CN210168346U - Server cabinet and modularized splicing cabinet door thereof - Google Patents

Abstract

The utility model discloses a modularization concatenation cabinet door, set up on it and splice mutually including door body frame and detachably and form the cover a plurality of door plant modules of door body frame's front panel, and each including among the door plant module predetermine the proportion, be used for radiating ventilating board. Because the front panel arranged on the door body frame consists of a plurality of door panel modules which are respectively and independently detachably arranged, when the door body part of the machine cabinet is damaged by impact and the like and needs to be maintained, only the door panel module corresponding to the damaged part needs to be detached and replaced, compared with the prior art, the whole machine cabinet door does not need to be detached and replaced, the maintenance cost is saved, and the maintainability of the machine cabinet door is improved; simultaneously, the ventilation board of proper proportion has improved its radiating efficiency on the basis that guarantees that the rack door possesses sufficient structural strength in the door plant module. The utility model discloses still disclose a server rack, its beneficial effect as above.

Description

Server cabinet and modularized splicing cabinet door thereof

Technical Field

The utility model relates to a server technical field, in particular to modularization concatenation cabinet door. The utility model discloses still relate to a server rack.

Background

With the development of the electronic technology in China, more and more electronic devices have been widely used.

Servers are important components in electronic devices, and are devices that provide computing services. Since the server needs to respond to and process the service request, the server generally has the capability of assuming and securing the service. The server is divided into a file server, a database server, an application server, a WEB server and the like according to different service types provided by the server. The main components of the server include a processor, a hard disk, a memory, a system bus, etc., and are similar to a general-purpose computer architecture, but the server is required to have high processing capability, stability, reliability, security, expandability, manageability, etc., because it needs to provide highly reliable services.

In the big data era, a large number of IT devices are centrally placed in cabinets of data centers. These data centers include various types of servers, storage, switches, and a large number of enclosures and other infrastructure. Each type of IT equipment is composed of various hardware boards, such as a computing module, a storage module, a chassis, a fan module, and the like, the heat productivity of the equipment is considerable, and IT is necessary to ensure that the server chassis has sufficient heat dissipation efficiency.

In order to improve the heat dissipation efficiency of the server chassis, a whole-plate mesh stamping process is often adopted for a door plate of the server chassis in the prior art so as to punch out the maximum number of pores and improve the ventilation efficiency. However, because the surface area of the server panel is fixed and has hard requirements on the protection capability and the structural strength, the structural strength loss of the cabinet door is large due to the punching of the mesh of the whole board, the impact resistance is greatly reduced, the heat dissipation performance is improved and not compensated to a small extent at the cost of sacrificing the large structural strength, and in addition, the heat dissipation performance of the cabinet door has a marginal diminishing effect. Moreover, when the cabinet door is partially damaged, cracked or sunken and needs to be maintained, the whole cabinet door can only be completely disassembled on the cabinet at one time by adopting the whole plate mesh punching processing, and then the brand new cabinet door is replaced, so that the maintenance cost is too high.

Therefore, how to improve the maintenance performance of the cabinet door, reduce the maintenance cost, and improve the heat dissipation efficiency on the basis of ensuring enough structural strength is a technical problem faced by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a modularization concatenation cabinet door can improve the maintainability of cabinet door, reduces the maintenance cost, improves the heat dissipation efficiency simultaneously on the basis of guaranteeing enough structural strength. Another object of the utility model is to provide a server rack.

In order to solve the technical problem, the utility model provides a modularization concatenation cabinet door, set up on it and splice mutually including door body frame and detachably and form and cover a plurality of door plant modules of door body frame's front panel, and each including the door plant module in the predetermined proportion, be used for radiating ventilating board.

Preferably, each ventilation board all seted up a plurality of on the surface be netted distribution and the ventilation hole that link up.

Preferably, each door panel module further includes a reinforcing plate in a preset proportion for improving the structural strength of the front panel.

Preferably, each of the ventilation board and the reinforcing board are distributed on the door frame along the length direction thereof.

Preferably, each reinforcing plate is located between two adjacent ventilating plates.

Preferably, two side walls of each reinforcing plate are detachably connected with two adjacent side walls of the ventilating plate.

Preferably, sliding plates are arranged on two side walls of each reinforcing plate, and sliding grooves used for sliding in a matched mode with the sliding plates are arranged on the side walls of the ventilating plates.

Preferably, each door panel module is a quadrilateral plate, and the side edges of the two ends of each door panel module are respectively connected to the side beams at the two sides of the door body frame.

The utility model also provides a server cabinet, including the cabinet body with set up in modularization concatenation cabinet door on the cabinet body, wherein, modularization concatenation cabinet door specifically is above-mentioned arbitrary the modularization concatenation cabinet door.

The utility model provides a modularization concatenation cabinet door mainly includes door body frame and door plant module. The door body frame is a main body structure of the cabinet door and is an installation structure of the door panel module during splicing installation. The door plant module divide into a plurality of pieces, and every door plant module all detachably installs on door body frame, conveniently maintains and dismouting operation independently separately. And after all the door panel modules are installed on the door body frame, the door panel modules are spliced to form an integral front panel, and the front panel can cover the door body frame to protect the server parts inside the door body frame. Meanwhile, the door panel module comprises a ventilation board with a preset proportion, and the main function of the part of the ventilation board is not to form protection, but is used for ventilation and heat dissipation (certainly, the door panel module also has a certain protection function). Obviously, the proportion of the ventilation board in all door panel modules is designed in advance, and needs to be adjusted according to the structural strength requirement of the current cabinet door, so as to ensure that the cabinet door has at least the lowest allowable structural strength. Thus, the modular spliced cabinet door provided by the utility model has the advantages that the front panel arranged on the door body frame consists of a plurality of door panel modules which are respectively and independently detachably arranged, so that when the cabinet door part is damaged by impact and the like and needs to be maintained, only the door panel module corresponding to the damaged part needs to be dismantled and replaced, compared with the prior art, the whole cabinet door does not need to be dismantled and replaced, the maintenance cost is saved, and the maintainability of the cabinet door is improved; simultaneously, the ventilation board of proper proportion has improved its radiating efficiency on the basis that guarantees that the rack door possesses sufficient structural strength in the door plant module.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is an exploded view of an embodiment of the present invention.

Fig. 2 is an overall structure diagram of an embodiment of the present invention.

Fig. 3 is an exploded view of the panel form shown in fig. 1.

Wherein, in fig. 1-3:

the door body comprises a door body frame-1, a door panel template-2, a ventilating plate-201 and a reinforcing plate-202.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic overall structure diagram of an embodiment of the present invention,

the utility model provides an among the specific embodiment, modularization concatenation cabinet door mainly includes door body frame 1 and door plant module 2.

The door body frame 1 is a main body structure of the cabinet door and is an installation structure of the door panel module 2 during splicing installation. The door panel module 2 is divided into a plurality of pieces, and each door panel module 2 is detachably mounted on the door body frame 1, so that maintenance and dismounting operations can be conveniently and independently carried out. After being mounted on the door frame 1, each door panel module 2 is spliced to form an integral front panel, and the front panel can cover the door frame 1 to protect the internal server components.

Meanwhile, the door panel module 2 includes a ventilation board 201 with a preset ratio, and the main function of the part of the ventilation board 201 is not to form protection, but to be used for ventilation and heat dissipation (certainly, the part of the ventilation board has a certain degree of protection function). Obviously, the proportion of the ventilation board 201 in all the door panel modules 2 is designed in advance, for example, the proportion of the ventilation board 201 may be generally 60% to 80%, and the like, and needs to be adjusted according to the structural strength requirement of the current cabinet door, so as to ensure that the cabinet door has at least the lowest allowable structural strength. There are of course also situations where the ventilation board 201 is 100%.

Thus, according to the modular spliced cabinet door provided by the embodiment, the front panel arranged on the door frame 1 consists of the plurality of door panel modules 2 which are respectively and independently detachably arranged, so that when the cabinet door part is damaged by impact and the like and needs to be maintained, only the door panel module 2 corresponding to the damaged part needs to be removed and replaced, compared with the prior art, the whole cabinet door does not need to be removed and replaced, the maintenance cost is saved, and the maintainability of the cabinet door is improved; simultaneously, the ventilation board 201 of appropriate proportion has improved its radiating efficiency on the basis that the assurance rack door possesses sufficient structural strength in door plant module 2.

As shown in fig. 2, fig. 2 is an overall structural diagram of an embodiment of the present invention.

In a preferred embodiment of the ventilation board 201, a plurality of ventilation holes are opened on the surface of the ventilation board 201. Specifically, each vent hole can be circular or hexagonal, each vent hole is the perforating hole, and a plurality of vent holes splice each other and form the mesh structure. The heat that the part gived off in the server rack can discharge to the external world through each ventilation hole smoothly.

As shown in fig. 3, fig. 3 is an exploded view of the panel form shown in fig. 1.

For on the basis of guaranteeing high ventilation rate, improve the overall structure intensity and the barrier propterty of cabinet door as far as possible, in this embodiment, each door plant module 2 still includes a plurality of reinforcing plate 202. Specifically, the proportion of the reinforcing plate 202 may be generally 20% to 40%, which is complementary to the proportion of the ventilation board 201. Each reinforcing plate 202 is made of a hard material with high strength, such as steel alloy or aluminum alloy.

Meanwhile, in order to ensure that the ventilation rate of the cabinet door is uniform and the structural strength is uniform, each ventilation plate 201 and each reinforcing plate 202 can be uniformly distributed on the door body frame 1 along the length direction thereof. Specifically, ventilation board 201 and reinforcing plate 202 can crisscross the distribution to each reinforcing plate 202 can be located respectively between two adjacent ventilation boards 201, and reinforcing plate 202 is as the connecting piece between two ventilation boards 201 promptly, thereby utilizes reinforcing plate 202's joint action to improve the stability of connection and the structural strength between the three, and has guaranteed to regard the ventilation rate of a subassembly with the three.

Further, considering that the heat generation amount of different components in the server cabinet is generally different, and the specific settings of different components in the server cabinet are also different, for this reason, in this embodiment, the specific distribution positions of the ventilation boards 201 on the cabinet door need to correspond to the distribution form of the components in the server cabinet, generally, each ventilation board 201 can be specifically quadrilateral, such as trapezoid, and the like, the bottom edge and the top edge of each ventilation board are connected to the door body frame 1, the specific length can be flexibly adjusted, and meanwhile, the inclined waist edge of each ventilation board is also adjusted in angle according to the heat distribution condition of the components in the server cabinet, so as to ensure that the covering surface of the ventilation board 201 faces the components with large heat generation amount as much as possible. Of course, the specific shape of each ventilation board 201 is not limited to a quadrilateral, and other complex planar patterns, such as those with curved sides, may be used as well.

In addition, considering that the service life, the impact resistance and the loss of each ventilation board 201 and the reinforcing board 202 in the door panel module 2 are different, in order to facilitate the independent disassembly and assembly and maintenance, in the present embodiment, the two side walls of each reinforcing board 202 are detachably connected with the side walls of the two ventilation boards 201 adjacent to each other. Specifically, for facilitating the disassembly and assembly, two side walls of each reinforcing plate 202 are provided with sliding plates, and meanwhile, sliding grooves matched with the sliding plates for sliding are formed in the side walls of the ventilating plates 201. So set up, through the sliding fit of the spout on slide on the reinforcing plate 202 and the ventilating board 201, can conveniently realize dismantling between the two through the mode of relative slip and be connected to when certain ventilating board 201 or certain reinforcing plate 202 accident damage and need maintain or change, the staff can conveniently dismantle it get off, and only need maintain or change the part of damage can, need not whole block door plant whole change, saved cost of maintenance.

Of course, the connection manner between the reinforcing plate 202 and the ventilation plate 201 is not limited to the above-mentioned fitting structure of the sliding plate and the sliding groove, and other structures such as fastening connection between the side wall of the reinforcing plate 202 and the side wall of the ventilation plate 201 by a fastener such as a bolt and the like can also be adopted.

This embodiment still uses a server rack, mainly includes the cabinet body and sets up the modularization concatenation cabinet door on the cabinet body, and wherein, the main content of this modularization concatenation cabinet door is the same with above-mentioned relevant content, and it is no longer repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a modularization concatenation cabinet door, its characterized in that includes door body frame (1) and detachably set up on it and splice mutually and form a plurality of door plant modules (2) that cover the front panel of door body frame (1), and each door plant module (2) including in the preset proportion, be used for radiating ventilating board (201).

2. The modular splicing cabinet door according to claim 1, wherein a plurality of through ventilation holes are formed in the surface of each ventilation plate (201) in a net-shaped distribution.

3. The modular cabinet door according to claim 1, wherein each door panel module (2) further comprises a reinforcing plate (202) in a predetermined ratio for improving the structural strength of the front panel.

4. The modular splicing cabinet door according to claim 3, wherein each of the ventilation board (201) and the reinforcing board (202) are distributed on the door frame (1) along the length direction thereof.

5. The modular splice cabinet door according to claim 4, characterized in that each reinforcement plate (202) is located between two adjacent ventilation plates (201).

6. The modular cabinet door according to claim 5, wherein two sidewalls of each reinforcement plate (202) are detachably connected to sidewalls of two adjacent ventilation plates (201).

7. The modular splicing cabinet door according to claim 6, wherein sliding plates are respectively disposed on two side walls of each reinforcing plate (202), and sliding grooves for sliding fit with the sliding plates are respectively disposed on the side walls of each ventilating plate (201).

8. The modular splicing cabinet door according to claim 1, wherein each door panel module (2) is a quadrilateral plate, and the two end sides of the quadrilateral plate are respectively connected to the side beams at the two sides of the door frame (1).

9. A server cabinet, comprising a cabinet body and a modular splicing cabinet door arranged on the cabinet body, wherein the modular splicing cabinet door is the modular splicing cabinet door according to any one of claims 1 to 8.

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