CN112272482B - Assembled server cabinet - Google Patents

Abstract

The invention discloses an assembled server cabinet, and relates to the field of servers. The method comprises the following steps: the equipment cabinet comprises a mounting bottom plate, a mounting top plate, a cabinet framework structure arranged between the mounting bottom plate and the mounting top plate and enclosing plates attached to three adjacent side surfaces of the cabinet framework structure; the cabinet framework structure at least comprises: the equipment cabinet middle supporting plates are multiple groups with the same structure and used for supporting the servers; the supporting upright posts are used for supporting the cabinet middle supporting plate; the assembly connecting pieces are used for connecting and fixing the cabinet middle supporting plate and the supporting upright columns, the mounting bottom plate and the supporting upright columns and the mounting top plate and the supporting upright columns; the connecting piece assembling grooves are formed in the middle supporting plate, the mounting bottom plate and the mounting top plate of the cabinet and used for assembling and splicing the connecting pieces; the coaming fixing mechanism is arranged on the coaming and used for detachably assembling the coaming on the cabinet framework structure.

Description

Assembled server cabinet

Technical Field

The invention relates to the technical field of servers, in particular to an assembled server cabinet.

Background

The server cabinet is an auxiliary device for loading the server, and in the using process, the transportation and the transportation of the server cabinet and the installation of the server to the inside of the cabinet in the later period are involved.

However, the existing server cabinets are all integrated cabinets, the size is large, the transportation and the transportation are inconvenient, and in the process of installing the servers into the cabinets, only one operation space for an entrance of the cabinet is provided, so that the installation of the servers and even the later maintenance are very inconvenient. To improve this, a split mounting type server cabinet needs to be designed.

Disclosure of Invention

The invention provides an assembled server cabinet, which aims to solve the technical problems in the prior art.

In order to solve the technical problems, the technical scheme of the invention is as follows:

pin-connected panel server rack includes:

the equipment cabinet comprises an installation bottom plate, an installation top plate, a cabinet framework structure arranged between the installation bottom plate and the installation top plate and enclosing plates attached to three adjacent side surfaces of the cabinet framework structure;

the cabinet framework structure at least comprises:

the equipment cabinet middle supporting plates are multiple groups with the same structure and used for supporting the servers;

the supporting upright posts are used for supporting the cabinet middle supporting plate;

the assembling connecting pieces are used for connecting and fixing the cabinet middle supporting plate and the supporting upright columns, the mounting bottom plate and the supporting upright columns and the mounting top plate and the supporting upright columns;

the connecting piece assembling grooves are formed in the cabinet middle supporting plate, the mounting bottom plate and the mounting top plate and used for assembling the assembling connecting pieces;

and the enclosing plate fixing mechanism is arranged on the enclosing plate and used for detachably assembling the enclosing plate on the cabinet framework structure.

Preferably, the splicing connecting member comprises:

a middle support column;

and the threaded columns are two groups with the same structure and are respectively and coaxially connected with the two ends of the middle support column body.

Preferably, the two end faces of the support upright post are both provided with threaded grooves matched with the threaded posts.

Preferably, the connecting piece assembling groove is a cylinder groove matched with the middle support cylinder;

an assembly through hole communicated with the connecting piece assembly groove is formed in the cabinet middle supporting plate and used for enabling the middle supporting column to penetrate through;

and the mounting bottom plate and the mounting top plate are provided with threaded through holes which are communicated with the connecting piece assembling grooves and matched with the threaded columns.

Preferably, the coaming is a hollow shell plate-like structure.

Preferably, the coaming fixing mechanism at least comprises:

the lower limiting structure is arranged at the edge of the upper surface of the middle supporting plate of the cabinet and the edge of the upper surface of the mounting bottom plate and is used for limiting and supporting the lower end of the enclosing plate;

the upper limiting structure is arranged at the edge of the lower surface of the middle supporting plate of the cabinet and the edge of the lower surface of the mounting top plate;

and the movable limiting inserted rod structure is arranged on the enclosing plate and is inserted into the upper limiting structure to limit and support the upper end of the enclosing plate.

Preferably, the lower limiting structure is a strip-shaped limiting groove for accommodating the lower end of the enclosing plate.

Preferably, the upper limit structure is a cylindrical limit groove for accommodating the movable limit inserted rod structure.

Preferably, the movable limit inserted link structure comprises:

the assembling support plate is horizontally fixed inside the coaming;

the horizontal supporting rod is horizontally arranged inside the enclosing plate;

the telescopic inserted rods are two groups with the same structure and are fixed at two ends of the horizontal supporting rod in parallel;

the first openings are two groups of the first openings which are arranged on the upper end face of the enclosing plate and are in one-to-one correspondence with the two groups of the telescopic insertion rods, and the telescopic insertion rods extend out of the enclosing plate through the first openings and are inserted into the cylindrical limiting grooves;

the second openings are two groups of openings formed in the assembly supporting plate and are in one-to-one correspondence with the two groups of telescopic insertion rods;

the compression springs are two groups of same structures, are coaxially sleeved on the two groups of telescopic insertion rods in a one-to-one correspondence mode, are positioned between the assembly supporting plate and the horizontal supporting rod and are always in a compressed state;

the pulling handle is arranged on the horizontal supporting rod;

and the vertical guide opening is formed in the side surface of the enclosing plate and used for enabling the pulling handle to extend out of the enclosing plate, and the pulling handle moves along the axial extending direction of the vertical guide opening so as to drive the horizontal support rod to move.

Preferably, a cabinet door is arranged on one side, adjacent to the enclosing plate, of the cabinet framework structure.

The invention has the following beneficial effects:

the assembled server cabinet adopts the integrally assembled form of the cabinet body, not only can be disassembled into parts in the transferring and transporting process, reduces the transporting volume and is convenient to transport, but also can be disassembled firstly and put into the house and then installed in an equipment room in the installing process. And the whole of the cabinet body is the installation mode of stage, can assemble some with the cabinet body earlier after, assemble rack skeleton texture at first promptly, after possessing the function of bearing the weight of the server, the bounding wall adopts the form of back installation around it, just so can settle the server before the bounding wall installation around, but operating space greatly increased when making the server installation, and when needs maintain the server, can be through the convenient dismantlement bounding wall of bounding wall fixed establishment, maintain the server again, increase operating space, and the work efficiency is improved. Meanwhile, the whole device is fast and convenient to mount and dismount, and the supporting stability is good.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an assembled server cabinet according to the present invention;

FIG. 2 is a side view of a modular server rack of the present invention;

FIG. 3 is a top view of a mounting base plate of the pin-connected panel server rack of the present invention;

FIG. 4 is a bottom view of a mounting top plate of the pin-connected panel server rack of the present invention;

FIG. 5 is a top view of a cabinet intermediate tray of the modular server cabinet of the present invention;

FIG. 6 is a bottom view of a cabinet intermediate tray of the pin-connected panel server cabinet of the present invention;

FIG. 7 is a schematic structural diagram of a movable limiting insertion rod structure of the assembled server cabinet of the present invention;

FIG. 8 is an enlarged view of A in FIG. 1 of the sectional server rack of the present invention;

fig. 9 is an enlarged view of B in fig. 1 of the assembled server cabinet of the present invention;

fig. 10 is an enlarged view of C in fig. 1 of the assembled server cabinet of the present invention.

The reference numerals in the figures denote:

1. mounting a bottom plate; 2. installing a top plate; 3. enclosing plates; 4. a cabinet middle supporting plate; 5. supporting the upright post; 6. a connector assembly groove; 7. a middle support column; 8. a threaded post; 9. a threaded groove; 10. assembling the through hole; 11. a threaded through hole; 12. a strip-shaped limiting groove; 13. a cylindrical limiting groove; 14. assembling a support plate; 15. a horizontal support bar; 16. a telescopic inserted link; 17. a first opening; 18. a second opening; 19. a compression spring; 20. pulling the handle; 21. a vertical guide opening; 22. a cabinet door.

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.

Referring to fig. 1-10, the assembled server cabinet includes:

the equipment cabinet comprises a mounting bottom plate 1, a mounting top plate 2, a cabinet framework structure arranged between the mounting bottom plate 1 and the mounting top plate 2 and enclosing plates 3 externally attached to three adjacent side surfaces of the cabinet framework structure;

the cabinet framework structure at least comprises:

the equipment cabinet middle supporting plates 4 are multiple groups with the same structure and used for supporting the servers;

the supporting upright posts 5 are used for supporting the cabinet middle supporting plate 4;

the assembly connecting pieces are used for connecting and fixing the cabinet middle supporting plate 4 and the supporting upright post 5, the mounting bottom plate 1 and the supporting upright post 5 and the mounting top plate 2 and the supporting upright post 5;

the connecting piece assembling grooves 6 are formed in the cabinet middle supporting plate 4, the mounting bottom plate 1 and the mounting top plate 2 and used for assembling and splicing connecting pieces;

and the coaming 3 is provided with a coaming fixing mechanism for detachably assembling the coaming 3 on the cabinet framework structure.

The splicing connecting piece comprises:

a middle support column 7;

and the threaded columns 8 are two groups with the same structure and are respectively and coaxially connected to the two ends of the middle support column body 7.

And threaded grooves 9 matched with the threaded columns 8 are formed in the two end faces of the supporting upright post 5.

The connecting piece assembling groove 6 is a cylinder groove matched with the middle support cylinder 7;

an assembly through hole 10 communicated with the connecting piece assembly groove 6 is formed in the cabinet middle supporting plate 4 so that the middle supporting column body 7 can penetrate through the assembly through hole;

and threaded through holes 11 communicated with the connecting piece assembling grooves 6 and matched with the threaded columns 8 are formed in the mounting bottom plate 1 and the mounting top plate 2.

The coaming 3 is a hollow shell plate-shaped structure.

The coaming fixing mechanism at least comprises:

the lower limiting structures are arranged at the edge of the upper surface of the cabinet middle supporting plate 4 and the edge of the upper surface of the mounting base plate 1 and are used for limiting and supporting the lower end of the enclosing plate 3;

the upper limiting structure is arranged at the edge of the lower surface of the cabinet middle supporting plate 4 and the edge of the lower surface of the mounting top plate 2;

and the movable limiting inserted bar structure is arranged on the enclosing plate 3 and is inserted in the upper limiting structure to limit and support the upper end of the enclosing plate 3.

The lower limiting structure is a strip-shaped limiting groove 12 for accommodating the lower end of the coaming 3.

The upper limiting structure is a cylindrical limiting groove 13 for accommodating the movable limiting inserted rod structure.

The movable spacing inserted bar structure includes:

the assembly supporting plate 14, the assembly supporting plate 14 is horizontally fixed inside the coaming 3;

the horizontal support rod 15, the horizontal support rod 15 is set up in the interior of coaming 3 horizontally;

the telescopic inserted bars 16 are two groups with the same structure and are fixed at two ends of the horizontal supporting bar 15 in parallel;

the first openings 17 are two groups of openings arranged on the upper end face of the enclosing plate 3 and are arranged in one-to-one correspondence with the two groups of telescopic insertion rods 16, and the telescopic insertion rods 16 extend out of the enclosing plate 3 through the first openings 17 and are inserted into the cylindrical limiting grooves 13;

the second openings 18 are two groups of the second openings 18 which are arranged on the assembly supporting plate 14 and are in one-to-one correspondence with the two groups of the telescopic inserting rods 16;

the compression springs 19 are two groups of same structures, are coaxially sleeved on the two groups of telescopic insertion rods 16 in a one-to-one correspondence mode, and are positioned between the assembly supporting plate 14 and the horizontal supporting rod 15 and are always in a compressed state;

the pulling handle 20 is arranged on the horizontal support rod 15;

and a vertical guide opening 21, the vertical guide opening 21 is opened on the side surface of the coaming 3 to make the pulling handle 20 extend out of the coaming 3, and the pulling handle 20 moves along the extending direction of the axis of the vertical guide opening 21 to drive the horizontal support rod 15 to move.

And a cabinet door 22 is arranged on one side of the cabinet framework structure adjacent to the coaming 3.

The working principle is as follows:

this device adopts the form that the whole of the cabinet body can be assembled, not only can dismantle into spare part in transportation and transportation, reduces the transportation volume, and convenient transportation also can dismantle earlier in the installation, and the indoor reinstallation of entering equipment. And the whole of the cabinet body is the installation mode of stage, can assemble some with the cabinet body earlier, assemble rack skeleton texture at first promptly, after possessing the function of bearing the weight of the server, bounding wall 3 adopts the form of back installation around it, just so can settle the server before 3 installations of bounding wall around, but operating space greatly increased when making the server installation, and when needs maintain the server, can be through convenient dismantlement bounding wall 3 of bounding wall fixed establishment, maintain the server again, increase operating space, and the work efficiency is improved. Meanwhile, the whole device is fast and convenient to mount and dismount, and the supporting stability is good.

Specifically, in the process of assembling the device, firstly, the installation bottom plate 1 is positioned at the bottom of the whole device, and the installation top plate 2 is positioned at the top of the whole device. And then the splicing connecting pieces in the framework structure of the cabinet are used for connecting and fixing the middle supporting plate 4 and the supporting upright post 5 of the cabinet, the mounting bottom plate 1 and the supporting upright post 5 and the mounting top plate 2 and the supporting upright post 5. Specifically, put into connecting piece assembly groove 6 on mounting plate 1 with middle support cylinder 7 among the assembly connecting piece earlier, make middle support cylinder 7 wherein the screw thread post 8 screw in of one end carry out the screw thread fixation in the screw thread through-hole 11 on mounting plate 1 simultaneously, mounting plate 1 top is installed support post 5 again, and make the screw thread fixed connection between the screw thread recess 9 of support post 5 one end and the screw thread post 8 of the support cylinder 7 other end of fixing on mounting plate 1, make support cylinder 7 fix on mounting plate 1, wherein the quantity that support cylinder 7 on mounting plate 1 set up can be three and above quantity, in order to can stable support the rack middle layer board 4 on the upper strata. Similarly, when the cabinet middle supporting plate 4 is installed above the supporting column 7 and the supporting column 7, the middle supporting column 7 of the splicing connecting piece is firstly put into the connecting piece assembling groove 6 on the cabinet middle supporting plate 4, meanwhile, a threaded column 8 at one end of the middle supporting column body 7 extends out from an assembly through hole 10 on the cabinet middle supporting plate 4 to be in threaded fixation with a threaded groove 9 on the supporting upright column 5, then another set of supporting upright column 5 and the cabinet middle supporting plate 4 are continuously installed above the cabinet middle supporting plate 4 until the supporting upright column is installed on the connecting installation top plate 2, the middle support column 7 in the splicing connecting piece is put into the connecting piece assembling groove 6 on the mounting top plate 2, meanwhile, the threaded column 8 at one end of the middle supporting column body 7 is screwed into the threaded through hole 11 on the mounting top plate 2 for threaded fixation, and the threaded column 8 at the other end of the middle supporting column body 7 is further in threaded fixation with the threaded groove 9 on the supporting column 5 below the mounting top plate 2. Assemble the completion between rack skeleton texture and mounting plate 1 and the installation roof 2 this moment, rack skeleton texture has had the ability of supporting and bearing the weight of the server, utilizes rack middle supporting plate 4 bearing server among the rack skeleton texture this moment to in the time of line installation and regulation and control, rack skeleton texture all is open space all around, makes the operating space of server installation work bigger, convenient and fast more.

The shroud 3 is then installed. The coaming 3 is a hollow shell plate-shaped structure. Make 3 lower extremes of bounding wall aim at the below limit structure in the bounding wall fixed establishment, bar limit groove 12 promptly, and carry out spacing support in making 3 lower extremes of bounding wall embedding bar limit groove 12, the top limit structure is aimed at to 3 upper ends of bounding wall afterwards, cylindricality limit groove 13 promptly, it pegs graft in cylindricality limit groove 13 and comes spacing fixed to carry out to the 3 upper ends of bounding wall to recycle movable spacing inserted bar structure, then can make 3 installations of whole bounding wall fix to the rack skeleton texture on, and all block with 3 blocks of bounding wall of the adjacent three side of rack skeleton texture, the cabinet door 22 that the fourth side utilization can the switch blocks. In the process of inserting the movable limit inserted link structure into the cylindrical limit groove 13, the horizontal support rod 15 in the movable limit inserted link structure is firstly used for supporting the telescopic inserted link 16, and the pulling handle 20 is pulled to drive the horizontal support rod 15 and the telescopic inserted link 16 to move up and down. Wherein the second opening 18 on the assembly support plate 14 plays the effect of the flexible inserted bar 16 of auxiliary stay to can hold flexible inserted bar 16 and remove, the same first opening 17 on bounding wall 3 in addition can hold flexible inserted bar 16 and remove, and make flexible inserted bar 16 stretch out in bounding wall 3 and insert and carry out spacing fixed to the bounding wall 3 upper end in the spacing recess 13 of cylindricality. When the pulling handle 20 is pulled, the pulling handle 20 moves in the vertical guide opening 21, so that the vertical guide opening 21 plays a role in guiding the pulling handle 20, so that the pulling handle 20 can drive the telescopic insertion rod 16 to move up and down. Wherein compression spring 19 is located between assembly support plate 14 and the horizontal support rod 15 and is in compression state all the time, and at the in-process that flexible inserted bar 16 moved down, flexible inserted bar 16 will leave the spacing recess 13 of cylindricality, will compress compression spring 19 simultaneously to make follow-up when unclamping pulling handle 20 make flexible inserted bar 16 can get back to initial position under the effect of the restoring force of compression spring 19, in order to insert pulling handle 20 in to carry out spacing fixed to bounding wall 3 upper end.

The mounting bottom plate 1, the mounting top plate 2, the coaming 3 and the cabinet middle supporting plate can be provided with vent holes, so that the cabinet body has a good ventilation and heat dissipation effect. Meanwhile, the enclosing plate 3 can be provided with wiring holes or wiring openings, so that wiring is convenient after the server is installed. The mounting base plate 1 can also be provided with moving parts such as brake casters and the like, so that the cabinet body can be conveniently moved after being mounted.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (9)

1. Pin-connected panel server rack, its characterized in that includes:

the cabinet frame structure comprises a mounting bottom plate (1), a mounting top plate (2), a cabinet frame structure arranged between the mounting bottom plate (1) and the mounting top plate (2), and enclosing plates (3) attached to three adjacent side surfaces of the cabinet frame structure;

the cabinet framework structure at least comprises:

the equipment cabinet middle supporting plates (4) are multiple groups with the same structure and used for supporting the servers;

a support column (5), the support column (5) being used to support the cabinet intermediate pallet (4);

the assembling connecting pieces are used for connecting and fixing the cabinet middle supporting plate (4) and the supporting upright post (5), the mounting bottom plate (1) and the supporting upright post (5) and the mounting top plate (2) and the supporting upright post (5);

the connecting piece assembling grooves (6) are formed in the cabinet middle supporting plate (4), the mounting bottom plate (1) and the mounting top plate (2) and used for assembling the assembling connecting pieces;

the coaming (3) is provided with a coaming fixing mechanism for detachably assembling the coaming (3) on the cabinet framework structure;

the splicing connecting piece comprises:

a middle support column (7);

and the threaded columns (8) are two groups with the same structure and are respectively and coaxially connected to two ends of the middle support column body (7).

2. The assembled server cabinet as claimed in claim 1, wherein two end faces of the support column (5) are provided with threaded grooves (9) matching with the threaded columns (8).

3. The assembled server cabinet according to claim 2, wherein the connector fitting groove (6) is a cylinder groove matching the intermediate support cylinder (7);

an assembly through hole (10) communicated with the connecting piece assembly groove (6) is formed in the cabinet middle supporting plate (4) and is used for enabling the middle supporting column (7) to penetrate through;

and the mounting bottom plate (1) and the mounting top plate (2) are provided with threaded through holes (11) which are communicated with the connecting piece assembling grooves (6) and matched with the threaded columns (8).

4. The fabricated server cabinet according to claim 1, wherein the enclosure (3) is a hollow shell plate-like structure.

5. The erectable server cabinet as in claim 4, wherein the enclosure securing mechanism comprises at least:

the lower limiting structure is arranged at the edge of the upper surface of the cabinet middle supporting plate (4) and the edge of the upper surface of the mounting bottom plate (1) and is used for limiting and supporting the lower end of the enclosing plate (3);

the upper limiting structure is arranged at the edge of the lower surface of the cabinet middle supporting plate (4) and the edge of the lower surface of the mounting top plate (2);

and the movable limiting inserted rod structure is arranged on the enclosing plate (3) and is inserted into the upper limiting structure to limit and support the upper end of the enclosing plate (3).

6. The assembled server cabinet as claimed in claim 5, wherein the lower limiting structure is a strip-shaped limiting groove (12) for accommodating the lower end of the coaming (3).

7. The fabricated server cabinet according to claim 5, wherein the upper limit structure is a cylindrical limit groove (13) into which a movable limit insertion rod structure is inserted.

8. The erectable server cabinet as in claim 7, wherein the movable limiting insertion rod structure comprises:

the assembling support plate (14), the assembling support plate (14) is horizontally fixed inside the coaming (3);

the horizontal supporting rod (15), the horizontal supporting rod (15) is horizontally arranged in the coaming (3);

the telescopic inserted rods (16) are two groups with the same structure and are fixed at two ends of the horizontal supporting rod (15) in parallel;

the first openings (17) are two groups of openings formed in the upper end face of the enclosing plate (3) and are in one-to-one correspondence with the two groups of telescopic insertion rods (16), and the telescopic insertion rods (16) extend out of the enclosing plate (3) through the first openings (17) and are inserted into the cylindrical limiting grooves (13);

the second openings (18) are two groups of openings formed in the assembly supporting plate (14) and are in one-to-one correspondence with the two groups of telescopic inserting rods (16);

the compression springs (19) are two groups with the same structure, are coaxially sleeved on the two groups of telescopic insertion rods (16) in a one-to-one correspondence mode, and are located between the assembly supporting plate (14) and the horizontal supporting rod (15) and are always in a compression state;

the pulling handle (20), the pulling handle (20) is arranged on the horizontal supporting rod (15);

and the vertical guide opening (21) is formed in the side surface of the enclosing plate (3) to enable the pulling handle (20) to extend out of the enclosing plate (3), and the pulling handle (20) moves along the axial extending direction of the vertical guide opening (21) to drive the horizontal support rod (15) to move.

9. The assembled server cabinet according to any one of claims 1 to 8, wherein a cabinet door (22) is provided on a side of the cabinet framework structure adjacent to the enclosure (3).

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