CN115361825B - Air-cooled and liquid-cooled universal case structure - Google Patents

Abstract

The invention discloses an air-cooling and liquid-cooling universal case structure which comprises a case upper cover, a case back seat, a hard disk frame module, a lifting handle, a splicing member and a conversion bracket, wherein the hard disk frame module is connected with the case back seat through the splicing member, the conversion brackets are respectively arranged on two corresponding sides of the case back seat and the hard disk frame module, sliding strips are arranged on the outer sides of the conversion brackets, and the two ends of the hard disk frame module are respectively and movably connected with the lifting handle. The chassis structure adopts a front-back splicing mode, and through the replacement of different parts, the connection of front and back windows of the chassis is realized, so that the situation that the immersed liquid cooling chassis and the air cooling radiating chassis are respectively and newly opened to the chassis base is avoided, and the cost is saved. On the basis of the main body box body structure, through building block thinking, a complete submerged liquid cooling machine box is expanded through adding a conversion bracket, and the maximum multiplexing of parts is realized, so that the cost is reduced.

Description

Air-cooled and liquid-cooled universal case structure

Technical Field

The invention relates to the field of data centers, in particular to an air-cooled and liquid-cooled universal case structure.

Background

The traditional server adopts air cooling to dissipate heat. The fan inside the server case forcibly convects to radiate the heat of the server through the air conditioner in the machine room. The server is installed in a vertical cabinet. The server is installed from front to back, and is fixed on the cabinet by matching with structural members such as sliding rails, L rails and the like on the cabinet. The parts can be replaced in front of and behind the server without taking the cabinet down.

Along with the continuous improvement of power consumption of key components such as a processor of a server, PCIE equipment and the like, the air cooling heat dissipation technology is difficult to better cope with the heat dissipation problem of a system; meanwhile, the requirements of the PUE of the data center are reduced due to energy conservation and emission reduction; the server design begins to turn to the submerged liquid-cooled heat sink direction. The server is soaked in a horizontal cabinet, namely the Tank, and the server is effectively radiated through convection of fluorinated liquid in the Tank. The immersed server is installed in the TANK from top to bottom through the hoisting equipment, and the replacement of components can only be carried out above the box body, namely in front of the server under the condition of not taking down the cabinet.

The air-cooled server and the immersed server respectively use a vertical cabinet and a horizontal cabinet, and the installation and use environments are different, so that the two servers are different in structure. For example, no fans are required inside the submerged servers, and the depth of the chassis is typically shorter than that of an air-cooled server.

The server is installed and fixed in different modes. The air cooling server is vertically arranged on the cabinet in a sliding rail, an L rail and other modes; the immersed server is mounted to the horizontal TANK through hoisting equipment. After being installed into a cabinet, the air-cooled server can maintain in the front-rear direction of the cabinet, such as a rear outlet machine type, and IO interfaces on a network card and a board card are positioned behind the cabinet; external signal cables such as network cables, AOC and DAC are also positioned at the rear of the case; such servers are referred to as post-outlet servers, and the cables are maintained behind the cabinet. The front wire outlet machine type is opposite; the submerged server can only be maintained in the chassis.

For a data center, the existing stock data center basically adopts an air cooling heat dissipation mode; the submerged servers need to be collocated with the new data center infrastructure. It can be seen that both types of heat dissipation servers coexist. In the development and design process of the new generation server, the realization modes of the two types of servers are considered simultaneously, so that the multiplexing rate of parts is improved, and the die sinking cost is reduced. The lifting handle and the sliding rail structure of the immersion server lifting device and the TANK are designed. To realize the compatibility design of the front and back wire outlet machine types, the need for coping with different machine room environments is urgent.

Disclosure of Invention

The invention aims to provide an air-cooled and liquid-cooled universal chassis structure which can meet the requirement of universal assembly of an air-cooled chassis and a liquid-cooled chassis, avoid the need of respectively and newly opening a chassis base when an immersed liquid-cooled chassis and an air-cooled radiating chassis are assembled, and greatly save the cost.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides an air-cooled, general quick-witted case structure of liquid cooling, its structure includes quick-witted case upper cover, quick-witted case backseat and hard disk frame module, still includes hoist and mount handle, splice component and conversion support, hard disk frame module passes through splice component with quick-witted case backseat and is connected, the both sides that quick-witted case backseat and hard disk frame module correspond are equipped with the conversion support respectively, the outside of conversion support is equipped with the draw runner, the both ends of hard disk frame module swing joint hoist and mount handle respectively.

Further, the splice member includes two symmetrical side connecting pieces and a bottom connecting piece that set up, the bottom connecting piece comprises the stiffening plate of base and base both sides, base and stiffening plate are equipped with a plurality of mounting holes respectively, and the stiffening plate of base one side is connected with hard disk frame module, and the stiffening plate of base opposite side is connected with quick-witted case backseat, the side connecting piece is connected with the base both ends respectively.

Further, the side connecting piece includes L shape side connecting plate and gusset plate, the both sides of L shape side connecting plate are equipped with the gusset plate respectively, the lower extreme of L shape side connecting plate passes through screwed connection with the mounting hole of base tip.

Further, the reinforcing plate on one side of the L-shaped side connecting plate is connected with the side wall of the hard disk frame module, and the reinforcing plate on the other side of the L-shaped side connecting plate is connected with the side wall of the chassis backseat.

Further, the hoist and mount handle includes rings, unblock piece, buckle spare, apron and reset spring, unblock piece and buckle spare swing joint, the buckle spare rotates with rings draw-in groove to be connected, unblock piece drives the up-and-down motion of buckle spare, the apron is located unblock piece and buckle spare outside, and the apron passes through screw connection with rings, reset spring locates between rings and the buckle spare back.

Further, one end of the return spring is propped against the clamping groove on the hanging ring, and the other end of the return spring is propped against the back of the clamping piece.

Further, the cover plate is provided with a through groove for the clamping piece to move up and down, and the clamping piece is in locking fit with the clamping groove on the inner side wall of the horizontal cabinet.

Further, the unlocking piece comprises a pull ring, a connecting rod and a fixed shaft, one end of the connecting rod is connected with the pull ring, the other end of the connecting rod is connected with the fixed shaft, a sliding groove is formed in the connecting rod, and the sliding groove is in sliding connection with a sliding block on the side wall of the lifting ring.

Further, the hard disk frame module is provided with a plurality of cavities for installing hard disks and PCIE modules.

The invention has the beneficial effects that:

the air-cooling and liquid-cooling universal chassis structure adopts a front-back splicing mode, and through the replacement of different parts, the connection of front and back windows of the chassis is realized, so that the situation that the immersed liquid-cooling chassis and the air-cooling heat dissipation chassis are respectively and newly opened to form chassis bases is avoided, and the cost is saved. On the basis of the main body box body structure, through building block thinking, a complete submerged liquid cooling machine box is expanded through adding a conversion bracket, and the maximum multiplexing of parts is realized, so that the cost is reduced.

Through setting up the hoist and mount handle, realized the hoist and mount function of immersion server upper and lower box cabinet, during dismouting. Meanwhile, the server is provided with a clamping function, and is automatically clamped in a clamping hole on the side wall of the box body after being mounted on the box body; when the server is hoisted and disassembled, the hoisting handles at two sides of the chassis are pulled by the hoisting rings, the buckles on the handles can be automatically loosened, the clamping and relation with the side wall of the case body are relieved, and the whole chassis is convenient to hoist.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a front-to-back connection diagram of a liquid cooled chassis;

FIG. 3 is a front-to-back connection diagram of an air-cooled chassis;

FIG. 4 is a diagram showing a fan status of an air-cooled chassis;

FIG. 5 is a schematic view of the structure of the side connector;

FIG. 6 is a schematic view of the structure of the bottom connector;

FIG. 7 is a diagram showing a locked state of the hanging member;

FIG. 8 is a block diagram of the unlocked state of FIG. 7;

FIG. 9 is an exploded view of the mounting structure of the sling;

FIG. 10 is a diagram of a lifting member structure;

FIG. 11 is a block diagram of an unlocking member;

FIG. 12 is a block diagram of the liquid cooled chassis installation and in a horizontal cabinet;

FIG. 13 is an enlarged view of a portion of FIG. 12;

fig. 14 is a block diagram of a hard disk frame module mounting front PCIE module and a hard disk.

In the figure:

the device comprises a case upper cover 1, a case rear seat 2, a hard disk frame module 3, a splicing member 4, a bottom connecting piece 41, a side connecting piece 42, a side connecting plate 421, a reinforcing plate 422, a lifting piece 5, a lifting ring 51, a lifting ring 52, a lifting ring 521, a fixed shaft 522, a sliding chute 523, a clamping piece 53, an inclined surface 531, a cover plate 54, a reset spring 55, a conversion bracket 6, a fan 7, a horizontal cabinet 8, a clamping groove 9, a front PCIE module 10 and a hard disk 11.

Detailed Description

The air-cooled and liquid-cooled universal chassis structure of the present invention is described in detail below with reference to the accompanying drawings. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and well-known techniques are omitted so as to not unnecessarily obscure the present invention.

As shown in fig. 1 to 13, the air-cooled and liquid-cooled universal chassis structure of the invention comprises a chassis upper cover 1, a chassis rear seat 2, a hard disk frame module 3, a hoisting piece 5, a splicing member 4 and a conversion bracket 6, wherein the hard disk frame module is provided with a plurality of cavities for installing a hard disk 11 and a front PCIE module 10, and the hard disk frame in front of the chassis can be simultaneously compatible with the installation of the hard disk, the backboard and the front PCIE module. The hard disk frame module 3 is connected with the chassis backseat 2 through the splicing member 4, and as the front and rear layout of the air cooling server and the liquid cooling server are basically the same, only the difference of the fans 7 exists in the middle position, the depth of the chassis is determined to be different, the chassis backseat and the hard disk frame module form a spliced structure through the splicing member 4, the chassis backseat with different lengths can be selected according to the different types of the chassis of the server, and the great increase of the die cost caused by newly opening the whole chassis is avoided. The air cooling and immersed liquid cooling machine box is built in a mode of splicing different parts. The two sides that quick-witted case backseat and hard disk frame module correspond are equipped with conversion support 6 respectively, the outside of conversion support 6 is equipped with the draw runner, the both ends of hard disk frame module swing joint hoist and mount piece 5 respectively.

For the immersed liquid cooling machine box, a widening conversion bracket and a lifting handle are additionally arranged on two sides of the machine box, and a plastic sliding strip on the widening bracket is arranged in the box along a slideway in the box body, so that the immersed liquid cooling server is arranged in the box body. The lifting handle assists the lifting equipment to mount and dismount the chassis; and is provided with a card and a structure, and the card and an opening hole on the inner side of the box body.

As shown in fig. 2, the splicing member 4 includes two symmetrically arranged side connectors 42 and a bottom connector 41, the bottom connector 41 is composed of a base and reinforcing plates on two sides of the base, the base and the reinforcing plates are respectively provided with a plurality of mounting holes, the reinforcing plate on one side of the base is connected with the hard disk frame module, the reinforcing plate on the other side of the base is connected with the rear seat of the chassis, and the side connectors are respectively connected with two ends of the base. The air cooling machine box and the immersed liquid cooling machine box are spliced at the position of the fan, the front hard disk frame modules are the same, and the rear base is divided into long and short parts. The main body structure of the case is connected through the left and right side connecting pieces and the bottom connecting piece. The bottom connecting piece has strengthened the intensity of base through the stiffening plate of both sides, not only is the connection of base around, and the bottom connecting piece is additionally respectively increased a row of tie point on the base around again, forms double-deck structure of strengthening the connection.

As shown in fig. 5, the side connector 42 includes an L-shaped side connector 421 and a reinforcing plate 422, wherein the reinforcing plates are respectively disposed on two sides of the L-shaped side connector, and the lower end of the L-shaped side connector is connected with the mounting hole of the base end by a screw. The reinforcing plate 422 on one side of the L-shaped side connecting plate is connected with the side wall of the hard disk frame module 3, and the reinforcing plate on the other side of the L-shaped side connecting plate is connected with the side wall of the chassis rear seat 2.

As shown in fig. 9, the lifting member 5 includes a lifting ring 51, an unlocking member 52, a fastening member 53, a cover plate 54 and a return spring 55, the unlocking member 52 is movably connected with the fastening member 53, the fastening member 53 is rotationally connected with a clamping groove of the lifting ring 51, the unlocking member 52 drives the fastening member 53 to move, the cover plate 54 is arranged on the outer sides of the unlocking member and the fastening member, the cover plate is connected with the lifting ring through screws, and the return spring 55 is arranged between the lifting ring and the back of the fastening member.

As shown in fig. 11, the unlocking member 52 includes a pull ring 521, a connecting rod and a fixed shaft 522, one end of the connecting rod is connected with the pull ring, the other end is connected with the fixed shaft, a sliding slot 523 is provided on the connecting rod, and the sliding slot 523 is slidably connected with a sliding block on the side wall of the hanging ring. Pulling the pull ring 521, the spout of the pull ring moves along the sliding block and drives the fixed shaft 522 to move along the inclined plane 531 of the buckle piece 53, so as to press the buckle piece 53 inwards, separate the buckle piece from the clamping groove 9 on the side wall of the cabinet body, and realize the unlocking function.

One end of the return spring 55 is abutted against the clamping groove on the hanging ring 51, and the other end of the return spring is abutted against the back of the clamping piece 53. The pull ring of release piece upward movement presses the buckle spare downwards through the fixed axle of pull ring tip, and the spring is compressed this moment, and the buckle spare breaks away from with the draw-in groove of quick-witted case lateral wall, realizes the unblock function. When the pull ring loses tension, the fixed shaft at the end part of the pull ring moves downwards, the clamping piece loses pressure, and the pull ring automatically resets under the action of the reset spring.

The cover plate 4 is provided with a through groove for the fastener to move up and down, and one end of the fastener penetrates through the through groove of the cover plate and is in locking fit with a clamping groove 9 on the inner side wall of the horizontal cabinet 8.

The immersion liquid cooling machine type is arranged in the TANK and then is immersed in the fluoridation liquid. The immersed liquid cooling server is inconvenient to disassemble from the TANK, so that PCIE equipment such as a network card and the like is installed from the front by adopting a front line outlet architecture; the network cable, the AOC and the DAC are positioned in front of the chassis. For the air-cooled server, according to the different constructions of the cabinet and the machine room; the traditional back outgoing line and the back outgoing line architecture coexist. As shown in fig. 14, in order to better be compatible with the front-back line outgoing architecture, the front PCIE module design of this solution is unique, and the hard disk frame in front of the chassis can be simultaneously compatible with the hard disk and the back board, and the installation of the front PCIE module.

And under the action of the lifting ring, the lifting ring is matched with lifting equipment to assist in installing the immersed liquid cooling server in the TANK. When the server is hoisted, the pull ring is pulled by the lifting hook, the buckle on the hoisting handle can be automatically unlocked, and the server can be directly pulled out of TNAK by contacting with the buckle relation of the inner side wall of the tank.

The design fully considers the immersed liquid cooling machine box and the air cooling heat dissipation machine box; the parts of the front outgoing line chassis and the rear outgoing line chassis are compatible, the parts are fully reused, and the die sinking cost is reduced. And the tool-free design is adopted, so that the assembly and maintenance efficiency is improved. The design has good universality and can be derivative applied to products of the same type of companies.

The air-cooling and liquid-cooling universal chassis structure adopts a front-back splicing mode, and through the replacement of different parts, the connection of front and back windows of the chassis is realized, so that the situation that the immersed liquid-cooling chassis and the air-cooling heat dissipation chassis are respectively and newly opened to form chassis bases is avoided, and the cost is saved. On the basis of the main body box body structure, through building block thinking, a complete submerged liquid cooling machine box is expanded through adding a conversion bracket, and the maximum multiplexing of parts is realized, so that the cost is reduced. The front PCIE bracket design can be compatible with the existing front window hard disk frame. Only the hard disk and the backboard are required to be updated, and PCIE equipment such as a network card and the like can be modified. The front outlet network cable, the AOC and the DAC are arranged in front of the chassis, and are different from the rear outlet architecture of the traditional server.

Through setting up the hoist and mount handle, realized the hoist and mount function of immersion server upper and lower box cabinet, during dismouting. Meanwhile, the server is provided with a clamping function, and is automatically clamped in a clamping hole on the side wall of the box body after being mounted on the box body; when the server is hoisted and disassembled, the hoisting handles at two sides of the chassis are pulled by the hoisting rings, the buckles on the handles can be automatically loosened, the clamping and relation with the side wall of the case body are relieved, and the whole chassis is convenient to hoist.

The foregoing is provided by way of illustration of the principles of the present invention, and is not intended to be limited to the specific constructions and applications illustrated herein, but rather to all modifications and equivalents which may be utilized as fall within the scope of the invention as defined in the claims.

The technical features are known to those skilled in the art except the technical features described in the specification.

Claims (7)

1. The air cooling and liquid cooling universal case structure comprises a case upper cover, a case back seat and a hard disk frame module, and is characterized by further comprising a hoisting piece, a splicing member and a conversion bracket, wherein the hard disk frame module is connected with the case back seat through the splicing member, the conversion brackets are respectively arranged on two sides corresponding to the case back seat and the hard disk frame module, sliding strips are arranged on the outer sides of the conversion brackets, and hoisting handles are respectively and movably connected with the two ends of the hard disk frame module;

the lifting device comprises a lifting ring, an unlocking piece, a clamping piece, a cover plate and a reset spring, wherein the unlocking piece is movably connected with the clamping piece, the clamping piece is rotationally connected with a lifting ring clamping groove, the unlocking piece drives the clamping piece to move up and down, the cover plate is arranged on the outer side of the unlocking piece and the outer side of the clamping piece, the cover plate is connected with the lifting ring through screws, and the reset spring is arranged between the lifting ring and the back of the clamping piece.

2. The air-cooled and liquid-cooled universal case structure according to claim 1, wherein the side connecting piece comprises an L-shaped side connecting plate and reinforcing plates, the reinforcing plates are respectively arranged on two sides of the L-shaped side connecting plate, and the lower end of the L-shaped side connecting plate is connected with the mounting hole at the end part of the base through screws.

3. The air-cooled and liquid-cooled universal chassis structure according to claim 2, wherein the reinforcing plate on one side of the L-shaped side connecting plate is connected with the side wall of the hard disk frame module, and the reinforcing plate on the other side of the L-shaped side connecting plate is connected with the side wall of the chassis backseat.

4. The air-cooled and liquid-cooled universal case structure according to claim 1, wherein one end of the return spring is abutted against the clamping groove on the hanging ring, and the other end of the return spring is abutted against the back surface of the clamping piece.

5. The air-cooled and liquid-cooled universal case structure according to claim 1, wherein the cover plate is provided with a through groove for the clamping piece to move up and down, and the clamping piece is in locking fit with the clamping groove on the inner side wall of the horizontal cabinet.

6. The air-cooled and liquid-cooled universal case structure according to claim 1, wherein the unlocking piece comprises a pull ring, a connecting rod and a fixed shaft, one end of the connecting rod is connected with the pull ring, the other end of the connecting rod is connected with the fixed shaft, a sliding groove is formed in the connecting rod, and the sliding groove is in sliding connection with a sliding block on the side wall of the lifting ring.

7. The air-cooled and liquid-cooled universal chassis structure according to claim 1, wherein the hard disk frame module is provided with a plurality of cavities for installing hard disks and PCIE modules.