CN216817342U - Balanced type double-circuit server heat dissipation mechanism - Google Patents

Abstract

The utility model discloses a balanced double-path server heat dissipation mechanism, which relates to the field of servers and comprises a server shell, a mounting part, a filter plate, a propping part and a plurality of groups of dustproof parts, wherein the mounting part is arranged on the server shell; a heat dissipation groove for ventilation and heat dissipation is formed in the server shell; the mounting component is arranged on the server shell and corresponds to the heat dissipation groove, comprises a mounting frame which is abutted to the outer wall of the server shell, and is provided with a first slot and a plurality of sliding grooves communicated with the first slot. Through set up fixed part and dustproof part on the server casing, the dismouting of being convenient for, can transport or when idle at the server, seal the radiating groove on the server casing to reduce inside dust impurity gets into the casing via the radiating groove, protect the connection of relevant part and the heat dissipation of during operation, set up the filter simultaneously on fixed part and support tight part, the dismouting of the filter of being convenient for, thereby be convenient for receive clean, change after polluting at the filter.

Description

Balanced type double-circuit server heat dissipation mechanism

Technical Field

The utility model relates to the field of servers, in particular to a balanced double-path server heat dissipation mechanism.

Background

The two-way server is a server with two CPU card slots on a server mainboard, the execution efficiency, the stability and the like are higher compared with a single-way server, components such as a load balancer are added in the two-way server, a balanced two-way server can be formed, service requests can be distributed to actually executed services in a balanced mode, and therefore the response speed of the whole system is guaranteed.

At present, when a balanced type double-path server works, due to the arrangement of two CPUs, an equalizer and other components, the heat dissipation requirement of the balanced type double-path server is large, a common heat dissipation mechanism is that a plurality of groups of heat dissipation fans are arranged inside the server, heat dissipation holes which are arranged on a machine shell in a corresponding mode are directly matched to dissipate heat, and a specific heat dissipation strategy can adjust the rotating speed of the fan according to the CPU with the highest temperature.

Current balanced type double-circuit server louvre is uncovered setting usually, consequently when the server is in the circumstances such as transportation and idle, outside dust and impurity get into inside the server easily, make parts such as CPU and CPU draw-in groove cause the pollution easily, not only can influence being connected of CPU and draw-in groove, also can influence the heat dissipation of parts such as CPU and balanced device, and simultaneously, the louvre is directly seted up on the casing, also be convenient for the cleanness of louvre, when making to adhere to more dust impurity on the louvre, influence the normal heat dissipation of server easily.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a balanced dual-path server heat dissipation mechanism aiming at the defects so as to solve the problems in the prior art.

The technical scheme is as follows: a balanced double-path server heat dissipation mechanism comprises a server shell, a mounting part, a filter plate, a propping part and a plurality of groups of dustproof parts;

the server comprises a server shell, a server shell and a server shell, wherein the server shell is provided with a heat dissipation groove for ventilation and heat dissipation;

the mounting component is arranged on the server shell and corresponds to the heat dissipation groove, and comprises a mounting frame abutted against the outer wall of the server shell, a first slot and a plurality of sliding grooves communicated with the first slot are formed in the mounting frame, a filter plate for ventilation and filtration is inserted into the first slot, and an abutting component for abutting and fixing the filter plate through the sliding grooves is arranged on the mounting frame;

and the multiple groups of dustproof components are arranged at one end, far away from the server shell, of the installation frame and are used for sealing and preventing dust in the installation frame and the server shell.

In a further embodiment, the mounting member further comprises a clamping frame, a fixing frame, a plurality of insertion holes, a plurality of bolts, and a plurality of fixing nuts;

the clamping frame is connected with the mounting frame, inserted in the heat dissipation groove and used for fixing the server shell and the mounting frame, and the clamping frame is inserted in the heat dissipation groove and can relatively fix the mounting frame and the server shell;

the fixing frame is connected with the outer side of the mounting frame, a plurality of insertion holes are correspondingly formed in the fixing frame and the server shell, bolts are inserted into the insertion holes, and fixing nuts are connected to the end portions of the bolts through threads and used for being matched with the clamping frame to fix the mounting frame and the server shell.

In a further embodiment, the mounting member further comprises a fixing groove and a plurality of rotation holes;

the fixing groove is formed in the mounting frame, communicated with the sliding grooves and used for fixing the abutting components;

and the plurality of rotating holes are uniformly arranged on the mounting frame in the height direction of the mounting frame and used for mounting a plurality of groups of dustproof parts, and the plurality of mounting frames are arranged on the mounting frame in a penetrating way.

In a further embodiment, the tightening part comprises a plurality of sliding blocks, a plurality of inserting blocks and a second pulling plate;

the sliding blocks are correspondingly arranged in the sliding grooves in a sliding manner;

the plurality of inserting blocks are correspondingly connected to one ends, close to the filter plate, of the plurality of sliding blocks, and a plurality of second inserting grooves matched with the inserting blocks are correspondingly formed in the filter plate and used for being matched with the inserting blocks to fixedly insert the filter plate;

and the second pulling plate is connected to the plurality of sliding blocks and used for moving the plurality of sliding blocks.

In a further embodiment, the fastening component further comprises a plurality of connecting blocks, a plurality of sliding columns and a clamping plate;

the connecting blocks are correspondingly connected to one surfaces of the sliding blocks, which are far away from the second pulling plate, and are fixedly connected with the sliding blocks, and the connecting blocks are matched with the sliding grooves after being connected with the sliding blocks;

the sliding columns are correspondingly and slidably connected with the connecting blocks, sliding holes matched with the sliding columns are formed in the connecting blocks in a penetrating mode along the sliding direction of the sliding blocks, and the connecting blocks are slidably connected with the sliding columns through the sliding holes;

the cardboard is connected and the card is located in the fixed slot with a plurality of the traveller, all be connected with pressure spring between cardboard and a plurality of connecting block, the cardboard joint can be with parts such as slider, traveller in the spout with the fixed slot joint.

In a further embodiment, the fastening component further comprises a plurality of pairs of screw holes and a plurality of pairs of screws;

a plurality of pairs of screw holes which are correspondingly arranged on the clamping plate and the inner wall of the fixed groove;

many pairs of screws, it is many right to correspond threaded connection in the screw hole for in being fixed in the fixed slot with the cardboard, the setting of screw and screw can be further fixed in the fixed slot with the cardboard, the dismouting of being convenient for simultaneously.

In a further embodiment, the dust-proof component comprises a rotating rod, a dust-proof rotating plate, a knob and a locking nut;

the rotating rod is arranged on one side of the filter plate, which is far away from the server shell, and is inserted into the rotating hole, the rotating rod penetrates through the rotating hole and is inserted on the mounting frame, and the rotating rod can rotate in the rotating hole;

the dustproof rotating plates are inserted on the rotating rods and arranged in the mounting frame, and when the dustproof rotating plates are arranged perpendicular to the transverse side wall of the mounting frame, the mounting frame can be sealed and dustproof;

the knob is connected to one end of the rotating rod and used for rotating the rotating rod, and the rotating rod can be rotated through the knob to drive the dustproof rotating plates to rotate, so that the dustproof rotating plates can rotate in the mounting frame;

and the locking nut is in threaded connection with one end of the rotating rod, which is far away from the knob, and is used for locking and fixing the rotating rod, and the inner wall of the locking nut is provided with threads matched with one end of the rotating rod, which is close to the locking nut.

Has the advantages that: the utility model discloses a balanced double-path server heat dissipation mechanism, which is convenient to disassemble and assemble by arranging a fixing part and a dustproof part on a server casing, can seal a heat dissipation groove on the server casing when a server is transported or is idle, thereby reducing dust and impurities from entering the casing through the heat dissipation groove, protecting the connection of related parts and heat dissipation during working, and simultaneously, the fixing part is provided with a filter plate and a propping part, thereby facilitating the disassembly and assembly of the filter plate, and facilitating the cleaning and replacement of the filter plate after the filter plate is polluted.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention.

Fig. 2 is a perspective view of the server casing main body of the present invention.

Fig. 3 is an exploded view of the mounting member, the tightening member and the dust-proof member of the present invention.

Fig. 4 is a schematic structural diagram at a in fig. 3.

FIG. 5 is an exploded view of the mounting member, the tightening member and the dust-proof member of the present invention from another perspective.

Fig. 6 is a perspective view of the mounting member of the present invention.

Fig. 7 is a perspective view of a part of the structure of the fastening member of the present invention.

The figures are numbered: 1. the server comprises a server shell, 101 heat dissipation grooves, 2 mounting components, 201 mounting frames, 202 clamping frames, 203 fixing frames, 204 jacks, 205 bolts, 206 fixing nuts, 207 first slots, 208 sliding grooves, 209 fixing slots, 210 rotating holes, 3 filter plates, 301 second slots, 4 first pull plates, 5 abutting components, 501 sliding blocks, 502 inserting blocks, 503 connecting blocks, 504 sliding columns, 505 compression springs, 506 clamping plates, 507 screw holes, 508 screws, 509 second pull plates, 6 dust-proof components, 601 rotating rods, 602 dust-proof rotating plates, 603 rotating knobs, 604 locking nuts.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the utility model.

The applicant thinks that the prior balanced type two-way server radiating holes are usually arranged in an open mode, when the server is in the conditions of transportation, idling and the like, dust and impurities easily enter the server, so that parts such as a CPU (central processing unit) and a CPU (central processing unit) clamping groove can be polluted, the connection between the CPU and the clamping groove is influenced, the heat dissipation of the parts such as the CPU and an equalizer can be influenced, and the radiating holes are directly arranged on a shell, so that the cleaning of the radiating holes is not convenient.

To this end, the applicant proposes a balanced two-way server heat dissipation mechanism, as shown in fig. 1 to 7, including a server casing 1, a mounting part 2, a filter plate 3, a tightening part 5, and multiple sets of dustproof parts 6.

Wherein, the server casing 1 is provided with a heat dissipation groove 101 for ventilation and heat dissipation.

The mounting part 2 is arranged on the server casing 1 and corresponds to the heat dissipation groove 101, and comprises a mounting frame 201 abutted to the outer wall of the server casing 1, a first slot 207 is formed in the mounting frame 201, a plurality of sliding grooves 208 communicated with the first slot 207 are formed in the sliding grooves 208, the filter plate 3 used for ventilation and filtration is inserted into the first slot 207, and a fastening part 5 used for fastening and fixing the filter plate 3 through the sliding grooves 208 is arranged on the mounting frame 201.

The multiple sets of dust-proof components 6 are mounted at one end of the mounting frame 201 far away from the server casing 1, and are used for sealing and preventing dust in the mounting frame 201 and the server casing 1.

As shown in fig. 2 to 6, the mounting member 2 further includes a chucking frame 202, a fixing frame 203, a plurality of insertion holes 204, a plurality of bolts 205, and a plurality of fixing nuts 206.

The clamping frame 202 is connected with the mounting frame 201 and inserted into the heat dissipation groove 101 to fix the server housing 1 and the mounting frame 201, and the clamping frame 202 is inserted into the heat dissipation groove 101 to fix the mounting frame 201 and the server housing 1 relatively.

The fixing frame 203 is connected to the outer side of the mounting frame 201, a plurality of insertion holes 204 are correspondingly formed in the fixing frame 203 and the server casing 1, bolts 205 are inserted into the insertion holes 204, fixing nuts 206 are connected to the end portions of the bolts 205 in a threaded manner and used for being matched with the clamping frame 202 to fix the mounting frame 201 and the server casing 1, matched threads are formed in the end portions of the bolts 205 and the fixing nuts 206, the mounting frame 201 and the server casing 1 can be further fixed through the fixing frame 203, the insertion holes 204, the bolts 205 and the fixing nuts 206, and meanwhile disassembly and assembly are facilitated.

As shown in fig. 6, the installation member 2 further includes a fixing groove 209 and a plurality of rotation holes 210.

The fixing groove 209 is opened on the mounting frame 201 and is communicated with the plurality of sliding grooves 208 for fixing the abutting member 5.

A plurality of commentaries on classics holes 210 are evenly seted up on installing frame 201 along installing frame 201 direction of height, be used for installing multiunit dustproof part 6, a plurality of installing frames 201 run through and set up on installing frame 201, and on the position relation, filter 3 is in between radiating groove 101 and installing frame 201, be used for dustproof part 6 to seal up installing frame 201 and radiating groove 101 dustproof, simultaneously on filter 3 adhere to dust and impurity after, dust impurity can drop in installing frame 201 if break away from filter 3 surface, further improve the clean degree of server casing 1 inner part.

As shown in fig. 1 to 7, the tightening unit 5 includes a plurality of sliding blocks 501, a plurality of insertion blocks 502, and a second pulling plate 509.

The sliding blocks 501 are correspondingly slidably disposed in the sliding grooves 208.

A plurality of inserts 502 correspond to be connected in the one end that a plurality of sliders 501 are close to filter 3, correspond on the filter 3 and set up a plurality of with the second slot 301 of insert 502 looks adaptation for cooperation insert 502 is inserted and is fastened fixed filter 3, and second slot 301 runs through filter 3 and corresponds to set up on installing frame 201.

When slider 501 removed in spout 208, can drive insert 502 and take out from second slot 301, or drive insert 502 and insert in the second slot 301, can fix filter 3 in first slot 207, be about to filter 3 fixed with installing frame 201, correspond on the installing frame 201 inner wall and offer the sealed slot with filter 3 looks adaptation, after filter 3 inserts installing frame 201, can be so that filter 3 seals dustproof with the junction of installing frame 201, and be connected with first arm-tie 4 on the filter 3, the area of first arm-tie 4 is greater than the area of first slot 207, be used for removing pull filter 3.

A second pulling plate 509 is connected to the plurality of sliding blocks 501 for moving the plurality of sliding blocks 501.

As shown in fig. 7, the tightening unit 5 further includes a plurality of connecting blocks 503, a plurality of sliding columns 504, and a clamping plate 506.

The connecting blocks 503 are correspondingly connected to the surfaces of the sliding blocks 501 far away from the second pulling plate 509, the connecting blocks 503 are fixedly connected with the sliding blocks 501, and the connecting blocks 503 are matched with the sliding grooves 208 after being connected with the sliding blocks 501.

The sliding columns 504 are correspondingly and slidably connected with the connecting blocks 503, sliding holes matched with the sliding columns 504 penetrate through the connecting blocks 503 along the sliding direction of the sliding blocks 501, and the connecting blocks 503 are slidably connected with the sliding columns 504 through the sliding holes.

The cardboard 506 is connected with a plurality of travelers 504 and the card is located in fixed slot 209, all is connected with pressure spring 505 between cardboard 506 and a plurality of connecting block 503, and cardboard 506 joint is in fixed slot 209, can install parts such as slider 501, travelers 504 in spout 208, utilizes second arm-tie 509 to when being close to one end pulling slider 501 of cardboard 506, can drive inserted block 502 and take out second slot 301.

Simultaneously, hold-down spring 505 takes place deformation, at this moment, can utilize first arm-tie 4 to take out filter 3 from first slot 207 in, thereby conveniently clean filter 3, operations such as change, back in first slot 207 is inserted again to filter 3, loosen second arm-tie 509, the hold-down spring 505 of deformation can promote slider 501 and remove in spout 208, make insert block 502 insert in second slot 301 with filter 3 fixed with installing frame 201, utilize hold-down spring 505 to support slider 501 and insert block 502 tightly simultaneously, improve filter 3 and insert the stability after establishing in first slot 207.

In addition, the tightening member 5 further includes a plurality of pairs of screw holes 507 and a plurality of pairs of screws 508.

Wherein, a plurality of pairs of screw holes 507 are correspondingly arranged on the inner walls of the clamping plate 506 and the fixed groove 209.

The screw 508 of many pairs corresponds threaded connection in many pairs of screw holes 507 for in being fixed in fixed slot 209 cardboard 506, screw hole 507 and the setting of screw 508 can be further fixed in fixed slot 209 cardboard 506 in, the dismouting of being convenient for simultaneously.

As shown in fig. 1 to 3, the dust-proof member 6 includes a rotation lever 601, a dust-proof rotation plate 602, a knob 603, and a lock nut 604.

The rotating rod 601 is disposed on one side of the filter plate 3 away from the server chassis 1 and is inserted into the rotating hole 210, the rotating rod 601 is inserted into the mounting frame 201 through the rotating hole 210, and the rotating rod 601 can rotate in the rotating hole 210.

Dustproof rotor plate 602 inserts and locates on the bull stick 601 and locate the installing frame 201 in, when a plurality of dustproof rotor plates 602 perpendicular to the horizontal lateral wall of installing frame 201 set up, can seal dustproof to installing frame 201, reduce the transportation, idle the circumstances such as under, the probability that impurity dust gets into in the server casing 1 via filter 3 and radiating groove 101 reduces dust impurity etc. and gets into in the server casing 1 and cause the probability of polluting parts such as CPU and CPU draw-in groove.

Improve the clean and tidy of parts such as CPU and CPU draw-in groove, can protect the normal connection of CPU and CPU draw-in groove, and the normal heat dissipation of relevant part at the during operation of protection, the seal groove has all been seted up on the adjacent dustproof commentaries on classics board 602, be connected with the closing plate on the installing frame 201 inner wall simultaneously, when server casing 1 is in the transportation, when the heat dissipation demand does not have under the circumstances such as idle, adjacent dustproof commentaries on classics board 602 and the closing plate that are close to the closing plate support tight sealedly through the seal groove, can reduce in dust impurity gets into server casing 1.

Knob 603 is connected in bull stick 601 one end, be used for rotating bull stick 601, it can drive dustproof commentaries on classics board 602 and rotate to rotate through knob 603 commentaries on classics pole 601, can make a plurality of dustproof commentaries on classics board 602 internal rotations at installing frame 201, thereby when a plurality of dustproof commentaries on classics board 602 are parallel and perpendicular with the horizontal lateral wall of installing frame 201, can seal installing frame 201, prevent dust, or when making a plurality of dustproof commentaries on classics board 602 between have the gap, can make server casing 1 inner part carry out ventilation cooling, when a plurality of dustproof commentaries on classics board 602 are parallel and with the horizontal lateral wall level of installing frame 201, the gap between a plurality of dustproof commentaries on classics board 602 is fit for the heat dissipation of server casing 1 inner part more this moment.

The locking nut 604 is screwed on one end of the rotating rod 601 far from the knob 603 for locking and fixing the rotating rod 601, the inner wall of the locking nut 604 and one end of the rotating rod 601 close to the locking nut 604 are provided with matched threads, when the locking nut 604 is screwed to enable the locking nut 604 to be tightly abutted with the outer wall of the mounting frame 201, at this time, the rotating rod 601 can be fixed with the mounting frame 201, and after the locking nut 604 is rotated to be far away from the outer wall of the mounting frame 201, at this time, the rotating rod 601 can rotate in the rotating hole 210, the rotation and the rotation angle of the dustproof rotating plate 602 can be adjusted by rotating the knob 603, so that different heat dissipation requirements of components in the server casing 1 can be met, meanwhile, the server housing 1 is dustproof, so that when the heat dissipation requirement of the components in the server housing 1 is smaller or no, it is possible to reduce the entrance of dust and foreign matter into the inside of the server casing 1, thereby protecting the components inside the server casing 1 from dust.

The working principle is as follows: when the server is in transportation, when the heat dissipation demand is less under the circumstances such as idle, lock nut 604 can be screwed to make lock nut 604 support when tight with the installing frame 201 outer wall, bull stick 601 is fixed with installing frame 201 this moment, a plurality of dustproof commentaries on classics board 602 support tightly and perpendicular with the horizontal inner wall of installing frame 201, seal installing frame 201, when the server is in the great circumstances of heat dissipation demand such as work, rotatory lock nut 604 keeps away from installing frame 201 outer wall, rotate bull stick 601 through knob 603, make bull stick 601 at the commentaries on classics downthehole 210 internal rotation, thereby adjust the rotation and the turned angle of dustproof commentaries on classics board 602, can cooperate the different heat dissipation demands of server casing 1 inner part to carry out angular adjustment, thereby adjust the ventilation gap of equidimension not, when a plurality of dustproof commentaries on classics board 602 are parallel and with the horizontal lateral wall level of installing frame 201, make great heat dissipation demand this moment.

When more dust and impurities are attached to the filter plate 3 and need to be cleaned, the second pulling plate 509 is used for pulling the sliding block 501 towards one end close to the clamping plate 506, the inserting block 502 is driven to be pulled out of the second slot 301, meanwhile, the pressing spring 505 deforms, at the moment, the first pulling plate 4 can be used for pulling out the filter plate 3 from the first slot 207, the filter plate 3 can be cleaned, replacement and other operations are carried out, after the cleaning is completed, the filter plate 3 is reinserted into the first slot 207, the second pulling plate 509 needs to be pulled firstly before, after the filter plate 3 is completely inserted into the first slot 207, the second pulling plate 509 is loosened, the deformed pressing spring 505 can push the sliding block 501 to move in the sliding groove 208, the inserting block 502 is inserted into the second slot 301 to fix the filter plate 3 and the mounting frame 201, and meanwhile, the pressing spring 505 is used for tightly pressing the sliding block 501 and the inserting block 502.

As above, while the utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides an balanced type double-circuit server heat dissipation mechanism which characterized in that includes:

the server comprises a server shell, a server shell and a server shell, wherein the server shell is provided with a heat dissipation groove for ventilation and heat dissipation;

the mounting component is arranged on the server shell and corresponds to the heat dissipation groove, and comprises a mounting frame abutted against the outer wall of the server shell, a first slot and a plurality of sliding grooves communicated with the first slot are formed in the mounting frame, a filter plate for ventilation and filtration is inserted into the first slot, and an abutting component for abutting and fixing the filter plate through the sliding grooves is arranged on the mounting frame;

and the multiple groups of dustproof components are arranged at one end, far away from the server shell, of the installation frame and are used for sealing and preventing dust in the installation frame and the server shell.

2. The balanced type two-way server heat dissipation mechanism according to claim 1, characterized in that: the mounting member further includes:

the clamping frame is connected with the mounting frame, inserted in the heat dissipation groove and used for fixing the server shell and the mounting frame;

the fixing frame is connected with the outer side of the mounting frame, a plurality of insertion holes are correspondingly formed in the fixing frame and the server shell, bolts are inserted into the insertion holes, and fixing nuts are connected to the end portions of the bolts through threads and used for being matched with the clamping frame to fix the mounting frame and the server shell.

3. The balanced type two-way server heat dissipation mechanism according to claim 1, characterized in that: the mounting member further includes:

the fixing groove is formed in the mounting frame, communicated with the sliding grooves and used for fixing the abutting part;

and the plurality of rotating holes are uniformly formed in the mounting frame along the height direction of the mounting frame and are used for mounting a plurality of groups of dustproof parts.

4. The balanced type two-way server heat dissipation mechanism according to claim 1, characterized in that: the tightening member includes:

the sliding blocks are correspondingly arranged in the sliding grooves in a sliding manner;

the plurality of inserting blocks are correspondingly connected to one ends, close to the filter plate, of the plurality of sliding blocks, and a plurality of second inserting grooves matched with the inserting blocks are correspondingly formed in the filter plate and used for being matched with the inserting blocks to fixedly insert the filter plate;

and the second pulling plate is connected to the plurality of sliding blocks and used for moving the plurality of sliding blocks.

5. The balanced type two-way server heat dissipation mechanism according to claim 4, wherein: the tightening member further includes:

the connecting blocks are correspondingly connected to one surfaces, far away from the second pulling plate, of the sliding blocks;

the sliding columns are correspondingly and slidably connected with the connecting blocks;

the clamping plate is connected with the sliding columns and clamped in the fixing grooves, and the pressing springs are connected between the clamping plate and the connecting blocks.

6. The balanced type two-way server heat dissipation mechanism according to claim 5, wherein: the tightening member further includes:

a plurality of pairs of screw holes which are correspondingly arranged on the clamping plate and the inner wall of the fixed groove;

and the plurality of pairs of screws are correspondingly in threaded connection with the plurality of pairs of screw holes and used for fixing the clamping plate in the fixing groove.

7. The balanced type two-way server heat dissipation mechanism according to claim 1, characterized in that: the dust-proof member includes:

the rotating rod is arranged on one side of the filter plate, which is far away from the server shell, and is inserted into the rotating hole;

the dustproof rotating plate is inserted on the rotating rod and arranged in the mounting frame;

the knob is connected to one end of the rotating rod and used for rotating the rotating rod;

and the locking nut is in threaded connection with one end of the rotating rod, which is far away from the knob, and is used for locking and fixing the rotating rod.

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