat-absorbing plate and the heat pipe are further arranged, heat absorption is realized for other chip modules through the second heat-absorbing plate, then conduction is realized through the heat pipe, multiple heat dissipation modes are realized, heat dissipation treatment is realized for multiple modules, and heat dissipation modes and efficiency are improved.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic view of the bottom view of the present utility model;

FIG. 3 is a schematic view of a heat dissipating fin according to the present utility model;

FIG. 4 is a top view of a heat dissipating fan according to the present utility model;

fig. 5 is a bottom view of the heat dissipating fan of the present utility model.

In the figure: 1. a first heat absorbing plate; 2. radiating fins; 3. a heat dissipation shell; 4. drainage holes; 5. a fixing frame; 6. a heat radiation fan; 7. a mounting head; 8. turbine blades; 9. a heat pipe; 10. a second heat absorbing plate; 11. a connecting rod; 12. a mounting plate; 13. installing a threaded hole; 14. an annular connecting ring; 15. installing a step plane; 16. and a movable connecting hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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, the present utility model provides a technical solution: the large networking server matched heat dissipation and ventilation module comprises a first heat absorption plate 1, wherein a plurality of heat dissipation fins 2 are welded on the periphery of the upper part of the first heat absorption plate 1, a heat dissipation shell 3 is fixedly arranged on the inner sides of the heat dissipation fins 2, a fixing frame 5 is welded at the bottom end of the inner part of the heat dissipation shell 3, a heat dissipation fan 6 is fixedly arranged in the fixing frame 5, a plurality of turbine blades 8 are arranged at the output end of the heat dissipation fan 6, and a plurality of drainage holes 4 are formed in the heat dissipation shell 3;

a plurality of heat pipes 9 are embedded and installed in the first heat absorbing plate 1, and the end parts of the heat pipes 9 are fixedly connected with a second heat absorbing plate 10;

the two sides of the heat dissipation fins 2 are movably connected with connecting rods 11, and the bottom ends of the connecting rods 11 at the two sides are fixedly provided with mounting plates 12.

Specifically, the heat dissipating device is installed through the mounting plate 12 to realize the connection of the chip module of the server, namely, the mounting plate 12 is fixedly connected with the circuit board through a plurality of mounting threaded holes 13 formed on the mounting plate 12, the connecting rod 11 on the mounting plate 12 is connected with the heat dissipating fins 2 of the heat dissipating device, namely, a plurality of movable connecting holes 16 are formed on two sides of the plurality of heat dissipating fins 2, the connecting rod 11 is movably connected in the movable connecting holes 16, the connecting rod 11 can be connected with the heat dissipating fins 2 through the movable connecting holes 16, so that the installation connection of the heat dissipating device is convenient to realize, the stability is kept, an installation ladder plane 15 is arranged on the inner sides of the plurality of heat dissipating fins 2, the bottom end of the heat dissipating shell 3 is fixedly installed on the installation ladder plane 15, the heat dissipating shell 3 is convenient to realize the fixed installation through the setting of the installation ladder plane 15, the connection stability is kept, a cross-shaped fixing frame 5 is fixedly arranged at the bottom end of the inside of the heat dissipation shell 3, the heat dissipation fan 6 is fixedly installed through the setting of the fixing frame 5, the stability is kept, the end part of an output shaft of the heat dissipation fan 6 is fixedly provided with a mounting head 7, a plurality of turbine blades 8 are fixedly connected to the mounting head 7, the turbine blades 8 are conveniently connected with the heat dissipation fan 6 through the setting of the mounting head 7, the effective heat dissipation treatment is realized, a plurality of drainage holes 4 are formed on the heat dissipation shell 3, the plurality of drainage holes 4 are correspondingly arranged between the gaps of the plurality of heat dissipation fins 2, the drainage holes 4 are obliquely arranged, vortex is formed during heat dissipation through the setting of the drainage holes 4, the gaps of the heat dissipation fins 2 and the turbine blades 8, the heat dissipation treatment is effectively and quickly performed, the plurality of heat dissipation fins 2 are circumferentially arranged, a cavity is formed between the plurality of heat dissipation fins 2, the heat radiation fan 6 is installed in the inside of cavity through the heat radiation shell 3, be convenient for realize the cavity installation, accomplish the installation to the heat radiation fan 6, and the heat on the heat dissipation wing 2 is discharged fast, install annular go-between 14 in the upper end mosaic of a plurality of heat dissipation wings 2, first absorber plate 1, a plurality of heat dissipation wings 2, annular go-between 14, a plurality of heat pipes 9, second absorber plate 10, the heat radiation shell 3 and mount 5 adopt the radiator device that is made by one of aluminium, copper, steel aluminium complex, copper aluminium complex, stainless steel aluminium complex and enamel material, effectual realization heat conduction, be convenient for the heat dissipation treatment.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The matched heat dissipation and ventilation module of the large networking server is characterized in that: the heat-dissipating structure comprises a first heat-absorbing plate (1), wherein a plurality of heat-dissipating fins (2) are welded around the upper part of the first heat-absorbing plate (1), a plurality of heat-dissipating shells (3) are fixedly arranged on the inner sides of the heat-dissipating fins (2), a fixing frame (5) is welded at the bottom end of the inner part of the heat-dissipating shells (3), a heat-dissipating fan (6) is fixedly arranged in the fixing frame (5), a plurality of turbine blades (8) are arranged at the output end of the heat-dissipating fan (6), and a plurality of drainage holes (4) are formed in the heat-dissipating shells (3);

a plurality of heat pipes (9) are embedded and installed in the first heat absorbing plate (1), and the end parts of the heat pipes (9) are fixedly connected with second heat absorbing plates (10);

the two sides of the heat dissipation fins (2) are movably connected with connecting rods (11), and mounting plates (12) are fixedly arranged at the bottom ends of the connecting rods (11) at the two sides.

2. The large-scale networking server matched heat dissipation and ventilation module according to claim 1, wherein: the inner sides of the heat dissipation fins (2) are provided with mounting stepped planes (15), and the bottom ends of the heat dissipation shells (3) are fixedly mounted on the mounting stepped planes (15).

3. The large-scale networking server matched heat dissipation and ventilation module according to claim 1, wherein: the upper ends of the heat dissipation fins (2) are embedded and provided with annular connecting rings (14), and the first heat absorption plates (1), the heat dissipation fins (2), the annular connecting rings (14), the heat pipes (9), the second heat absorption plates (10), the heat dissipation shell (3) and the fixing frame (5) are heat dissipation devices made of one of aluminum, copper, steel-aluminum composite, copper-aluminum composite, stainless steel-aluminum composite and enamel materials.

4. The large-scale networking server matched heat dissipation and ventilation module according to claim 1, wherein: the two sides of the radiating fins (2) are provided with movable connecting holes (16), the connecting rods (11) are movably connected to the inside of the movable connecting holes (16), and the mounting plates (12) are provided with a plurality of mounting threaded holes (13).

5. The large-scale networking server matched heat dissipation and ventilation module according to claim 1, wherein: the fixing frame (5) is a cross-shaped fixing frame, an installation head (7) is fixedly arranged at the end part of an output shaft of the heat radiation fan (6), and a plurality of turbine blades (8) are fixedly connected to the installation head (7).

6. The large-scale networking server matched heat dissipation and ventilation module according to claim 1, wherein: the drainage holes (4) are correspondingly arranged among the gaps of the heat dissipation fins (2), and the drainage holes (4) are obliquely arranged.

7. The large-scale networking server matched heat dissipation and ventilation module according to claim 1, wherein: the heat dissipation fins (2) are circumferentially arranged, a cavity is formed between the heat dissipation fins (2), and the heat dissipation fan (6) is installed in the cavity through the heat dissipation shell (3).