CN105676973A - Plug-in type storage server - Google Patents

Abstract

The invention relates to a plug-in type storage server. The storage server comprises a case, a mainboard in the case and a monitoring backboard in the case, wherein the monitoring backboard is perpendicular to the mainboard and comprises a plurality of hard disk interfaces, a plurality of SAS expansion chips and a management control chip; each hard disk interface is electrically connected with one SAS (Serial Attached SCSI (Small Computer System Interface)) expansion chip and connected with a hard disk; the SAS expansion chip is used for realizing expansion, control and management of the hard disk; the management control chip is used for performing unified management on the SAS expansion chips; the backboard further comprises a male seat of a CPCI (Compact Peripheral Component Interconnect) connector; the male seat of the CPCI connector is connected with a female seat of the CPCI connector on the mainboard in an insertion manner; and the CPCI connector includes a power connector and a communication connector. According to the plug-in type storage server, the military-level CPCI connector is used for replacing a wire cable to perform connection, so that the case structure is simplified, the connection quality of the connector is optimized, extremely few connection wire cables and even completely no connection wire cables are arranged in the whole machine, and the stability and reliability of the server are greatly improved.

Description

Plug-in storage server

Technical field

The present invention relates to server, especially relate to a kind of plug-in storage server.

Background technology

On current server market, generally server is divided into tower, rack, blade server three types.

Blade server is generally used for the high-end markets such as large-scale data center. in the middle and low-end market of applicable SME users, mostly still adopt the tower server that traditional complete machine is made up of the parts such as mainboard+central processing unit (CPU)+internal memory+power supply and substantial amounts of connecting line at present, in its cabinet, cabling is in disorder, affect outward appearance, simultaneously because connecting line is too much, the process of transport and movement is easily caused adapter come off, the problem that connector contact is bad, the reliability and stability of server are affected great, although the mode of traditional colligation or gluing a degree of minimizing can cause the probability of problem, but there is great potential safety hazard.

Summary of the invention

Based on this, it is necessary to provide a kind of plug-in storage server that can reduce and even not use connecting line.

A kind of plug-in storage server, including the mainboard in cabinet, cabinet and the monitoring backboard in cabinet, described monitoring backboard and mainboard are arranged in a mutually vertical manner, described monitoring backboard includes multiple hard-disk interface, multiple SAS extended chips and management control chip, each hard-disk interface and a SAS extended chip are electrically connected, described hard-disk interface is used for connecting hard disk, described SAS extended chip is for realizing the extension of hard disk, control and management, described management control chip is for carrying out unified management to each SAS extended chip, described backboard also includes the male seat of CPCI adapter, for carrying out grafting with the female seat of the CPCI adapter on mainboard, described CPCI adapter includes power connector and communications connectors.

Wherein in an embodiment, described monitoring backboard includes ATX power interface, described management control chip is electrically connected by the power supply of described ATX power interface with server, the power consumption demand of all hard disks of server monitoring backboard grafting is stored for anticipation, and corresponding power consumption information is sent to described power supply, for described power supply, output is adjusted.

Wherein in an embodiment, described monitoring backboard also includes the LCD MODULE being electrically connected with described management control chip, described management control chip is additionally operable to monitor the duty of described power supply, and output status signal gives described LCD MODULE to show the duty of described power supply.

Wherein in an embodiment, described monitoring backboard also includes the light emitting diode that reports an error, described light emitting diode and the described management control chip of reporting an error is electrically connected, and described management control chip is reported to the police by the flickering of light emitting diode that report an error described in controlling when hard disk exception being detected; It is equal that the quantity of the described light emitting diode that reports an error connects quantity with the maximum hard disk that described storage server monitoring backboard is supported, each light emitting diode correspondence that reports an error represents the malfunction of a hard disk.

Wherein in an embodiment, described cabinet is plug-in storage machine box for server, including chassis body, mainboard installation portion and multiple hard-disc fetching box, described chassis body includes chassis body is divided into the anterior backboard installing frame with cabinet rear portion of cabinet, described backboard installing frame is used for installing described monitoring backboard, the plurality of hard-disc fetching box is drawer-type structure and is installed on described cabinet front portion, described mainboard installation portion includes mainboard loading plate, cabinet back panel and two floors, described mainboard loading plate and cabinet back panel are mutually connected vertically, two floors are located at described mainboard loading plate and cabinet back panel both sides, and it is perpendicular to described mainboard loading plate and cabinet back panel, adopt, between described mainboard installation portion and chassis body, the structure being slidably connected.

Wherein in an embodiment, described chassis body also includes the power supply holding part being positioned at described cabinet rear portion, for the power supply of installation of modular.

Wherein in an embodiment, described chassis body also includes cover plate, base plate, the first side plate and the second side plate, described first side plate and the second side plate be arranged in parallel with floor, described base plate is used for supporting described mainboard installation portion, described cover plate is covered on above described mainboard installation portion, the outer wall of described first side plate, described power supply holding part and the first side plate one side in opposite directions is close to a floor respectively and is provided with limit for height part, for being limited in described chassis body the position of the mainboard installation portion slided.

Wherein in an embodiment, described hard-disc fetching box includes hard disk bracket, buckle button and pull handle, described pull handle and buckle button expose to the front of described chassis body, and described pull handle is engaged by described buckle button, and outwards ejects when buckle button is pressed.

Wherein in an embodiment, described hard disk bracket is provided with block tongue and offers multiple screw in both sides.

Wherein in an embodiment, described backboard installing frame is the frame structure of central hollow.

Above-mentioned plug-in storage server, the CPCI adapter using military project level replaces cable to connect, simplify casing structure, optimize the quality of connection of adapter, making complete machine connection wire cable seldom even wholly without connecting cable, thus improving the stability of server, reliability greatly, and complete machine is succinctly attractive in appearance, attended operation is simple, it is not necessary to pay special attention to tear other adapters in maintenance process and cause parafunctional problem. A unified parametric controller is built by managing control chip, the orders such as the reading of every SAS extended chip, execution, operation are made all to be realized by parametric controller, platform is further according to the logical order of data, SAS interface Unified number to each connection, perform according to the order of sequence, it is achieved centralized management and the unified operation to scattered SAS extended chip.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below the accompanying drawing used required during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain the accompanying drawing of other embodiments according to these accompanying drawings.

Fig. 1 is the structure chart of plug-in storage server in an embodiment;

Fig. 2 is the structural representation of hard-disc fetching box in an embodiment;

Fig. 3 is the partial schematic diagram under pull handle ejection state of the hard-disc fetching box shown in Fig. 2;

Fig. 4 is the structure chart of plug-in storage server in another embodiment;

Fig. 5 is the view of another angle of the cabinet of the storage server of plug-in shown in Fig. 4;

Fig. 6 is the partial enlarged drawing of a-quadrant in Fig. 5;

Fig. 7 is the structure chart that the storage server of plug-in shown in Fig. 4 pulls out state at mainboard installation portion;

Fig. 8 is the rear view of the storage machine box for server of plug-in shown in Fig. 4

Fig. 9 is the structure chart of mainboard in an embodiment;

Figure 10 is the structure chart monitoring backboard in an embodiment;

Figure 11 is the circuit theory diagrams monitoring back board part circuit structure in an embodiment;

Figure 12 is the structure chart of power connector and communications connectors in an embodiment;

Figure 13 is the structure chart of communications connectors male seat in an embodiment;

Figure 14 is the structure chart of communications connectors female seat in an embodiment;

Figure 15 is the structure chart of power connector male seat in an embodiment;

Figure 16 is the structure chart of power connector female seat in an embodiment.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully. Accompanying drawing gives the first-selected embodiment of the present invention. But, the present invention can realize in many different forms, however it is not limited to embodiment described herein. On the contrary, the purpose providing these embodiments is to make to the disclosure more thoroughly comprehensively.

It should be noted that be referred to as " being fixedly arranged on " another element when element, it can directly on another element or can also there is element placed in the middle. When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements. Term as used herein " vertical ", " level ", " on ", D score, "left", "right", " horizontal stroke ", " erecting " and similar statement for illustrative purposes only.

Unless otherwise defined, all of technology used herein is identical with the implication that the those skilled in the art belonging to the present invention are generally understood that with scientific terminology. The term used in the description of the invention herein is intended merely to the purpose describing specific embodiment, it is not intended that in the restriction present invention. Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

The present invention provides a kind of plug-in storage server, including the mainboard 200 in cabinet, cabinet and the monitoring backboard 100 in cabinet.

Fig. 1 is the structure chart of plug-in storage server in an embodiment. Cabinet includes chassis body 10, mainboard installation portion 20 and multiple hard-disc fetching box 30. Chassis body 10 includes the backboard installing frame 12 being divided into cabinet anterior 11 and cabinet rear portion 17, and backboard installing frame 12 is for installing the monitoring backboard 100 (not indicating in Fig. 1) hard disk being extended and controlling.Multiple hard-disc fetching boxes 30 for drawer-type structure and are installed on cabinet front portion 11. Mainboard installation portion 20 includes mainboard loading plate 22, cabinet back panel 24 and two floors 26. It is pointed out that in Fig. 1, mainboard loading plate 22 is blocked by mainboard 200 (not indicating in Fig. 1), thus invisible actually in FIG. Mainboard loading plate 22 and cabinet back panel 24 are mutually connected vertically, L-shaped structure, and two floors 26 are located at mainboard loading plate 22 and cabinet back panel 24 both sides and are perpendicular to mainboard loading plate 22 and cabinet back panel 24. Mainboard installation portion 20 and chassis body 10 are for being slidably connected, to coordinate the connected mode of plug-in between mainboard and backboard.

Fig. 9 is the structure chart of mainboard 200 in an embodiment, and Figure 10 is the structure chart monitoring backboard 100 in an embodiment. Mainboard 200 is arranged in a mutually vertical manner with monitoring backboard 100, carries out grafting by compact external components interconnection standard interface (CPCI) adapter between mainboard 200 and monitoring backboard 100. The female seat of CPCI adapter is located on mainboard 200, and the male seat of CPCI adapter is located on monitoring backboard 100. CPCI adapter includes power connector and communications connectors, and in Fig. 9 and embodiment illustrated in fig. 10, the quantity of power connector is 2, including power connector female seat 222 and power connector male seat 122; The quantity of communications connectors is 1, including communications connectors female seat 232 and communications connectors male seat 132.

Monitoring backboard 100 includes multiple hard-disk interface 150 (in the present embodiment for the SATA interface of SAS standard), and every piece of hard disk of server is plugged on a hard-disk interface 150. In the present embodiment, monitoring backboard 100 includes 4 serial connecting small computer system interface (SAS) extended chips 110, for realizing the extension of hard disk, control and management, each SAS extended chip 110 and 4 hard-disk interfaces 150 are electrically connected and it are controlled, and monitoring backboard 100 arranges 16 hard-disk interfaces 150 altogether. Monitoring backboard 100 also includes management control chip 140, for each SAS extended chip is carried out unified management.

Above-mentioned plug-in storage server, the CPCI adapter using military project level replaces cable to connect, simplify casing structure, optimize the quality of connection of adapter, making complete machine connection wire cable seldom even wholly without connecting cable, thus improving the stability of server, reliability greatly, and complete machine is succinctly attractive in appearance, attended operation is simple, it is not necessary to pay special attention to tear other adapters in maintenance process and cause parafunctional problem. In addition SAS extended chip 110 and hard-disk interface 150 are set on monitoring backboard 100, realize the hot plug of hard disk, therefore cabinet have employed that mainboard installation portion 20 is slidably connected with chassis body 10, hard-disc fetching box 30 is the structure of drawer type, has reached easy-disassembling-assembling effect accordingly.

Wherein in an embodiment, communications connectors is used for transmitting PCI-E bus signals. In other embodiments, mainboard can also use other bus, and communications connectors transmits other bus signals accordingly.

Figure 12 is the structure chart of power connector and communications connectors, and Figure 13 is the structure chart of communications connectors male seat 132, and Figure 14 is the structure chart of communications connectors female seat 232. In Figure 13, embodiment illustrated in fig. 14, the pin of communications connectors includes signal pins and 44 lower margins that 22 row 5 arrange, and the material of its middle shell is thermoplastic polyester, and the material of pin is copper alloy. Figure 15 is the structure chart of power connector male seat 122, and Figure 16 is the structure chart of power connector female seat 222.In Figure 15, embodiment illustrated in fig. 16, the number of pins of power connector is 8, and the material of its middle shell is high-temperature resistance plastice, and the material of pin is copper alloy.

Figure 11 is the circuit theory diagrams monitoring backboard 100 part circuit structure in an embodiment. In this embodiment, SAS extended chip 110 adopts the 88SE9215 chip of Marvell company, can also adopt other chips with identical function in other embodiments. 4 SAS extended chips 110 are independent mutually, as a whole by managing 4 SAS extended chips 110 of control chip 140 control combination, disperse independence at physically 4 SAS extended chips 110, system are unified consistent management.

Management control chip 140 coordinates software programming to realize the condition managing of complete machine. Particular by writing chip bottom code, build a unified parametric controller, the orders such as the reading of every SAS extended chip 110, execution, operation are made all to be realized by parametric controller, platform is further according to the logical order of data, SAS interface Unified number to each connection, perform according to the order of sequence, it is achieved centralized management and the unified operation to scattered SAS extended chip 110.

Referring to Figure 11, monitoring backboard 100 also includes the LED that reports an error being electrically connected with management control chip 140. Management control chip 140 is reported to the police by controlling the flickering of LED that report an error when hard disk exception being detected. Such as normal luminous during hard disk normal operation, extinguishes/flicker during hard disk failure. Wherein in an embodiment, it is possible to being equipped with the LED that reports an error for each hard disk, the quantity of the LED that namely reports an error is equal with the quantity of hard-disk interface 150, for instance 16 hard-disk interfaces join 16 LED that report an error. In a fairly large number of situation of hard disk that monitoring backboard 100 is supported, it is also possible to multiple LED of reporting an error composition can be shown the display screen of letter and number, illustrated the operation irregularity of hard disk by corresponding fault numbering.

Wherein in an embodiment, management control chip 140 adopts PIC18F44K22 chip, can also adopt other chips with identical function in other embodiments, for instance other ARM chips.

In the embodiment shown in fig. 10, monitoring backboard 100 also includes ATX power interface 130. Adopt ATX custom technology, meet ATX2.0 industry standard. Management control chip 140 is electrically connected by the power supply of ATX power interface 130 with server, power consumption demand for all hard disks of anticipation backboard 100 grafting, and corresponding power consumption information is sent to the control part of power supply, output can be adjusted by the control part of power supply source in time, it is ensured that the normal operation of load.

Referring to Figure 11, monitoring backboard 100 also includes the LCD MODULE being electrically connected with management control chip 140, management control chip 140 is additionally operable to the duty of monitoring power supply, and output status signal checks the duty of power supply to LCD MODULE for user.

In the embodiment shown in fig. 11, monitoring backboard 100 also includes the power supply alarming input/output interface (power supply alarming I/O) being electrically connected with management control chip 140, for out-put supply alarm signal.

In the embodiment shown in fig. 11, monitoring backboard 100 also includes DC-DC module, pulse width modulation (PWM) technology is adopted to convert the unidirectional current that power supply exports to 5V respectively, the unidirectional current of 30A, and convert the unidirectional current of 3.3V, 30A to, then by 3.3V, the unidirectional current of 30A converts the unidirectional current of 1.8V and 1.0V more respectively to, effectively controls the output timing of voltage.

In the embodiment shown in fig. 1, owing to monitoring backboard 100 to connect hard disk towards the one side of cabinet front portion 11, the one side towards cabinet rear portion 17 wants grafting mainboard 200, and therefore backboard installing frame 12 is the central hollow frame structure of " mouth " font.

Fig. 2 is the structural representation of hard-disc fetching box 30 in an embodiment. Hard-disc fetching box 30 includes hard disk bracket 32, buckle button 34 and pull handle 36. Pull handle 36 and buckle button 34 expose to the front of chassis body 10. Please with reference to Fig. 3, pull handle 36 is snapped button 34 and engages time flat, and (side that namely in Fig. 2 and Fig. 3, the vertex angle on buckle button 34 is pointed to) outwards ejects when being pressed on the right side of buckle button 34, user can catch pull handle 36 to extract hard-disc fetching box 30 out cabinet, thus installing/unloading hard disk. With reference to Fig. 2, hard disk bracket 32 offers multiple screw 31 in both sides, is fixed on hard disk bracket 32 on through screw 31 by hard disk by screw when installing hard disk, pushes back in chassis body 10 by hard-disc fetching box 30 after completing, and pull handle 36 is pressed back original position, make buckle button 34 be engaged. With reference to Fig. 2, hard disk bracket 32 being additionally provided with the elastic block tongue 33 of tool, after hard-disc fetching box 30 is pushed into chassis body 10, block tongue 33 is compacted thus being formed fixing.

Referring to Fig. 9, mainboard 200 is provided with CPU socket 210, memory bank 240 and PCI-E slot 260, and mainboard 200 is also integrated with South Bridge chip 250.

In the embodiment shown in fig. 1, chassis body 10 also includes the power supply holding part 171 being positioned at cabinet rear portion 17, for the power supply of installation of modular.

Fig. 4 is the structure chart of chassis body in another embodiment, and it is only different at some trickle structure places with embodiment illustrated in fig. 1. In the embodiment shown in fig. 4, chassis body 10 also includes cover plate 16, base plate 18 (not showing in Fig. 4), the first side plate 14 and the second side plate 15. First side plate 14 and the second side plate 15 be arranged in parallel with floor 26, and base plate 18 is used for supporting mainboard installation portion 20 (not indicating in Fig. 4), is blocked (can referring to Fig. 7) by mainboard installation portion 20 in the diagram. Cover plate 16 is covered on above mainboard installation portion 20. Two floors 26 of mainboard installation portion 20 are close to the outer wall 172 of the first side plate 14 and power supply holding part 171 and the first side plate 14 one side in opposite directions respectively, and on the first side plate 14 and this outer wall 172 is equipped with limit for height part 142. Owing to two floors 26 of mainboard installation portion 20 are sandwiched by the first side plate 14 and outer wall 172 respectively, therefore the position of mainboard installation portion 20 transverse direction is defined, limit for height part 142 again through the base plate 18 of lower section and top, mainboard installation portion 20 position in the vertical can be limited again, therefore mainboard installation portion 20 can keep rectilinear movement when passing in and out chassis body 10, comparatively smooth and easy during dismounting.

In the embodiment shown in fig. 4, chassis body 10 also includes the bracing piece 19 connecting the first side plate 14 and outer wall 172, for the overall structure of chassis body 10 is reinforced, and cover plate 18 is played a supportive role.

In the embodiment shown in fig. 4, front that plug-in storage machine box for server also includes being located at chassis body 10 and each handle 40 respectively close to the first side plate 14 and the second side plate 15, pull out/push server for plug-in is stored machine box for server entirety. In the present embodiment, shake hands as stainless steel. Refer to Fig. 5, plug-in storage server is also provided with cabinet slide rail set 50 on the second side plate 15 so that plug-in storage machine box for server can pull out/push server swimmingly.

Fig. 6 is the partial enlarged drawing of a-quadrant in Fig. 5, in this embodiment, the front of chassis body 10 is additionally provided with switchboard assembly, including on and off switch 51, hard disk indication lamp 52, two LAN (LAN) display lamps 53, two USB display lamps 54, alarm lamps 55.

Referring to Fig. 4, cabinet back panel 24 is being provided with two radiator fans 60 towards the side within chassis body 10; Please also refer to Fig. 7, cabinet back panel 24 offers air inlet 246 accordingly. Mainboard installation portion 20 is additionally provided with fastener 242, when needs attaching/detaching mainboard, first cover plate 16 is unloaded, then pull fastener 242 backward, then mainboard installation portion 20 is pulled back.

Fig. 8 is the rear view of the storage machine box for server of plug-in shown in Fig. 4. Being provided with power supply 70 in power supply holding part 171, cabinet back panel 24 is provided with SR 61,62, two LAN (LAN) network interfaces 63 of power supply indicator, USB2.0 interface 64, USB3.0 interface 65, serial line interface 66 and digital visual interface (DVI) 67.

The cabinet of above-mentioned plug-in storage server achieves modularity on the whole, including power module, mainboard module, monitors rear panel module, hard disk modularized package. Modular use, makes structure more simplify, and radiating effect is good, is convenient for changing, convenient for maintaining, decreases the trouble point of total system. Adopt without the connected mode of cable, it is achieved plate to plate (mainboard 200 is to monitoring backboard 100) to slotting, more stable, more reliable. Stable, reliable, safe, shockproof, attractive in appearance.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention. It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention. Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a plug-in storage server, it is characterised in that include the mainboard in cabinet, cabinet and the monitoring backboard in cabinet;

Described monitoring backboard and mainboard are arranged in a mutually vertical manner, described monitoring backboard includes multiple hard-disk interface, multiple SAS extended chips and management control chip, each hard-disk interface and a SAS extended chip are electrically connected, described hard-disk interface is used for connecting hard disk, described SAS extended chip is for realizing the extension of hard disk, control and management, described management control chip is for carrying out unified management to each SAS extended chip, described backboard also includes the male seat of CPCI adapter, for carrying out grafting with the female seat of the CPCI adapter on mainboard, described CPCI adapter includes power connector and communications connectors.

2. plug-in according to claim 1 storage server, it is characterized in that, described monitoring backboard includes ATX power interface, described management control chip is electrically connected by the power supply of described ATX power interface with server, the power consumption demand of all hard disks of server monitoring backboard grafting is stored for anticipation, and corresponding power consumption information is sent to described power supply, for described power supply, output is adjusted.

3. plug-in according to claim 1 storage server, it is characterized in that, described monitoring backboard also includes the LCD MODULE being electrically connected with described management control chip, described management control chip is additionally operable to monitor the duty of described power supply, and output status signal gives described LCD MODULE to show the duty of described power supply.

4. plug-in according to claim 1 storage server, it is characterized in that, described monitoring backboard also includes the light emitting diode that reports an error, described light emitting diode and the described management control chip of reporting an error is electrically connected, and described management control chip is reported to the police by the flickering of light emitting diode that report an error described in controlling when hard disk exception being detected; It is equal that the quantity of the described light emitting diode that reports an error connects quantity with the maximum hard disk that described storage server monitoring backboard is supported, each light emitting diode correspondence that reports an error represents the malfunction of a hard disk.

5. plug-in according to claim 1 storage server, it is characterized in that, described cabinet is plug-in storage machine box for server, including chassis body, mainboard installation portion and multiple hard-disc fetching box, described chassis body includes chassis body is divided into the anterior backboard installing frame with cabinet rear portion of cabinet, described backboard installing frame is used for installing described monitoring backboard, the plurality of hard-disc fetching box is drawer-type structure and is installed on described cabinet front portion, described mainboard installation portion includes mainboard loading plate, cabinet back panel and two floors, described mainboard loading plate and cabinet back panel are mutually connected vertically, two floors are located at described mainboard loading plate and cabinet back panel both sides, and it is perpendicular to described mainboard loading plate and cabinet back panel, adopt, between described mainboard installation portion and chassis body, the structure being slidably connected.

6. plug-in according to claim 5 storage server, it is characterised in that described chassis body also includes the power supply holding part being positioned at described cabinet rear portion, for the power supply of installation of modular.

7. plug-in according to claim 5 storage server, it is characterized in that, described chassis body also includes cover plate, base plate, the first side plate and the second side plate, described first side plate and the second side plate be arranged in parallel with floor, described base plate is used for supporting described mainboard installation portion, described cover plate is covered on above described mainboard installation portion, the outer wall of described first side plate, described power supply holding part and the first side plate one side in opposite directions is close to a floor respectively and is provided with limit for height part, for being limited in described chassis body the position of the mainboard installation portion slided.

8. plug-in according to claim 5 storage server, it is characterized in that, described hard-disc fetching box includes hard disk bracket, buckle button and pull handle, described pull handle and buckle button expose to the front of described chassis body, described pull handle is engaged by described buckle button, and outwards ejects when buckle button is pressed.

9. plug-in according to claim 8 storage server, it is characterised in that described hard disk bracket is provided with block tongue and offers multiple screw in both sides.

10. plug-in according to claim 5 storage server, it is characterised in that described backboard installing frame is the frame structure of central hollow.