CN221008173U - Multi-hole connection's computing equipment rack casing - Google Patents

Abstract

The utility model discloses a multi-hole connected computing equipment cabinet shell, which comprises a cabinet shell, a protection base used for supporting and arranged at four corners of the lower end of the cabinet shell, soundproof cotton for increasing silencing performance is arranged at the inner side of the cabinet shell, a plurality of PCI expansion grooves are distributed at the front end of a cabinet back plate at the lower position, a connecting hole is fixed at the inner side of the cabinet shell, a first groove is reserved at the upper end of the connecting hole, an inserting plate at the lower end of a cabinet top cover is inserted into the inner position of the first groove, an inner sleeve connecting plate is attached to the inner wall of the cabinet shell to prevent the tail of the cabinet top cover from shaking, finally an inserting column of the cabinet front plate is inserted into the inner position of the connecting hole, and the cabinet shell, the cabinet front plate and the cabinet top cover are connected in a mode to enable disassembly and maintenance work to be more efficient, so that maintenance staff can disassemble a cabinet assembly quickly to maintain without spending too much time and effort.

Description

Multi-hole connection's computing equipment rack casing

Technical Field

The utility model belongs to the technical field of porous connection computing equipment cabinet shells, and particularly relates to a porous connection computing equipment cabinet shell.

Background

A multi-hole connected computing device cabinet housing is a powerful and flexible enclosure structure that is typically made of metal material, has multiple holes and connection points for mounting and connecting various components and accessories of the computing device, is designed to allow for mounting and maintenance requirements of the computing device, provides flexible mounting options and easy-to-access interfaces, is a powerful and flexible enclosure structure that can meet the requirements of computing device mounting, management and maintenance, and provides good heat dissipation and security.

When the multi-hole connection type computing equipment cabinet shell is used, the assembly and connection between the cabinet shell and the cabinet front plate and the cabinet top cover are complex, and the maintenance or equipment replacement of the cabinet is difficult when the cabinet is required to be disassembled in the later period, so that a device is required in the market to solve the current problems.

Disclosure of utility model

The present utility model is directed to a multi-hole connection type cabinet housing for a computing device, so as to solve the problems of the prior art that when the multi-hole connection type cabinet housing for a computing device is used, the assembly and connection between the cabinet housing and the cabinet front plate and the cabinet top cover are complex, and the cabinet is difficult to be disassembled for maintenance or replacement at a later stage, so that a device is needed in the market to solve the problems faced at present.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a porous computing equipment cabinet casing that connects, includes the chassis housing, is located the protection base that is used for supporting in the lower extreme four corners position of chassis housing, the inboard position department of chassis housing installs the soundproof cotton that increases silence performance, the inboard position of chassis housing is located the connecting hole that is used for assembling in position department above, the upper end position department of connecting hole is provided with first recess, the outside of chassis housing is provided with the screw hole in position department above, the screw hole is located the inboard position department and inserts the connecting bolt, the chassis housing is installed the chassis top cap in upper end position through connecting hole and first recess, the chassis top cap is connected with the connecting hole through the insert plate of lower extreme left side below inside position department, the below of chassis top cap is provided with inboard sleeve connection board in inside right side front and back position department.

The case shell is provided with a case front plate at the left side position through a connecting hole, the case front plate inserts an insertion column at the front and rear position above the inner side to the position inside the connecting hole for connection, a second groove is arranged at the inner side position of the insertion column, an IO interface is reserved at the upper position outside the case front plate, the inside bottom position department of chassis housing sets up to the heat dissipation mesh structure, chassis back plate is installed to chassis housing's right-hand member position department, the front end top position department of chassis back plate is provided with the power position reservation groove, the front end intermediate position department of chassis back plate is reserved there is the external port reservation groove of mainboard, chassis back plate front end is located below position department and is distributed a plurality of PCI expansion grooves.

Preferably, the chassis top cover inserts the insert plate at the lower end position into the inner position of the first groove and then is installed with the chassis shell, and the outer position of the insert plate is provided with a through round hole.

Preferably, the case top cover is arranged at the upper end position of the case shell, so that the inner side sleeve joint plate is clamped at the inner wall position of the case shell.

Preferably, the chassis front plate inserts the insertion column into the inside position of the connecting hole, the second groove of the insertion column at the inside position is used for being connected with the insertion plate, and the outside position of the insertion column is provided with a through round hole.

Preferably, the front and rear positions of the inner side of the front plate of the chassis are provided with inner side sleeve connection plates, and the inner side sleeve connection plates are clamped at the inner wall positions of the chassis shell when the insertion columns are inserted into the inner positions of the connection holes.

Preferably, the connecting bolt is rotated into the inner position of the threaded hole and finally passes through the insertion column and the through hole of the insertion plate.

Preferably, the chassis back plate is connected with the chassis shell through bolts, and the chassis shell is connected with the chassis back plate, the chassis top cover and the chassis front plate to form a chassis structure.

Preferably, the IO interface comprises a switch, a restarting device, a USB, an earphone and a microphone, and the rear end position of the rear plate of the case is divided into three blocks, namely a power supply position reserved groove, a main board external port reserved groove and a PCI expansion groove.

Compared with the prior art, the utility model provides a multi-hole connected computing equipment cabinet shell, which has the following beneficial effects:

1. The connecting hole is fixed at the inner side position of the chassis shell, the first groove is reserved at the upper end position of the connecting hole, the inserting plate at the lower end position of the chassis top cover is inserted into the inner position of the first groove, when the chassis top cover is arranged at the upper end position of the chassis shell, the inner side sleeving connecting plate is attached to the inner wall position of the chassis top cover to prevent the tail of the chassis top cover from shaking, finally the inserting column of the chassis front plate is inserted into the inner position of the connecting hole, the second groove is arranged at the inner side position of the inserting column, the inserting plate is sleeved at the inner side position of the inserting column when the inserting column is inserted into the inner position of the connecting hole, the inserting plate can be arranged at the inner position of the through hole through the connecting bolt until the inserting column and the inner position of the inserting plate are penetrated, the chassis shell, the chassis front plate and the chassis top cover can be arranged, the connecting mode among the chassis top cover, the chassis shell, the chassis front plate and the chassis top cover can be more efficiently detached, and maintenance staff can quickly detach a chassis assembly through simple steps without spending too much time and effort.

2. The bottom of the chassis shell is provided with radiating meshes, the radiating system of the chassis is placed at the bottom, the radiating system can better discharge heat, the rotating speed of the fan is reduced, so that noise is reduced, the bottom is protected from being increased in height, the ventilation effect can be increased, the radiating effect is further improved, the inner wall of the chassis shell is provided with soundproof cotton, the noise can be absorbed and isolated from the propagation of the noise, the noise generated during use is reduced from interfering with the surrounding environment, the noise generated during operation of the fan and hardware equipment can be effectively reduced by the soundproof cotton, and a quieter use environment is provided.

Drawings

FIG. 1 is a schematic illustration of a multi-port computing equipment cabinet housing structure of the present utility model.

FIG. 2 is a schematic diagram of a split structure of a multi-port connected computing equipment cabinet housing of the present utility model.

FIG. 3 is a schematic view of a partially enlarged structure of a multi-port connected computing equipment cabinet housing according to the present utility model.

FIG. 4 is a schematic diagram of a multi-port connected computing device cabinet housing back plate structure of the present utility model.

In the figure: 1. a chassis housing; 2. a protective base; 3. a chassis front plate; 4. an IO interface; 5. a connecting bolt; 6. a chassis top cover; 7. a connection hole; 8. an insertion plate; 9. inserting a column; 10. the inner side is sleeved with a plate; 11. soundproof cotton; 12. a threaded hole; 13. a first groove; 14. a second groove; 15. a chassis back plate; 16. a power bit reservation slot; 17. a reserved groove of an external port of the main board; 18. PCI expansion slot; 19. and heat dissipation meshes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a multi-hole connected computing equipment cabinet shell as shown in figures 1-4, which comprises a cabinet shell 1, a protection base 2 used for supporting at four corners of the lower end of the cabinet shell 1, an acoustic insulation cotton 11 used for increasing the silencing performance arranged at the inner side position of the cabinet shell 1, a connecting hole 7 used for assembling at the upper position of the inner side position of the cabinet shell 1, a first groove 13 arranged at the upper end position of the connecting hole 7, a threaded hole 12 arranged at the upper position of the outer side of the cabinet shell 1, a connecting bolt 5 inserted into the threaded hole 12 at the inner side position, a cabinet top cover 6 arranged at the upper end position of the cabinet shell 1 through the connecting hole 7 and the first groove 13, the cabinet top cover 6 connected with the connecting hole 7 in an inserting way through an inserting plate 8 arranged at the inner position at the lower left side of the lower end, an inner sleeve joint plate 10 is arranged below the case top cover 6 at the front and rear position on the inner right side, a case front plate 3 is arranged at the left side position of the case shell 1 through a connecting hole 7, an insertion column 9 at the front and rear position on the inner side is inserted into the connecting hole 7 by the case front plate 3 to be connected, a second groove 14 is arranged at the inner side position of the insertion column 9, an IO interface 4 is reserved at the outer side upper position of the case front plate 3, a radiating mesh 19 structure is arranged at the inner side bottom position of the case shell 1, a case rear plate 15 is arranged at the right end position of the case shell 1, a power supply position reservation groove 16 is arranged at the front end upper position of the case rear plate 15, a main board external connection port reservation groove 17 is reserved at the front end middle position of the case rear plate 15, the front end of the chassis rear plate 15 is provided with a plurality of PCI expansion slots 18 distributed at a lower position.

The position above the front end of the chassis front plate 3 is an IO interface 4, the IO interface 4 comprises a switch, a restarting device, a USB, an earphone and a microphone, a chassis rear plate 15 is mounted at the rear end position of the chassis shell 1 through bolts, and the rear end position of the chassis rear plate 15 is divided into three blocks which comprise a power supply position reserved groove 16, a main board external port reserved groove 17 and a PCI expansion groove 18.

As shown in fig. 2 and 3, the chassis top cover 6 inserts the insert plate 8 at the lower end position to the inner position of the first recess 13 to be mounted with the chassis housing 1, the outer position of the insert plate 8 is provided with a through circular hole, the chassis top cover 6 is mounted at the upper end position of the chassis housing 1 to make the inner sleeve joint plate 10 be clamped at the inner wall position of the chassis housing 1, the chassis front plate 3 inserts the insert column 9 to the inner position of the connecting hole 7, the second recess 14 of the insert column 9 at the inner position is used for connecting with the insert plate 8, the outer position of the insert column 9 is provided with a through circular hole, the inner sleeve joint plate 10 is provided at the inner front and rear position of the chassis front plate 3, and the insert column 9 is clamped at the inner wall position of the chassis housing 1 when being inserted into the inner position of the connecting hole 7.

The inserting plate 8 at the lower end position of the case top cover 6 is inserted into the inner position of the first groove 13, when the case top cover 6 is installed at the upper end position of the case shell 1, the inner sleeve connecting plate 10 is attached to the inner wall position of the case shell 1 to prevent the tail of the case top cover 6 from shaking, finally the inserting column 9 of the case front plate 3 is inserted into the inner position of the connecting hole 7, the second groove 14 is arranged at the inner position of the inserting column 9, the inserting plate 8 is sleeved at the inner position when the inserting plate is inserted into the inner position of the connecting hole 7, and the case shell 1, the case front plate 3 and the case top cover 6 can be installed by rotating the connecting bolt 5 into the inner position of the threaded hole 12 until the inner position of the through hole passing through the inserting column 9 and the inserting plate 8.

As shown in fig. 2 and 3, the connecting bolt 5 rotates to enter the internal position of the threaded hole 12 and finally passes through the through holes of the insertion column 9 and the insertion plate 8, the chassis rear plate 15 is connected with the chassis housing 1 through the bolt, the chassis housing 1 is connected with the chassis rear plate 15, the chassis top cover 6 and the chassis front plate 3 to form a chassis structure, the IO interface 4 comprises a switch, a restart, a USB, an earphone and a microphone, and the rear end position of the chassis rear plate 15 is divided into three blocks including a power supply position reserved groove 16, a motherboard external connection port reserved groove 17 and a PCI expansion groove 18.

The bottom of the chassis housing 1 is provided with the radiating mesh 19, the radiating system of the chassis is placed at the bottom, the radiating system can better discharge heat, the rotating speed of the fan is reduced, thereby noise is reduced, the bottom is protected from being increased in height, the ventilation effect is increased, the radiating effect is further improved, the inner wall of the chassis housing 1 is provided with the soundproof cotton 11, the noise can be absorbed and isolated, and the noise generated during use is reduced from interfering with the surrounding environment.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides a porous computing equipment cabinet casing that connects, its characterized in that includes chassis shell (1), is located the protection base (2) that are used for carrying out the support in the lower extreme four corners position of chassis shell (1), install soundproof cotton (11) that increase silence performance in the inboard position of chassis shell (1), the inboard position of chassis shell (1) is located connecting hole (7) that are used for carrying out the equipment in the position that is located the top, the upper end position of connecting hole (7) is provided with first recess (13), the outside of chassis shell (1) is located the position that is located the top and is provided with screw hole (12), screw hole (12) are located the inboard position and are inserted connecting bolt (5), chassis shell (1) is installed in the position that is located the top through connecting hole (7) and first recess (13), chassis top (6) are connected with connecting hole (7) insert through insert board (8) in the inside position in the lower extreme left side, the below of chassis top (6) is located inside and is provided with back cover (10) in the position in the inside right side front of the position;

The utility model discloses a machine case is characterized in that a machine case front plate (3) is installed at a left side position through a connecting hole (7), an inserting column (9) positioned at a front-back position above the inner side is inserted into the connecting hole (7) by the machine case front plate (3) to be connected, a second groove (14) is arranged at the inner side position of the inserting column (9), an IO interface (4) is reserved at the upper position outside the machine case front plate (3), a radiating mesh (19) structure is arranged at the inner side bottom position of the machine case front plate (1), a machine case rear plate (15) is installed at the right end position of the machine case front plate (1), a power supply position reserved groove (16) is arranged at the upper position of the front end of the machine case rear plate (15), a main board external connection port reserved groove (17) is reserved at the middle position of the front end of the machine case rear plate (15), and a plurality of PCI expansion grooves (18) are distributed at the lower position of the front end of the machine case rear plate (15).

2. The multi-port computing equipment cabinet housing of claim 1, wherein: the chassis top cover (6) is used for inserting the insertion plate (8) at the lower end position into the inner position of the first groove (13) and then installing the chassis top cover and the chassis shell (1), and a through round hole is formed in the outer position of the insertion plate (8).

3. The multi-port computing equipment cabinet housing of claim 2, wherein: the case top cover (6) is arranged at the upper end of the case shell (1) to enable the inner side sleeve joint plate (10) to be clamped at the inner wall of the case shell (1).

4. The multi-port computing equipment cabinet housing of claim 2, wherein: the chassis front plate (3) inserts an insertion column (9) into the inner position of the connecting hole (7), a second groove (14) of the insertion column (9) positioned at the inner position is used for being connected with the insertion plate (8), and a through round hole is formed in the outer position of the insertion column (9).

5. The multi-port computing equipment cabinet housing of claim 4, wherein: the inner side front and rear positions of the chassis front plate (3) are provided with inner side sleeving plates (10), and the inner side sleeving plates (10) are clamped at the inner wall positions of the chassis shell (1) when the insertion columns (9) are inserted into the inner positions of the connecting holes (7).

6. The multi-port computing equipment cabinet housing of claim 4, wherein: the connecting bolt (5) rotates into the inner position of the threaded hole (12) and finally passes through the through holes of the insertion column (9) and the insertion plate (8).

7. The multi-port computing equipment cabinet housing of claim 6, wherein: the case back plate (15) is connected with the case shell (1) through bolts, and the case shell (1) is connected with the case back plate (15), the case top cover (6) and the case front plate (3) to form a case structure.

8. The multi-port computing equipment cabinet housing of claim 7, wherein: the IO interface (4) comprises a switch, a restarting device, a USB, an earphone and a microphone, wherein the rear end position of the chassis rear plate (15) is divided into three blocks, and the three blocks comprise a power supply position reserved groove (16), a main board external connection port reserved groove (17) and a PCI expansion groove (18).