CN114725710B - Extension card socket module of server - Google Patents

Abstract

A server expansion card socket module is suitable for 1U server nodes. The server expansion card socket module comprises a first circuit board, a second circuit board and a third circuit board. The first circuit board comprises two first slots and a second slot. The second circuit board comprises two first inserting ends and a first expansion card slot, wherein the two first inserting ends are electrically connected to the first expansion card slot, and the two first inserting ends of the second circuit board are detachably arranged in the two first slots of the first circuit board. The third circuit board comprises a second plug-in end and a second expansion card slot which are electrically connected with each other, and the second plug-in end of the third circuit board is detachably arranged in the second slot of the first circuit board. The first expansion card slot and the second expansion card slot are configured up and down above the first circuit board.

Description

Extension card socket module of server

Technical Field

The present invention relates to a socket module, and more particularly to a socket module for a server expansion card.

Background

Currently, the height of a server is limited, and an expansion card installed in the server is usually arranged horizontally and is plugged into a socket of the server in a side plug mode. The sockets are disposed on an upstanding circuit board and only a single socket and associated circuit layout can be disposed on a single circuit board due to the limited height of the circuit board. Therefore, it is one of the research targets in the art to provide a socket capable of plugging more expansion cards on the premise that the space within the server is limited.

Disclosure of Invention

The invention provides a server expansion card socket module which can be used for plugging a plurality of expansion cards.

The invention relates to a server expansion card socket module which is applicable to 1U server nodes. The server expansion card socket module comprises a first circuit board, a second circuit board and a third circuit board. The first circuit board comprises two first slots and a second slot, wherein each first slot is a PCI-E x interface, and the second slot is a PCI-E x interface. The second circuit board comprises two first plug-in ends and a first expansion card slot, wherein each first plug-in end is a PCI-E x interface, each first expansion card slot is a PCI-E x interface, the two first plug-in ends are electrically connected to the first expansion card slot, and the two first plug-in ends of the second circuit board are detachably arranged in the two first slots of the first circuit board. The third circuit board comprises a second plug-in end and a second expansion card slot which are electrically connected with each other, wherein the second plug-in end and the second expansion card slot are PCI-E x interfaces, and the second plug-in end of the third circuit board is detachably arranged in the second slot of the first circuit board. The first expansion card slot and the second expansion card slot are configured up and down above the first circuit board.

In an embodiment of the invention, the second circuit board and the third circuit board are inserted on the first circuit board side by side, the second circuit board includes an opening, and the second expansion card slot is disposed through the opening of the second circuit board.

In an embodiment of the invention, a height of the second expansion card slot protruding from the third circuit board is greater than a height of the first expansion card slot protruding from the second circuit board.

In an embodiment of the invention, a height of the second expansion card slot protruding from the second circuit board is equal to a height of the first expansion card slot protruding from the second circuit board.

The two first slots are positioned at two sides of the second slot, and the second slot is positioned outside the connecting line of the two first slots.

In an embodiment of the invention, the expansion card socket module further includes a first bracket and a second bracket, wherein the first bracket is disposed on a peripheral side of the first circuit board and is fixed to the first circuit board, the second bracket is disposed on the first bracket and includes a first section portion parallel to the second circuit board and the third circuit board, and the second circuit board and the third circuit board are fixed to the first section portion of the second bracket.

In an embodiment of the invention, the server expansion card socket module further includes a first locking member, the first section of the second bracket includes a first stud, the second circuit board includes a first through hole, and the first locking member is fixed to the first stud through the first through hole.

In an embodiment of the invention, the server expansion card socket module further includes a second locking member, the first section of the second bracket includes a second stud, the third circuit board includes a second through hole, and the second locking member is fixed to the second stud through the second through hole.

In an embodiment of the invention, the third circuit board is located between the second circuit board and the first section of the second bracket, and the first section of the second bracket includes a support pillar abutting against the second circuit board.

In an embodiment of the invention, the second bracket includes a second section bent and connected to the first section, and a distance between the first expansion card slot and the second section of the second bracket is the same as a distance between the second expansion card slot and the second section of the second bracket.

Based on the above, the server expansion card socket module of the present invention is suitable for 1U server nodes. Under the premise of the height, the server expansion card socket module can be inserted with two expansion cards of PCI-E x which are horizontally configured. Specifically, the first expansion card slot and the second expansion card slot of the PCI-E x are respectively arranged on the second circuit board and the third circuit board, the second circuit board and the third circuit board are inserted into the first circuit board, and the first expansion card slot of the second circuit board and the second expansion card slot of the third circuit board are configured up and down above the first circuit board, so that two PCI-E x expansion cards can be inserted in a horizontal mode.

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Drawings

Fig. 1 is a schematic diagram of a server.

FIG. 2 is a schematic diagram of a server expansion card socket module with two expansion cards plugged in an embodiment of the invention.

FIG. 3 is a schematic diagram of the server expansion card socket module of FIG. 2.

FIG. 4 is a schematic diagram of the second circuit board and the third circuit board of the expansion card socket module of FIG. 2 not yet plugged into the first circuit board.

Fig. 5 is an exploded view of the server expansion card socket module of fig. 2.

FIG. 6 is a schematic diagram of a first circuit board, a second circuit board and a third circuit board of the expansion card socket module of FIG. 2.

Wherein, the reference numerals:

h1, H2, H3 height

Distance D

10 Server

12 motherboard region

14 Relay board area

16 expansion area

20 expansion card

100 server expansion card socket module

110 first circuit board

112 first slot

114 second slot

116 connector

120 second circuit board

122 first plug end

124 first expansion card slot

126 opening(s)

128 first through hole

130 third circuit board

132 second plug end

134 second expansion card slot

136 second through hole

140 first support

150 second support

151 first segment

152 first stud

153 second stud

154 support column

157 second stage

160 first locking member

162 second locking member

Detailed Description

The structural and operational principles of the present invention are described in detail below with reference to the accompanying drawings:

fig. 1 is a schematic diagram of a server. Referring to fig. 1, in the present embodiment, the server 10 includes a motherboard area 12, a relay board area 14 and an expansion area 16. Expansion board 20 (fig. 2) or other expansion components are disposed in expansion area 16, and such expansion board 20 is electrically connected to a motherboard (not shown) in motherboard area 12 via a repeater board (not shown) in repeater board area 14. In this embodiment, the height of the server 10 is, for example, 2U, and the server 10 can be installed by two-tier 1U server nodes. In fig. 1, the server 10 is in the form of 2U 4N. That is, the height of the server 10 is 2U and has four server nodes, but the height of the server 10 may be 1U or other heights, and the number of server nodes of the server 10 is not limited thereto.

In general, the height of the server 10 itself is limited, as is the height of the server expansion card receptacle module 100 (FIG. 2) used to plug the expansion card 20. The server expansion card socket module 100 of the present embodiment can be applied to 1U server nodes (the height H1 (fig. 2) of the server expansion card socket module 100 is less than 1U), and can be horizontally inserted with two expansion cards 20 of PCI-E x16 on the premise that the height of the server nodes is 1U, so as to improve the performance of the server 10. In addition, since the height H1 of the server expansion card socket module 100 is less than 1U, it is applicable to the server 10 having a height of 1U or more. The server expansion card socket module 100 will be described below.

FIG. 2 is a schematic diagram of a server expansion card socket module with two expansion cards plugged in an embodiment of the invention. FIG. 3 is a schematic diagram of the server expansion card socket module of FIG. 2. FIG. 4 is a schematic diagram of the second circuit board and the third circuit board of the expansion card socket module of FIG. 2 not yet plugged into the first circuit board. Fig. 5 is an exploded view of the server expansion card socket module of fig. 2. FIG. 6 is a schematic diagram of a first circuit board, a second circuit board and a third circuit board of the expansion card socket module of FIG. 2.

Referring to fig. 2 to 6, the expansion card socket module 100 of the present embodiment includes a first circuit board 110, a second circuit board 120 and a third circuit board 130. As shown in fig. 6, the first circuit board 110 includes two first slots 112 and a second slot 114. In the present embodiment, each first slot 112 is a PCI-E x interface, and each second slot 114 is a PCI-E x interface. Since the first circuit board 110 has two first slots 112 of the PCI-E x interface, the two first slots 112 can together transmit a set of PCI-E x signals, and the second slot 114 itself can transmit a set of PCI-E x signals. Thus, the first circuit board 110 may transmit signals of two sets of PCI-E x.

It should be noted that in the present embodiment, the first circuit board 110 can transmit signals from two sets of PCI-E x16 through the two first slots 112 of PCI-E x8 and the second slot 114 of PCI-E x, and the slot of PCI-E x is not used, so that the cost is effectively reduced.

The first circuit board 110 further includes two connectors 116 for connecting the relay card, wherein one connector 116 is electrically connected to the two first slots 112, and the other connector 116 is electrically connected to the second slot 114, so as to transmit signals of the two sets of PCI-E x to the relay card.

In the present embodiment, the two first slots 112 are located at two sides of the second slot 114, and the second slot 114 is located outside the connection line of the two first slots 112, so that the second circuit board 120 and the third circuit board 130 do not interfere when being inserted. Of course, in other embodiments, the positional relationship between the two first slots 112 and the second slot 114 is not limited thereto.

In addition, the second circuit board 120 includes two first inserting terminals 122 and a first expansion card slot 124. Each first socket 122 is a PCI-E x interface, and each first expansion card slot 124 is a PCI-E x interface. The two first plug terminals 122 are electrically connected to the first expansion card slot 124. In the present embodiment, the two first inserting ends 122 of the second circuit board 120 are detachably disposed in the two first slots 112 of the first circuit board 110, so that the first expansion card slot 124 of the second circuit board 120 is electrically connected to the two first slots 112 of the first circuit board 110.

The third circuit board 130 includes a second socket 132 (shown in phantom in fig. 6) and a second expansion card slot 134 electrically connected to each other. The second socket 132 and the second expansion card slot 134 are PCI-E x interfaces, and the second socket 132 of the third circuit board 130 is detachably disposed in the second slot 114 of the first circuit board 110, so that the second expansion card slot 134 of the third circuit board 130 is electrically connected to the second slot 114 of the first circuit board 110.

In the present embodiment, the second circuit board 120 and the third circuit board 130 are inserted on the first circuit board 110 side by side, and the second circuit board 120 and the third circuit board 130 are at least partially staggered, so that the first expansion card slot 124 and the second expansion card slot 134 are disposed above the first circuit board 110.

Specifically, in the present embodiment, the second circuit board 120 includes an opening 126, and the second expansion card slot 134 is disposed through the opening 126 of the second circuit board 120 and protrudes from the second circuit board 120. In the present embodiment, the opening 126 of the second circuit board 120 is a closed opening 126, but in other embodiments, the opening 126 of the second circuit board 120 may be a non-closed opening, such as a notch recessed in an edge of the second circuit board 120. In addition, in an embodiment, the second circuit board 120 may not have the opening 126, and the second circuit board 120 may be staggered or offset to the second expansion card slot 134.

In addition, in the present embodiment, the first expansion card slot 124 is located below the second expansion card slot 134, but not limited thereto, and in other embodiments, the first expansion card slot 124 may be located above the second expansion card slot 134.

As can be seen from fig. 3, although the second circuit board 120 and the third circuit board 130 are located on different planes, in the present embodiment, the height of the second expansion card slot 134 protruding from the second circuit board 120 is equal to the height of the first expansion card slot 124 protruding from the second circuit board 120, and both the two expansion card slots are H2, so that a pattern similar to that of the first expansion card slot 124 and the second expansion card slot 134 on the same circuit board can be manufactured, so that an operator can more intuitively insert and remove two expansion cards 20, and the length and width dimensions of the space for accommodating the expansion cards 20 of the server expansion card socket module 100 can be maintained at the length and width dimensions of one expansion card 20.

As can be seen in fig. 5, the height H3 of the second expansion card slot 134 protruding from the third circuit board 130 is greater than the height H2 of the first expansion card slot 124 protruding from the second circuit board 120. In addition, in other embodiments, the positions of the second circuit board 120 and the third circuit board 130 may be interchanged. Therefore, the height of the first expansion card slot 124 protruding from the second circuit board 120 may be greater than the height of the second expansion card slot 134 protruding from the third circuit board 130.

The size of the circuit board is limited, and it is difficult to configure two expansion card slots, two corresponding groups of circuits and two groups of electronic parts on a single circuit board. In the server expansion card socket module 100 of the present embodiment, the first expansion card slot 124 and the second expansion card slot 134 are respectively disposed on the second circuit board 120 and the third circuit board 130, and only one expansion card slot and the corresponding circuit and electronic component are required to be disposed on any one of the second circuit board 120 and the third circuit board 130.

Furthermore, the server expansion card socket module 100 is configured by disposing the first expansion card slot 124 and the second expansion card slot 134 above the first circuit board 110 in a vertical manner so as to be staggered with each other (for example, the second expansion card slot 134 passes through the opening 126 of the second circuit board 120 and is located above or below the first expansion card slot 124), so that the two PCI-E x expansion cards 20 can be inserted in a horizontal manner under the condition that the height H1 (fig. 2) is less than 1U.

In addition, as shown in fig. 5, the server expansion card socket module 100 further includes a first bracket 140 and a second bracket 150. The first bracket 140 is disposed on a peripheral side of the first circuit board 110 and is fixed to the first circuit board 110. In the present embodiment, the first bracket 140 is, for example, U-shaped, surrounds three sides of the first circuit board 110, and exposes the two connectors 116.

The second bracket 150 is disposed on the first bracket 140 and includes a first section 151 arranged side by side between the second circuit board 120 and the third circuit board 130 and a second section 157 bent and connected to the first section 151. The first and second segments 151 and 157 are L-shaped.

The second circuit board 120 and the third circuit board 130 are fixed to the first section 151 of the second bracket 150. Specifically, the server expansion card socket module 100 further includes a first locking member 160. The first section 151 of the second bracket 150 includes a first stud 152, and the second circuit board 120 includes a first through hole 128. The first locking member 160 is fixed to the first stud 152 through the first through hole 128, so that the second circuit board 120 is fixed to the first section 151 of the second bracket 150.

The server expansion card socket module 100 further includes a second locking member 162. The first section 151 of the second bracket 150 includes a second stud 153, and the third circuit board 130 includes a second through hole 136. The second locking member 162 is fixed to the second stud 153 through the second through hole 136, so that the third circuit board 130 is fixed to the first section 151 of the second bracket 150.

In the present embodiment, the third circuit board 130 is located between the second circuit board 120 and the first segment 151 of the second bracket 150. Thus, the height of the second stud 153 is less than the height of the first stud 152. In addition, the first section 151 of the second bracket 150 includes a support post 154. The height of the support posts 154 is approximately the height of the first studs 152. In the present embodiment, the third circuit board 130 is smaller in size and is given a way to the support columns 154 so that the support columns 154 can pass over the third circuit board 130 and abut against the second circuit board 120. The support posts 154 may be used to reduce the likelihood of board bending of the second circuit board 120.

In the present embodiment, the distance between the first expansion card slot 124 and the second section 157 of the second rack 150 is equal to the distance between the second expansion card slot 134 and the second section 157 of the second rack 150 (the distance D is shown in fig. 3), so as to meet the specification of the expansion card 20.

In summary, the server expansion card socket module of the present invention can be applied to a 1U server node, and under the premise of the height, the server expansion card socket module can be plugged with two expansion cards of PCI-E x configured horizontally. Specifically, the first expansion card slot and the second expansion card slot of the PCI-E x are respectively arranged on the second circuit board and the third circuit board, the second circuit board and the third circuit board are inserted into the first circuit board, and the first expansion card slot of the second circuit board and the second expansion card slot of the third circuit board are configured up and down above the first circuit board, so that two PCI-E x expansion cards can be inserted in a horizontal mode.

Of course, the present invention is capable of other various embodiments and its several details are capable of modification and variation in light of the present invention, as will be apparent to those skilled in the art, without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A server expansion card socket module adapted for use with a 1U server node, comprising:

the first circuit board comprises two first slots and a second slot, wherein each first slot is a PCI-E x interface, and the second slot is a PCI-E x interface;

the second circuit board comprises two first plug-in ends and a first expansion card slot, wherein each first plug-in end is a PCI-E x interface, each first expansion card slot is a PCI-E x interface, the two first plug-in ends are electrically connected with the first expansion card slot, and the two first plug-in ends of the second circuit board are detachably arranged in the two first slots of the first circuit board; and

the third circuit board comprises a second plug-in end and a second expansion card slot which are electrically connected with each other, wherein the second plug-in end and the second expansion card slot are PCI-E x interfaces, and the second plug-in end of the third circuit board is detachably arranged in the second slot of the first circuit board;

wherein the first expansion card slot and the second expansion card slot are configured up and down above the first circuit board.

2. The expansion card socket module of claim 1, wherein the second circuit board and the third circuit board are inserted on the first circuit board side by side, the second circuit board comprises an opening, and the second expansion card slot is inserted through the opening of the second circuit board.

3. The expansion card socket module of claim 1, wherein the second expansion card slot protrudes from the third circuit board to a greater extent than the first expansion card slot protrudes from the second circuit board.

4. The expansion card socket module of claim 1, wherein the second expansion card slot protrudes from the second circuit board to a height equal to the first expansion card slot protrudes from the second circuit board.

5. The expansion card socket module of claim 1, wherein the two first slots are located at two sides of the second slot, and the second slot is located outside the connection line of the two first slots.

6. The expansion card socket module of claim 1, further comprising a first bracket and a second bracket, wherein the first bracket is disposed on a peripheral side of the first circuit board and is fixed to the first circuit board, the second bracket is disposed on the first bracket and comprises a first section parallel to the second circuit board and the third circuit board, and the second circuit board and the third circuit board are fixed to the first section of the second bracket.

7. The expansion card socket module of claim 6, further comprising a first locking member, wherein the first section of the second bracket comprises a first stud, and wherein the second circuit board comprises a first through hole, wherein the first locking member is fixed to the first stud through the first through hole.

8. The expansion card socket module of claim 6, further comprising a second locking member, wherein the first section of the second bracket comprises a second stud, and wherein the third circuit board comprises a second through hole, wherein the second locking member is fixed to the second stud through the second through hole.

9. The expansion card socket module of claim 6, wherein the third circuit board is located between the second circuit board and the first section of the second bracket, the first section of the second bracket including a support post abutting the second circuit board.

10. The expansion card socket module of claim 6, wherein the second bracket comprises a second section bent and connected to the first section, and a distance between the first expansion card slot and the second section of the second bracket is the same as a distance between the second expansion card slot and the second section of the second bracket.