CN215181783U - Tool-free dismounting structure of server case and RISER module - Google Patents

Abstract

The utility model discloses a server machine case and RISER module exempt from instrument dismouting structure, relate to the dismouting technical field of server machine case and RISER module, including fixed establishment and protruding structure, the outer wall of RISER module is equipped with fixed establishment, the inner wall of server machine case is equipped with protruding structure, when fixed establishment butt protruding structure, protruding structure prevents that the RISER module extracts from server machine incasement, fixed establishment includes mounting panel and spacing elastic component, the mounting panel is connected with the RISER module, the upper end and the mounting panel of spacing elastic component are connected, the lower extreme of spacing elastic component is equipped with spacing portion, when spacing portion butt protruding structure, protruding structure prevents that the RISER module extracts from server machine incasement. The utility model discloses fixed establishment's structure can be simplified, the processing degree of difficulty is reduced, the cost is saved.

Description

Tool-free dismounting structure of server case and RISER module

Technical Field

The utility model relates to a dismouting technical field of server machine case and RISER module, concretely relates to instrument dismouting structure of exempting from of server machine case and RISER module.

Background

The installation of the RISER module in the server chassis requires the RISER module to be restricted from moving in the vertical direction in the server chassis, i.e., the RISER module is prevented from being pulled out upward from the server chassis.

Chinese patent application No. CN202022571983.8 discloses an electronic device and a fixing mechanism thereof. In this patent, referring to fig. 1, a projection structure 2 is provided in a server casing 3, the projection structure 2 is a projected columnar structure, a fixing mechanism 1 is provided on a RISER module 4, and the fixing mechanism 1 includes a rotor 10, a contact member 20, an operation member 30, and an elastic member 40. The rotating member 10 is pivotally disposed on the RISER module 4, the abutting member 20 is pivotally disposed on the rotating member 10 and can be linked with the rotating member 10, and when the rotating member 10 rotates relative to the RISER module 4, the abutting member 20 can be driven to move between a first orientation (as shown in fig. 2) and a second orientation (as shown in fig. 3) relative to the RISER module 4. When abutment 20 is in the first orientation, abutment 20 can abut projection structure 2 and projection structure 2 can prevent RISER module 4 from being pulled up from within server chassis 3. When the abutment 20 is urged by the rotating member 10 to the second orientation, the abutment 20 can be relatively far from the protruding structure 2, at which time the RISER module 4 can be pulled upwards out of the server chassis 3. The operating element 30 may include a through portion 31 and a fixing portion 32, and one end of the operating element 30 (e.g., the fixing portion 32) can abut against one end of the rotating element 10 relatively far from the abutting element 20, so that the movement of the operating element 30 can drive the rotating element 10 to drive the abutting element 20. The elastic member 40 can be used to drive the rotation member 10 to rotate in a specific direction, so that the abutment member 20 can be maintained in the first orientation through the rotation member 10.

The fixing mechanism 1 in the prior art is complex in structure, processing difficulty is increased, and cost is increased.

Therefore, how to simplify the structure of the fixing mechanism to reduce the processing difficulty and save the cost is a technical problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the above-mentioned not enough to prior art exists provides a server machine case and RISER module exempt from instrument dismouting structure, the utility model discloses can simplify fixed establishment's structure, reduce the processing degree of difficulty, save the cost.

In order to realize the purpose, the utility model discloses a technical scheme is:

the utility model provides a server machine case and RISER module exempt from instrument dismouting structure, including fixed establishment and protruding structure, the outer wall of RISER module is equipped with fixed establishment, the inner wall of server machine case is equipped with protruding structure, when fixed establishment butt protruding structure, protruding structure prevents that the RISER module extracts from server machine incasement, fixed establishment includes mounting panel and spacing elastic component, the mounting panel is connected with the RISER module, the upper end and the mounting panel of spacing elastic component are connected, the lower extreme of spacing elastic component is equipped with spacing portion, when spacing portion butt protruding structure, protruding structure prevents that the RISER module extracts from server machine incasement.

Further, spacing elastic component adopts the torsional spring, the torsional spring including the free end, the spring coil that connect gradually spacing portion, the spring coil pin joint in the upper end of mounting panel, the free end locate the mounting panel with between the RISER module, one side that the RISER module was kept away from to the mounting panel is located to spacing portion.

Furthermore, a pivoting cylinder is arranged at the upper end of the mounting plate, a avoiding groove is formed in the pivoting cylinder, a pin shaft is arranged in the pivoting cylinder, the spring coil is arranged in the avoiding groove, and the pin shaft is matched with the spring coil.

Furthermore, one end of the pin shaft is provided with a first blocking part, the other end of the pin shaft is provided with a second blocking part, and the pivot connecting cylinder is arranged between the first blocking part and the second blocking part.

Furthermore, the second blocking part adopts a split ring, one end of the pin shaft, which is far away from the first blocking part, is provided with an annular groove, and the annular groove is matched with the split ring.

Furthermore, a placing groove is formed in one side, close to the RISER module, of the mounting plate, and the placing groove is matched with the free end.

Further, the mounting plate is connected to the RISER module by a fastener.

The utility model discloses beneficial effect who has:

1. compare with the fixed establishment's among the background art structure, the utility model provides a fixed establishment's structure is more simple, and the dismouting is simple and convenient, thereby can reduce the utility model discloses a processing degree of difficulty is favorable to saving the cost.

In addition, in the process of dismounting the server case and the RISER module, bolts and screws are not needed, so that a screwdriver and a wrench tool are not needed, namely, tool-free dismounting is realized, and the dismounting efficiency of the server case and the RISER module is favorably improved.

2. The utility model discloses an adopt the torsional spring as spacing elastic component, can conveniently draw materials, further reduce the utility model discloses a processing degree of difficulty.

3. The utility model discloses an adopt the round pin axle will be as the torsional spring of spacing elastic component and install together with the pin joint section of thick bamboo of mounting panel upper end for the assembly is simple, is favorable to improving the dismouting efficiency as the torsional spring of spacing elastic component and mounting panel, and then further convenient the utility model discloses a dismouting.

4. The utility model discloses a set up first stop part and the second stop part that is used for centre gripping pivot section of thick bamboo on selling the axle, can prevent that the round pin axle from falling out in the pivot section of thick bamboo of mounting panel upper end to improved the installation stability of round pin axle in a pivot section of thick bamboo, reduced the probability that mounting panel and the torsional spring as spacing elastic component break away from then, improved the utility model discloses a structural firmness nature.

5. The utility model discloses an adopt the split ring as second stop part to sell epaxial setting be used for with split ring complex ring channel, only need detain the split ring on the ring channel, just can be in the same place split ring and round pin axle installation, only need take off the split ring, just can split ring and round pin axle, make the split ring simple and convenient with the dismouting of round pin axle, thereby can conveniently regard as the dismouting of the torsional spring of spacing elastic component and mounting panel, be favorable to further improving the utility model discloses a dismouting efficiency.

6. The utility model discloses a be close to RISER module one side at the mounting panel and set up the standing groove that is used for placing the torsional spring free end, can hide the free end of torsional spring in the standing groove to let one side that the mounting panel is close to the RISER module can paste and lean on the RISER module, just also increased the area of contact of mounting panel and RISER module, be favorable to improving the firm degree that mounting panel and RISER module were installed together then, and then alleviate the vibration that takes place between mounting panel and the RISER module, be favorable to reducing server noise inside.

7. The utility model discloses an use the fastener to assemble mounting panel and RISER module, can make things convenient for the dismouting of mounting panel and RISER module, be favorable to improving the efficiency of dismouting mounting panel and RISER module, be favorable to further improving then the utility model discloses a dismouting efficiency.

Drawings

FIG. 1 is a prior art block diagram;

FIG. 2 is a state diagram one of the prior art;

FIG. 3 is a state diagram of the prior art two;

FIG. 4 is a structural view of the elastic member of the embodiment;

FIG. 5 is a block diagram of the pin of the embodiment;

FIG. 6 is a block diagram of an embodiment mounting plate;

FIG. 7 is a first block diagram of a securing mechanism according to an embodiment;

FIG. 8 is a second structural view of a fixing mechanism of the embodiment;

FIG. 9 is a block diagram of the chassis of the embodiment;

FIG. 10 is a block diagram of a RISER module of an embodiment;

FIG. 11 is a first block diagram of the assembly of the embodiment chassis and RISER module;

FIG. 12 is a second assembled view of the embodiment chassis and RISER module;

fig. 13 is a disassembled structure view of the embodiment chassis and RISER module.

Description of reference numerals:

1-a fixing mechanism, 10-a rotating part, 20-an abutting part, 30-an operating part, 31-a penetrating part, 32-a fixing part, 40-an elastic part, 50-a mounting plate, 51-a pivoting barrel, 52-a avoiding groove, 53-a pin shaft, 531-a first blocking part, 532-a second blocking part, 533-an annular groove, 54-a placing groove, 55-a fastening part, 60-a limiting elastic part, 61-a free end, 62-a spring ring and 63-a limiting part,

2-the structure of the protrusion is shown,

3-a server machine box, wherein,

4-the RISER module is used for carrying out the operation,

5-chassis.

Detailed Description

For a better understanding of the present invention, reference is made to the following description taken in conjunction with the accompanying drawings. It is noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example (b):

as shown in fig. 4-13, a tool-free dismounting structure of a server chassis and a RISER module comprises a fixing mechanism 1 and a protrusion structure 2.

A chassis 5 shown in fig. 9 is fixed in the server chassis by screws, and the chassis 5 is used for accommodating the RISER module 4, as shown in fig. 11.

As shown in fig. 9, the inner wall of the chassis 5 is provided with a protruding structure 2, and the protruding structure 2 adopts a protruding column structure.

As shown in fig. 10, the outer wall of the RISER module 4 is provided with the fixing mechanism 1 as shown in fig. 7 and 8.

As shown in fig. 7 and 8, the fixing mechanism 1 includes a mounting plate 50 and a stopper elastic member 60.

As shown in fig. 10, the mounting plate 50 is fixed to the RISER module 4 by a fastener 55, and the fastener 55 is a rivet. Through assembling mounting panel 50 and RISER module 4 with fastener 55, can make things convenient for the dismouting of mounting panel 50 and RISER module 4, be favorable to improving the efficiency of dismouting mounting panel 50 and RISER module 4.

As shown in fig. 4, the elastic limiting member 60 is a torsion spring including a free end 61, a coil 62 and a limiting portion 63 connected in sequence. Materials can be conveniently obtained by adopting the torsional spring as the limiting elastic part 60.

As shown in fig. 6 and 7, the upper end of the mounting plate 50 is provided with a pivot cylinder 51, the pivot cylinder 51 is provided with a space-avoiding groove 52, a spring coil 62 is arranged in the space-avoiding groove 52, a pin shaft 53 is arranged in the pivot cylinder 51, and the pin shaft 53 is inserted in the inner ring of the spring coil 62. When the mounting plate 50 and the torsion spring serving as the limiting elastic piece 60 need to be assembled, the pin shaft 53 is directly inserted into the pivot barrel 51 at the upper end of the mounting plate 50 and the coil 62 of the torsion spring; when the mounting plate 50 and the torsion spring serving as the limiting elastic member 60 need to be detached, the pin shaft 53 is directly pulled out from the pivot tube 51 at the upper end of the mounting plate 50 and the coil 62 of the torsion spring. Through the above process, the torsion spring serving as the limiting elastic member 60 is mounted together with the mounting plate 50 by the pin shaft 53, so that the assembly is simple, and the efficiency of mounting and dismounting the torsion spring serving as the limiting elastic member 60 and the mounting plate 50 is improved.

As shown in fig. 5, one end of the pin 53 is provided with a first blocking portion 531, and the other end of the pin 53 is provided with a second blocking portion 532, and as shown in fig. 7 or 8, the pivot cylinder 51 is disposed between the first blocking portion 531 and the second blocking portion 532. Through set up first barrier 531 and second barrier 532 that is used for centre gripping pivot section of thick bamboo 51 on round pin axle 53, can prevent that round pin axle 53 from falling out in the pivot section of thick bamboo 51 of mounting panel 50 upper end to improved the installation stability of round pin axle 53 in pivot section of thick bamboo 51, then reduced the probability that mounting panel 50 and the torsional spring as spacing elastic component 60 break away from, improved structural firmness.

As shown in fig. 5, the second blocking portion 532 is a split ring, and the pin 53 is provided with an annular groove 533 at an end far from the first blocking portion 531, and the annular groove 533 is engaged with the split ring. When the torsion spring serving as the limiting elastic member 60 needs to be assembled with the mounting plate 50, the coil 62 of the torsion spring needs to be inserted into the avoiding groove 52, then the pin shaft 53 is inserted into the pivot tube 51 and the coil 62 at the upper end of the mounting plate 50, and then the opening ring is buckled at the position of the annular groove 533 of the pin shaft 53, so that the pivot tube 51 at the upper end of the mounting plate 50 can be clamped between the first blocking part 531 and the second blocking part 532, thereby completing the installation of the torsion spring serving as the limiting elastic member 60 and the mounting plate 50. When the torsion spring and the mounting plate 50 which are used as the limiting elastic pieces 60 need to be disassembled, the split ring needs to be taken down from the pin shaft 53, then the pin shaft 53 is pulled out, and the torsion spring and the mounting plate 50 which are used as the limiting elastic pieces 60 can be disassembled. As can be seen from the process of attaching and detaching the torsion spring serving as the limit elastic member 60 to and from the mounting plate 50, the split ring and the pin shaft 53 are easily attached and detached, and the torsion spring serving as the limit elastic member 60 and the mounting plate 50 are also easily attached and detached, which is advantageous for improving the efficiency of attaching and detaching the fixing mechanism 1.

As shown in fig. 8, the mounting plate 50 is provided with a placement groove 54 at a side close to the RISER module 4, and the placement groove 54 places the free end 61 of the torsion spring so as to sandwich the free end 61 of the torsion spring between the mounting plate 50 and the RISER module 4. Through being close to RISER module 4 one side at mounting panel 50 and setting up the standing groove 54 that is used for placing torsional spring free end 61, can hide the free end 61 of torsional spring in standing groove 54, thereby let one side that mounting panel 50 is close to RISER module 4 can paste and lean on RISER module 4, mounting panel 50 and RISER module 4's area of contact has just also been increased, then be favorable to improving the firmness that mounting panel 50 and RISER module 4 were installed together, and then alleviate the vibration that takes place between mounting panel 50 and the RISER module 4, be favorable to reducing server noise inside. If the placement groove 54 is not provided, the free end 61 of the torsion spring is sandwiched between the mounting plate 50 and the RISER module 4, so that the mounting plate 50 and the RISER module 4 cannot be abutted together, the contact area between the mounting plate 50 and the RISER module 4 is reduced, and when the server is operated, the mounting plate 50 and the RISER module 4 easily collide with each other, thereby causing vibration noise.

As shown in fig. 10, the stopper 63 is provided on the mounting plate 50 on the side away from the RISER module 4.

As shown in fig. 11 and 12, when the stopper 63 abuts against the projecting structure 2, the projecting structure 2 prevents the RISER module 4 from being pulled out from the server chassis.

When the server chassis and the RISER module 4 need to be assembled: firstly, a worker is required to press the limiting part 63 at the lower end of the torsion spring to enable the limiting part 63 to be close to the RISER module 4, as shown in fig. 13; the RISER module 4 is then inserted down into the chassis 5; finally, the pressing of the limiting part 63 is released, the limiting part 63 of the torsion spring resets under the action of the elastic force of the torsion spring, so that the limiting part 63 is hooked on the protruding structure 2, as shown in fig. 12, when the RISER module 4 is pulled upwards, the protruding structure 2 can block the limiting part 63, so that the fixing mechanism 1 cannot move upwards, the RISER module 4 installed together with the fixing mechanism 1 cannot move upwards to pull out the chassis 5 in the server chassis, and therefore the assembly of the server chassis and the RISER module 4 is achieved.

When the server case and the RISER module 4 need to be detached: firstly, a worker is required to press the limiting part 63 at the lower end of the torsion spring to enable the limiting part 63 to be close to the RISER module 4, and at the moment, the protruding structure 2 cannot block the limiting part 63, as shown in fig. 13; then the RISER module 4 is pulled upwards, and the RISER module 4 which is installed together with the fixing mechanism 1 is moved out of the chassis 5 in the server case, namely, the server case and the RISER module 4 are separated.

The dismounting process of the server chassis and the RISER module 4 can know that: compared with the structure of the fixing mechanism 1 in the background art, the structure of the fixing mechanism 1 in the embodiment is simpler, and the disassembly and the assembly are simple and convenient, so that the processing difficulty of the embodiment can be reduced, and the cost can be saved. In addition, in the process of dismounting the server case and the RISER module 4, bolts and screws are not used, so that a screwdriver and a spanner are not needed, namely, tool-free dismounting is realized, and the dismounting efficiency of the server case and the RISER module 4 is improved.

It will be apparent to those skilled in the art that various changes and modifications may be made 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 and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (7)

1. The utility model provides a server machine case and RISER module exempt from instrument dismouting structure, includes fixed establishment and protruding structure, and the outer wall of RISER module is equipped with fixed establishment, and the inner wall of server machine case is equipped with protruding structure, its characterized in that, fixed establishment includes mounting panel and spacing elastic component, the mounting panel with the RISER module is connected, and the upper end and the mounting panel of spacing elastic component are connected, and the lower extreme of spacing elastic component is equipped with spacing portion, at spacing portion butt during protruding structure, protruding structure prevents that the RISER module is followed server machine incasement extracts.

2. The tool-free dismounting structure of server chassis and RISER module according to claim 1, wherein said spacing elastic member is a torsion spring, said torsion spring comprises a free end, a spring coil, said spacing portion, said spring coil is pivoted to the upper end of said mounting plate, said free end is located between said mounting plate and said RISER module, said spacing portion is located on one side of said mounting plate away from RISER module.

3. The tool-free dismounting structure of server chassis and RISER module according to claim 2, wherein said mounting plate has a pivot cylinder at its upper end, said pivot cylinder has a clearance groove, said pivot cylinder has a pin inside, said spring coil is disposed in said clearance groove, said pin is engaged with said spring coil.

4. The tool-less mounting/dismounting structure of server housing and RISER module as claimed in claim 3, wherein said one end of said pin is equipped with a first stopper, said another end of said pin is equipped with a second stopper, said pivot cylinder is installed between said first stopper and said second stopper.

5. The tool-less mounting and dismounting structure of server housing and RISER module as claimed in claim 4, wherein the second barrier is a split ring, and the pin has a ring groove at an end far from the first barrier, and the ring groove is engaged with the split ring.

6. The tool-less mounting/dismounting structure of server housing and RISER module as claimed in claim 2, wherein said mounting plate is provided with a placement groove on a side close to said RISER module, said placement groove being engaged with said free end.

7. The tool-less mounting and dismounting structure of server chassis and RISER module of claim 1, wherein said mounting plate is connected to said RISER module by fasteners.

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