CN211959792U - Control platform compatible with various servers - Google Patents

Abstract

The application provides a control platform compatible with various servers, which comprises a bracket, a control part and a connecting assembly for connecting the bracket and the control part, wherein the control part comprises a controller arranged at one end of the bracket and a switcher arranged at the other end of the bracket; the connecting assembly comprises a first sliding rail, a second sliding rail, a first connecting piece and a second connecting piece, wherein the first sliding rail is fixed at one end, close to the controller, of the support and extends towards the direction close to the controller to form a first saddle, the second sliding rail is fixed at one end, far away from the controller, of the support and extends towards the direction close to the switcher to form a second saddle, one end of the first connecting piece is fixed to the controller, the other end of the first connecting piece is matched with the first saddle of the first sliding rail, one end of the second connecting piece is fixed to the switcher, and; the controller sliding along the first slide rail and the switcher sliding along the second slide rail are oppositely arranged on the bracket along the same slide rail direction. The problem that the compatible multiple servers can be solved only by replacing the switcher is achieved through the controller and the switcher which are installed independently.

Description

Control platform compatible with various servers

Technical Field

The application relates to the technical field of cabinets, in particular to a control platform compatible with various servers.

Background

With the progress of computer servers, the types of servers are various, the input port and the output port of each server are different, in order to establish connection between servers, a plurality of control parts are often required to be designed to connect different servers, each control part can only be connected with one server, and the cost of a control platform is increased invisibly. The control platform who uses at present is with the integrative mode of control module subassembly and switch, when facing different servers, need change whole control division, because control division is bulky, needs many people to assist just can change, causes control platform's flexibility too poor, can not compatible multiple server.

Therefore, a control platform is urgently needed to improve the problem that the existing control platform cannot be compatible with multiple servers.

Disclosure of Invention

In view of the above problems, the present application provides a control platform compatible with multiple servers to improve the problem that the existing control platform is not compatible with multiple servers.

The application provides a control platform compatible with multiple servers, which comprises a bracket, a control part and a connecting assembly, wherein the control part is arranged on the bracket, the connecting assembly is used for connecting the bracket and the control part, and the control part comprises a controller and a switcher, the controller is arranged at one end of the bracket, and the switcher is arranged at the other end of the bracket; the connecting assembly comprises a first slide rail, a second slide rail, a first connecting piece and a second connecting piece, wherein the first slide rail is fixed at one end, close to the controller, of the support and extends towards the direction close to the controller to form a first saddle, the second slide rail is fixed at one end, far away from the controller, of the support and extends towards the direction close to the switcher to form a second saddle, one end of the first connecting piece is fixed at the controller, the other end of the first connecting piece is matched with the first saddle of the first slide rail, one end of the second connecting piece is fixed at the switcher, and the other end of the second connecting piece is matched with; the controller sliding along the first slide rail and the switcher sliding along the second slide rail are oppositely arranged on the bracket along the same slide rail direction.

Preferably, the first saddle extends from the lower end of the first slide rail to a direction close to the controller to form an L-shaped structure, and the controller is mounted on the bracket along the first slide rail to a direction close to the switch.

Preferably, the second saddle extends from the lower end of the second slide rail to a direction close to the switch to form an L-shaped structure, and the switch is mounted on the bracket along the second slide rail to the controller.

Preferably, one end of the first connecting piece, which is far away from the switch, extends in a direction far away from the controller to form a first fixing table, and the first fixing table is fixed on the bracket through a nut.

Preferably, one end of the second connecting piece far away from the controller forms a second fixing table in the direction far away from the switcher, and the second fixing table is fixed on the bracket through a nut.

Preferably, the second slide rail further comprises a bar-shaped structure with two inward bent sides, and the second connecting piece is overlapped with the bent sides at the two ends of the second slide rail.

More preferably, the first connector has a tapered recess at an end adjacent the switch.

Preferably, the support comprises a vertical frame and a horizontal frame which are vertically connected with each other, two horizontal frames are arranged on the vertical frame in parallel with each other, and the horizontal frame is parallel to the ground.

Preferably, the first slide rail and the second slide rail are disposed on the same cross frame, and the second slide rail is disposed on the extending direction of the first slide rail close to the switch.

Preferably, the controller rear port is in data connection with the switch.

The utility model arranges the first connecting piece on the first saddle of the first slide rail in a sliding way, arranges the second connecting piece on the second saddle of the second slide rail in a sliding way, and arranges the first slide rail and the second slide rail on the bracket; the first connecting piece fixed on the controller is installed along the first saddle of the first slide rail towards the direction of the switcher, and the second connecting piece fixed on the switcher is installed along the second saddle of the second slide rail towards the direction of the controller, so that the controller and the switcher can be independently installed without influencing each other, and various servers can be compatible by replacing the switcher.

Drawings

Fig. 1 is an exploded structural diagram of a control platform compatible with multiple servers according to an embodiment of the present disclosure;

FIG. 2 is a cross-sectional view of a control platform compatible with multiple servers according to an embodiment of the present disclosure;

FIG. 3 is a partial enlarged view of a control platform compatible with multiple servers according to an embodiment of the present disclosure;

fig. 4 is a structural diagram of a control platform compatible with multiple servers according to an embodiment of the present application.

Detailed Description

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.

Fig. 1 is a structural diagram of a control platform compatible with multiple servers according to an embodiment of the present disclosure, and referring to fig. 1, the control platform includes a support 1, a control unit 2 installed on the support 1, and a connecting component 3 connecting the support 1 and the control unit 2, where the control unit 2 includes a controller 21 installed at one end of the support 1 and a switch 22 installed at the other end of the support 1; the connecting assembly 3 includes a first slide rail 31 fixed to one end of the bracket 1 close to the controller 21 and extending in a direction close to the controller 21 to form a first saddle 32, a second slide rail 33 fixed to one end of the bracket 1 away from the controller 21 and extending in a direction close to the switcher 22 to form a second saddle 34, a first connecting member 35 having one end fixed to the controller 21 and the other end matched with the first saddle 32 of the first slide rail 31, and a second connecting member 36 having one end fixed to the switcher 22 and the other end matched with the second saddle 34 of the second slide rail 33; the controller 21 sliding along the first slide rail 31 and the switch 22 sliding along the second slide rail 33 are mounted on the bracket 1 in opposite directions along the same slide rail direction.

Wherein, through separating controller 21 and switch 22 to set up different directions and install, connecting the different ports of different servers, only need to replace switch 22 alone and can make the compatible new server port of control part 2, and the installation direction of switch 22 is opposite with the installation direction of controller 21, when replacing switch 22, need not dismantle controller 21, this has saved operating personnel's work load greatly. The switch 22 can be replaced to be compatible with a plurality of types of servers, thereby expanding the range of use of the control section 2.

Fig. 2 is a cross-sectional view of a control platform according to an embodiment of the present invention, referring to fig. 2, the first saddle 32 extends from a lower end of the first slide rail to a direction approaching the controller 21 to form an L-shaped structure, and the controller 21 is mounted on the bracket 1 along the first slide rail 31 to a direction approaching the switch 22.

Wherein, extend out first saddle 32 in first slide rail lower extreme 312 to the direction that is close to controller 21, first saddle 32 is on a parallel with ground, and the first connecting piece 35 that is fixed in controller 21 can be put on first saddle 32 and slide, and first connecting piece 35 can guarantee through putting on first saddle 32 that controller 21 fixed with first connecting piece 35 can not fall from support 1.

Preferably, the second saddle 34 extends from the lower end 313 of the second slide rail to a direction close to the switch 22 to form an L-shaped structure, and the switch 22 is mounted on the bracket 1 along the second slide rail 33 toward the controller 21.

Fig. 4 is a structural diagram of a control platform according to an embodiment of the present application, referring to fig. 1 and 4, a second pallet 34 extends from a lower end 313 of the second slide rail in a direction approaching to the switch 22, the second pallet 34 is parallel to the ground, a second connecting member 36 fixed to the controller 21 can be placed on the second pallet 34 to slide, and the second connecting member 36 can be placed on the second pallet 34 to ensure that the switch 22 fixed to the second connecting member 36 does not fall off the rack 1.

Preferably, an end of the first connecting member 35 away from the switch 22 extends in a direction away from the controller 21 to form a first fixing table 37, and the first fixing table 37 is fixed to the bracket 1 by a nut.

Wherein, the end of the first connecting member 35 far away from the switch 22 extends to the direction far away from the support 1 to form a thin sheet with a hole, and the first connecting member 35 can be fixed on the support 1 by using a nut to penetrate through the thin sheet, so as to prevent the controller 21 from falling off the support 1 due to sliding.

Preferably, an end of the second connecting member 36 away from the controller 21 forms a second fixing table 38 in a direction away from the switch 22, and the second fixing table 38 is fixed to the bracket 1 by a nut.

Wherein, the end of the second connecting element 36 far away from the controller 21 extends to the direction far away from the bracket 1 to form a thin sheet with a hole, and the second connecting element 36 can be fixed on the bracket 1 by using a nut to penetrate through the thin sheet, so as to prevent the switch 22 from falling off the bracket 1 due to sliding.

Preferably, the second slide rail 33 further includes a strip structure with two sides bent back inwards, and the second connecting member 36 overlaps with the bent back of the two ends of the second slide rail 33.

Two sides of the second slide rail 33 are bent inwards, and grooves are formed on the two sides, so that the second connecting piece 36 is just embedded into the grooves, and when the second connecting piece 36 slides in the second slide rail 33, the second connecting piece 36 can only slide in the extending direction of the second slide rail 33, but cannot slide in the direction perpendicular to the extending direction of the second slide rail 33; so that the second connector 36 can be accurately brought into the mounting position.

Preferably, the first connector 35 has a tapered recess 311 at an end adjacent the switch 22.

The first slide rail 31 is recessed inward at the end close to the switch 22 to form a notch 311, the bracket 1 is provided with a locking post (not shown) corresponding to the notch 311, the first connecting piece 35 slides into the bracket 1 along the first slide rail 31, and the notch 311 is matched with the locking post on the bracket 1, so that the first connecting piece 35 cannot slide into the first slide rail 31 continuously; so that the first connecting member 35 is fitted into place.

Preferably, the support 1 comprises a vertical frame 11 and a horizontal frame 12 which are vertically connected with each other, two horizontal frames 12 are arranged on the vertical frame 11 in parallel with each other, and the horizontal frame 12 is parallel to the ground.

Wherein, perpendicular frame 11 and crossbearer 12 can have the multiunit, and perpendicular frame 11 supports in ground, for whole support 1 provides the support, and crossbearer 12 exists in pairs, and two crossbearers 12 parallel mount are on perpendicular frame 11, and first slide rail 31 and second slide rail 33 fixed connection are in the inboard of crossbearer 12, and first slide rail 31 and second slide rail 33 set up for the symmetry.

Preferably, the first slide rail 31 and the second slide rail 33 are disposed on the same cross frame 12, and the second slide rail 33 is disposed in the extending direction of the first slide rail 31 near the switch 22.

Wherein, the first slide rail 31 and the second slide rail 33 are disposed on the same side of the same cross frame 12, and the second slide rail 33 is in the extending direction of the first slide rail 31 to the switch 22; the first slide rail 31 and the second slide rail 33 are on the same side of the cross frame 12, so that the switch 22 is installed right behind the controller 21, and data connection between the controller 21 and the switch 22 is facilitated.

Preferably, the rear port of the controller 21 is in data connection with the switch 22.

The rear portion of the controller 21 is provided with a connection port, and the switch 22 is disposed right behind the controller 21, so that the controller 21 can conveniently perform data connection with the switch 22.

To sum up, the first slide rail 31 and the second slide rail 33 are arranged on the cross frame 12, the first saddle 32 and the second saddle 34 extend out from the lower part of the first slide rail 31 and the second slide rail 33, the first connecting piece 35 can slide into the first slide rail 31 along the first saddle 32, and the second connecting piece 36 slides into the second slide rail 33 along the second saddle 34; the sliding direction of the first connecting piece 35 is opposite to the sliding direction of the second connecting piece 36, the notch 311 of the first connecting piece 35 blocks the first connecting piece 35 at the tail end of the first slide rail 31 and also blocks the controller 21 at the tail end of the first slide rail 31, so that the controller 21 is prevented from falling off the first slide rail 31; after the first connecting piece 35 and the second connecting piece 36 are slid into the ends of the first sliding rail 31 and the second sliding rail 33, the first fixing table 37 and the second fixing table 38 on the first connecting piece 35 and the second connecting piece 36 are fixed on the bracket 1 through nuts, so that the controller 21 and the switcher 22 are fixed on the bracket 1; since the controller 21 and the switch 22 are slid in opposite directions, the controller 21 and the switch 22 can be installed independently of each other, and when different ports of different servers are connected, the entire control section 2 can be compatible with different types of servers by merely replacing the switch 22.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. A control platform compatible with a plurality of servers comprises a bracket, a control part arranged on the bracket and a connecting component for connecting the bracket and the control part, and is characterized in that the control part comprises a controller arranged at one end of the bracket and a switcher arranged at the other end of the bracket; the connecting assembly comprises a first slide rail, a second slide rail, a first connecting piece and a second connecting piece, wherein the first slide rail is fixed at one end, close to the controller, of the support and extends towards the direction close to the controller to form a first saddle, the second slide rail is fixed at one end, far away from the controller, of the support and extends towards the direction close to the switcher to form a second saddle, one end of the first connecting piece is fixed at the controller, the other end of the first connecting piece is matched with the first saddle of the first slide rail, one end of the second connecting piece is fixed at the switcher, and the other end of the second connecting piece is matched with; the controller sliding along the first sliding rail and the switcher sliding along the second sliding rail are oppositely arranged on the bracket in the same sliding rail direction.

2. The control platform of claim 1, wherein the first tray table extends from a lower end of the first rail to a direction close to the controller to form an L-shaped structure, and the controller is mounted on the bracket along the first rail to the direction close to the switch.

3. The control platform of claim 2, wherein the second tray table extends from a lower end of the second rail to a direction close to the switch to form an L-shaped structure, and the switch is mounted on the bracket along the second rail in the direction toward the controller.

4. The control platform of claim 3, wherein an end of the first connector away from the switch extends in a direction away from the controller to form a first fixing platform, and the first fixing platform is fixed to the bracket by a nut.

5. The control platform of claim 4, wherein an end of the second connecting member remote from the controller forms a second fixing platform in a direction away from the switch, and the second fixing platform is fixed to the bracket by a nut.

6. The control platform compatible with multiple servers according to claim 5, wherein the second sliding rail further comprises a bar-shaped structure with two sides bent back inwards, and the second connecting member is matched with the bar-shaped structure.

7. The multi-server compatible control platform of claim 6, wherein the first connector has a tapered recess at an end proximate the switch.

8. The control platform compatible with multiple servers according to claim 7, wherein the support comprises a vertical frame and a horizontal frame which are vertically connected with each other, the two horizontal frames are arranged on the vertical frame in parallel with each other, and the horizontal frame is parallel to the ground.

9. The control platform of claim 8, wherein the first rail and the second rail are disposed on the same cross frame, and the second rail is located in an extending direction of the first rail close to the switch.

10. The multi-server compatible control platform of any one of claims 1-9, wherein the controller back port is in data connection with the switch.

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