CN209962186U - Server device capable of mounting ten interface cards - Google Patents

Abstract

A server device capable of being provided with ten interface cards comprises a mainboard, two first frame units inserted on the mainboard, a second frame unit inserted on the mainboard and a third frame unit inserted on the mainboard. Each first frame unit can be used for inserting three first interface cards and comprises a first substrate. The second frame unit is used for two second interface cards to be inserted and comprises a second substrate. The maximum width of the second substrate is smaller than that of each first substrate. The third frame unit is used for two third interface cards to be inserted and comprises a third substrate. The maximum width of the third substrate is smaller than that of each first substrate. The server device can be plugged by ten interface cards in total, and the overall operation efficiency is effectively improved.

Description

Server device capable of mounting ten interface cards

[ technical field ] A method for producing a semiconductor device

The present invention relates to a server device, and more particularly, to a server device capable of mounting ten interface cards.

[ background of the invention ]

In recent years, server devices have been widely used and developed, and with the demands of cloud network storage and big data information operation, the functions of the server devices are required to be improved, so that an expansion interface card is required to be installed to improve the performance. Generally, the interface cards can be divided into Full Height (Full Height) and half Height (Low Profile) cards, and generally, the overall performance of the Full Height interface card is better as the area of the Full Height interface card is larger, so how to increase the number of the installed interface cards as much as possible within the limited space inside the server device to provide the maximum performance is worth of careful research and improvement by the practitioner.

[ Utility model ] content

The to-be-solved technical problem of the present invention is to provide a server device capable of mounting ten interface cards.

In order to solve the above technical problem, a server device capable of being installed with ten interface cards includes a rack, a motherboard disposed in the rack, two first frame units inserted on the motherboard, a second frame unit inserted on the motherboard, and a third frame unit inserted on the motherboard.

Each first frame unit can be used for inserting three first interface cards and comprises a first base plate which is parallel to the mainboard at intervals, a first connecting plate which extends from the first base plate to the direction of the mainboard and is inserted on the mainboard, three first slots which are arranged on the first connecting plate and can be used for inserting the first interface cards, and a supporting frame which is connected with the first base plate and the first connecting plate, extends from the first base plate to the direction of the mainboard and is fixed on the mainboard. The maximum width of each first substrate is not less than the height of each first interface card, and the length of each first interface card is not more than the length of each first connecting plate.

The second frame unit is used for two second interface cards to be inserted and comprises a second substrate which is parallel to the mainboard at intervals, a second connecting plate which extends from the second substrate to the direction of the mainboard and is inserted on the mainboard, and two second slots which are arranged on the second connecting plate and can be used for the second interface cards to be inserted and arranged, the maximum width of the second substrate is not less than the height of each second interface card, the length of each second interface card is not more than the length of the second connecting plate, the maximum width of the second substrate is less than the maximum width of each first substrate, the length of the second connecting plate is less than the first connecting plate, and the height of each second interface card is less than the height of each first interface card.

The third frame unit is used for two third interface cards to be inserted into and comprises a third substrate which is parallel to the mainboard at intervals, a third connecting plate which extends from the third substrate to the direction of the mainboard and is inserted into the mainboard, and two third slots which are arranged on the third connecting plate and are used for the third interface cards to be inserted into.

Compared with the prior art, the utility model discloses server device of ten interface cards of mountable, through first frame cell can supply three first interface card to insert respectively and establish, this second frame cell can supply two second interface cards to insert and establish and this third frame cell can supply two third interface cards to insert the design of establishing, and reaches this server device and can supply ten interface cards (six first interface cards, two second interface cards and two third interface cards) installation to insert altogether and establish, effectively improves whole function efficiency.

[ description of the drawings ]

Fig. 1 is an exploded perspective view illustrating an embodiment of the server device capable of mounting ten interface cards according to the present invention.

Fig. 2 is a perspective view to assist in explaining fig. 1.

[ detailed description ] embodiments

Referring to fig. 1 and fig. 2, the present invention provides an embodiment of a server device capable of installing ten interface cards, which includes a rack 1, a motherboard 2 disposed in the rack 1, two first frame units 3 inserted on the motherboard 2, a second frame unit 4 inserted on the motherboard 2, and a third frame unit 5 inserted on the motherboard 2.

Each first frame unit 3 is capable of being inserted by three first interface cards 70, and includes a first substrate 31 spaced from and parallel to the motherboard 2, a first connection board 32 extending from the first substrate 31 in the direction of the motherboard 2 and inserted on the motherboard 2, three first slots 33 disposed on the first connection board 32 and capable of being inserted by the first interface cards 70, a support frame 34 connecting the first substrate 31 and the first connection board 32, extending from the first substrate 31 in the direction of the motherboard 2 and fixed on the motherboard 2, and a first mounting frame 35 connecting the first substrate 31 and the first connection board 32, extending from the first substrate 31 in the direction of the motherboard 2 and capable of being locked and combined by the first interface cards 70. Each first mounting frame 35 and each supporting frame 34 are located on two opposite sides of the corresponding first substrate 31. The maximum width X1 of each first substrate 31 is not less than the height D1 of each first interface card 70, and the length L1 of each first interface card 70 is not greater than the length Y1 of each first connecting plate 32. It should be noted that the first interface card 70 is a Full Height card (Full Height), and generally, the Height in this field usually represents the width of the interface card, in this embodiment, the maximum width X1 of each first substrate 31 is not less than the Height D1 of each first interface card 70, that is, the maximum width X1 of each first substrate 31 is not less than the width D1 of each first interface card 70.

The second frame unit is adapted for two second interface cards 71 to be inserted into, and includes a second substrate 41 spaced from and parallel to the motherboard 2, a second connecting plate 42 extending from the second substrate 41 toward the motherboard 2 and inserted into the motherboard 2, two second slots 43 disposed on the second connecting plate 42 and adapted for the second interface cards 71 to be inserted into, and a second mounting frame 44 connected to the second substrate 41 and the second connecting plate 42, extending from the second substrate 41 toward the motherboard 2, and adapted for the second interface cards 71 to be locked and combined. The maximum width X2 of the second substrate 41 is not less than the height D2 of each second interface card 71. The length L2 of each second interface card 71 is not greater than the length Y2 of the second connecting plate 42. The maximum width X2 of the second substrate 41 is less than the maximum width X1 of each first substrate 31, the length Y2 of the second connecting plate 42 is less than the length Y1 of the first connecting plate 32, and the height D2 of each second interface card 71 is less than the height D1 of each first interface card 70. It should be noted that the second interface card 71 is a half-height card (Low Profile), and generally, in this field, the height usually represents the width of the interface card, in this embodiment, the maximum width X2 of each second substrate 41 is not less than the height D2 of each second interface card 71, that is, the maximum width X2 of each second substrate 41 is not less than the width D2 of each second interface card 71.

The third frame unit is adapted for two third interface cards 72 to be inserted into, and includes a third substrate 51 spaced from and parallel to the motherboard 2, a third connecting plate 52 extending from the third substrate 51 toward the motherboard 2 and inserted into the motherboard 2, two third slots 53 disposed on the third connecting plate 52 and adapted for the third interface cards 72 to be inserted into, and a third mounting frame 54 connected to the third substrate 51 and the third connecting plate 52, extending from the third substrate 51 toward the motherboard 2, and adapted for the third interface cards 72 to be locked and combined. The maximum width X3 of the third substrate 51 is not less than the height D3 of each third interface card 72. The length L3 of each third interface card 72 is not greater than the length Y3 of the third connecting plate 52. The maximum width X3 of the third base plate 51 is less than the maximum width X1 of each first base plate 31 and the length L3 of the third connecting plate 52 is less than the length L1 of the first connecting plate 32. The height L3 of each third interface card 72 is less than the height L1 of each first interface card 70. The first frame unit 3 is located between the second frame unit 4 and the third frame unit 5. It should be noted that the third interface card 72 is a half-height card (Low Profile), and generally, the height in the field usually represents the width of the interface card, in this embodiment, the maximum width X3 of each third substrate 51 is not less than the height D3 of each third interface card 72, that is, the maximum width X3 of each third substrate 51 is not less than the width D3 of each third interface card 72.

During assembly, after three first interface cards 70 are inserted into and combined with the slots of one of the first frame units 3 and the other three first interface cards 70 are inserted into and combined with the first slots 33 of the other first frame unit 3, the first connecting plate 32 of each first frame unit 3 is inserted into the motherboard 2 and is matched with the supporting frame 34 and the first mounting frame 35 of each first frame unit 3 to combine the supporting frame 34 and the first mounting frame 35 of each first frame unit 3 with the motherboard 2, so that each first frame unit 3 is fixedly arranged on the motherboard 2. The first connecting plates 32 of the first frame unit 3 abut against each other and the first frame unit 3 is located between the second frame unit 4 and the third frame unit 5. In this embodiment, the rack 1 is a 2U rack, the first interface card 70 is a GPIB-type Full Height card (Full Height), and since the weight of the GPIB-type first interface card 70 is heavier, the robustness of the overall structure of each first frame unit 3 is improved by the design of each first substrate 31 of each first frame unit 3, and the application of the supporting frame 34 of each first frame unit 3 and the first mounting frame 35 in cooperation assists to increase the support of each first frame unit 3 so as to support the weight of the first interface card 70 correspondingly. Then, after the second interface card 71 is inserted into and combined with the second slot 43 of the second frame unit 4, the second connecting plate 42 of the second frame unit 4 is inserted into the motherboard 2 and is matched to combine the second mounting frame 44 of the second frame unit 4 with the motherboard 2, so that the second frame unit 4 is fixed on the motherboard 2. And after the third interface card 72 is inserted into and combined with the third slot 53 of the third frame unit 5, the third connecting plate 52 of the third frame unit 5 is inserted into the motherboard 2 and is matched to combine the third mounting frame 54 of the third frame unit 5 with the motherboard 2, so that the third frame unit 5 is fixed on the motherboard 2. In this embodiment, the second interface card 71 and the third interface card 72 are PCI-E type half high cards (Low Profile), since the second interface card 71 and the third interface card 72 of PCI-E type are light in weight, the second frame unit 4 can improve the robustness of the overall structure of the second frame unit 4 and effectively support the weight of the second interface card 71 by the design that the second substrate 41 is matched with the second mounting frame 44, and the third frame unit 5 can improve the robustness of the overall structure of the third frame unit 5 and effectively support the weight of the third interface card 72 by the design that the third substrate 51 is matched with the third mounting frame 54.

The design that the first frame unit 3 can be used for inserting three first interface cards 70, the second frame unit can be used for inserting two second interface cards 71, and the third frame unit can be used for inserting two third interface cards 72 is adopted, so that the server device can be used for installing and inserting ten interface cards (six first interface cards 70, two second interface cards 71 and two third interface cards 72) in total, and the overall operation efficiency is effectively improved.

It should be noted that, in the present embodiment, the first substrate 31 of each first frame unit 3 has a first wide portion 311 connected to the corresponding first mounting frame 35, a first narrow portion 312 connected to the corresponding support frame 34, a first inclined neck portion 313 extending from the first wide portion 311 toward the first narrow portion 312 in a tapered manner and connecting the first wide portion 311 and the first narrow portion 312, and a first reversed edge 314 extending from the first wide portion 311 toward the first inclined neck portion 313 in a tapered manner toward the first narrow portion 312. The width of each first wide portion 311 is the maximum width of the corresponding first substrate 31 and is not less than the height of each first interface card 70. That is, the first substrate 31 of each first frame unit 3 is designed to be wide in front and wide in back as shown in fig. 1, so as to effectively save the workpiece material and reduce the production cost, and the width of each first wide portion 311 is not less than the height of each first interface card 70, so that when the first interface cards 70 are inserted and combined in the slots, the overall balance of each first frame unit 3 is ensured, and through the design of each first reverse folded edge 314, the sharp edge cutting can be avoided, so as to facilitate the operation of the user, and the overall strength can be improved. In this embodiment, when each first interface card 70 is inserted into and combined with the corresponding first slot 33 of each first frame unit 3, the front surface of each first interface card 70 is close to the first substrate 31; the back surface of each first interface card 70 is far away from the first substrate 31, so that the PIN (PIN) of the device on the back surface of each first interface card 70 is not directed toward the corresponding first substrate 31, and therefore, the PIN is not interfered by the corresponding first reverse edge 314.

In the present embodiment, the second substrate 41 has a second wide portion 411 located on the front side and connected to the second mounting frame 44, a second narrow portion 412 located on the rear side, a second inclined neck portion 413 tapering from the second wide portion 411 to the second narrow portion 412 and connecting the second wide portion and the second narrow portion, and a second reverse folding edge 414 extending from the second wide portion 411 to the second narrow portion 412 in the tapering direction of the second inclined neck portion 413. The width of the second wide portion 411 is the maximum width of the second substrate 41 and is not less than the height of each second interface card 71. That is, the second base plate 41 of the second frame unit 4 is designed to be wide in front and wide in rear as shown in fig. 1, so as to effectively save the workpiece material and reduce the production cost, and the width of the second wide portion 411 is not less than the height of each first interface card 70, so that when the second interface card 71 is inserted and combined with the slot, the overall balance of each first frame unit 3 is ensured, and through the design of the second reverse folded edge 414, the sharp edge cutting can be avoided, so as to facilitate the operation of the user, and the overall strength can be improved. In this embodiment, when each first interface card 70 is inserted into and combined with the corresponding second slot 43 of the second frame unit 4, the front surface of each second interface card 71 is close to the second substrate 41; the back surface of each second interface card 71 is far away from the second substrate 41, so that the component PINs (PINs) on the back surface of each second interface card 71 are not directed toward the corresponding second substrate 41, and therefore, will not be interfered by the corresponding second reverse edge 414.

It should be noted that, in the present embodiment, the third substrate 51 has a rectangular plate 511 and a third reverse-folded edge 512 surrounding the rectangular plate 511, and the area of the rectangular plate 511 is larger than that of each third interface card 72. Through the design of the third reverse folded edge 512, the user can avoid cutting the hand with sharp edge to facilitate the operation, and the overall strength can be improved. In this embodiment, when each third interface card 72 is inserted into and combined with the corresponding third slot 53 of the third frame unit 5, the front surface of each third interface card 72 is far away from the third substrate 51; the back surface of each third interface card 72 is close to the third substrate 51, and the PIN (PIN) of the device on the back surface of each third interface card 72 faces the third substrate 51, so the area of the rectangular plate 511 must be larger than that of each third interface card 72 to avoid the problem of the third interface card 72 being affected by the interference of the third reverse edge 512.

To sum up, the server device capable of mounting ten interface cards of the present invention achieves the purpose that the server device can be used for mounting and inserting ten interface cards (six first interface cards 70, two second interface cards 71 and two third interface cards 72) in total by the design that the first frame unit 3 can be used for inserting three first interface cards 70, the second frame unit can be used for inserting two second interface cards 71 and the third frame unit can be used for inserting two third interface cards 72 respectively, thereby effectively improving the overall operation performance.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A server device capable of mounting ten interface cards, the server device comprising:

a frame;

a main board arranged in the frame;

the first frame units are inserted on the mainboard, each first frame unit can be used for inserting three first interface cards and comprises a first substrate which is parallel to the mainboard at intervals, a first connecting plate which extends from the first substrate to the direction of the mainboard and is inserted on the mainboard, three first slots which are arranged on the first connecting plate and can be used for inserting the first interface cards, and a supporting frame which is connected with the first substrate and the first connecting plate, extends from the first substrate to the direction of the mainboard and is fixed on the mainboard, the maximum width of each first substrate is not less than the height of each first interface card, and the length of each first interface card is not more than the length of each first connecting plate;

the second frame unit is inserted on the mainboard, can be used for inserting two second interface cards and comprises a second substrate which is parallel to the mainboard at intervals, a second connecting plate which extends from the second substrate to the direction of the mainboard and is inserted on the mainboard, and two second slots which are arranged on the second connecting plate and can be used for inserting the second interface cards, the maximum width of the second substrate is not less than the height of each second interface card, the length of each second interface card is not more than the length of the second connecting plate, the maximum width of the second substrate is less than the maximum width of each first substrate, the length of the second connecting plate is less than the first connecting plate, and the height of each second interface card is less than the height of each first interface card; and

the third frame unit is inserted on the mainboard, can be used for two third interface cards to insert and comprises a third substrate which is parallel to the mainboard at intervals, a third connecting plate which extends from the third substrate to the direction of the mainboard and is inserted on the mainboard, and two third slots which are arranged on the third connecting plate and can be used for the third interface cards to insert.

2. The server apparatus capable of mounting ten interface cards according to claim 1, wherein each first frame unit further comprises a first connecting board connecting the first base board and the first connecting board and extending from the first base board to the main board, and the first mounting frame and each supporting frame are positioned at two opposite sides of the corresponding first substrate, each first substrate is provided with a first wide part connected with the corresponding first mounting frame, a first narrow part connected with the corresponding supporting frame, a first inclined neck part gradually extended from the first wide part to the first narrow part and connected with the first wide part and the first narrow part, and a first reverse folding edge extended from the first wide part to the gradually extended direction of the first inclined neck part and to the direction of the first narrow part, and the width of each first wide part is the maximum width of the corresponding first substrate.

3. The server apparatus of claim 1, wherein the second frame unit further includes a second mounting frame connecting the second base and the second connecting board, extending from the second base toward the motherboard, and adapted to be locked and combined with the second interface card, the second base has a second wide portion located at a front side and connecting the second mounting frame, a second narrow portion located at a rear side, a second inclined neck portion extending from the second wide portion toward the second narrow portion and connecting the second wide portion and the second narrow portion, and a second reverse fold extending from the second wide portion toward the second inclined neck portion and toward the second narrow portion, wherein a width of the second wide portion is a maximum width of the second base.

4. The server apparatus of claim 1, wherein the third frame unit further includes a third mounting frame connecting the third base and the third connecting plate, extending from the third base toward the motherboard, and adapted to be locked and coupled to the third interface card, the third base has a rectangular plate and a third reverse-folded edge surrounding the rectangular plate, and the area of the rectangular plate is larger than that of each third interface card.

5. The server apparatus capable of mounting ten interface cards according to claim 1, wherein the first interface card is a full-height card, and the second interface card and the third interface card are half-height cards.

6. The server apparatus capable of mounting ten interface cards according to claim 1, wherein the rack is a 2U rack.

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