CN111258387B - A batch installation device for server motherboard memory sticks - Google Patents

Abstract

The invention discloses a batch installation device for memory bars of a server motherboard, which relates to the technical field of memory bar installation. It includes a bracket, a base, a memory module loading plate, and a mounting plate. The bracket includes a first support plate, a second support plate, and a top plate. The upper end of the first support plate and the upper end of the second support plate are connected to the top plate. The lower end and the lower end of the second support plate are both connected to the base, the mounting plate and the memory module loading plate are arranged between the top plate and the base in sequence from top to bottom, the mounting plate is connected to the bracket through a lifting mechanism, and the memory module loading plate is connected to the bracket. The memory module loading plate is provided with a plurality of memory module loading holes. The invention can realize the batch installation of memory sticks on the main board of the server, thereby reducing the labor intensity of operators and improving the installation efficiency of the memory sticks.

Description

Batch installation device for memory banks of server mainboard

Technical Field

The invention relates to the technical field of memory bank installation, in particular to a batch installation device for memory banks of a server mainboard.

Background

The memory bank is an important component in the server, and is mainly used for temporarily storing the operation data in the CPU. The plurality of memory banks are arranged on a server mainboard of the server in parallel. In the memory bank installation process of the existing server mainboard: firstly, an operator is required to manually place memory banks into memory slots on a server mainboard; then, an operator needs to manually press the memory banks one by one downward to clamp the memory banks into the memory slots on the server motherboard, which is high in labor intensity and low in installation efficiency.

Therefore, how to implement batch installation of memory banks on a server motherboard to reduce labor intensity of operators and improve installation efficiency of memory banks is a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention aims at the defects in the prior art and provides a batch installation device for memory banks on a server mainboard.

In order to realize the purpose, the invention provides the following technical scheme:

a batch installation device for memory chips of a server mainboard comprises a support, a base, a memory chip loading plate and an installation plate, wherein the support comprises a first support plate, a second support plate and a top plate, the upper end of the first support plate and the upper end of the second support plate are both connected with the top plate, the lower end of the first support plate and the lower end of the second support plate are both connected with the base, the installation plate and the memory chip loading plate are sequentially arranged between the top plate and the base from top to bottom, the installation plate is connected with the support through a lifting mechanism, the memory chip loading plate is connected with the support, and the memory chip loading plate is provided with a plurality of memory chip loading holes;

the clamping mechanism is used for clamping the server mainboard and comprises a first clamping assembly and a second clamping assembly;

the first clamping assembly comprises a first clamping plate and a second clamping plate which are arranged side by side, the first clamping plate and the second clamping plate are both connected with the base in a sliding mode, when the first clamping plate slides to a proper position, the first clamping plate is fixed with the base through a first fixing piece, and when the second clamping plate slides to a proper position, the second clamping plate is fixed with the base through a second fixing piece;

the second clamping assembly comprises a third clamping plate and a fourth clamping plate which are arranged side by side, a mounting groove is formed in the lower end face of the base, a first sliding hole and a second sliding hole are formed in the upper end face of the base, a first sliding rod matched with the first sliding hole is arranged at the lower end of the third clamping plate, and a second sliding rod matched with the second sliding hole is arranged at the lower end of the fourth clamping plate;

when the distance between third splint and the fourth splint is in good time, third splint and fourth splint are fixed with the base through the distance adjustment subassembly, the distance adjustment subassembly is located in the mounting groove, the distance adjustment subassembly is including adjusting the pole, the regulating plate, adjust the inserted bar, the head rod, the second connecting rod, the cell wall of mounting groove is equipped with the regulation slide opening, adjust the pole and adjust the slide opening cooperation, the base is equipped with the regulating plate, the regulating plate is equipped with first jack, it is equipped with a plurality of second jacks to adjust the pole, adjust the inserted bar in proper order with first jack, the cooperation of second jack, the one end of head rod is articulated with the one end that the regulating plate was kept away from to the regulation pole, the one end that the regulation pole was kept away from to the head rod is articulated with the lower extreme of first slide bar, the one end of regulating plate was kept away from to the head rod is articulated with the one end of adjusting the pole, the one end that the regulation pole was kept away from to the head rod of second connecting rod is articulated with the lower extreme of second slide bar.

Furthermore, elevating system is including pressing down the pole and pressing down the elastic component, and the roof is equipped with presses down the hole, presses down the pole and presses down the hole cooperation, presses down the pole and slides from top to bottom in pressing down the hole, presses down the lower extreme of pole and is connected with the mounting panel, and the mounting panel is connected with the roof through pressing down the elastic component.

Further, elevating system includes bull stick, cam, the elastic component that resets, and first backup pad and second backup pad all rotate with the bull stick to be connected, and the cam is connected with the bull stick, and cam and mounting panel cooperation, mounting panel are connected with the roof through the elastic component that resets.

Furthermore, the first supporting plate is close to one side of second backup pad and the second backup pad all is equipped with the installation guide way in the one side of being close to first backup pad, the mounting panel be equipped with installation guide way complex installation guide block, the installation guide block slides from top to bottom in the installation guide way.

Furthermore, a first dovetail groove and a second dovetail groove are arranged on the upper end face of the base, a first sliding block matched with the first dovetail groove is arranged at the lower end of the first clamping plate, the first clamping plate is provided with a first fixing hole, the first sliding block is provided with a first through hole, a plurality of first fixing grooves are formed in the bottom of the first dovetail groove, and the first fixing piece adopts a first fixing rod which is sequentially matched with the first fixing hole, the first through hole and the first fixing grooves from top to bottom; the lower extreme of second splint be equipped with second dovetail complex second slider, the second splint are equipped with the second fixed orifices, the second slider is equipped with the second and perforates, the tank bottom of second dovetail is equipped with a plurality of second fixed slots, the second mounting adopt from the top down in proper order with second fixed orifices, second perforation, second fixed slot complex second dead lever.

Further, first backup pad and second backup pad all with base sliding connection, when the base slides to suitable position, first backup pad and second backup pad all are fixed with the base through the fastener.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the memory banks can be installed on the server mainboard in batches, and the plurality of memory banks are not required to be manually clamped into the memory slots on the server mainboard one by an operator, so that the labor intensity of the operator is reduced, and the installation efficiency of the memory banks is improved. The invention is particularly suitable for the condition that a plurality of memory banks are required to be installed on the mainboard of the server.

Moreover, because the mounting plate can be used for simultaneously pressing all the memory banks inserted into the memory bank loading holes vertically and downwards, the memory banks can be stressed uniformly in the process of being clamped into the memory slots of the server mainboard, the damage and the invalidation caused by the nonuniform stress of the memory banks (for example, the printed circuit on the memory banks is easy to bend and damage and the invalidation caused by the nonuniform stress of the memory banks and the golden finger scratching the memory banks by the memory slots of the server mainboard and the invalidation caused by the nonuniform stress of the memory banks) are avoided, the invalidation rate of the memory banks is reduced, the cost of the memory banks is prevented from being increased due to the invalidation of the memory banks, the cost is reduced, and the installation qualification rate of the memory banks is improved.

2. The lifting mechanism can enable the mounting plate to move downwards by pressing the pressing rod, and when the mounting plate does not need to move downwards, the mounting plate can move upwards and reset under the action of the pressing elastic piece, so that the mounting plate is lifted more conveniently, operation of operators is facilitated, the labor intensity and difficulty of the operators are further reduced, and the efficiency of mounting the memory bank is improved.

3. The cam-type memory bank mounting device can enable the mounting plate to move downwards under the pressing of the cam by rotating the rotating rod on one side of the support, so that an operator can observe the mounting condition of a memory bank while rotating the rotating rod, the mounting plate is stopped being pressed downwards in time when the memory bank is about to be bent and damaged to be abandoned, the mounting plate is continuously pressed to mount the memory bank after the memory bank is adjusted, the phenomenon that the memory bank is damaged to be abandoned due to bending and bending is avoided, the cost of the memory bank is reduced, and the mounting qualification rate and the mounting efficiency of the memory bank are improved.

4. According to the invention, by arranging the installation guide block and the installation guide groove, the installation plate can be prevented from shaking during lifting, so that the installation plate can more stably press the memory bank loading plate, the memory bank can be more stably clamped into the memory slot on the server mainboard, the damage and waste of the memory bank caused by scraping and colliding are reduced, the rejection rate of the memory bank is reduced, the cost of the memory bank is reduced, and the installation qualification rate and the installation efficiency of the memory bank are improved.

5. On one hand, the server mainboard can be fixed by using the clamping mechanism, the server mainboard is prevented from being inclined or sliding, the condition that the memory bank cannot be aligned with the memory slot of the server mainboard is avoided, and once the memory bank cannot be aligned with the memory slot of the server mainboard, the memory bank cannot be installed, the installation efficiency of the memory bank is reduced, the memory bank is wasted due to the fact that the memory bank is damaged due to collision and scratching, the cost is increased, therefore, the normal installation of the memory bank can be guaranteed, the installation efficiency and the installation qualification rate are improved, the memory bank is prevented from being wasted due to collision, the waste of the memory bank is avoided, and the cost is reduced.

On the other hand, the clamping mechanism can clamp server mainboards with different sizes and specifications, and improves the use flexibility of the clamping mechanism.

6. According to the invention, through the arrangement of the first dovetail groove and the second dovetail groove, when the first clamping plate and the second clamping plate in the first clamping assembly slide on the base, the first sliding block of the first clamping plate can be blocked by the groove wall of the first dovetail groove and cannot be upwards separated from the first dovetail groove, and the second sliding block of the second clamping plate can be blocked by the groove wall of the second dovetail groove and cannot be upwards separated from the second dovetail groove, so that the reliability of the first clamping plate and the second clamping plate on the base is improved, the reliability of the first clamping assembly on the base is improved, the stability of the server mainboard placed on the base and clamped by the first clamping assembly is improved, the accuracy of the memory bank installation is improved, and the installation qualification rate and the installation efficiency of the memory bank are improved.

7. The second clamping assembly can enable the third clamping plate and the fourth clamping plate to be far away from or close to each other by pushing and pulling the adjusting rod so as to adjust the distance between the third clamping plate and the fourth clamping plate, realize the linkage of the third clamping plate and the fourth clamping plate, has simple structure and flexible operation, further reduces the labor intensity of operators, and improves the installation qualification rate and the installation efficiency of the memory bank.

8. According to the invention, the first supporting plate and the second supporting plate are connected with the base in a sliding manner, so that the base can be drawn out when the clamping mechanism is used for clamping the server mainboard towards the upper end surface of the base, thereby increasing the operation space on the base, facilitating an operator to clamp the server mainboard on the upper end surface of the base by using the clamping mechanism, reducing the operation difficulty of the operator and improving the installation efficiency of the memory bank. In addition, when the base slides to a proper position, the base and the support are fixed by the fastening piece, and the stability of the base is kept, so that the stability of the server mainboard placed on the base can be improved, the accuracy of memory bank installation is improved, and the installation qualification rate and the installation efficiency of the memory bank are improved.

Drawings

Fig. 1 is a diagram illustrating a state of a batch server motherboard memory bank installation apparatus according to a first embodiment;

fig. 2 is a schematic structural diagram of a batch mounting apparatus for memory banks on a server motherboard according to a second embodiment;

fig. 3 is a second schematic structural diagram of a batch mounting apparatus for memory banks on a motherboard of a server according to a second embodiment;

fig. 4 is a schematic structural diagram of a batch mounting apparatus for memory banks on a server motherboard according to a second embodiment;

fig. 5 is a diagram illustrating a state of the batch server motherboard memory bank installation apparatus according to the second embodiment;

fig. 6 is a usage state diagram of a batch memory bank installation apparatus for a server motherboard according to a third embodiment.

In the figure:

1-1-a first supporting plate, 1-2-a second supporting plate, 1-3-a top plate, 1-3-1-a pressing hole, 1-4-an installation guide groove, 1-5-a base guide groove, 1-6-a rotating hole,

2-base, 2-1-base guide strip, 2-2-handle, 2-3-first dovetail groove, 2-3-1-first fixed groove, 2-4-second dovetail groove, 2-4-1-second fixed groove, 2-5-mounting groove, 2-6-first slide hole, 2-7-second slide hole and 2-8-regulating slide hole,

3-memory bank loading plate, 3-1-memory bank loading hole,

4-mounting plate, 4-1-mounting guide block,

5-1-pressing rod, 5-2-pressing elastic piece,

6-a buffer pad is arranged on the upper surface of the bag,

7-1-a first splint, 7-1-1-a first sliding block, 7-1-2-a first fixing hole, 7-2-a second splint, 7-2-1-a second sliding block, 7-2-2-a second fixing hole, 7-3-a first fixing rod, 7-4-a second fixing rod,

8-1-third splint, 8-1-1-first slide bar, 8-2-fourth splint, 8-2-1-second slide bar,

9-1-adjusting rod, 9-1-1-second jack, 9-2-first connecting rod, 9-3-second connecting rod, 9-4-adjusting plate, 9-4-1-first jack, 9-5-adjusting jack,

10-1-rotating rod, 10-2-cam, 10-3-restoring elastic component, 10-4-spacing ring,

100-server mainboard, 101-memory bank.

Detailed Description

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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

a batch installation device for memory banks in a server mainboard is shown in figure 1 and comprises a support, a base 2, a memory bank loading plate 3 and an installation plate 4.

As shown in fig. 1, the bracket includes a first support plate 1-1, a second support plate 1-2, and a top plate 1-3. The first supporting plate 1-1 and the second supporting plate 1-2 are arranged side by side, and the upper end of the first supporting plate 1-1 and the upper end of the second supporting plate 1-2 are welded and fixed with the top plate 1-3.

As shown in FIG. 1, the base 2 is disposed between the first supporting plate 1-1 and the second supporting plate 1-2, and the lower end of the first supporting plate 1-1 and the lower end of the second supporting plate 1-2 are welded and fixed to the base 2.

As shown in fig. 1, the memory bank loading plate 3 is disposed between the top plate 1-3 and the base 2, the memory bank loading plate 3 is provided with a plurality of memory bank loading holes 3-1, and the first supporting plate 1-1 and the second supporting plate 1-2 are welded and fixed to the memory bank loading plate 3.

As shown in fig. 1, the mounting plate 4 is provided between the top plate 1-3 and the memory bank loading plate 3, and the mounting plate 4 is connected to the top plate 1-3 by a lifting mechanism.

As shown in fig. 1, the elevating mechanism includes a pressing rod 5-1 and a pressing elastic member 5-2. The top plate 1-3 is provided with a pressing hole 1-3-1, the pressing rod 5-1 is matched with the pressing hole 1-3-1, the pressing rod 5-1 can slide up and down in the pressing hole 1-3-1, and the lower end of the pressing rod 5-1 is welded and fixed with the mounting plate 4. The pressing elastic part 5-2 is arranged between the top plate 1-3 and the mounting plate 4, the pressing elastic part 5-2 adopts a spring, the spring is sleeved outside the pressing rod 5-1, the upper end of the spring is fixedly welded with the top plate 1-3, and the lower end of the spring is fixedly welded with the mounting plate 4.

As shown in FIG. 1, the first support plate 1-1 is provided with mounting guide grooves 1-4 on both the side near the second support plate 1-2 and the side near the first support plate 1-1 of the second support plate 1-2. The mounting plate 4 is fixedly welded with a mounting guide block 4-1, the mounting guide block 4-1 is matched with the mounting guide groove 1-4, and the mounting guide block 4-1 can slide up and down in the mounting guide groove 1-4. By arranging the installation guide grooves 1-4 and the installation guide blocks 4-1, the installation plate 4 can be prevented from swinging in the front, back, left and right directions during lifting, the installation plate 4 is enabled to be more stable when pressing the memory bank loading plate 3, the memory bank 101 is enabled to be more stable and accurate when being clamped into the memory slot on the server mainboard 100, the situation that the memory bank 101 is damaged and wasted due to scratch and collision is reduced, the rejection rate of the memory bank 101 is reduced, the cost of the memory bank 101 is reduced, and the installation qualification rate and the installation efficiency of the memory bank 101 are improved.

As shown in fig. 1, when a plurality of memory banks 101 need to be mounted on a server motherboard 100:

(1) the server motherboard 100 is inserted between the base 2 and the memory bank loading plate 3, and the position of the server motherboard 100 is adjusted, so that the memory slot on the server motherboard 100 corresponds to the memory bank loading hole 3-1 on the memory bank loading plate 3.

(2) The operator inserts the plurality of memory chips 101 into the memory chip loading hole 3-1 from the top down.

(3) An operator presses the pressing rod 5-1, so that the pressing rod 5-1 presses the mounting plate 4 to move the mounting plate 4 downwards, the mounting plate 4 presses the memory bank 101 in the memory bank loading hole 3-1 to clamp the memory bank 101 into the memory slot on the server mainboard 100, and batch installation of the memory banks 101 on the server mainboard 100 is completed.

In the process of moving the mounting plate 4 downwards, the mounting guide block 4-1 on the mounting plate 4 slides downwards in the mounting guide groove 1-4, the pressing rod 5-1 also slides downwards in the pressing hole 1-3-1, and the pressing elastic member 5-2 is in a state of being continuously stretched, and at the moment, the pressing elastic member 5-2 has upward elastic force.

(4) When the operator releases the pressing rod 5-1, the mounting plate 4 is not acted by the downward force of the pressing rod 5-1, and the mounting plate 4 is acted by the upward elastic force of the pressing elastic piece 5-2 to move upward.

During the upward movement of the mounting plate 4, the mounting guide block 4-1 on the mounting plate 4 slides upward in the mounting guide groove 1-4, and the pressing rod 5-1 also slides upward in the pressing hole 1-3-1.

(5) The operator only needs to take away the server motherboard 100 with the memory bank 101 installed.

Through the use process, the following steps are obtained: according to the server mainboard memory bank batch installation device provided by the embodiment, batch installation of the memory banks 101 on the server mainboard 100 is realized, and a plurality of memory banks 101 are manually clamped into memory slots on the server mainboard 100 one by an operator, so that the labor intensity of the operator is reduced, and the installation efficiency of the memory banks 101 is improved.

The device for batch installation of memory banks on a server motherboard according to the first embodiment is particularly suitable for a situation where a plurality of memory banks 101 need to be installed on a server motherboard 100.

Moreover, according to the batch installation device for memory banks in a server motherboard in this embodiment, the installation plate 4 can be used to vertically press all the memory banks 101 inserted into the memory bank loading holes 3-1 together, so that the memory banks 101 are stressed uniformly in the process of being clamped into the memory slots of the server motherboard 100, the memory banks 101 are prevented from being damaged and wasted due to uneven stress (for example, when the memory banks 101 are stressed unevenly, printed circuits on the memory banks 101 are easily bent and damaged to be wasted, when the memory banks 101 are stressed unevenly, gold fingers of the memory banks 101 are easily scratched by the memory slots of the server motherboard 100 to be wasted), the waste rate of the memory banks 101 is reduced, the increase of the cost of the memory banks 101 due to the waste of the memory banks 101 is avoided, the cost is reduced, and the installation qualification rate of the memory banks 101 is improved.

In addition, the lifting mechanism of the first embodiment can enable the mounting plate 4 to move downwards by pressing the pressing rod 5-1, and when the mounting plate 4 does not need to move downwards, the mounting plate 4 can move upwards to reset under the action of the pressing elastic piece 5-2, so that the lifting of the mounting plate 4 is simpler and more convenient, the operation of an operator is facilitated, the labor intensity and the difficulty of the operator are further reduced, and the efficiency of mounting the memory bank 101 is improved.

As shown in fig. 1, in order to avoid the occurrence of collision between the server main board 100 and the base 2 and damage the server main board 100, the cushion pad 6 made of sponge material is laid on the upper end surface of the base 2, so that the damage rate of the server main board 100 is reduced, and the cost increased due to the collision damage of the server main board 100 is reduced.

Example two:

in the batch installation process of the memory banks 101 according to the first embodiment, the server motherboard 100 may be skewed or slide due to a mis-touch of an operator or a shaking of the bracket, so that the memory banks 101 may not be aligned with the memory slots of the server motherboard 100.

In contrast, as shown in fig. 2, in the second embodiment, in addition to the first embodiment, a clamping mechanism for clamping the server board 100 is provided on the upper end surface of the chassis 2. The clamping mechanism comprises a first clamping assembly and a second clamping assembly. The first holding member holds the server board 100 from the front-rear direction, and the second holding member holds the server board 100 from the left-right direction.

As shown in fig. 2 and 3, the first clamping assembly includes a first clamping plate 7-1 and a second clamping plate 7-2 arranged side by side, both the first clamping plate 7-1 and the second clamping plate 7-2 are slidably connected to the base 2, the first clamping plate 7-1 is fixed to the base 2 by a first fixing member, and the second clamping plate 7-2 is fixed to the base 2 by a second fixing member.

Specifically, the method comprises the following steps: as shown in fig. 2, the upper end surface of the base 2 is provided with a first dovetail groove 2-3 and a second dovetail groove 2-4. The lower end of the first clamping plate 7-1 is fixedly welded with a first sliding block 7-1-1, the first sliding block 7-1-1 is matched with the first dovetail groove 2-3, and the first sliding block 7-1-1 can slide back and forth along the first dovetail groove 2-3. As shown in FIG. 3, the lower end of the second clamping plate 7-2 is welded and fixed with a second sliding block 7-2-1, the second sliding block 7-2-1 is matched with the second dovetail groove 2-4, and the second sliding block 7-2-1 can slide back and forth along the second dovetail groove 2-4.

As shown in fig. 2, the first clamping plate 7-1 is provided with a first fixing hole 7-1-2, the first slider 7-1-1 is provided with a first through hole (not shown in the figure), the bottom of the first dovetail groove 2-3 is provided with a plurality of first fixing grooves 2-3-1, the first fixing member is a first fixing rod 7-3, and the first fixing rod 7-3 is sequentially matched with the first fixing hole 7-1-2, the first through hole and the first fixing groove 2-3-1 from top to bottom. As shown in fig. 3, the second clamping plate 7-2 is provided with a second fixing hole 7-2-2, the second slider 7-2-1 is provided with a second through hole (not shown in the figure), the bottom of the second dovetail groove 2-4 is provided with a plurality of second fixing grooves 2-4-1, the second fixing member is a second fixing rod 7-4, and the second fixing rod 7-4 is sequentially matched with the second fixing hole 7-2-2, the second through hole and the second fixing groove 2-4-1 from top to bottom.

As shown in fig. 2, the second clamping assembly includes a third clamping plate 8-1 and a fourth clamping plate 8-2 arranged side by side. The third clamping plate 8-1 and the fourth clamping plate 8-2 are both connected with the base 2 in a sliding mode, and the third clamping plate 8-1 and the fourth clamping plate 8-2 are fixed with the base 2 through a distance adjusting assembly.

As shown in FIG. 4, the lower end surface of the base 2 is provided with an installation groove 2-5, the upper end surface of the base 2 is provided with a first sliding hole 2-6 and a second sliding hole 2-7, and the first sliding hole 2-6 and the second sliding hole 2-7 are both communicated with the installation groove 2-5. The lower end of the third clamping plate 8-1 is fixedly welded with a first slide bar 8-1-1, the lower end of the fourth clamping plate 8-2 is fixedly welded with a second slide bar 8-2-1, the first slide bar 8-1-1 is matched with the first slide hole 2-6, the first slide bar 8-1-1 can slide left and right along the first slide hole 2-6, the second slide bar 8-2-1 is matched with the second slide hole 2-7, and the second slide bar 8-2-1 can slide left and right along the second slide hole 2-7.

As shown in FIG. 4, the distance adjusting assembly is arranged in the mounting groove 2-5 and comprises an adjusting rod 9-1, a first connecting rod 9-2, a second connecting rod 9-3, an adjusting plate 9-4 and an adjusting inserted rod 9-5. The wall of the mounting groove 2-5 is provided with an adjusting slide hole 2-8, an adjusting rod 9-1 is matched with the adjusting slide hole 2-8, and the adjusting rod 9-1 can slide back and forth in the adjusting slide hole 2-8. The adjusting plate 9-4 is welded and fixed on the front side of the base 2, the adjusting plate 9-4 is provided with a first jack 9-4-1, the adjusting rod 9-1 is provided with a plurality of second jacks 9-1-1, and the adjusting inserted rod 9-5 is sequentially matched with the first jack 9-4-1 and the second jack 9-1-1. One end of the first connecting rod 9-2 is hinged with one end of the adjusting rod 9-1 far from the adjusting plate 9-4, one end of the first connecting rod 9-2 far from the adjusting rod 9-1 is hinged with the lower end of the first sliding rod 8-1-1, one end of the second connecting rod 9-3 far from the adjusting plate 9-4 is hinged with one end of the adjusting rod 9-1, and one end of the second connecting rod 9-3 far from the adjusting rod 9-1 is hinged with the lower end of the second sliding rod 8-2-1.

As shown in fig. 2, the first supporting plate 1-1 and the second supporting plate 1-2 are both slidably connected to the base 2, specifically: the base guide grooves 1-5 are formed in one side, close to the second support plate 1-2, of the first support plate 1-1 and one side, close to the first support plate 1-1, of the second support plate 1-2, the base guide strips 2-1 are welded and fixed to the side walls of the left side and the right side of the base 2, the base guide strips 2-1 are matched with the base guide grooves 1-5, and the base guide strips 2-1 can slide back and forth along the base guide grooves 1-5. And, the first supporting plate 1-1 and the second supporting plate 1-2 are both fixed with the base 2 through fasteners, and the fasteners adopt bolts or screws. By slidably connecting the first supporting plate 1-1 and the second supporting plate 1-2 with the base 2, the base 2 can be drawn out when the clamping mechanism is used to clamp the server motherboard 100 towards the upper end face of the base 2, so that the operating space on the base 2 is increased, and the clamping mechanism is conveniently used to clamp the server motherboard 100 on the upper end face of the base 2. Moreover, when the base 2 does not need to be slid, the base 2 and the support can be fixed by using the fastener, so that the stability of the base 2 is kept, the stability of the server mainboard 100 placed on the base 2 can be improved, the accuracy of the memory bank 101 installation is improved, and the installation qualification rate and the installation efficiency of the memory bank 101 are improved.

As shown in fig. 2, in order to facilitate the operator to slide the base 2, a handle 2-2 is welded and fixed to the front end of the base 2.

As shown in fig. 5, when a plurality of memory banks 101 need to be installed on the server motherboard 100, the operation process of the second embodiment is the same as that of the first embodiment, except that step (1) and step (5) of the second embodiment are different from that of the first embodiment. The method comprises the following specific steps:

(1) the operator holds the handle 2-2 and pulls the base 2 forward, so that the base 2 is drawn out from between the first supporting plate 1-1 and the second supporting plate 1-2, so as to expose the upper end surface of the base 2. The server board 100 is placed on the upper end face of the chassis 2.

Firstly, the first fixing rod 7-3 is sequentially pulled out from the first fixing groove 2-3-1, the first through hole and the first fixing hole 7-1-2 from bottom to top, and at the moment, the first clamping plate 7-1 can slide on the base 2; sliding the first clamping plate 7-1 backward causes the first clamping plate 7-1 to slide to a proper position, where the first clamping plate 7-1 slides to a proper position is a position where the first clamping plate 7-1 contacts with the front side of the server main board 100; the first fixing rod 7-3 is inserted into the first fixing hole 7-1-2, the first perforation and the first fixing groove 2-3-1 from top to bottom in sequence, and then the position of the first clamping plate 7-1 is fixed.

Then, the second fixing rod 7-4 is sequentially pulled out from the second fixing groove 2-4-1, the second through hole and the second fixing hole 7-2-2 from bottom to top, and the second clamping plate 7-2 can slide on the base 2; sliding the second clamping plate 7-2 forward to slide the second clamping plate 7-2 to a proper position, wherein the proper position to which the second clamping plate 7-2 slides refers to a position at which the second clamping plate 7-2 can clamp the server main board 100 with the first clamping plate 7-1 in the front-rear direction; and the second fixing rod 7-4 is inserted into the second fixing hole 7-2-2, the second perforation and the second fixing groove 2-4-1 from top to bottom in sequence, and the position of the second clamping plate 7-2 is also fixed.

Then, the adjusting inserted rod 9-5 is sequentially pulled out from the second jack 9-1-1 and the first jack 9-4-1, and the adjusting rod 9-1 can slide in the adjusting slide hole 2-8; the adjusting rod 9-1 is pulled forwards, the adjusting rod 9-1 pulls the first connecting rod 9-2 and the second connecting rod 9-3, the included angle between the first connecting rod 9-2 and the second connecting rod 9-3 is reduced, and therefore the third clamping plate 8-1 and the fourth clamping plate 8-2 are close to each other until the distance between the third clamping plate 8-1 and the fourth clamping plate 8-2 is proper, and the proper distance between the third clamping plate 8-1 and the fourth clamping plate 8-2 means that the third clamping plate 8-1 and the fourth clamping plate 8-2 can clamp the server mainboard 100 from the left direction and the right direction, and the adjusting rod 9-1 is stopped being pulled; the adjusting inserted rod 9-5 is inserted into the first inserting hole 9-4-1 and the second inserting hole 9-1-1 in sequence, at the moment, the position of the adjusting rod 9-1 is fixed, and the distance between the third clamping plate 8-1 and the fourth clamping plate 8-2 is also fixed.

Through the above process, fixing the server board 100 to the upper end surface of the chassis 2 using the clamping mechanism is also completed.

Finally, the base 2 is pushed backwards, when the base 2 is slid to a proper position, the proper position means that the memory slot on the server motherboard 100 can correspond to the memory chip loading hole 3-1 on the memory chip loading plate 3, and at this time, the first supporting plate 1-1 and the second supporting plate 1-2 are fixed with the base 2 by using the fastener.

(5) When the operator takes away the server motherboard 100 with the memory bank 101 installed:

an operator takes down the fastener for fixing the first supporting plate 1-1 and the base 2 and the fastener for fixing the second supporting plate 1-2 and the base 2, at the moment, the base 2 is in a slidable state, the operator holds the handle 2-2 and pulls the base 2 forwards, so that the base 2 is pulled out from between the first supporting plate 1-1 and the second supporting plate 1-2, and the upper end face of the base 2 is exposed.

Firstly, the first fixing rod 7-3 is sequentially pulled out from the first fixing groove 2-3-1, the first through hole and the first fixing hole 7-1-2 from bottom to top, and at the moment, the first clamping plate 7-1 can slide on the base 2; the first clip 7-1 is slid forward to move the first clip 7-1 away from the server main board 100.

Then, the second fixing rod 7-4 is sequentially pulled out from the second fixing groove 2-4-1, the second through hole and the second fixing hole 7-2-2 from bottom to top, and the second clamping plate 7-2 can slide on the base 2; the second clamping plate 7-2 is slid backward so that the second clamping plate 7-2 and the first clamping plate 7-1 cannot clamp the server board 100 in the front-rear direction.

Then, the adjusting inserted rod 9-5 is sequentially pulled out from the second jack 9-1-1 and the first jack 9-4-1, and the adjusting rod 9-1 can slide in the adjusting slide hole 2-8; the adjusting rod 9-1 is pushed backwards, the adjusting rod 9-1 pushes the first connecting rod 9-2 and the second connecting rod 9-3, so that the included angle between the first connecting rod 9-2 and the second connecting rod 9-3 is increased, the third clamping plate 8-1 and the fourth clamping plate 8-2 are far away from each other, the server mainboard 100 cannot be clamped by the third clamping plate 8-1 and the fourth clamping plate 8-2 from the left-right direction, and the adjusting rod 9-1 is stopped being pulled.

At this time, the server board 100 with the memory bank 101 mounted thereon may be removed.

Through the use process, the following steps are obtained: in the second embodiment of the present invention, the server motherboard 100 can be fixed by using the clamping mechanism to keep the server motherboard 100 placed on the base 2 stable, even if the server motherboard 100 is touched by an operator by mistake or the support is shaken, the server motherboard 100 will not be skewed or slide, so as to avoid the situation that the memory bank 101 cannot be aligned with the memory slot of the server motherboard 100, because once the memory bank 101 cannot be aligned with the memory slot of the server motherboard 100, the memory bank 101 cannot be installed, the installation efficiency of the memory bank 101 is reduced, the memory bank 101 is wasted due to scratch, and the cost is increased, so that the second embodiment of the present invention can ensure the normal installation of the memory bank 101, improve the installation efficiency and the installation qualification rate, and avoid the memory bank 101 being wasted due to collision, the waste of the memory bank 101 is avoided, and the cost is reduced.

Moreover, the clamping mechanism of the second embodiment can clamp the server boards 100 with different dimensions, so that the flexibility of the batch installation device for memory banks of the server boards of the second embodiment is improved.

In addition, by arranging the first dovetail groove 2-3 and the second dovetail groove 2-4, when the first clamping plate 7-1 and the second clamping plate 7-2 in the first clamping assembly slide on the base 2, the first slider 7-1-1 of the first clamping plate 7-1 can be blocked by the groove wall of the first dovetail groove 2-3 and can not be separated from the first dovetail groove 2-3 upwards, and the second slider 7-2-1 of the second clamping plate 7-2 can be blocked by the groove wall of the second dovetail groove 2-4 and can not be separated from the second dovetail groove 2-4 upwards, so that the reliability of the first clamping plate 7-1 and the second clamping plate 7-2 on the base 2 is improved, the reliability of the first clamping assembly on the base 2 is improved, the stability of the server main board 100 placed on the base 2 and clamped by the first clamping assembly is improved, the accuracy of the installation of the memory bank 101 is improved, the installation qualification rate and the installation efficiency of the memory bank 101 are improved, and once the memory bank 101 is unqualified to be installed, rework is needed, so that the installation efficiency is reduced.

The second clamping assembly can enable the third clamping plate 8-1 and the fourth clamping plate 8-2 to be far away from or close to each other by pushing and pulling the adjusting rod 9-1, so that the distance between the third clamping plate 8-1 and the fourth clamping plate 8-2 can be adjusted, the linkage of the third clamping plate 8-1 and the fourth clamping plate 8-2 is realized, the structure is simple, the operation is flexible, the labor intensity of operators is further reduced, and the installation qualification rate and the installation efficiency of the memory bank 101 are improved.

Example three:

the third embodiment is the same as the second embodiment, except that in the third embodiment, the batch mounting device for memory banks in the server motherboard is provided. As shown in fig. 6, the lifting mechanism includes a rotating rod 10-1, a cam 10-2, and a return elastic member 10-3. The first supporting plate 1-1 and the second supporting plate 1-2 are rotatably connected with the rotating rod 10-1, the cam 10-2 is fixedly welded with the rotating rod 10-1, the cam 10-2 is matched with the mounting plate 4, the elastic resetting piece 10-3 is arranged between the top plate 1-3 and the mounting plate 4, the elastic resetting piece 10-3 is a spring, the upper end of the spring is fixedly welded with the top plate 1-3, and the lower end of the spring is fixedly welded with the mounting plate 4.

As shown in fig. 6, in particular, the structure for realizing the rotational connection between the first support plate 1-1 and the second support plate 1-2 and the rotating rod 10-1 is as follows: the first supporting plate 1-1 and the second supporting plate 1-2 are respectively provided with a rotating hole 1-6, the rotating rod 10-1 is in clearance fit with the rotating hole 1-6, and the rotating rod 10-1 can rotate in the rotating hole 1-6.

As shown in FIG. 6, the first supporting plate 1-1 and the second supporting plate 1-2 are both provided with a limiting ring 10-4 at the side far from the second supporting plate 1-2 and the side far from the first supporting plate 1-1, the outer diameter of the limiting ring 10-4 is larger than the aperture of the rotating hole 1-6, and the limiting ring 10-4 is welded and fixed with the rotating rod 10-1. By arranging the limiting ring 10-4, the rotating rod 10-1 can only rotate but cannot slide left and right, so that the rotating rod 10-1 can be prevented from being pulled out of the rotating hole 1-6, the rotating stability of the rotating rod 10-1 is improved, the efficiency of installing the memory bank 101 is improved, once the rotating rod 10-1 is pulled out of the rotating hole 1-6, an operator needs to insert the rotating rod 10-1 into the rotating hole 1-6 again, the time for installing the memory bank 101 is prolonged by the operation, and the efficiency of installing the memory bank 101 is reduced.

As shown in fig. 6, when a plurality of memory banks 101 need to be installed on the server motherboard 100, the operation process of the third embodiment is the same as that of the second embodiment, but the difference is that step (3) and step (4) of the third embodiment are different from that of the second embodiment. The method comprises the following specific steps:

(3) an operator rotates the rotating rod 10-1 clockwise, the cam 10-2 welded and fixed with the rotating rod 10-1 rotates clockwise along with the rotating rod 10-1, in the process that the cam 10-2 rotates clockwise, the far end a of the cam 10-2 is continuously close to the mounting plate 4, in the process that the far end a of the cam 10-2 is continuously close to the mounting plate 4, the cam 10-2 can press the mounting plate 4 to enable the mounting plate 4 to move downwards, the mounting plate 4 presses the memory bank 101 in the memory bank loading hole 3-1 to enable the memory bank 101 to be clamped into the memory slot on the server mainboard 100, and therefore batch installation of the memory bank 101 on the server mainboard 100 is completed.

In the process of moving the mounting plate 4 downwards, the mounting guide block 4-1 on the mounting plate 4 slides downwards in the mounting guide groove 1-4, the reset elastic piece 10-3 is in a state of being continuously stretched, and the reset elastic piece 10-3 has upward elastic force.

(4) An operator rotates the rotating rod 10-1 anticlockwise, the cam 10-2 welded and fixed with the rotating rod 10-1 rotates anticlockwise along with the rotating rod 10-1, the far end a of the cam 10-2 is continuously far away from the mounting plate 4 in the process that the cam 10-2 rotates anticlockwise, and the mounting plate 4 moves upwards under the action of the upward elastic force of the resetting elastic piece 10-3 in the process that the far end a of the cam 10-2 is continuously far away from the mounting plate 4. During the upward movement of the mounting plate 4, the mounting guide blocks 4-1 on the mounting plate 4 slide upward in the mounting guide grooves 1-4.

Through the use process, the following steps are obtained: compared with the first embodiment or the second embodiment in which the mounting plate 4 is pressed down by pressing the pressing rod 5-1, the third embodiment can rotate the rotating rod 10-1 at one side of the bracket to enable the mounting plate 4 to move down under the pressing of the cam 10-2, so that an operator can observe the mounting condition of the memory bank 101 while rotating the rotating rod 10-1, so that when the memory bank 101 is about to bend and damage is wasted, the pressing down of the mounting plate 4 is stopped in time, the mounting plate 4 is continuously pressed after the memory bank 101 is adjusted to mount the memory bank 101, the memory bank 101 is prevented from being wasted due to bending and damage of the memory bank 101, the cost of the memory bank 101 is reduced, and the mounting qualification rate and the mounting efficiency of the memory bank 101 are improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. The batch installation device for the memory chips of the server mainboard is characterized by comprising a support, a base, a memory chip loading plate and an installation plate, wherein the support comprises a first support plate, a second support plate and a top plate;

the clamping mechanism is used for clamping the server mainboard and comprises a first clamping assembly and a second clamping assembly;

the first clamping assembly comprises a first clamping plate and a second clamping plate which are arranged side by side, the first clamping plate and the second clamping plate are both connected with the base in a sliding mode, when the first clamping plate slides to a proper position, the first clamping plate is fixed with the base through a first fixing piece, and when the second clamping plate slides to a proper position, the second clamping plate is fixed with the base through a second fixing piece;

the second clamping assembly comprises a third clamping plate and a fourth clamping plate which are arranged side by side, a mounting groove is formed in the lower end face of the base, a first sliding hole and a second sliding hole are formed in the upper end face of the base, a first sliding rod matched with the first sliding hole is arranged at the lower end of the third clamping plate, and a second sliding rod matched with the second sliding hole is arranged at the lower end of the fourth clamping plate;

when the distance between third splint and the fourth splint is in good time, third splint and fourth splint are fixed with the base through the distance adjustment subassembly, the distance adjustment subassembly is located in the mounting groove, the distance adjustment subassembly is including adjusting the pole, the regulating plate, adjust the inserted bar, the head rod, the second connecting rod, the cell wall of mounting groove is equipped with the regulation slide opening, adjust the pole and adjust the slide opening cooperation, the base is equipped with the regulating plate, the regulating plate is equipped with first jack, it is equipped with a plurality of second jacks to adjust the pole, adjust the inserted bar in proper order with first jack, the cooperation of second jack, the one end of head rod is articulated with the one end that the regulating plate was kept away from to the regulation pole, the one end that the regulation pole was kept away from to the head rod is articulated with the lower extreme of first slide bar, the one end of regulating plate was kept away from to the head rod is articulated with the one end of adjusting the pole, the one end that the regulation pole was kept away from to the head rod of second connecting rod is articulated with the lower extreme of second slide bar.

2. The batch server motherboard memory bank installation apparatus as claimed in claim 1, wherein the lifting mechanism comprises a pressing rod and a pressing elastic member, the top plate is provided with a pressing hole, the pressing rod is engaged with the pressing hole, the pressing rod slides up and down in the pressing hole, the lower end of the pressing rod is connected with the mounting plate, and the mounting plate is connected with the top plate through the pressing elastic member.

3. The batch mounting device for memory chips on a server motherboard as recited in claim 1, wherein the elevating mechanism comprises a rotating rod, a cam and a return elastic member, the first supporting plate and the second supporting plate are rotatably connected to the rotating rod, the cam is engaged with the mounting plate, and the mounting plate is connected to the top plate through the return elastic member.

4. The apparatus of claim 1, wherein the first support plate has a mounting guide slot on a side thereof adjacent to the second support plate, and the second support plate has a mounting guide slot on a side thereof adjacent to the first support plate, the mounting plate has a mounting guide block engaged with the mounting guide slot, and the mounting guide block slides up and down in the mounting guide slot.

5. The batch mounting device for the memory stick in the server mainboard according to claim 1, wherein a first dovetail groove and a second dovetail groove are arranged on the upper end face of the base, a first slide block matched with the first dovetail groove is arranged at the lower end of a first clamp plate, the first clamp plate is provided with a first fixing hole, the first slide block is provided with a first through hole, a plurality of first fixing grooves are arranged at the bottom of the first dovetail groove, and a first fixing rod matched with the first fixing hole, the first through hole and the first fixing groove in sequence from top to bottom is adopted as the first fixing piece;

the lower extreme of second splint be equipped with second dovetail complex second slider, the second splint are equipped with the second fixed orifices, the second slider is equipped with the second and perforates, the tank bottom of second dovetail is equipped with a plurality of second fixed slots, the second mounting adopt from the top down in proper order with second fixed orifices, second perforation, second fixed slot complex second dead lever.

6. The device of claim 1, wherein the first support plate and the second support plate are slidably connected to the base, and when the base is slid into place, the first support plate and the second support plate are fixed to the base by fasteners.

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