CN111565534A - Electronic device and electronic system - Google Patents

Abstract

The application discloses electronic equipment, electronic system, electronic equipment includes: the second body is provided with a second accommodating space and can accommodate at least one functional module, wherein the second body is arranged in the first body with a first accommodating space in a sliding manner, the first accommodating space is provided with an opening, and the second body has an accommodating state accommodated in the first accommodating space and a sliding-out state at least partially sliding out of the opening; the adjusting assembly is arranged on the second body and can be used for adjusting the position of at least a first end of the functional module, which is positioned in the second accommodating space, so that the first end is positioned outside the second accommodating space, wherein the first end is the end part, close to the opening, of the functional module in the accommodating state. Electronic equipment can make the maintenance operation of function module go on more simply, conveniently.

Description

Electronic device and electronic system

Technical Field

The present application relates to the field of electronic device technologies, and in particular, to an electronic device and an electronic system.

Background

Currently, there is a design trend for increasing the number of functional modules to enhance the performance of a server in electronic devices such as servers, for example, more hard disks are installed in the server to make the server become a high storage density server. However, since the electronic device has a small volume, the functional modules are arranged in the electronic device compactly along with the increase of the number of the functional modules, and the space for maintenance and replacement is limited, which brings great inconvenience to the maintenance of the electronic device.

Disclosure of Invention

In view of this, the present application provides an electronic device, which can enable the maintenance operation of the functional module to be performed more simply and conveniently. The application also provides an electronic system.

In order to achieve the above purpose, the present application provides the following technical solutions:

an electronic device, comprising:

the second body is provided with a second accommodating space and can accommodate at least one functional module, wherein the second body is arranged in the first body with a first accommodating space in a sliding manner, the first accommodating space is provided with an opening, and the second body has an accommodating state accommodated in the first accommodating space and a sliding-out state at least partially sliding out of the opening;

the adjusting assembly is arranged on the second body and can be used for adjusting the position of at least a first end of the functional module, which is positioned in the second accommodating space, so that the first end is positioned outside the second accommodating space, wherein the first end is the end part, close to the opening, of the functional module in the accommodating state.

Preferably, in the electronic device, the functional modules at least include a first functional module set disposed close to the opening in the accommodated state, and a second functional module set disposed on a side of the first functional module set away from the opening;

the second body is provided with a mounting frame capable of being adjusted by the adjusting component, the functional module is arranged on the second body through the mounting frame, and the functional module can slide in the direction towards the first end to separate from the mounting frame.

Preferably, in the electronic device, when the second set of function modules is not exposed outside the first body, the second set of function modules is shielded by the first set of function modules in a separating direction of the function modules of the second set of function modules; when the second set of functional modules is exposed outside the first body, the second set of functional modules is not shielded by the first set of functional modules in the separation direction.

Preferably, in the electronic device, the second body is connected to the first body through a sliding assembly, and the second body or the sliding assembly is linked to the adjusting assembly, so that the adjusting assembly adjusts at least the first end of the second functional module set in the process of sliding out of the second body.

Preferably, in the electronic device, the adjusting unit includes:

a first rotating shaft arranged on the mounting rack so as to enable the mounting rack to be rotatably connected with the second body, wherein the first rotating shaft is positioned on one side, far away from the opening, of the mounting rack in the accommodating state;

the support piece is rotatably arranged on the mounting rack so as to support one side of the mounting rack close to the opening, and the support piece is rotated to realize the adjustment of the position of the first end;

and the driving piece drives the supporting piece to rotate.

Preferably, in the electronic device, the adjusting mechanism adjusts the whole functional module so that the functional module moves out of the second accommodating space;

wherein the adjustment mechanism comprises:

the scissor mechanism is arranged between the mounting rack and the second body and can drive the mounting rack to lift relative to the second body;

and the driving piece drives the scissor mechanism.

Preferably, in the electronic device, the second body has an exposed surface exposed outside the first body all the time, the exposed surface is provided with a plurality of wiring ports, and all the functional modules are in communication connection with different ones of the wiring ports respectively;

the functional modules at least comprise a first functional module set and a second functional module set, wherein the first functional module set is arranged close to the opening in the accommodating state, and the second functional module set is arranged on one side, far away from the opening, of the first functional module set; the first functional module set and the second functional module set comprise a plurality of functional modules, gaps are formed between the functional modules of the first functional module set and between the functional modules and the side wall of the second body, and wires which are in communication connection with the functional modules of the second functional module set are routed in the gaps.

An electronic system, comprising:

a first body having a first receiving space having an opening;

the second body is provided with a second accommodating space and can accommodate at least one functional module, wherein the second body is arranged on the first body in a sliding manner along a first direction, and the second body has an accommodating state accommodated in the first accommodating space and a sliding-out state at least partially sliding out of the opening;

wherein the second body comprises an adjustment assembly operable to adjust a position of at least a first end of the functional module within the second receiving space in a direction different from the first direction, wherein the first end is an end portion that is close to the opening in the receiving state.

Preferably, in the electronic system, at least one of the second bodies includes:

the adjusting component of the first-class second body is used for adjusting the position of at least a first end of the function module in a second direction;

and/or the presence of a gas in the gas,

the adjusting component of the second type second body is used for adjusting the position of at least the first end of the functional module in a third direction;

wherein the first direction and the second direction satisfy a vertical condition, and the second direction and the third direction satisfy an opposite condition.

Preferably, in the electronic system, at least two second bodies are disposed in the first accommodating space along the second direction;

in the second direction, the second bodies arranged at the first position are the first-type second bodies, and the second bodies arranged at the last position are the second-type second bodies.

The electronic equipment provided by the application is provided with at least one functional module in the second accommodating space of the second body, and the second body can slide on the first body to get in and out of the first containing space of the first body, namely the second body has a containing state of containing in the first containing space and a sliding-out state of at least partially sliding out of the opening of the first containing space, the adjusting component arranged on the second body can also adjust the position of the functional module in the second accommodating space, the part of the adjusting component for adjusting the functional module is at least the first end of the functional module, the first end refers to the end of the functional module close to the opening of the first accommodating space when the second body is in the accommodating state, namely, the adjusting component can at least adjust the position of the first end of the functional module, so that at least the first end can extend out of the second accommodating space. When operating personnel need maintain the function module among the above-mentioned electronic equipment, can make the second body follow the roll-off in the first body to make the function module on the second body expose, later rethread adjusting part makes the outside that the at least first end of function module stretches out to the second body, just can make operating personnel directly operate overhanging function module's first end, thereby can be simpler, convenient maintain the operation to electronic equipment.

Drawings

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

Fig. 1 is a schematic structural diagram of an electronic device provided in an embodiment of the present application when a second body is in an accommodated state;

FIG. 2 is a schematic structural view of the second body in a sliding-out state;

FIG. 3 is a schematic view of a tilted first end of a second set of functional modules;

FIG. 4 is a schematic structural diagram of the first functional module set and the second functional module set cooperating with the second body;

FIG. 5 is a schematic view of the adjustment assembly engaged with the mounting bracket;

FIG. 6 is a schematic view of the structure shown in FIG. 5 when the support member supports the second set of functional modules;

FIG. 7 is a schematic view of the adjustment assembly with the first end set up;

FIG. 8 is a schematic view of the linkage of the second body and the adjustment assembly;

fig. 9 is a schematic structural diagram of the electronic device in the accommodating state of the second body when the functional module is a PCIE card;

FIG. 10 is a schematic structural view of the structure of FIG. 9 with the second body in a slid-out position;

FIG. 11 is a top view of FIG. 10;

fig. 12 is a schematic structural diagram of an electronic system according to an embodiment of the present application.

In fig. 1-12:

1-a first body, 2-a second body, 3-a functional module, 4-a first end, 5-a first functional module set, 6-a second functional module set, 7-a mounting frame, 8-a first rotating shaft, 9-a support piece, 10-a driving piece, 11-a wiring port, 12-a wire, 13-a fixing component, 14-a lever, 15-a strip-shaped hole, 16-a first-type second body and 17-a second-type second body.

Detailed Description

The application provides an electronic equipment, can make the maintenance operation of function module go on simple, convenient more.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1 to 11, the present embodiment provides an electronic device, which may be a plurality of different devices with a function module 3, such as a server, a chassis, a cabinet, and the like. The electronic device mainly comprises a second body 2, a functional module 3 and an adjusting component, wherein the second body 2 is a component for bearing the functional module 3, that is, the second body 2 has a second accommodating space, at least one functional module 3 is arranged in the second accommodating space, and in this application, the second body 2 is also arranged on the first body 1 in a sliding manner, the first body 1 can be a component of the electronic device, for example, it can be a main structure such as a housing of the electronic device, or the first body 1 can be a component of the electronic device, for example, the first body 1 is only a supporting structure (such as a bracket, when the first body 1 is a bracket, the second body 2 can be a main structure of the electronic device), the first body 1 has a first accommodating space, the second body 2 can enter and exit the first accommodating space by sliding on the first body 1, in this way, the second body 2 can have an accommodating state of being accommodated in the first accommodating space and a sliding-out state of at least partially sliding out of the opening of the first accommodating space; the functional modules 3 disposed in the second accommodating space are preferably a plurality of (or may be one), and these functional modules 3 may be of the same type, so that the functions of one aspect of the electronic device are more prominent, for example, all the functional modules 3 are devices having a storage function, so that the storage density of the electronic device is higher, or all the functional modules 3 may be of a plurality of different types, that is, the functional modules 3 are devices of a plurality of different types capable of playing different functions, so that the electronic device has more functions, in this application, the functional modules 3 are preferably hard disks, and the electronic device is preferably a storage server provided with a hard disk array, and the thickness of the storage server is 2U (U is the unit of the thickness or height of the server, and 1U is 44.45 mm); the adjusting component is also arranged on the second body 2, specifically in the second accommodating space, and is located between the bottom wall of the second body 2 and the function module 3, the adjusting component adjusts the position of the function module 3, that is, the position of the function module 3 relative to the second body 2 can be changed, the position of the function module 3 adjusted by the adjusting component at least comprises the first end 4 of the function module 3, the first end 4 is the end, close to the opening of the first accommodating space, of the function module 3 on the second body 2 when the second body is in the accommodating state, that is, the adjusting component at least adjusts the first end 4 of the function module 3 to enable the first end 4 to extend out of the second accommodating space.

When an operator maintains the electronic device with the above structure, the operator can pull the second body 2 first to slide the second body 2 out of the first body 1, so that the functional module 3 disposed on the second body 2 is exposed outside the first body 1, and then the operator can operate the adjusting assembly to at least move the first end 4 of the functional module 3 out of the second accommodating space of the second body 2 under the driving of the adjusting assembly, i.e., at least the first end 4 of the functional module 3 extends out of the second body 2, so that the operator can conveniently insert and extract the interface on the first end 4 or conveniently disassemble and assemble the device disposed on the first end 4, and the operator can more conveniently perform maintenance operations such as hot plugging, disassembling and assembling on the extended functional module 3, so that the maintenance operation can be simpler, Convenient and efficient implementation.

As shown in fig. 2, 3 and 7, in the present application, it is preferable that the function modules 3 include at least a first function module group 5 disposed near the opening in the accommodated state, and a second function module group 6 disposed on a side of the first function module group 5 away from the opening, each function module group including one or more function modules 3. That is, in order to optimize the functions of the electronic device to the maximum extent, it is preferable that the function modules 3 have a plurality of function modules, and on this basis, in order to make the function modules 3 more reasonably distributed in the second accommodating space, the function modules 3 are arranged into a plurality of function module sets, and as shown in fig. 2, 3 and 7, the function module sets are arranged in rows, that is, if the function modules are distinguished according to the distribution mode, the first function module set 5 is a first row of function modules, the second function module set 6 is a second row of function modules, wherein the length direction of the row is preferably perpendicular to the sliding-out direction of the second body 2, so that the function modules 3 can be exposed simultaneously when the second body 2 slides out for a distance, and the first row of function modules is a module set closest to the opening of the first accommodating space, and the distance between the second row of function modules and the opening is larger, if the third row and the fourth row of functional modules exist, the distances between the functional modules and the opening are sequentially larger. So distribute function module 3, except making the more standard that function module 3 set up, can also be better classify or make its cooperation to function module 3, for example can set up a plurality of function modules 3 of the same kind into a function module set, perhaps set up a plurality of different kinds of function modules 3 of the work of mutually supporting into a function module set.

Specifically, in order to facilitate installation and adjustment of the function module 3, as shown in fig. 5 and 6, it is preferable that the second body 2 is provided with a mounting bracket 7 capable of being adjusted by the adjusting component, the function module 3 is disposed on the second body 2 through the mounting bracket 7, and the function module 3 can slide in a direction toward the first end 4 to separate from the mounting bracket 7, so as to separate from the second body 2. Set up mounting bracket 7 and can be convenient for carry out the dismouting to function module 3, for example can make mounting bracket 7 be frame construction, and it has enclosed into the mounting groove of holding function module 3, when pushing into the mounting groove with function module 3, then can realize function module 3's installation, and then can realize function module 3's dismantlement when pulling out function module 3 from the mounting groove. Wherein, the structure of mounting bracket 7 can have multiple selection, for example can make mounting bracket 7 and single function module 3 match, can only install a function module 3 on a mounting bracket 7 promptly, also can be as shown in fig. 2, fig. 3 and fig. 7, make mounting bracket 7 and a plurality of function module 3 that are row distribution match, make mounting bracket 7 have a plurality of mounting grooves that are row distribution promptly, all insert function module 3 back in every mounting groove, this mounting bracket 7 has realized bearing to a function module set promptly, when adjusting part adjusts this mounting bracket 7, just can realize realizing position control simultaneously to all function modules 3 that are affiliated to same function module set. And make adjusting part and mounting bracket 7 cooperate in order to realize the regulation to function module 3 through adjusting mounting bracket 7, can avoid adjusting part direct and function module 3 contact, and then avoid frequent regulation operation to cause the damage to function module 3. In addition, on the premise of not considering the above factors, the mounting frame 7 may not be provided, but the functional module 3 is directly connected to the second body 2, and the adjusting assembly directly adjusts the functional module 3.

Preferably, on the basis, when the second set of function modules 6 is not exposed outside the first body 1, the second set of function modules 6 is shielded by the first set of function modules 5 in the separating direction of the function modules 3 of the second set of function modules 6 (i.e. in the direction toward which the first ends 4 of the function modules 3 face); when the second set of functional modules 6 is exposed outside the first body 1, the second set of functional modules 6 is not shielded by the first set of functional modules 5 in the separating direction of the functional modules 3 of the second set of functional modules 6. That is, when the second set of function modules 6 are located in the first and second accommodating spaces simultaneously, the position of the second set of function modules 6 is not adjusted by the adjusting component, as shown in fig. 2, the first end 4 of the function module 3 in the second set of function modules 6 faces the position where the first set of function modules 5 is located, that is, if the function module 3 of the second set of function modules 6 is separated, the separating direction is the direction in which the first set of function modules 5 is located, since the first set of function modules 5 is located in this direction, the first set of function modules 5 will block the second set of function modules 6, and the first body 1 will block the second set of function modules 6 in other directions, so that the function module 3 of the second set of function modules 6 cannot be separated, that is, when the second set of function modules 6 is not exposed, the first functional module set 5 will block the second functional module set 6 and the functional modules 3 of the second functional module set 6 cannot be separated (disassembled); when the second functional module set 6 is exposed along with the sliding out of the second body 2, due to the adjustment of the adjustment assembly, the first end 4 of the functional module 3 of the second functional module set 6 is changed in position and does not face the first functional module set 5 any more, but tilts as shown in fig. 3 and 7, at this time, no other component exists in the direction in which the first end 4 faces, so that there is no blocking any more, and the second functional module set 6 is not blocked by the first functional module set 5 any more, so that the functional module 3 of the second functional module set 6 can move in the direction and is separated from the second body 2.

Further, the adjusting function of the adjusting component is not only suitable for the second set of function modules 6, but also suitable for other sets of function modules, and is not limited to the number of the function modules set, that is: when only one functional module set is arranged in the second accommodating space, the positions of the functional module sets can be adjusted by arranging the adjusting assemblies; when a plurality of sets of function modules are disposed in the second accommodating space, for example, when the first set of function modules 5 and the second set of function modules 6 are disposed in the second accommodating space, while the adjusting components are disposed to adjust the position of the second set of function modules 6, a larger number of adjusting components may be added to adjust the position of the first set of function modules 5. That is, the function module set that can be changed in position is not limited to the function module set that is blocked by another function module set, such as the second function module set 6, the third function module set, and the fourth function module set, and may include a function module set that is not blocked by another function module set, such as the first function module set 5 that is closest to the opening of the first accommodating space. In short, the first set of function modules 5 may or may not be position-adjusted based on the position adjustment enabled by the second set of function modules 6.

When the first functional module group 5 is not adjusted in position, because the outer surface (i.e. an exposed surface) of the second body 2 has a window, the first end 4 of the functional module 3 of the first functional module group 5 is exposed in the window, as shown in fig. 1-3, an operator can directly pass through the window to operate the first end 4 of the functional module 3, so that the functional module 3 in the functional module group can directly slide horizontally along the first direction to be separated from the third type second body 18, as shown in fig. 4. Based on the adjustment of the first end 4 of the function module 3 by the adjustment assembly, as shown in fig. 5 and 6, the adjustment assembly preferably includes: a first rotating shaft 8 provided on the mounting bracket 7 to rotatably connect the mounting bracket 7 with the second body 2, the first rotating shaft 8 being located on a side of the mounting bracket 7 away from the opening of the first accommodating space when the second body 2 is in the accommodated state; a support member 9 rotatably disposed on the mounting frame 7 to support a side of the mounting frame 7 near the opening, the support member 9 being rotated to adjust the position of the first end 4; a driving member 10 for driving the support member 9 to rotate. When the position of the function module 3 needs to be adjusted, the support member 9 at the bottom of the mounting frame 7 is driven to rotate, so that the support member 9 is changed from a tilting state to an upright state, in the process, the whole function module 3 rotates around the first rotating shaft 8, because the first rotating shaft 8 is arranged at one end, far away from the opening, of the mounting frame 7, and the support member 9 is arranged at one end, close to the opening, of the mounting frame 7, one end connected with the support member 9 can be tilted through rotation through the support of the support member 9 and the rotation of the first rotating shaft 8, because the end of the mounting frame 7 corresponds to the first end 4 of the function module 3 arranged on the mounting frame, the first end 4 of the function module 3 can extend out of the second accommodating space, when the first end 4 rotates to a preset position, the support member 9 does not rotate any more, and the bottom end of the support member 9 is abutted to the second body 2, the function module 3 is supported by the support 9 such that the first end 4 can stay at a predetermined position, as shown in fig. 7. Among them, the supporting member 9 is preferably a plate-shaped member, and because the thickness of the plate-shaped member is small, when the function module 3 is not supported, the supporting member 9 in the toppled state between the mounting frame 7 and the second body 2 does not affect the accommodation of the function module 3 in the second accommodation space; the supporting member 9 is connected to the supporting frame via a second rotating shaft and rotates around the second rotating shaft, and the first rotating shaft 8 is convexly disposed on the sidewall of the mounting frame 7 and is rotatably connected to the sidewall of the second body 2, as shown in fig. 3. The driving member 10 for driving the supporting member 9 to rotate can be selected in various ways, for example, as shown in fig. 5 and 6, it can be a torsion spring which is sleeved on the second rotating shaft and applies elasticity to the supporting member 9; or a motor for driving the second rotating shaft to rotate, etc.

Further, the second body 2 and the first body 1 are connected through a sliding assembly, and preferably, the second body 2 or the sliding assembly is linked with an adjusting assembly, so that the adjusting assembly adjusts at least the first end 4 of the second functional module set 6 in the process of sliding out the second body 2. Through so setting up, can be so that operating personnel in the in-process of pulling out second body 2 from first body 1, realize the automatic perk of first end 4 to make operating personnel need not to operate adjusting part specially again, simplified the step of maintaining the operation, make the operation of maintaining can be simple more, convenient going on. The sliding assembly is, for example, a sliding rail arranged on the inner wall of the first body 1, and a sliding block which is arranged on the second body 2 and can slide on the sliding rail, the second body 2 is erected on the sliding rail through the sliding block, and an operator can drive the sliding block to slide on the sliding rail when pulling the second body 2 so as to slide the second body 2 out of the first body 1; the linkage assembly for realizing linkage can also have various structures, for example, as shown in fig. 8, the linkage assembly can include a lever 14 arranged on the inner wall of the first body 1, and a strip-shaped hole 15 arranged on the side wall of the second body 2, the strip-shaped hole 15 is arranged obliquely relative to the sliding-out direction of the second body 2, and in the accommodating state of the second body 2, the height of one end of the two ends of the strip-shaped hole 15, which is close to the opening of the first accommodating space, is greater than that of the end far away from the opening, the first end 4 of the lever 14 is hinged to a connecting rod which passes through the strip-shaped hole 15 and can slide in the strip-shaped hole 15, the second end of the lever 14 is hinged to the support 9, in the sliding-out process of the second body 2, under the driving of the second body 2, the first end 4 of the lever 14 moves from the end with the larger height of the strip-shaped hole 15 to the end with the smaller, at the same time, the second end of the lever 14 moves upwards, and since the second end is hinged to the supporting member 9, the second end moving upwards drives the supporting member 9 to move upwards, so that the supporting member 9 is changed from the tilting state to the upright state, and the first end 4 of the functional module 3 is tilted. Alternatively, the linkage may be achieved by cooperation of a sensor for sensing the position of the second body 2, a controller in communication with the sensor, and the motor operating under the control of the controller. In addition, the adjusting component may not be linked with the second body 2 or the sliding component, but an operator may perform manual operation on the adjusting component again when position adjustment is required, or the adjusting component may not be operated or no adjusting component is provided if position adjustment is not required (for example, when the functional module is a PCIE card described later).

In this application, when the adjusting component carries out position adjustment to function module 3, the position of its adjusted function module 3 can be first end 4 in the above-mentioned, in an optimal regulation mode, adjusting component can only adjust the one end of function module 3 that is close to first accommodation space open-ended to make this end perk and stretch out to the outside of second accommodation space, as shown in fig. 3 and 7, thereby make that operating personnel can be convenient operate this end, with simpler operations such as hot plug, dismouting to function module 3. In addition, other adjusting modes can be preferably adopted in the present application, for example, the adjusting mechanism is used for adjusting the whole function module 3, so that the whole function module 3 moves out of the second accommodating space, that is, each part of the function module 3 is moved to the outside of the second body 2 under the adjustment of the adjusting component, so as to be completely separated from the second accommodating space, and the specific separating mode can be realized by translating the function module 3 along the direction parallel, perpendicular or inclined to the sliding-out direction of the second body 2, or by overturning the function module 3.

On the basis that the adjusting component adjusts the whole function module 3, the adjusting mechanism corresponding to the adjusting component comprises: a scissor mechanism (not shown) disposed between the mounting frame 7 and the second body 2, the scissor mechanism being capable of driving the mounting frame 7 to lift relative to the second body 2; a driving part 10 for driving the scissors mechanism, wherein the driving part 10 can be a helical spring, a worm gear driven by a motor, a gear rack and the like.

In addition, the functional module 3 in the present application may be a PCIE card in addition to the above hard disk, that is, the electronic device provided in the present application includes: the second body is provided with a second accommodating space and can accommodate at least one PCIE card, wherein the second body is arranged in the first body with a first accommodating space in a sliding mode, the first accommodating space is provided with an opening, and the second body is in an accommodating state of being accommodated in the first accommodating space and a sliding-out state of at least partially sliding out of the opening; and the wiring assembly is arranged on the second body and can realize the communication connection between the PCIE card and the external equipment. As shown in fig. 9-11, the second body 2 preferably has an exposed surface exposed outside the first body 1 all the time, that is, when the second body 2 is in the accommodating state, the exposed surface is a component of an outer surface of the first body 1, and the exposed surface is provided with the above-mentioned wiring assembly, the wiring assembly is preferably a wiring board having a plurality of wiring ports 11, and more preferably, the wiring board is a component of the second body 2 having the exposed surface, that is, preferably, the plurality of wiring ports 11 are directly provided on the exposed surface of the second body 2, all the PCIE cards are communicatively connected to different wiring ports 11, and the external device is wired to the wiring ports 11 to achieve communicative connection with the PCIE cards located in the first accommodating space and the second accommodating space.

As shown in fig. 10 and fig. 11, when the functional module 3 is a PCIE card capable of cooperating with an external device, it is also preferable that the functional module 3 at least includes a first functional module set 5 disposed near the opening in the accommodating state, and a second functional module set 6 disposed on a side of the first functional module set 5 away from the opening; the first functional module set 5 and the second functional module set 6 both include a plurality of functional modules 3, gaps are formed between the functional modules 3 of the first functional module set 5 and between the functional modules 3 and the side wall of the second body 2, and wires 12 of the functional modules 3 of the second functional module set 6 are connected in a communication manner to realize wiring in the gaps. That is to say, the functional modules 3 disposed in the first accommodating space and the second accommodating space are also in communication connection with the wiring ports 11 disposed on the exposed surface of the second body 2 through the wires 12, and since the first functional module set 5 is located between the exposed surface and the second functional module set 6, that is, the first functional module set 5 shields the second functional module set 6, the first functional module set 5 may affect the routing of the second functional module set 6, and in order to reduce the effect, the application makes the gaps between the plurality of functional modules 3 of the first functional module set 5 and between the functional modules 3 and the sidewalls of the second body 2, so that the wires 12 communicatively connecting the second functional module set 6 can be routed in the gaps, thereby facilitating the disposition of a greater number of functional modules 3. In this embodiment, it is further preferable that the plurality of functional modules 3 in the first functional module set 5 and the plurality of functional modules 3 in the second functional module set 6 are alternately arranged, as shown in fig. 10 and 11, so as to provide more paths and more space for routing. Under this condition, because the communication connection with the wiring subassembly has been realized through walking to the PCIE card of second function module set 6, operations such as hot plug can be realized through operating the wiring subassembly, so can need not to adjust the position of second function module set 6 again, consequently when function module 3 is the PCIE card, can make the adjusting part not carry out position control to second function module set 6, operating personnel no longer operates the adjusting part promptly.

As shown in fig. 1, 2 and 11, it is preferable that the second body 2 is provided with a fixing member 13, and the fixing member 13 is connected to the first body 1 to prevent the second body 2 from sliding out of the first body 1. Because in the normal working process of the electronic device, the functional module 3 does not need to be exposed, in order to avoid the second body 2 from accidentally sliding out of the first body 1, it is preferable to further provide a fixing component 13 on the second body 2, so as to lock the second body 2 in the accommodating state with the first body 1. Specifically, the fixing component 13 may be a rotatable bolt disposed on the second body 2, a screw hole disposed on the first body 1 and capable of being connected with the bolt by a thread, or a buckle disposed on the second body 2, a slot disposed on the first body 1, or the like.

Further, as shown in fig. 12, the present application also provides an electronic system including: a first body 1 having a first receiving space having an opening; at least one second body 2 having a second accommodating space capable of accommodating at least one function module 3, wherein the second body 2 is slidably disposed in the first body 1 along a first direction, and the second body 2 has an accommodating state accommodated in the first accommodating space and a sliding-out state at least partially sliding out of the opening; wherein the second body 2 comprises an adjustment assembly, which can be used to adjust the position of at least a first end 4 of the functional module 3 in the second receiving space in a direction different from the first direction, wherein the first end 4 is the end which is close to the opening in the received state. That is to say, the first body 1, the second body 2 and the adjusting component in the electronic system are the first body 1, the second body 2 and the adjusting component of the electronic apparatus, in addition, the electronic system in the present application further causes the second body 2 to slide on the first body 1 along the first direction, and the direction of the adjusting component adjusting the function module 3 is different from the first direction, and as can be seen from the foregoing, in the sliding-out direction of the second body 2 (i.e. the first direction), the first function module set 5 is located in front of the second function module set 6, which will form a shelter on the second function module set 6, so that the second function module set 6 cannot be separated from the second body 2 along the first direction, so that the second function module set 6 is adjusted by the adjusting component along a direction different from the first direction, so as to change the separating direction of the second function module set 6 (the separating direction after being changed is the direction toward which the tilted first end 4 faces To), just so can make the second function module set 6 behind the adjusted position can not be sheltered from by first function module set 5, and then make that operating personnel can be convenient maintain second function module set 6.

On the basis that the electronic system comprises the first body 1, the second body 2 arranged on the first body 1 may comprise one or more types, that is, the second body 2 arranged on the first body 1 may be all one type, or may have two types, three types … …, etc., wherein the first type second body 16 arranged on the first body 1 may adjust the position of the function module 3 on the first type second body 16 along the second direction by its adjusting component, and the position of the function module 3 adjusted by the adjusting component is at least the first end 4 of the function module 3; and/or the second type second body 17 arranged on the first body 1 can adjust the position of the functional module 3 on the second type second body 17 along the third direction through the adjusting component, and the part of the functional module 3 adjusted by the adjusting component is at least the first end 4 of the functional module 3. That is, the types of the second bodies 2 provided on the first body 1 are different, and the position adjustment directions of the function modules 3 on the different types of second bodies 2 are different, and these directions are not only different from the first direction, but also different from each other. Preferably, in the present application, the first direction and the second direction satisfy a perpendicular condition, and the second direction and the third direction satisfy an opposite condition, where the perpendicular condition means that an included angle between the first direction and the second direction may be 90 degrees, or may be an angle close to 90 degrees, for example, may be 85 degrees to 95 degrees; similarly, the condition that the opposite is satisfied means that the included angle between the second direction and the third direction may be 180 degrees, or may be an angle close to 180 degrees, for example, 175 to 185 degrees. On the premise that the angular relationship is satisfied, in a preferred arrangement, as shown in fig. 12, the first direction may be a horizontal left direction, the second direction may be a vertical downward direction, and the third direction may be a vertical upward direction. The reason why the included angle between the first direction, the second direction and the third direction is preferably the value or the value range is that the value is more favorable for the operator to maintain the function module 3 arranged on the first body 1, and the classification mode of the second body 2 is determined according to the arrangement mode (i.e. normal arrangement or upside down arrangement in the vertical direction) of the second body on the first body 1, as will be described later.

In a specific embodiment, the first body 1 and the second body 2 are arranged in such a way that: at least two second bodies 2 are arranged in the second direction in the first accommodating space of the first body 1, wherein in the second direction, the second bodies 2 arranged at the first position are first-type second bodies 16, and the second bodies 2 arranged at the last position are second-type second bodies 17. Referring to fig. 12, this setting method specifically includes: the first body 1 is a cabinet with a certain height, and the first accommodating space of the first body 1 has a larger volume, so that a plurality of second bodies 2 can be accommodated in the first accommodating space at the same time, when the first direction is a horizontal left direction, the second direction is a vertical downward direction, and the third direction is a vertical upward direction, the plurality of second bodies 2 are sequentially arranged in the first accommodating space from top to bottom (i.e. arranged in a vertical downward direction), so that the plurality of second bodies 2 are stacked in the first accommodating space, and in the second direction (i.e. in a vertical downward direction), the second body 2 arranged at the first position is a first kind of second body 16, the first second body 2 located at the uppermost position is a first kind of second body 16, and as can be seen from the foregoing, the function module 3 on the first kind of second body 16 is position-adjusted in the second direction (i.e. in a vertical downward direction), therefore, the functional module 3 disposed on the second body 2 at the top of the first body 1 is adjusted in a vertically downward manner (i.e. the first end 4 is rotated from a position facing the horizontal direction to a position facing the vertical direction), so that the first end 4 of the functional module 3 is oriented in a vertically downward or obliquely downward direction (i.e. the functional module 3 is "heads down") after the position adjustment, or the adjustment manner can be that the whole functional module 3 is translated in the second direction to reduce the height of the functional module 3, when the height of the cabinet body (i.e. the first body 1) is greater than the height of the operator, the first end 4 of the functional module 3 disposed on the second body 2 at the top of the cabinet body can be rotated downward to face and approach the operator, so that the operator can more easily apply force to the functional module 3, thereby improving the convenience of the maintenance operation, when the second body 2 is the first-type second body 16, a greater number of electronic devices can be stacked, and even if the height after stacking is larger, the functional module 3 can be lowered or moved down, so that an operator does not need to use a ladder to ascend for auxiliary operation when maintaining and managing the functional module; and in the second direction, the second body 2 arranged at the last position is the second-type second body 17, that is, the second body 2 at the lowest position among the plurality of second bodies 2 arranged in a stacked manner is the second-type second body 17, since the functional module 3 on the second-type second body 17 is position-adjusted in the third direction (that is, the vertically upward direction), the functional module 3 arranged on the second body 2 at the lowest position of the first body 1 is position-adjusted in the vertically upward manner, so that the first end 4 of the functional module 3 faces in the vertically upward or obliquely upward direction after the position adjustment (that is, the functional module 3 "heads up"), or the adjustment manner is that the whole functional module 3 is translated in the third direction to increase the height of the functional module 3, since the second body 2 is located at the lowest position of the cabinet, namely, the second body 2 is close to the ground, so that the functional module 3 on the second body 2 tilts upwards, operators can operate the functional module 3 without bending over excessively, and the convenience of maintenance operation can be improved.

The above arrangement is a manner in which a plurality of types of second bodies 2 are provided on the first body 1, and further, as mentioned above, only one type of second body 2 may be provided on the first body 1, for example: when the height of the first body 1 is smaller than the height of an operator (for example, when the height of the operator is only half of the height of the operator), the operator needs to bend over all the function modules 3 arranged on the first body 1 when operating the function modules, and therefore, in order to enable the operator to operate more conveniently, the second bodies 2 arranged on the first body 1 can be the second-type second bodies 17 which enable the function modules 3 to be raised; or, when the height of the first body 1 is large (for example, the height of the first body 1 is greater than the height of the operator), in order to facilitate the operation of the functional module 3 located above the operator, the second bodies 2 disposed on the first body 1 may be the first type of second body 16 that can lower the head of the functional module 3.

In the electronic system, a third type of second body may also be disposed, which may be located at the middle height of the first body 1, that is, located between the first type of second body 16 and the second type of second body 17, and the type of the function module 3 disposed on the third type of second body may be different from the type of the function module 3 disposed on the first type of second body 16 and the second type of second body 17, for example, on the basis that the function module 3 disposed on the first type of second body 16 and the second type of second body 17 is a hard disk, the function module 3 disposed on the third type of second body may be a PCIE card, that is, the plurality of function modules 3 of the electronic system include both a hard disk and a PCIE card, so that the electronic system has more functions or multiple functions are enhanced.

The second body 2, the adjusting component and the function module 3 are cooperatively arranged in a manner as shown in fig. 2, 3 and 7, the second body 2 is preferably similar to a drawer in structure, the normal arrangement manner of the second body 2 on the first body 1 is preferably the same as the arrangement manner of the drawer in daily life, that is, the arrangement manner shown in fig. 2 is the normal arrangement manner of the second body 2, in this way, the function module 3 on the second body 2 is adjusted to be in a "head up" state by the adjusting component, so that the second body 2 arranged on the first body 1 in the normal arrangement manner is the second-type second body 17, and the function module 3 on the first-type second body 16 is adjusted to be in a "head down" state by the adjusting component, so that the preferred arrangement manner of the first-type second body 16 on the first body 1 can be that the second body 2 is directly arranged on the first body 1 upside down, this eliminates the need for any modification of the first body 1 and the second body 2. That is, the first kind second body 16 and the second kind second body 17 are classified in such a manner that they are normally arranged or inversely arranged on the first body 1. In addition, under the prerequisite of guaranteeing that function module 3 on the first kind of second body 16 can "lower head", first kind of second body 16 also can normally set up on first body 1 to avoid the mouth so that function module 3's first end 4 passes under adjusting part's regulation and avoids the mouth and realize "lower head" through offering on the diapire of second body 2.

In this specification, structures of each part are described in a progressive manner, and a structure of each part is mainly described to be different from an existing structure, and the whole structure and the part structure of the electronic device can be obtained by combining the structures of the parts.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. 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 application. Thus, the present application 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 (10)

1. An electronic device, comprising:

the second body is provided with a second accommodating space and can accommodate at least one functional module, wherein the second body is arranged in the first body with a first accommodating space in a sliding manner, the first accommodating space is provided with an opening, and the second body has an accommodating state accommodated in the first accommodating space and a sliding-out state at least partially sliding out of the opening;

the adjusting assembly is arranged on the second body and can be used for adjusting the position of at least a first end of the functional module, which is positioned in the second accommodating space, so that the first end is positioned outside the second accommodating space, wherein the first end is the end part, close to the opening, of the functional module in the accommodating state.

2. The electronic device of claim 1, the functional modules comprising at least a first set of functional modules disposed proximate to the opening in the accommodated state, and a second set of functional modules disposed on a side of the first set of functional modules away from the opening;

the second body is provided with a mounting frame capable of being adjusted by the adjusting component, the functional module is arranged on the second body through the mounting frame, and the functional module can slide in the direction towards the first end to separate from the mounting frame.

3. The electronic device of claim 2, wherein the second set of functional modules is obscured by the first set of functional modules in a direction of disengagement of the functional modules of the second set of functional modules when the second set of functional modules is not exposed outside of the first body; when the second set of functional modules is exposed outside the first body, the second set of functional modules is not shielded by the first set of functional modules in the separation direction.

4. The electronic device of claim 3, wherein the second body is connected to the first body through a sliding assembly, and the second body or the sliding assembly is linked to the adjusting assembly, so that the adjusting assembly adjusts at least the first end of the second set of functional modules during sliding out of the second body.

5. The electronic device of claim 2, the adjustment assembly comprising:

a first rotating shaft arranged on the mounting rack so as to enable the mounting rack to be rotatably connected with the second body, wherein the first rotating shaft is positioned on one side, far away from the opening, of the mounting rack in the accommodating state;

the support piece is rotatably arranged on the mounting rack so as to support one side of the mounting rack close to the opening, and the support piece is rotated to realize the adjustment of the position of the first end;

and the driving piece drives the supporting piece to rotate.

6. The electronic device according to claim 1, wherein the adjusting mechanism adjusts the whole function module to move the function module out of the second accommodating space;

wherein the adjustment mechanism comprises:

the scissor mechanism is arranged between the mounting rack and the second body and can drive the mounting rack to lift relative to the second body;

and the driving piece drives the scissor mechanism.

7. The electronic device of claim 1, the second body has an exposed surface always exposed outside the first body, the exposed surface is provided with a plurality of wiring ports, and all the functional modules are respectively connected with different wiring ports in communication;

the functional modules at least comprise a first functional module set and a second functional module set, wherein the first functional module set is arranged close to the opening in the accommodating state, and the second functional module set is arranged on one side, far away from the opening, of the first functional module set; the first functional module set and the second functional module set comprise a plurality of functional modules, gaps are formed between the functional modules of the first functional module set and between the functional modules and the side wall of the second body, and wires which are in communication connection with the functional modules of the second functional module set are routed in the gaps.

8. An electronic system, comprising:

a first body having a first receiving space having an opening;

the second body is provided with a second accommodating space and can accommodate at least one functional module, wherein the second body is arranged on the first body in a sliding manner along a first direction, and the second body has an accommodating state accommodated in the first accommodating space and a sliding-out state at least partially sliding out of the opening;

wherein the second body comprises an adjustment assembly operable to adjust a position of at least a first end of the functional module within the second receiving space in a direction different from the first direction, wherein the first end is an end portion that is close to the opening in the receiving state.

9. The electronic system of claim 8, at least one of the second bodies comprising:

the adjusting component of the first-class second body is used for adjusting the position of at least a first end of the function module in a second direction;

and/or the presence of a gas in the gas,

the adjusting component of the second type second body is used for adjusting the position of at least the first end of the functional module in a third direction;

wherein the first direction and the second direction satisfy a vertical condition, and the second direction and the third direction satisfy an opposite condition.

10. The electronic system according to claim 9, at least two of the second bodies being disposed in the first accommodation space in the second direction;

in the second direction, the second bodies arranged at the first position are the first-type second bodies, and the second bodies arranged at the last position are the second-type second bodies.

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