CN220748640U - Buckle fan module with staggered design - Google Patents

Abstract

The utility model provides a buckle fan module with staggered height design, which comprises: the fan module comprises a module frame, a first clamping piece, a second clamping piece and a fan assembly, wherein the module frame comprises a plurality of fan installation cavities, the left side of the module frame is installed in the clamping holes on the left side of the fan installation cavities through the first clamping piece, and the right side of the module frame is installed in the clamping holes on the right side of the fan installation cavities through the second clamping piece; among the two adjacent fan components, the second fastening piece of the left side fan component and the first fastening piece of the right side fan component are arranged in the same fastening hole in a vertically staggered mode. The utility model can reduce the transverse installation size of the fan assembly as much as possible through the space optimization design under the condition of not changing the size of the server case. On the basis, the assembly and maintenance of the product are further facilitated, and the structural design is reasonable and efficient.

Description

Buckle fan module with staggered design

Technical Field

The present disclosure relates to fan modules, and particularly to a fan module with a high-low dislocation design.

Background

With the development of technology and the popularization of intelligent equipment, the requirements on data processing and application are increasing. Accordingly, as more data needs to be processed, a higher performance CPU needs to be supported, and the demands of the corresponding servers for heat dissipation performance also increase. The size of the server chassis is fixed so as to meet compatibility and installation requirements; how to mount a larger number of cooling fans as much as possible without changing the size of the server chassis and reduce the lateral mounting size of the cooling fans can certainly provide a better foundation for improving the performance of the server and optimizing the space design.

Disclosure of Invention

The utility model aims to solve the technical problem that a buckle fan module with a staggered design is needed to be provided, so that the transverse installation size of the fan module is reduced as much as possible through the space optimization design under the condition that the size of a server case is not changed.

In this regard, the present utility model provides a fastening fan module with staggered height design, which includes: the fan module comprises a module frame, a first clamping piece, a second clamping piece and a fan assembly, wherein the module frame comprises a plurality of fan installation cavities, the left side of the module frame is installed in the clamping holes on the left side of the fan installation cavities through the first clamping piece, and the right side of the module frame is installed in the clamping holes on the right side of the fan installation cavities through the second clamping piece; among the two adjacent fan components, the second fastening piece of the left side fan component and the first fastening piece of the right side fan component are arranged in the same fastening hole in a vertically staggered mode.

The utility model further improves that the first buckling piece and the second buckling piece have the same structure, the second buckling piece comprises an elastic pressing part, a connecting part and a buckling part, the elastic pressing part is connected with the side edge of the fan assembly through the connecting part, the elastic pressing part is arranged at the front end of the second buckling piece, and the buckling part is arranged at the side edge of the connecting part far away from the fan assembly.

According to the utility model, the number of the buckling parts is two, and the two buckling parts are symmetrically arranged at the top and the bottom of the connecting part.

The fan mounting cavity is characterized in that each side edge of the fan mounting cavity comprises two buckling holes, and the positions of the two buckling holes correspond to the top and bottom positions of the connecting part respectively.

In the fan assembly, the fastening part of the second fastening part of the left side fan assembly is lower than the fastening part of the first fastening part of the right side fan assembly; or, the fastening part of the second fastening part of the fan assembly on the left side is higher than the fastening part of the first fastening part of the fan assembly on the right side.

A further development of the utility model is that the elastic pressing portion comprises at least one folded pressing end in one phase.

In a further improvement of the utility model, the fan assembly comprises a fan frame and a cooling fan, wherein the cooling fan is detachably arranged in the fan frame.

A further improvement of the present utility model is that the side edges of the fan frame include at least three rows of fan mounting holes.

The utility model further improves that the cooling fan is connected with the fan mounting hole through the rubber blind rivet.

The utility model further improves that the clamping hole is a rectangular hole.

Compared with the prior art, the utility model has the beneficial effects that: the left side of the module frame is arranged in the clamping hole on the left side of the fan installation cavity through the first clamping piece, and the right side of the module frame is arranged in the clamping hole on the right side of the fan installation cavity through the second clamping piece; among the two adjacent fan components, the left side the second buckle spare of fan component and the right side the first buckle spare of fan component dislocation sets up from top to bottom in same buckle hole, and then can make two adjacent fan components height dislocation buckle in same buckle hole, under the size condition that does not change the server machine case, through the optimal design in space, reduced the transverse installation size of fan component as far as possible. On the basis, the assembly and maintenance of the product are further facilitated, and the structural design is reasonable and efficient.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a partial schematic view of an embodiment of the present utility model;

FIG. 3 is a schematic top view of an embodiment of the present utility model;

FIG. 4 is a schematic cross-sectional view of one embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A;

fig. 6 is an enlarged schematic view of the structure of B in fig. 4.

The attached drawings are identified: 1-a module frame; 101-a fan mounting cavity; 102-a snap hole; 2-a first fastener; 3-a second fastener; 301-an elastic pressing portion; 302-a connection; 303—a snap; 4-a fan assembly; 401-a fan frame; 402-a radiator fan; 403-fan mounting holes.

Detailed Description

In the description of the present utility model, if an orientation description such as "upper", "lower", "front", "rear", "left", "right", etc. is referred to, it is merely for convenience of description and simplification of the description, and does not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the utility model. If a feature is referred to as being "disposed," "secured," "connected," or "mounted" on another feature, it can be directly disposed, secured, or connected to the other feature or be indirectly disposed, secured, connected, or mounted on the other feature.

In the description of the utility model, if reference is made to "a number", it means more than one; if "a plurality" is referred to, it means more than two; if "greater than", "less than", "exceeding" are referred to, they are understood to not include the present number; references to "above," "below," "within," and "within" are to be construed as including the present number. If reference is made to "first," "second," etc., it is to be understood that the same or similar technical feature names are used only for distinguishing between them, and it is not to be understood that the relative importance of a technical feature is implied or indicated, or that the number of technical features is implied or indicated, or that the precedence of technical features is implied or indicated.

Preferred embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 to 6, the present embodiment provides a fastening fan module with a staggered design, which includes: the fan module comprises a module frame 1, a first clamping piece 2, a second clamping piece 3 and a fan assembly 4, wherein the module frame 1 comprises a plurality of fan installation cavities 101, the left side of the module frame 1 is installed in a clamping hole 102 on the left side of the fan installation cavity 101 through the first clamping piece 2, and the right side of the module frame 1 is installed in a clamping hole 102 on the right side of the fan installation cavity 101 through the second clamping piece 3; among the two adjacent fan assemblies 4, the second fastening member 3 of the left fan assembly 4 and the first fastening member 2 of the right fan assembly 4 are vertically arranged in the same fastening hole 102 in a staggered manner.

The fastening hole 102 in this embodiment refers to a fastening window structure for matching with the first fastening member 2 and the second fastening member 3, preferably a rectangular hole, so as to facilitate processing. In this embodiment, each fan assembly 4 is disposed in the fan mounting cavity 101 by means of the first fastening member 2 and the second fastening member 3, so as to achieve rapid assembly and replacement of the fan assembly 4. It should be noted that, as shown in fig. 1, 3 to 6, among the two adjacent fan assemblies 4, the second fastening member 3 of the left side fan assembly 4 and the first fastening member 2 of the right side fan assembly 4 are disposed in the same fastening hole 102 in a vertically staggered manner, so that the two adjacent fan assemblies 4 can be fastened in the same fastening hole 102 in a vertically staggered manner, and the transverse installation size of the fan assembly 4 is reduced as far as possible through the space optimization design under the condition that the size of the server chassis is not changed. As shown in fig. 1, even if the rightmost side of the module frame 1 is reserved with a space for installing a power module, the embodiment can install 4 fan assemblies 4 with staggered heights, and the space design utilization rate is obviously improved.

As shown in fig. 2, in this embodiment, the first fastening device 2 and the second fastening device 3 have the same structure, the second fastening device 3 includes an elastic pressing portion 301, a connecting portion 302, and a fastening portion 303, the elastic pressing portion 301 is connected to a side edge of the fan assembly 4 through the connecting portion 302, and the elastic pressing portion 301 is disposed at a front end of the second fastening device 3, so as to implement quick installation and detachment by elastic pressing; the fastening portion 303 is disposed on a side of the connecting portion 302 away from the fan assembly 4. The elastic pressing portion 301 preferably includes at least one bent pressing end in the phase so as to shorten the distance and achieve a better elastic pressing effect.

More preferably, as shown in fig. 2, the number of the fastening portions 303 in this embodiment is two, and the two fastening portions 303 are symmetrically disposed at the top and bottom of the connecting portion 302. Correspondingly, as shown in fig. 1, each side of the fan mounting cavity 101 of the present embodiment includes two fastening holes 102, and the positions of the two fastening holes 102 correspond to the top and bottom positions of the connecting portion 302, so as to better improve the mounting reliability of the fan assembly 4.

In actual assembly, as shown in fig. 1, in two adjacent fan assemblies 4 in this embodiment, the fastening portion 303 of the second fastening member 3 of the left side fan assembly 4 is lower than the fastening portion 303 of the first fastening member 2 of the right side fan assembly 4; alternatively, the fastening portion 303 of the second fastening member 3 of the left fan assembly 4 may be higher than the fastening portion 303 of the first fastening member 2 of the right fan assembly 4, so that the same effect can be achieved.

As shown in fig. 4, the fan assembly 4 of the present embodiment includes a fan frame 401 and a cooling fan 402, where the cooling fan 402 is detachably disposed in the fan frame 401, so as to facilitate assembly and maintenance of the cooling fan 402. More preferably, as shown in fig. 2, the side edge of the fan frame 401 in this embodiment includes at least three rows of fan mounting holes 403, so as to meet the mounting requirements of the cooling fans 402 with different sizes, and improve the compatibility of products. The cooling fan 402 of the present embodiment is preferably connected to the fan mounting hole 403 through a rubber blind rivet, so as to achieve the effects of shock absorption and noise reduction.

The above embodiments are preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, which is defined by the appended claims, but rather by the following claims.

Claims (10)

1. A buckle fan module of height dislocation design, its characterized in that includes: the fan module comprises a module frame, a first clamping piece, a second clamping piece and a fan assembly, wherein the module frame comprises a plurality of fan installation cavities, the left side of the module frame is installed in the clamping holes on the left side of the fan installation cavities through the first clamping piece, and the right side of the module frame is installed in the clamping holes on the right side of the fan installation cavities through the second clamping piece; among the two adjacent fan components, the second fastening piece of the left side fan component and the first fastening piece of the right side fan component are arranged in the same fastening hole in a vertically staggered mode.

2. The fastening fan module according to claim 1, wherein the first fastening member and the second fastening member have the same structure, the second fastening member includes an elastic pressing portion, a connecting portion, and a fastening portion, the elastic pressing portion is connected with a side of the fan assembly through the connecting portion, the elastic pressing portion is disposed at a front end of the second fastening member, and the fastening portion is disposed at a side of the connecting portion away from the fan assembly.

3. The fastening fan module according to claim 2, wherein the number of the fastening parts is two, and the two fastening parts are symmetrically arranged at the top and the bottom of the connecting part.

4. A snap-in fan module of staggered design as claimed in claim 3, wherein each side of the fan mounting cavity comprises two snap-in holes, the positions of which correspond to the top and bottom positions of the connection portion, respectively.

5. The fan module according to claim 2, wherein the second fastening part of the left fan assembly is lower than the first fastening part of the right fan assembly; or, the fastening part of the second fastening part of the fan assembly on the left side is higher than the fastening part of the first fastening part of the fan assembly on the right side.

6. The high and low dislocation designed snap-in fan module as claimed in claim 2, wherein the elastic pressing portion includes at least one bending pressing end in phase.

7. The high and low dislocation designed snap-in fan module as claimed in any one of claims 1 to 6, wherein the fan assembly comprises a fan frame and a heat dissipation fan detachably disposed in the fan frame.

8. The high and low dislocation designed snap-in fan module of claim 7, wherein the side edge of the fan frame comprises at least three rows of fan mounting holes.

9. The high and low dislocation designed snap-in fan module as claimed in claim 8, wherein the heat dissipating fan is connected to the fan mounting hole by a rubber blind rivet.

10. The high and low dislocation design snap-in fan module as claimed in any one of claims 1 to 6, wherein the snap-in holes are rectangular holes.