阅读说明：本技术 一种网络机房用的网络交换机 (Network switch that network computer lab was used ) 是由 王杰 梁丽珍 赵中堂 聂荣 范喆 于 2021-09-18 设计创作，主要内容包括：本发明适用于网络交换机技术领域,尤其涉及一种网络机房用的网络交换机,包括机柜、散热孔和交换机,且散热孔开设在机柜的表面,交换机放置在机柜的内部,所述网络机房用的网络交换机还包括：交换机表面灰尘清理结构,安装在机柜的内部,且与交换机的侧面相接触。本发明通过设置交换机表面灰尘清理结构,可以通过机械传动均匀的将机柜内的交换机侧面的灰尘清理掉,且还可以在清理的过程中,自动将清理下的灰尘收集起来,从而提高了该交换机的散热效率。(The invention is suitable for the technical field of network switches, and particularly relates to a network switch for a network machine room, which comprises a cabinet, radiating holes and a switch, wherein the radiating holes are formed in the surface of the cabinet, the switch is placed in the cabinet, and the network switch for the network machine room further comprises: switch surface dust clearance structure installs the inside at the rack, and contacts with the side of switch. According to the invention, by arranging the dust cleaning structure on the surface of the switch, dust on the side surface of the switch in the cabinet can be uniformly cleaned through mechanical transmission, and the cleaned dust can be automatically collected in the cleaning process, so that the heat dissipation efficiency of the switch is improved.)

1. The utility model provides a network switch that network computer lab was used, includes rack, louvre and switch, and the louvre is seted up on the surface of rack, and the inside at the rack is placed to the switch, its characterized in that, network switch that network computer lab was used still includes:

the dust cleaning structure is arranged in the cabinet and is in contact with the side surface of the switch, and is used for uniformly cleaning dust on the side surface of the switch in the cabinet through mechanical transmission and collecting the cleaned dust in the cleaning process; and

the anti-blocking structure is arranged on the surface dust cleaning structure of the machine cabinet and the exchanger and used for removing dust blocking the heat dissipation holes by taking the surface dust cleaning structure of the exchanger as power input and matching with mechanical transmission.

2. The network switch of claim 1, wherein the switch surface dust cleaning structure comprises:

the cleaning assembly is arranged in the cabinet, is in contact with the side surface of the exchanger and is used for cleaning dust on the side surface of the exchanger;

the driving assembly is arranged on the surface of the cabinet and used for driving the cleaning assembly to move through mechanical transmission;

the limiting assembly is connected to the inner wall of the cabinet and used for limiting the position of the cleaning assembly;

the knocking component is movably connected to the inner side of the cabinet and used for knocking the cleaning component to shake off dust on the cleaning component, and the limiting component can also drive the knocking component to move by taking the driving component as power input; and

the dust collecting piece is connected on the surface of the cabinet and used for collecting dust, and a dust discharging hole used for discharging dust is formed in the surface of the cabinet.

3. The network switch of claim 2, wherein the cleaning component comprises:

the first cleaning piece is contacted with the side surface of the exchanger and used for cleaning dust on the side surface of the exchanger;

the first elastic piece is arranged on the surface of the first cleaning piece and used for driving the first cleaning piece to move; and

the installed part is connected on drive assembly for drive first elastic component and remove.

4. The network switch of claim 2, wherein the driving assembly comprises:

the moving part is used for installing the cleaning assembly and can also drive the cleaning assembly to move;

the first transmission piece is used for installing the moving piece and can also drive the moving piece to move; and

the driving piece is installed on the surface of the cabinet, and the output end of the driving piece is connected with the first driving piece and used for driving the first driving piece to move.

5. The network switch of claim 4, wherein the limiting component comprises:

the braking part is connected to the first transmission part and used for braking the moving part; and

and the pressing piece is arranged on the inner wall of the cabinet and is used for pressing the moving piece so that the moving piece can be kept connected with the first transmission piece.

6. The network switch of claim 2, wherein the knocking component comprises:

the knocking piece is used for knocking the cleaning assembly to enable the cleaning assembly to vibrate;

the first rotating part is rotatably connected to the inner side of the cabinet and used for driving the knocking part to rotate; and

the second linkage piece is arranged on the first rotating piece and used for driving the first rotating piece to move.

7. The network switch of claim 2, wherein the anti-blocking structure comprises:

the second cleaning piece is connected to the side face of the cabinet in a sliding mode and used for removing dust blocked in the radiating hole; and

and the reciprocating motion assembly is arranged on the cabinet and the exchanger surface dust cleaning structure and is used for driving the second cleaning piece to do reciprocating motion on the surface of the cabinet by taking the exchanger surface dust cleaning structure as power input and matching with mechanical transmission.

8. The network switch of claim 7, wherein the reciprocating assembly comprises:

the reciprocating piece is connected to the second cleaning piece and used for driving the second cleaning piece to do reciprocating motion;

the two groups of fourth transmission parts are arranged on two sides of the inner side of the reciprocating part and are used for driving the reciprocating part to move;

the third transmission piece is connected with the fourth transmission piece and used for driving the fourth transmission piece to move;

the second rotating part is rotatably connected to the surface of the cabinet and is used for driving the third transmission part to rotate;

the second transmission piece is arranged on the second rotating piece and used for driving the second rotating piece to rotate; and

and the fifth transmission piece is arranged on the driving component and used for driving the second transmission piece to move by taking the driving component as power input.

Technical Field

The invention relates to the technical field of network switches, in particular to a network switch for a network machine room.

Background

A network switch is a device that expands the network and provides more connection ports in a sub-network to connect more computers. Typically, a plurality of network switches are centrally located in a network room. To facilitate centralized storage and operation of the switches, cabinets are also typically used to carry the switches.

When the network switch is used, although the protection of the cabinet is provided, the dust can be prevented from accumulating on the surface of the switch to a greater extent, the dust is still accumulated very easily on the side surface of the switch due to the heat dissipation holes close to the cabinet, and then the heat dissipation effect of the switch is poor.

Disclosure of Invention

An object of the embodiments of the present invention is to provide a network switch for a network room, which aims to solve the following problems: when the network switch is used, although the protection of the cabinet is provided, the dust can be prevented from accumulating on the surface of the switch to a greater extent, the dust is still accumulated very easily on the side surface of the switch due to the heat dissipation holes close to the cabinet, and then the heat dissipation effect of the switch is poor.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a network switch that network computer lab was used, includes rack, louvre and switch, and the louvre is seted up on the surface of rack, and the inside at the rack is placed to the switch, network switch that network computer lab was used still includes:

the dust cleaning structure is arranged in the cabinet and is in contact with the side surface of the switch, and is used for uniformly cleaning dust on the side surface of the switch in the cabinet through mechanical transmission and collecting the cleaned dust in the cleaning process; and

the anti-blocking structure is arranged on the surface dust cleaning structure of the machine cabinet and the exchanger and used for removing dust blocking the heat dissipation holes by taking the surface dust cleaning structure of the exchanger as power input and matching with mechanical transmission.

Further, the switch surface dust cleaning structure includes:

the cleaning assembly is arranged in the cabinet, is in contact with the side surface of the exchanger and is used for cleaning dust on the side surface of the exchanger;

the driving assembly is arranged on the surface of the cabinet and used for driving the cleaning assembly to move through mechanical transmission;

the limiting assembly is connected to the inner wall of the cabinet and used for limiting the position of the cleaning assembly;

the knocking component is movably connected to the inner side of the cabinet and used for knocking the cleaning component to shake off dust on the cleaning component, and the limiting component can also drive the knocking component to move by taking the driving component as power input; and

the dust collecting piece is connected on the surface of the cabinet and used for collecting dust, and a dust discharging hole used for discharging dust is formed in the surface of the cabinet.

Further, the cleaning assembly comprises:

the first cleaning piece is contacted with the side surface of the exchanger and used for cleaning dust on the side surface of the exchanger;

the first elastic piece is arranged on the surface of the first cleaning piece and used for driving the first cleaning piece to move; and

the installed part is connected on drive assembly for drive first elastic component and remove.

Further, the driving assembly includes:

the moving part is used for installing the cleaning assembly and can also drive the cleaning assembly to move;

the first transmission piece is used for installing the moving piece and can also drive the moving piece to move; and

the driving piece is installed on the surface of the cabinet, and the output end of the driving piece is connected with the first driving piece and used for driving the first driving piece to move.

Further, spacing subassembly includes:

the braking part is connected to the first transmission part and used for braking the moving part; and

and the pressing piece is arranged on the inner wall of the cabinet and is used for pressing the moving piece so that the moving piece can be kept connected with the first transmission piece.

Further, the knocking assembly includes:

the knocking piece is used for knocking the cleaning assembly to enable the cleaning assembly to vibrate;

the first rotating part is rotatably connected to the inner side of the cabinet and used for driving the knocking part to rotate; and

the second linkage piece is arranged on the first rotating piece and used for driving the first rotating piece to move.

Further, the anti-blocking structure comprises:

the second cleaning piece is connected to the side face of the cabinet in a sliding mode and used for removing dust blocked in the radiating hole; and

and the reciprocating motion assembly is arranged on the cabinet and the exchanger surface dust cleaning structure and is used for driving the second cleaning piece to do reciprocating motion on the surface of the cabinet by taking the exchanger surface dust cleaning structure as power input and matching with mechanical transmission.

Further, the reciprocating assembly comprises:

the reciprocating piece is connected to the second cleaning piece and used for driving the second cleaning piece to do reciprocating motion;

the two groups of fourth transmission parts are arranged on two sides of the inner side of the reciprocating part and are used for driving the reciprocating part to move;

the third transmission piece is connected with the fourth transmission piece and used for driving the fourth transmission piece to move;

the second rotating part is rotatably connected to the surface of the cabinet and is used for driving the third transmission part to rotate;

the second transmission piece is arranged on the second rotating piece and used for driving the second rotating piece to rotate; and

and the fifth transmission piece is arranged on the driving component and used for driving the second transmission piece to move by taking the driving component as power input.

According to the network switch for the network machine room, the dust cleaning structure on the surface of the switch is arranged, so that dust on the side surface of the switch in the cabinet can be uniformly cleaned through mechanical transmission, and the cleaned dust can be automatically collected in the cleaning process, so that the heat dissipation efficiency of the switch is improved.

Drawings

Fig. 1 is a schematic structural diagram of a network switch for a network room.

Fig. 2 is an enlarged view of a point a in a network switch for a network room.

Fig. 3 is a schematic partial structure diagram of a limiting member and a second elastic member in a network switch for a network room.

Fig. 4 is a partial schematic structural diagram of an anti-blocking structure in a network switch for a network room.

Fig. 5 is a side view of a reciprocating assembly in a network switch for a network room.

In the figure: 1. a cabinet; 2. heat dissipation holes; 3. a dust cleaning structure on the surface of the exchanger; 31. a drive assembly; 311. a drive member; 312. a first transmission member; 313. a moving member; 314. a first linkage member; 32. cleaning the assembly; 321. a mounting member; 322. a first elastic member; 323. a first cleaning member; 33. a knocking component; 331. a plexor member; 332. a first rotating member; 333. a second linkage member; 34. ash discharging holes; 35. a limiting component; 351. a stopper; 352. a second elastic member; 353. a limiting member; 36. a dust collecting member; 4. an anti-clogging structure; 41. a reciprocating assembly; 411. a second transmission member; 412. a reciprocating member; 413. a third transmission member; 414. a second rotating member; 415. a fourth transmission member; 416. a fifth transmission member; 42. a second cleaning member; 5. a switch.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to fig. 5, a network switch for a network room according to an embodiment of the present invention includes a cabinet 1, heat dissipation holes 2, and a switch 5, where the heat dissipation holes 2 are formed on a surface of the cabinet 1, the switch 5 is disposed inside the cabinet 1, and the network switch for the network room further includes:

the surface dust cleaning structure 3 of the exchanger is arranged in the cabinet 1, is contacted with the side surface of the exchanger 5, is used for uniformly cleaning the dust on the side surface of the exchanger 5 in the cabinet 1 through mechanical transmission, and can also collect the cleaned dust in the cleaning process; and

prevent blockking up structure 4, set up on rack 1 and switch surface dust clearance structure 3 for use switch surface dust clearance structure 3 to clear away the dust that blocks up louvre 2 for power input and cooperation mechanical transmission.

In an embodiment of the present invention, the switch surface dust cleaning structure 3 can drive the ash removal object to move on the side surfaces of the switches 5 by using a motor to drive and matching with a mechanical transmission manner, so as to clean the dust on the side surfaces of the switches 5, and can shake the dust accumulated on the ash removal object to be cleaned by vibrating the ash removal object, the switch surface dust cleaning structure 3 can also directly drive the ash removal object to rotate on the side surfaces of the switches 5 by using the motor to clean the dust on the side surfaces of the switches 5, a preferred ash cleaning manner is a first one, and the ash cleaning manner can prevent the cleaning object full of dust from repeatedly cleaning the side surfaces of the switches 5, so that the side surfaces of the switches 5 cannot be sufficiently cleaned, and the anti-blocking structure 4 can drive the cleaning object to move on the side surfaces of the cabinet 1 by using the switch surface dust cleaning structure 3 as a power source and matching with a mechanical transmission manner, so as to move the cleaning object on the side surfaces of the cabinet 1 The dust that 2 inside clogs up of louvre is clear away, also can be through the mode of vibration rack 1 side for the plug in louvre 2 is shaken out, and then reaches and avoids 2 inside clogs up and influences the normal radiating purpose of switch 5 in the rack 1 of louvre.

As shown in fig. 1 to 3, in one embodiment of the present invention, the switch surface dust cleaning structure 3 includes:

the cleaning assembly 32 is arranged inside the cabinet 1, is in contact with the side surface of the switch 5 and is used for cleaning dust on the side surface of the switch 5;

the driving assembly 31 is arranged on the surface of the cabinet 1 and used for driving the cleaning assembly 32 to move through mechanical transmission;

the limiting assembly 35 is connected to the inner wall of the cabinet 1 and used for limiting the position of the cleaning assembly 32;

the knocking component 33 is movably connected to the inner side of the cabinet 1 and used for knocking the cleaning component 32 to shake off dust on the cleaning component 32, and the limiting component 35 can also drive the knocking component 33 to move by taking the driving component 31 as power input; and

the dust collecting member 36 is connected to the surface of the cabinet 1 for collecting dust, and the surface of the cabinet 1 is opened with a dust discharging hole 34 for discharging dust.

In this embodiment, the cleaning assembly 32 can make the cleaning member closely contact with the side of the switch 5 by disposing an elastic member on the cleaning member, so as to achieve the purpose of sufficiently cleaning dust on the side of the switch 5, the driving assembly 31 can drive the cleaning assembly 32 to move by a motor-driven and lead screw transmission manner or a motor-driven and rack and pinion transmission manner, the limiting assembly 35 can limit the position of the cleaning assembly 32 by preventing the transmission of the driving assembly 31, so that the cleaning assembly 32 can stay at a proper position to be knocked by the knocking assembly 33, the knocking assembly 33 can make the cleaning assembly 32 vibrate by knocking the cleaning assembly 32, so that the dust on the cleaning assembly 32 can be shaken to be collected into the dust collecting member 36, the dust collecting member 36 can be a collecting box or a collecting tank, and the dust discharge hole 34 is opened just above the dust collecting member 36.

In this embodiment, the cleaning assembly 32 includes:

a first cleaning member 323 contacting with a side surface of the exchanger 5 for cleaning dust on the side surface of the exchanger 5;

the first elastic element 322 is arranged on the surface of the first cleaning element 323 and is used for driving the first cleaning element 323 to move; and

the mounting member 321 is connected to the driving assembly 31 and is used for driving the first elastic member 322 to move.

In this embodiment, the first cleaning member 323 may be a wiping block or a cleaning plate, the first elastic member 322 may be a spring or an elastic damping block, and the mounting member 321 may be a mounting plate or a supporting plate, and when the first cleaning member 323 wipes dust on the side of the switch 5, the first elastic member 322 may be configured to apply pressure to the first cleaning member 323 so that the first cleaning member 323 can sufficiently clean the dust on the side of the switch 5.

In the present embodiment, the driving assembly 31 includes:

the moving part 313 is used for installing the cleaning assembly 32 and can also drive the cleaning assembly 32 to move;

the first transmission piece 312 is used for installing the moving piece 313 and can also drive the moving piece 313 to move; and

the driving member 311 is installed on the surface of the cabinet 1, and the output end of the driving member 311 is connected to the first transmission member 312 for driving the first transmission member 312 to move.

The position limiting assembly 35 comprises:

a braking member 351 connected to the first transmission member 312 for braking the moving member 313; and

and a pressing member installed on an inner wall of the cabinet 1 for enabling the moving member 313 to maintain the connection with the first transmission member 312 by pressing the moving member 313.

In this embodiment, the moving member 313 may be a threaded ring or a movable nut, the first transmission member 312 may be a threaded rod or a lead screw, the driving member 311 may be a driving motor or a stepping motor, it should be noted that, since dust is usually accumulated on both sides of the exchanger 5, the cleaning assembly 32 should be provided with two sets, and the first transmission member 312 and the moving member 313 should be provided with two sets, while the driving member 311 is connected to only one set of the first transmission member 312, the other set of the first transmission member 312 is rotatably connected to the cabinet 1, and a first linkage member 314 for linkage is provided between the two sets of the first transmission members 312, the first linkage member 314 may be a transmission chain or a transmission belt, the braking member 351 may be a polished rod or a smooth column, the pressing member may be composed of a limiting member 353 and a second elastic member 352, and the limiting member 353 may be a supporting ring or a supporting plate, the limiting member 353 is sleeved outside the braking member 351, the second elastic member 352 may be a spring or an elastic damping block, the driving member 311 drives the first transmission members 312 to rotate, and the two sets of first transmission members 312 move synchronously via the first linkage member 314, so that the moving member 313 drives the mounting member 321 to move, and further the first cleaning member 323 can uniformly clean up dust on the side surfaces of the switches 5.

In this embodiment, the knocking assembly 33 includes:

a knocking member 331 for vibrating the cleaning assembly 32 by knocking the cleaning assembly 32;

a first rotating member 332 rotatably connected to the inner side of the cabinet 1 for driving the knocking member 331 to rotate; and

and a second linkage member 333 disposed on the first rotating member 332 for driving the first rotating member 332 to move.

In this embodiment, the striking member 331 may be a cam or an eccentric striking block, the first rotating member 332 may be a rotating lever or a rotating post, the second coupling member 333 may be a driving belt or a driving chain, and the second link 333 is fitted over the brake 351 and the first rotating member 332, when the moving member 313 moves to the bottom and cleans the switch 5 at the bottom of the cabinet 1, the moving member 313 moves to the stopping member 351 and does not move downward any more, but at this time, the braking member 351 is still in a rotating state and drives the first rotating member 332 to rotate through the second linking member 333, the first rotating member 332 drives the knocking member 331 to rotate and continuously knock the first cleaning member 323, so that the first cleaning member 323 is vibrated through the first elastic member 322, the dust on the first cleaning member 323 is shaken off and falls into the dust collecting member 36 through the dust discharging hole 34 to be collected.

As shown in fig. 1, 4 and 5, in one embodiment of the present invention, the anti-clogging structure 4 includes:

the second cleaning piece 42 is connected to the side surface of the cabinet 1 in a sliding manner and is used for removing dust blocked in the heat dissipation hole 2; and

and the reciprocating motion assembly 41 is arranged on the cabinet 1 and the exchanger surface dust cleaning structure 3 and is used for driving the second cleaning piece 42 to reciprocate on the surface of the cabinet 1 by taking the exchanger surface dust cleaning structure 3 as power input and matching with mechanical transmission.

In this embodiment, the second cleaning member 42 may be a cleaning brush or a cleaning cotton block, and the reciprocating assembly 41 may use the dust cleaning structure 3 on the surface of the switch as power input and cooperate with a gear-rack transmission mode or a mode of directly pushing the reciprocating assembly 41 by an electric or pneumatic telescopic rod to drive the anti-blocking structure 4 to move on the surface of the cabinet 1, so as to clean the dust blocked in the heat dissipation hole 2.

The reciprocating assembly 41 includes:

the reciprocating piece 412 is connected to the second cleaning piece 42 and used for driving the second cleaning piece 42 to reciprocate;

two sets of fourth transmission members 415, which are disposed on two sides of the inner side of the reciprocating member 412 and are used for driving the reciprocating member 412 to move;

the third transmission piece 413 is connected with the fourth transmission piece 415 and is used for driving the fourth transmission piece 415 to move;

a second rotating member 414 rotatably connected to the surface of the cabinet 1 for driving the third transmission member 413 to rotate;

the second transmission piece 411 is installed on the second rotating member 414 and used for driving the second rotating member 414 to rotate; and

the fifth transmission member 416 is disposed on the driving component 31 and configured to drive the second transmission member 411 to move by taking the driving component 31 as a power input.

In this embodiment, the reciprocating member 412 may be a moving frame or a moving box, the fourth transmission member 415 may be a transmission rack or a toothed plate, the third transmission member 413 may be a half gear or an incomplete gear, the second rotation member 414 may be a rotation rod or a rotation column, the second transmission member 411 may be a bevel gear or a bevel gear ring, the fifth transmission member 416 may be a bevel gear or a bevel gear ring, when the driving member 311 drives the first transmission member 312 to rotate, the first transmission member 312 drives the second transmission member 411 and the second rotation member 414 to rotate through the fifth transmission member 416, the second rotation member 414 drives the third transmission member 413 to rotate, and the third transmission member 413 drives the two fourth transmission members 415 to move in different directions, so that the two fourth transmission members 415 drive the reciprocating member 412 to reciprocate, and the reciprocating member 412 drives the second cleaning member 42 to move on the surface of the cabinet 1, so as to clean the blockage in the heat dissipation hole 2.

The working mode of the invention is as follows: when dust on the side surface of the switch 5 needs to be cleaned, the driving part 311 is opened, the driving part 311 drives the first transmission parts 312 to rotate, the two groups of first transmission parts 312 synchronously move through the first linkage parts 314, the moving part 313 drives the mounting parts 321 to move, the first cleaning parts 323 can uniformly clean the dust on the side surfaces of a plurality of switches 5, and when the first cleaning parts 323 wipe the dust on the side surfaces of the switches 5, the first elastic parts 322 can apply pressure to the first cleaning parts 323, so that the first cleaning parts 323 can sufficiently clean the dust on the side surfaces of the switches 5;

when the moving member 313 moves to the bottom and cleans the switch 5 at the bottommost position in the cabinet 1, the moving member 313 moves to the stopping member 351 and does not move downward any more, but the stopping member 351 is still in a rotating state at this time, and the first rotating member 332 is driven to rotate by the second linking member 333, the first rotating member 332 drives the knocking member 331 to rotate and continuously knock the first cleaning member 323, so that the first cleaning member 323 vibrates through the first elastic member 322, and further, dust on the first cleaning member 323 is shaken and falls into the dust collecting member 36 through the dust discharging hole 34 to be collected;

when the driving member 311 drives the first driving member 312 to rotate, the first driving member 312 drives the second driving member 411 and the second driving member 414 to rotate through the fifth driving member 416, the second driving member 414 drives the third driving member 413 to rotate, and the third driving member 413 drives the two fourth driving members 415 to move toward different directions, so that the two fourth driving members 415 drive the reciprocating member 412 to reciprocate, and the reciprocating member 412 drives the second cleaning member 42 to move on the surface of the cabinet 1, so as to clean up the blockages in the heat dissipation holes 2.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.