CN217113185U - Server with PCIE card fixed knot constructs - Google Patents

Abstract

The utility model provides a server with a PCIE card fixing structure, belonging to the PCIE card fixing technical field, comprising a server case, a stabilizing beam, a half-height card fixing structure and a case upper cover; a vertical PCIE card full-height module or a vertical PCIE card half-height module is fixedly arranged at the bottom plate of the server case; case guide grooves are formed in two side plates of the server case; two ends of the stabilizing beam are fixed at the guide groove of the case; the stabilizing beam compresses the vertical PCIE card full-height module through the first back adhesive buffer strip, or a half-height card stabilizing structure is arranged at the lower part of the stabilizing beam and compresses the vertical PCIE card half-height module through the half-height card stabilizing structure; the upper cover of the case is arranged on the upper part of the stable beam and is buckled with the two side plates of the server case. The utility model discloses to half high module of vertical PCIE card and vertical PCIE card through selecting half high card stable structure, the card tail is fixed when realizing the vertical use of co-altitude PCIE in a flexible way.

Description

Server with PCIE card fixed knot constructs

Technical Field

The utility model belongs to the technical field of the PCIE card is fixed, concretely relates to server with PCIE card fixed knot constructs.

Background

The conventional server generally performs tapping in a PCIE area corresponding to a front window and a rear window of a chassis, and then directly fixes a PCIE card at a corresponding position through a screw, or adopts a tool-free scheme, a rotatable plastic buckle is installed in the PCIE area of the chassis, and tool-free operation and fixation of the PCIE card are realized through elasticity, but these are only at positions of a blocking piece for the PCIE card, and in fact, during use and transportation, PCIE card failure occurs, most of which are due to the fact that a PCIE card body is much wider than a width of a butted gold finger and a connector, and a part of functional cards have heavier mass, and particularly during transportation, the PCIE card may jump and swing relative to the PCIE slot, and the PCIE gold finger and the PCIE slot may contact failure, or even jump out of the PCIE slot. For avoiding this kind of condition, to the PCIE card that transversely uses, can design corresponding tail end draw-in groove, but to the PCIE card of vertical use, because the PCIE card height is inconsistent, consequently the tail end is fixed not unified, and different PCIE cards need customize fixed knot structure alone, lack the commonality.

This is a disadvantage of the prior art, and therefore, it is necessary to provide a server with a PC IE card fixing structure to address the above-mentioned disadvantages of the prior art.

Disclosure of Invention

When the PCIE card that is directed against the above-mentioned vertical use of prior art is solid, because the PC IE card is highly inconsistent, the tail end is fixed and is not unified, and different PCIE cards need customize fixed knot structure alone, lack the defect of commonality, the utility model provides a server with PC IE card fixed knot constructs to solve above-mentioned technical problem.

In a first aspect, the utility model provides a server with a PC IE card fixing structure, which comprises a server case, a stabilizing beam, a half-height card fixing structure and a case upper cover;

a vertical PC IE card full-height module or a vertical PCIE card half-height module is fixedly arranged at the bottom plate of the server case;

two side plates of the server case are respectively provided with case guide grooves;

two ends of the stabilizing beam are fixed at the guide groove of the case;

the fixing beam compresses the vertical PC IE card full-height module through the first back glue buffer strip, or a half-height card fixing structure is arranged at the lower part of the fixing beam and compresses the vertical PC IE card half-height module through the half-height card fixing structure;

the upper cover of the case is arranged on the upper part of the stable beam and is buckled with the two side plates of the server case. The stabilizing beam is matched with the first back adhesive buffer strip to realize the stabilization of the vertical PC IE card full-height module, and the stabilizing beam is matched with the half-height card stabilizing structure to realize the stabilization of the vertical PCIE card half-height module.

Furthermore, the front surface of the stable beam is in a groove shape;

the back of the stable beam is provided with a fixing area, and the fixing area is provided with a sliding groove and a screw hole;

the fixing area of the stabilizing beam is provided with a first gum buffer strip, or the fixing area of the stabilizing beam is provided with a half-height clamp stabilizing structure through a sliding groove and a screw hole;

the two ends of the stabilizing beam are respectively provided with a fixing I-shaped nail, and the stabilizing beam is fixed on the guide groove of the case through the fixing I-shaped nails. The fixed I-shaped nail ensures that the stability of the stability beam at the front, back, left and right of the guide groove of the case is ensured. The spout and the screw hole of fixed area are covered by first gum buffering strip when the full-height module of vertical PCIE card of collocation uses, and inoperative, and when the half-height module of vertical PC IE card of collocation for install half high card stable structure.

Further, the half-height card fixing structure comprises a fixing block and a second gum buffer strip;

the top surface of the stabilizing block is provided with a guide I-shaped nail corresponding to the chute and a hand-turning screw corresponding to the screw hole;

the second gum buffer strip is arranged on the bottom surface of the stabilizing block;

half high card stable structure is through direction I-shaped nail and hand commentaries on classics screw and firm roof beam fixed connection to compress tightly vertical PC IE card half high module through second gum buffering strip. When the vertical PC IE card half-height module is matched, tool-free installation of a half-height card stable structure is realized through a guide I-shaped nail and a hand-turning screw; the second back adhesive buffer strip ensures the fixation of the vertical PC IE card half-height module and has a powerful effect with the half-height card stable structure.

Furthermore, the top surface of the stabilizing block is also provided with an anti-shaking device.

Further, the number of the anti-sloshing devices is four.

Further, the chute includes a round hole portion and a groove portion;

the circular hole part is communicated with the groove-shaped part, and the outer diameter of the guide I-shaped nail is smaller than the inner diameter of the circular hole part and larger than the width of the groove-shaped part. The outer diameter of the guide I-shaped nail is smaller than the inner diameter of the round hole portion to ensure that the guide I-shaped nail can be inserted into the round hole portion of the sliding groove, and the outer diameter of the guide I-shaped nail is larger than the width of the groove portion to ensure that the guide I-shaped nail can be hung after sliding from the round hole portion to the groove portion and cannot fall off.

Further, the number of fixing areas of the stabilizing beam is two;

the number of the sliding grooves of each fixing area of the stabilizing beam is three, and the number of the screw holes is one;

the number of the guide I-shaped nails of the stabilizing block is three, and the number of the hand-turning screws is one.

Furthermore, a rubber buffer block is arranged between the stabilizing beam and the upper cover of the case. The rubber buffer block ensures that the vertical freedom degree of the stabilizing beam and the upper cover of the case is stable.

Further, the number of the rubber buffer blocks is three.

Furthermore, the height difference between the vertical PCIE card full-height module and the vertical PC IE card half-height module is the same as the height of the half-height card stable structure.

The beneficial effects of the utility model reside in that:

the utility model provides a server with PC IE card fixed knot constructs to half high module of vertical PC IE card and vertical PCIE card, through selecting half high card firm structure, the card tail is fixed when realizing the vertical use of co-altitude PCIE in a flexible way, and need not to make different extension frame, and exempts from the instrument installation when half high card firm structure uses, and is convenient to use, simple structure.

Furthermore, the utility model relates to a principle is reliable, and simple structure has very extensive application prospect.

Therefore, compared with the prior art, the utility model has the substantive characteristics and the progress, and the beneficial effects of the implementation are also obvious.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic usage status diagram of a server embodiment 1 with a PCIE card fixing structure according to the present invention.

Fig. 2 is a schematic diagram of the front structure of the server fixing slot with the PC IE card fixing structure of the present invention.

Fig. 3 is a schematic diagram of the back structure of the server fixing slot with the PC IE card fixing structure of the present invention.

Fig. 4 is a schematic view of an installation state of the server embodiment 1 having a PCIE card fixing structure of the present invention.

Fig. 5 is a schematic usage status diagram of the server embodiment 2 with a PCIE card fixing structure according to the present invention.

Fig. 6 is a schematic top view of the stabilizing block of the server having the PCIE card fixing structure of the present invention.

Fig. 7 is a schematic bottom structure diagram of the stabilizing block of the server having the PCIE card fixing structure of the present invention.

Fig. 8 is a schematic view of an installation state of the server embodiment 2 having a PCIE card fixing structure of the present invention.

Fig. 9 is a schematic usage status diagram of the server embodiment 3 with a PCIE card fixing structure according to the present invention.

Fig. 10 is a schematic view of an installation state of the server embodiment 3 having a PCIE card fixing structure according to the present invention.

In the figure, 1-server chassis; 2-stabilizing the beam; 3-half high card stable structure; 3.1-stabilizing block; 3.2-second gum buffer strip; 3.3-guiding I-shaped nail; 3.4-turning the screw by hand; 3.5-anti-sloshing device; 4-upper cover of the case; 5-vertical PC IE card full height module; 6-vertical PC IE card half-height module; 7-case guide groove; 8-a chute; 9-screw holes; 10-fixing I-shaped nails; 11-a first gum buffer strip; 12-rubber buffer block.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1, fig. 2, fig. 3 and fig. 4, the present invention provides a server with a PC IE card fixing structure, which includes a server case 1, a fixing beam 2 and a case upper cover 4;

two vertical PCIE card full-height modules 5 are fixedly arranged at the bottom plate of the server case 1;

two side plates of the server case 1 are respectively provided with a case guide groove 7;

two ends of the stabilizing beam 2 are fixed at the guide groove 7 of the case;

the stabilizing beam 2 respectively compresses the two vertical PC IE card full-height modules 5 through the two first back adhesive buffer strips 11;

the case upper cover 4 is arranged on the upper part of the stable beam 2 and is buckled with two side plates of the server case 1;

the front surface of the stabilizing beam 2 is in a groove shape;

the back of the stabilizing beam 2 is provided with two fixing areas, and each fixing area is provided with a sliding groove 8 and a screw hole 9;

a first gum buffer strip 11 is arranged in the fixing area of the stabilizing beam 2;

the two ends of the stabilizing beam 2 are respectively provided with a fixing I-shaped nail 10, and the stabilizing beam 2 is fixed on the case guide groove 7 through the fixing I-shaped nails 10;

the chute 8 includes a circular hole portion and a groove portion;

the round hole part is communicated with the groove-shaped part, and the outer diameter of the guide I-shaped nail 3.3 is smaller than the inner diameter of the round hole part and larger than the width of the groove-shaped part;

the number of the sliding grooves 8 of each fixing area of the stabilizing beam 2 is three, and the number of the screw holes 9 is one;

a rubber buffer block 12 is arranged between the stabilizing beam 2 and the upper cover 4 of the case;

the number of the rubber buffer blocks 12 is three.

The utility model discloses not only be applicable to the situation of single vertical PCIE card module, still can guarantee the steadiness under the situation of a plurality of vertical PCIE card modules, and then guarantee server complete machine stable performance.

In this embodiment 1, there are the situation of two vertical PCIE card full-height modules 5 to server machine case 1 bottom, and this moment, stable roof beam 2 need not to match half high card stable structure 3 and use, only need paste first gum buffering strip 11 in two fixed districts of stable roof beam 2 department, in will stabilizing the slot position that the fixed worker's word nail 10 card at 2 both ends of roof beam enters quick-witted case guide slot 7 again, install quick-witted case upper cover 4 at last, accomplish the installation.

Example 2:

as shown in fig. 5, 6, 7 and 8, the present invention provides a server with a PC IE card fixing structure, which includes a server chassis 1, a stabilizing beam 2, a half-height card fixing structure 3 and a chassis upper cover 4;

two vertical PCIE card half-height modules 6 are fixedly arranged at the bottom plate of the server case 1;

two side plates of the server case 1 are respectively provided with a case guide groove 7;

two ends of the stabilizing beam 2 are fixed at the guide groove 7 of the case;

the lower part of the stabilizing beam 2 is provided with two half-height card stabilizing structures 3, and the vertical PCIE card half-height module 6 is tightly pressed through the half-height card stabilizing structures 3;

the case upper cover 4 is arranged on the upper part of the stable beam 2 and is buckled with two side plates of the server case 1;

the front surface of the stabilizing beam 2 is in a groove shape;

the back of the stabilizing beam 2 is provided with two fixing areas, and each fixing area is provided with a sliding groove 8 and a screw hole 9;

the fixing area of the stabilizing beam 2 is provided with a half-height clamp stabilizing structure 3 through a sliding groove 8 and a screw hole 9;

the two ends of the stabilizing beam 2 are respectively provided with a fixing I-shaped nail 10, and the stabilizing beam 2 is fixed on the case guide groove 7 through the fixing I-shaped nails 10;

the half-height card fixing structure 3 comprises a fixing block 3.1 and a second gum buffer strip 3.2;

the top surface of the stabilizing block 3.1 is provided with a guide I-shaped nail 3.3 corresponding to the chute 8 and a hand-turning screw 3.4 corresponding to the screw hole 9; the chute 8 includes a circular hole portion and a groove portion;

the round hole part is communicated with the groove-shaped part, and the outer diameter of the guide I-shaped nail 3.3 is smaller than the inner diameter of the round hole part and larger than the width of the groove-shaped part;

the number of the sliding grooves 8 of each fixing area of the stabilizing beam 2 is three, and the number of the screw holes 9 is one;

the number of the guide I-shaped nails 3.3 of the stabilizing blocks 3.1 is three, and the number of the hand-turning screws 3.4 is one;

the second gum buffer strip 3.2 is arranged at the bottom surface of the stabilizing block 3.1;

the half-height card stabilizing structure 3 is fixedly connected with the stabilizing beam 2 through a guide I-shaped nail 3.3 and a hand-turning screw 3.4, and a vertical PCIE card half-height module 5 is pressed through a second back adhesive buffer strip 3.2;

the top surface of the stabilizing block 3.1 is also provided with an anti-shaking device 3.5; the number of the anti-shaking devices 3.5 is four;

a rubber buffer block 12 is arranged between the stabilizing beam 2 and the upper cover 4 of the case; the number of the rubber buffer blocks 12 is three;

the height difference between the vertical PC IE card full-height module 5 and the vertical PC IE card half-height module 6 is the same as the height of the half-height card stabilizing structure 3.

In this embodiment 2, for the situation that there are two vertical PCIE card half-high modules 6 at the bottom of the server chassis 1, at this time, the half-high card stabilizing structure 3 is first installed at a corresponding position along the sliding slot 8 of the stabilizing beam 2, and the hand-turning screw 3.4 is locked, without attaching the first adhesive-backed buffer strip 11 at the position of the two fixing areas; and then the combined stable beam 2 is clamped into the slot position of the case guide slot 7 through the fixed I-shaped nails 10 at the two ends, and finally the case upper cover 4 is installed to finish the installation.

Example 3:

as shown in fig. 6, 7, 9 and 10, the present invention provides a server with a PCIE card fixing structure, which includes a server chassis 1, a stabilizing beam 2, a half-height card fixing structure 3 and a chassis upper cover 4;

a vertical PCIE card full-height module 5 and a vertical PC IE card half-height module 6 are fixedly arranged at the bottom plate of the server case 1;

two side plates of the server case 1 are respectively provided with a case guide groove 7;

two ends of the stabilizing beam 2 are fixed at the guide groove 7 of the case;

the stabilizing beam 2 compresses the vertical PC IE card full-height module 5 through the first back adhesive buffer strip 11, the half-height card stabilizing structure 3 is arranged at the lower part of the stabilizing beam 2, and the vertical PCIE card half-height module 6 is compressed through the half-height card stabilizing structure 3;

the case upper cover 4 is arranged on the upper part of the stable beam 2 and is buckled with two side plates of the server case 1;

the front surface of the stabilizing beam 2 is in a groove shape;

the back of the stabilizing beam 2 is provided with two fixing areas, and each fixing area is provided with a sliding groove 8 and a screw hole 9;

a first gum buffer strip 11 is arranged in one fixing area of the stabilizing beam 2, and a half-height clamp stabilizing structure 3 is arranged in the other fixing area of the stabilizing beam 2 through a sliding groove 8 and a screw hole 9;

two ends of the stabilizing beam 2 are respectively provided with a fixing I-shaped nail 10, and the stabilizing beam 2 is fixed on the case guide groove 7 through the fixing I-shaped nails 10;

the half-height card fixing structure 3 comprises a fixing block 3.1 and a second gum buffer strip 3.2;

the top surface of the stabilizing block 3.1 is provided with a guide I-shaped nail 3.3 corresponding to the chute 8 and a hand-turning screw 3.4 corresponding to the screw hole 9;

the chute 8 includes a circular hole portion and a groove portion;

the round hole part is communicated with the groove-shaped part, and the outer diameter of the guide I-shaped nail 3.3 is smaller than the inner diameter of the round hole part and larger than the width of the groove-shaped part;

the second gum buffer strip 3.2 is arranged at the bottom surface of the stabilizing block 3.1;

the half-height card stabilizing structure 3 is fixedly connected with the stabilizing beam 2 through a guide I-shaped nail 3.3 and a hand-turning screw 3.4, and a vertical PCIE card half-height module 5 is pressed through a second back adhesive buffer strip 3.2;

the top surface of the stabilizing block 3.1 is also provided with an anti-shaking device 3.5; the number of the anti-shaking devices 3.5 is four;

the number of the sliding grooves 8 of each fixing area of the stabilizing beam 2 is three, and the number of the screw holes 9 is one;

the number of the guide I-shaped nails 3.3 of the stabilizing blocks 3.1 is three, and the number of the hand-turning screws 3.4 is one;

a rubber buffer block 12 is arranged between the stabilizing beam 2 and the upper cover 4 of the case; the number of the rubber buffer blocks 12 is three;

the height difference between the vertical PC IE card full-height module 5 and the vertical PC IE card half-height module 6 is the same as the height of the half-height card stabilizing structure 3.

In this embodiment 3, for the situation that there are one vertical PCIE card full-height module 5 and one vertical PC IE card half-height module 6 at the bottom of the server chassis 1, at this time, two fixed areas below the stabilizing beam 2 correspond to the two modules respectively. The fixing area corresponding to the vertical PC IE card full-height module 5 does not need to be matched with the half-height card stabilizing structure 3, and only needs to be pasted with the first back glue buffer strip 11; corresponding to the fixing area of the vertical PCIE card half-high module 6, the half-high card stabilizing structure 3 needs to be installed at a corresponding position along the sliding groove 8 of the stabilizing beam 2, and the hand-turning screw 3.4 is locked without attaching the first back adhesive buffer strip 11; and finally, clamping the combined stable beam 2 into a groove position of the case guide groove 7 through the fixing I-shaped nails 10 at two ends, and finally installing the case upper cover 4 to finish the installation.

Although the present invention has been described in detail by referring to the drawings in conjunction with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and substance of the present invention, and these modifications or substitutions are intended to be within the scope of the present invention/any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A server with a PCIE card fixing structure is characterized by comprising a server case, a stabilizing beam, a half-height card fixing structure and a case upper cover;

a vertical PCIE card full-height module or a vertical PCIE card half-height module is fixedly arranged at the bottom plate of the server case;

two side plates of the server case are respectively provided with case guide grooves;

two ends of the stabilizing beam are fixed at the guide groove of the case;

the stabilizing beam compresses the vertical PCIE card full-height module through the first back adhesive buffer strip, or a half-height card stabilizing structure is arranged at the lower part of the stabilizing beam and compresses the vertical PCIE card half-height module through the half-height card stabilizing structure;

the upper cover of the case is arranged on the upper part of the stable beam and is buckled with the two side plates of the server case.

2. The server according to claim 1, wherein the front surface of the securing beam is recessed;

the back of the stable beam is provided with a fixing area, and the fixing area is provided with a sliding groove and a screw hole;

the fixing area of the stabilizing beam is provided with a first gum buffer strip, or the fixing area of the stabilizing beam is provided with a half-height clamp stabilizing structure through a sliding groove and a screw hole;

the two ends of the stabilizing beam are respectively provided with a fixing I-shaped nail, and the stabilizing beam is fixed on the guide groove of the case through the fixing I-shaped nails.

3. The server having a PCIE card securing structure as recited in claim 2, wherein the half-height card securing structure comprises a securing block and a second adhesive-backed buffer strip;

the top surface of the stabilizing block is provided with a guide I-shaped nail corresponding to the chute and a hand-turning screw corresponding to the screw hole;

the second gum buffer strip is arranged on the bottom surface of the stabilizing block;

half high card stable structure is through direction I-shaped nail and hand commentaries on classics screw and firm roof beam fixed connection to compress tightly vertical PCIE card half high module through second gum buffering strip.

4. The server according to claim 3, wherein an anti-interference device is further disposed on a top surface of the securing block.

5. The server having a PCIE card fixing structure of claim 4, wherein the number of the anti-sloshing apparatuses is four.

6. The server according to claim 3, wherein the chute includes a circular hole portion and a slot portion;

the circular hole part is communicated with the groove-shaped part, and the outer diameter of the guide I-shaped nail is smaller than the inner diameter of the circular hole part and larger than the width of the groove-shaped part.

7. The server having a PCIE card fixing structure as claimed in claim 3, wherein the number of fixing sections of the stabilizing beam is two;

the number of the sliding grooves of each fixing area of the stabilizing beam is three, and the number of the screw holes is one;

the number of the guide I-shaped nails of the stabilizing block is three, and the number of the hand-turning screws is one.

8. The server with a PCIE card fixing structure of claim 1, wherein a rubber buffer block is disposed between the stabilizing beam and the chassis upper cover.

9. The server having a PCIE card fixing structure of claim 8, wherein the number of rubber buffer blocks is three.

10. The server according to claim 1, wherein a height difference between the vertical PCIE card full-height module and the vertical PCIE card half-height module is the same as a height of the half-height card securing structure.

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