CN112312735A - Server rack group that heat dissipation was removed dust - Google Patents

Abstract

The utility model discloses a server cabinet group for heat dissipation and dust removal, which particularly relates to the field of server cabinets; a server rack group that heat dissipation was removed dust includes: the dust collector comprises a cabinet body, a connecting mechanism, a rotating shaft, a dust collecting mechanism, a swinging mechanism, a first filter screen, a first fan and a second fan; the distance between two adjacent cabinet bodies can be adjusted by installing the connecting mechanism between the two adjacent cabinet bodies, and the distance between the rotating shafts in the two adjacent cabinets can be kept unchanged; the first fan and the second fan with opposite wind directions are arranged on the rotating shaft, so that heat dissipation of the server is realized, dust on the first filter screen is reduced, and the heat dissipation effect of the server is improved; the swinging mechanism is arranged in the cabinet body, so that the air circulation in the cabinet body is increased, and the heat dissipation effect is enhanced; through at cabinet body internally mounted dust absorption mechanism, realize the dust removal effect to cabinet body inside.

Description

Server rack group that heat dissipation was removed dust

Technical Field

The utility model belongs to server rack field, concretely relates to server rack group of heat dissipation dust removal.

Background

With the continuous development of the existing science and technology, the types of server cabinets are diversified, a plurality of server cabinets often appear at the same time to form a cabinet group, the cabinets are used as important constituent units of the cabinet group to directly contain servers and play a role in protecting the servers, the servers can generate heat during working, when the heat is excessive and the temperature of the servers is too high, the reaction of the servers is very slow, the operating efficiency is influenced, and therefore the heat dissipation function of the cabinets is particularly important; meanwhile, a large amount of dust adheres to the surface of the server when the server runs for a long time, and the running efficiency of the server is affected by too much dust.

Disclosure of Invention

To the not enough of prior art, this disclosed aim at provides a server rack group of heat dissipation dust removal, has solved the heat dissipation of server rack among the prior art and has removed dust removal effect not good.

The purpose of the disclosure can be realized by the following technical scheme: a server cabinet group with heat dissipation and dust removal functions comprises a cabinet body, wherein a rotating shaft is arranged in the cabinet body, the rotating shaft comprises a central rod, and the central rod penetrates through the cabinet body and is connected with the cabinet body in a sliding mode;

furthermore, two side faces of the cabinet body, which are parallel to the axial direction of the central rod, are respectively provided with a second heat dissipation opening, and each second heat dissipation opening is provided with two second filter screens;

furthermore, a swing mechanism is installed inside the cabinet body and used for increasing the circulation of gas inside the cabinet body;

furthermore, the swing mechanism comprises a first turnover plate and a second turnover plate, the first turnover plate and the second turnover plate are respectively positioned at the outer sides of the two second heat dissipation ports, and the first turnover plate and the second turnover plate are respectively hinged with the cabinet body;

furthermore, a first swing rod and a second swing rod are installed above the rotating shaft, a first swing plate is rotatably connected to the first swing rod, a first connecting rod is installed between the first swing plate and the first turnover plate, and two ends of the first connecting rod are respectively hinged to the first swing plate and the first turnover plate; a second swinging plate is rotatably connected to the second swinging rod, a second connecting rod is installed between the second swinging plate and the second turnover plate, and two ends of the second connecting rod are respectively hinged with the second swinging plate and the second turnover plate;

further, a first cam is mounted on the center rod, the first cam is located between the first swinging plate and the second swinging plate, and an outer circle of the first cam is in contact with surfaces of the first swinging plate and the second swinging plate.

Furthermore, a dust collection mechanism is installed in the cabinet body and comprises a first push plate and a second push plate, the first push plate and the second push plate are located on two sides of the central rod, and the first push plate and the second push plate are located at the upper end of the bottom surface of the cabinet body and are in sliding connection with the cabinet body;

furthermore, a first spring is arranged between the first push plate and the inner surface of the cabinet, one end of the first spring is fixedly connected with the surface of the first push plate, and the other end of the first spring is fixedly connected with the inner surface of the cabinet body; a second spring is arranged between the second push plate and the inner surface of the cabinet body, one end of the second spring is fixedly connected with the surface of the second push plate, and the other end of the second spring is fixedly connected with the inner surface of the cabinet body;

furthermore, a second cam is mounted on the central rod and located between the first push plate and the second push plate, and the excircle of the second cam is in contact with the surface of the first push plate and the surface of the second push plate;

furthermore, a first dust suction pipe is fixedly connected to the first push plate, a second dust suction pipe is fixedly connected to the second push plate, the first dust suction pipe and the second dust suction pipe penetrate through the side face of the cabinet body respectively, and a hose is arranged at the joint of the first dust suction pipe and the cabinet body.

Further, the first cam and the second cam have opposite projection directions.

Furthermore, connecting plates are arranged among the first swinging rod, the second swinging rod and the central rod, and are used for fixing the relative positions among the first swinging rod, the second swinging rod and the central rod;

furthermore, a bearing piece is arranged at the lower end part of the connecting plate, the inner circle of the bearing piece is rotationally connected with the outer circle, and a center rod is fixedly connected to the inner circle of the bearing piece;

furthermore, two third fixing holes are formed in the upper end of the connecting plate, and the first swing rod and the second swing rod are fixedly installed in the third fixing holes respectively;

furthermore, a second fixing hole is formed in the connecting plate, and the connecting plate is fixedly connected to the side face of the cabinet body through the second fixing hole.

Furthermore, two side surfaces, axially parallel to the central rod, of the cabinet body are respectively provided with a first heat dissipation opening, and each first heat dissipation opening is provided with a first filter screen;

furthermore, a first fan and a second fan are arranged on the center rod and are positioned between the server and the first filter screen;

furthermore, the first fan is close to the first filter screen, the second fan is close to the server, the wind direction of the first fan faces the first filter screen, and the wind direction of the second fan faces the server.

Furthermore, a connecting mechanism is arranged between two adjacent cabinet bodies and used for adjusting the distance between the two adjacent cabinet bodies;

furthermore, the connecting mechanism comprises a first rack which is connected with one cabinet body in a sliding manner and fixedly connected with the side surface of the other cabinet body;

furthermore, a first gear is meshed at the upper end of the first rack, a second gear is mounted on one side of the first gear, the second gear is coaxial with the first gear, and the pitch of the second gear is the same as that of the first gear;

furthermore, a second rack is meshed above the second gear, and the pitch of the second rack is the same as that of the first rack;

furthermore, the second rack is connected with two adjacent cabinets in a sliding manner, and one end of the second rack is rotatably connected with the central rod.

The beneficial effect of this disclosure: the heat dissipation and the dust removal effect of the server cabinet are enhanced.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic overall structure diagram of an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a cabinet according to an embodiment of the disclosure;

FIG. 3 is a schematic view of a connection structure of an embodiment of the present disclosure;

fig. 4 is a schematic diagram of an internal structure of a cabinet according to an embodiment of the disclosure;

FIG. 5 is a schematic structural diagram of a swing mechanism of an embodiment of the present disclosure;

FIG. 6 is a schematic structural view of a dust suction mechanism according to an embodiment of the disclosure;

fig. 7 is a schematic structural view of a cabinet according to an embodiment of the disclosure;

FIG. 8 is a schematic view of a rotating shaft configuration of an embodiment of the present disclosure;

FIG. 9 is a schematic illustration of a connection plate configuration of an embodiment of the disclosure;

fig. 10 is a schematic view of a second rack configuration of an embodiment of the present disclosure.

Detailed Description

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

As shown in fig. 1, a server cabinet group for heat dissipation and dust removal includes a plurality of cabinets 2, in this embodiment, two adjacent cabinets are shown, a connection mechanism 1 is installed between two adjacent cabinets 2, and the connection mechanism 1 is used for connecting two adjacent cabinets 2 and realizing synchronous operation between the plurality of cabinets 2, thereby further simplifying a power device and optimizing spatial layout;

the cabinet 2 comprises a cabinet body 3, the cabinet body 3 is used as a storage device of the server, and meanwhile, the cabinet has a cooling and dedusting function on one end of the server inside;

as shown in fig. 7, two through grooves 31 are formed in one side surface of the cabinet 3, and the through grooves 31 only penetrate through one side surface of the cabinet 3 and do not penetrate through the whole cabinet 3;

the connecting mechanism 1 comprises two first racks 11, one end of each first rack 11 penetrates through the through groove 31 of one cabinet body 3 and is connected with the cabinet body 3 in a sliding manner, and the other end of each first rack 11 is fixedly connected to the surface of the other cabinet body 3;

as shown in fig. 3, a first gear 12 is respectively installed above the two first racks 11, the first gears 12 are meshed with the first racks 11, a fixed frame 14 is installed between the two first gears 12, a rotating rod 13 is installed on the fixed frame 14, the rotating rod 13 is rotatably connected with the fixed frame 14, the rotating rod 14 is respectively fixedly connected with the two first gears 12, and a handle 131 is arranged on the rotating rod 13;

rotate handle 131, the drive is located the second gear 12 rotation on bull stick 14 to the drive is located first rack 11 of second gear 12 lower extreme and slides along logical groove 31 of a cabinet body 3, and then drives another cabinet body 3 and keeps away from or be close to a cabinet body 3, reaches the purpose of adjusting the distance between the two adjacent cabinet bodies 3, makes the distance between the adjacent rack 2 adjustable, is adapted to different spatial layout.

A second gear 15 is installed at one end of the rotating rod 14, a second rack 16 is installed at the upper end of the second gear 15, as shown in fig. 10, a straight tooth section 161 is installed at the lower end of the second rack 16, and the second gear 15 is meshed with the straight tooth section 161 installed on the second rack 16;

as shown in fig. 7, a sliding groove 38 is formed on one side surface of each cabinet 3, the second rack 15 is located between two adjacent cabinets 3, and two ends of the second rack are respectively connected with the sliding grooves 38 formed on the two cabinets 3 in a sliding manner; a first fixing groove 34 is further formed in the side surface of the sliding groove 38, the first fixing groove 34 penetrates through the cabinet body 3, and a rotating shaft 6 is mounted in the first fixing groove 34, as shown in fig. 8, the rotating shaft 6 includes a central rod 61, the central rod 61 penetrates through the cabinet body 3 and is slidably connected to the cabinet body 3 through the first fixing groove 34;

as shown in fig. 10, one end of the second rack 16 is provided with a first fixing hole 162, and the central rod 61 passes through the first fixing hole 162 and is rotatably connected to the second rack 16;

a belt 17 is arranged between two adjacent cabinets 3, each rotating shaft 6 comprises a belt wheel 66, each belt wheel 66 is fixedly arranged at one end of the central rod 61, each belt 17 is arranged between the two belt wheels 66 on the two rotating shafts 6 on the adjacent cabinets 3, the surface of each belt 17 is in contact with the excircle of each belt wheel 66, and when one rotating shaft 6 rotates, the rotating shafts 6 on the adjacent cabinets 3 can be driven to rotate through the belts 17;

when the distance between two adjacent cabinets 3 needs to be adjusted, the rotating rod 14 on the connecting mechanism 1 is rotated, and the first rack 11 drives the cabinet 3 to be close to or far away from the adjacent cabinet 3 through the meshing action of the first rack 11 and the first gear 12; meanwhile, the second rack 16 drives the rotating shaft 6 to move along the first fixing groove 34 and to be far away from or close to the rotating shaft 6 on the adjacent cabinet 3 through the meshing action of the second gear 15 on the second rack 16, and because the first rack 11 is located at the lower end of the first gear 12, the second rack 16 is located at the upper end of the second gear 15, when the rotating rod 14 rotates, the moving direction of the second rack 16 is opposite to that of the first rack 11, so that the moving sliding direction of the rotating shaft 6 is opposite to that of the cabinet 3, in this embodiment, the tooth pitches of the second gear 16 and the first gear 12 are equal, and the tooth pitches of the second rack 16 and the first rack 11 are equal, it can be ensured that the distance between two adjacent rotating shafts 6 before and after adjustment is constant, and further, when the distance between two adjacent cabinets 3 is adjusted, the belt 17 between two adjacent cabinets 3 is not replaced, the convenience is improved.

As shown in fig. 7, two side surfaces of the cabinet body 3, which are perpendicular to the axial direction of the rotating shaft 6, are provided with a first heat dissipation opening 39, and the first heat dissipation openings 39 are used for dissipating heat of the servers in the cabinet body 3;

as shown in fig. 2, a first filter screen 9 is installed at the first heat dissipation opening 39, and the first filter screen 9 is used for isolating most of dust outside the cabinet body;

as shown in fig. 8, the rotating shaft 6 includes a first blade 62 and a second blade 63, the first blade 62 and the second blade 63 are disposed on the outer circle of the central rod 61, when the rotating shaft 6 rotates, the first blade 62 and the second blade 63 rotate around the central rod 61, and the first blade 62 and the second blade 63 rotate to generate opposite wind directions;

as shown in fig. 4, the first fan 62 and the second fan 63 are both located between the server and the first filter screen 9, the first fan 62 is close to the first filter screen 9 on one side of the cabinet 3, the second fan 63 is close to the server inside the cabinet 3, when the rotating shaft 6 rotates, the wind direction of the first fan 62 faces the first filter screen 9, and blows off dust attached to the outer surface of the first filter screen 9, so that the effect of preventing the first filter screen 9 from being covered by dust and blocking meshes is increased, and further the heat dissipation effect is affected; meanwhile, the wind direction of the second fan 63 faces the server, so that the server can be cooled, and dust attached to the server can be blown out through the first filter screen 9 on the other side face of the cabinet body 3;

as shown in fig. 7, two side surfaces of the cabinet body 3, which are parallel to the axial direction of the rotating shaft 6, are respectively provided with a second heat dissipation opening 32; the second heat dissipation port 32 is also used to dissipate heat from the servers in the cabinet 3.

Two second filter screens 8 are arranged on each second heat dissipation opening 32, and a gap is reserved between the two second filter screens 8;

the swing mechanism 4 is arranged in the cabinet body 3, and the swing mechanism 4 is used for increasing the circulation of air in the cabinet body 3 and increasing the heat dissipation effect;

as shown in fig. 2, the swing mechanism 4 includes a first turnover plate 41 and a second turnover plate 42, the first turnover plate 41 and the second turnover plate 42 are respectively installed at the outer sides of two second heat dissipation openings 32 located at two side surfaces of the cabinet body 3, and the first turnover plate 41 and the second turnover plate 42 are respectively connected with the two side surfaces of the cabinet body 4;

as shown in fig. 5, a first swing shaft 46 and a second swing shaft 48 are respectively installed above the rotating shaft 6, a connecting plate 7 is installed between the first swing shaft 46 and the rotating shaft 6 and between the second swing shaft 48 and the rotating shaft 6, and the connecting plate 7 is used for fixing the relative positions of the rotating shaft 6 and the first swing shaft 46 and the second swing shaft 48;

as shown in fig. 9, a bearing piece 71 is arranged at the lower end of the connecting plate 7, the inner circle and the outer circle of the bearing piece 71 can rotate relatively, and the central rod 61 of the rotating shaft 6 passes through the inner circle of the bearing piece 71 and is fixedly connected with the inner circle of the bearing piece 71, so that the rotating shaft 6 is rotatably connected with the connecting plate 7;

as shown in fig. 7, a second fixing groove 37 is formed in a side surface of the cabinet body 3, the second fixing groove 37 and the first fixing groove 38 are located on the same side surface of the cabinet body 3, a second fixing hole 72 is formed in the connecting plate 7, when the connecting plate 7 is fixed to the side surface of the cabinet body 3, the second fixing hole 72 and the second fixing groove 37 are located in a corresponding position, a bolt is installed on the second fixing hole 72, a nut is installed on the inner side of the second fixing groove 37, and the connecting plate 7 is fixed to the side surface of the cabinet body 3, when the distance between two adjacent cabinet bodies 3 needs to be adjusted, the bolt located in the second fixing hole 72 needs to be loosened first, so that the connecting block 7 can slide on the first fixing groove 38 along with the rotating shaft 6, and when the position adjustment is completed, the bolt located in the second fixing hole 72 is;

two third fixing holes 73 are formed in the upper end portion of the connecting plate 7, a first swinging shaft 46 and a second swinging shaft 48 are respectively mounted in the two third fixing holes 73, the first swinging shaft 46 and the second swinging shaft 48 are respectively and fixedly connected with the connecting plate 7, a third fixing groove 36 is formed in the side surface of the cabinet body 3, the third fixing groove 36 is located above the second fixing groove 37, and the first swinging shaft 46 and the second swinging shaft 48 can slide on the third fixing groove 36 under the driving of the connecting plate 7;

a first swinging plate 45 is arranged on the first swinging shaft 46, the first swinging plate 45 is rotatably connected with the first swinging shaft 46, a second swinging plate 47 is arranged on the second swinging shaft 48, and the second swinging plate 47 is rotatably connected with the second swinging shaft 48;

a first connecting rod 43 is arranged between the first swinging plate 45 and the first turnover plate 41, and two ends of the first connecting rod 43 are respectively hinged with the first swinging plate 45 and the first turnover plate 41; a second connecting rod 44 is arranged between the second swinging plate 47 and the second turnover plate 42, and two ends of the second connecting rod 44 are respectively hinged with the second swinging plate 47 and the second turnover plate 42;

a first cam 65 is arranged on the rotating shaft 6, the first cam 65 is mounted on the central rod 61, when the central rod 61 rotates, the first cam 65 rotates along with the central rod, the first cam 65 is positioned between the first swinging plate 45 and the second swinging plate 47, and the outer circle of the first cam 65 is respectively contacted with the inner surface of the first swinging plate 45 and the inner surface of the second swinging plate 47;

when the first cam 65 rotates to drive the first swinging plate 45 to swing around the first swinging shaft 46, the first connecting rod 43 drives the first turnover plate 41 to reversely turn outwards, at this time, the second swinging plate 47 remains still, and the second turnover plate 42 shields and closes the second heat dissipation port 32; on the contrary, when the first cam 65 rotates to drive the second swinging plate 47 to swing, the second connecting rod 44 drives the second turnover plate 42 to reversely turn outwards, at this time, the first swinging plate 45 remains still, and the first turnover plate 41 shields and closes the second heat dissipation opening 32;

in the embodiment, the first turnover plate 41 and the second turnover plate 42 only have one reverse swing at the same time, so that the heat in the cabinet 3 is taken out, and dust is prevented from being sucked from the other side.

When the first turnover plate 41 or the second turnover plate 42 swings, dust is inevitably brought into the cabinet body 3 from the second heat dissipation port 32, and in addition, the first filter screen 9 and the second filter screen 8 cannot filter dust with a smaller volume, so that the dust in the cabinet body 3 needs to be treated, in this embodiment, the dust collection mechanism 5 is installed in the cabinet body 3 for absorbing the dust in the cabinet body 3;

as shown in fig. 6, the dust suction mechanism 5 includes a first push plate 51 and a second push plate 54, the first push plate 51 and the second push plate 54 are respectively located at two sides of the rotating shaft 6, as shown in fig. 7, the bottom surface of the cabinet body 3 is provided with a sliding groove 33, the direction of the sliding groove 33 is perpendicular to the axial direction of the rotating shaft 6, and protrusions provided at the lower ends of the first push plate 51 and the second push plate 54 are matched with the sliding groove 33, so that the first push plate 51 and the second push plate 54 slide on the bottom surface of the cabinet body 3 along the sliding groove 33;

a first spring 52 is arranged between the first push plate 51 and the inner surface of the cabinet body 3, one end of the first spring 52 is fixedly connected with the inner surface of the cabinet body 3, and the other end is fixedly connected with the surface of the first push plate 51; a second spring 55 is arranged between the second push plate 54 and the inner surface of the cabinet body 3, one end of the second spring 55 is fixedly connected with the inner surface of the cabinet body 3, and the other end is fixedly connected with the surface of the second push plate 54;

a first dust suction pipe 53 and a second dust suction pipe 56 are respectively fixed on the surfaces of the first push plate 51 and the second push plate 54, as shown in fig. 7, two mounting holes 35 are formed on the side surface of the cabinet body 7, the first dust suction pipe 53 and the second dust suction pipe 56 respectively penetrate through the two mounting holes 35 on the side surface of the cabinet body 7, and the first dust suction pipe 53 and the second dust suction pipe 56 are connected with the two mounting holes 35 by hoses, so that the first dust suction pipe 53 and the second dust suction pipe 56 can perform complex movement in the cabinet body 3 without interference;

as shown in fig. 8, the central rod 61 is provided with a second cam 64, the second cam 64 is positioned between the second fan 63 and the first cam 65, and the protruding direction of the second cam 64 is opposite to the protruding direction of the first cam 65;

as shown in fig. 6, the second cam 64 is positioned between the first push plate 51 and the second push plate 54, the outer circle of the second cam 64 is in contact with the inner surface of the first push plate 51 and the inner surface of the second push plate 54, the second cam 64 rotates, and simultaneously under the elastic force of the first spring 52 or the second spring 55, the first push plate 51 or the second push plate 54 is pushed to be close to or far from the side surface of the cabinet 3, so that the first dust suction pipe 53 or the second dust suction pipe 56 is close to or far from the second heat dissipation opening 32; similarly, the first push plate 51 and the second push plate 54 are in the same piece, and only one of the first push plate and the second push plate moves;

as shown in fig. 4, when the first cam 65 pushes the first swing plate 45 to swing and further drive the first turnover plate 41 to turn over, the second turnover plate 42 shields and covers the second heat dissipation opening 32, and at this time, the second cam 64 pushes the second push plate 54 to be close to the side surface of the cabinet body 3, so that the second dust suction pipe 56 on the second push plate 64 is close to the second filter screen 8 on the second turnover plate 42, and dust on the second filter screen 8 is absorbed, thereby ensuring the cleanness of the second filter screen 8, and since the second turnover plate 42 shields and covers the second heat dissipation opening 32 at this time, dust outside the cabinet is prevented from being sucked into the cabinet body 3 under the suction effect of the second dust suction pipe 56;

on the contrary, when the first cam 65 pushes the second swing plate 47 to swing and further drives the second turnover plate 42 to turn over, the first turnover plate 41 shields and covers the second heat dissipation opening 32, at this time, the second cam 64 pushes the first push plate 51 to be close to the side surface of the cabinet body 3, so that the first dust suction pipe 53 positioned on the first push plate 64 is close to the second filter screen 8 positioned at the first turnover plate 41, thereby the dust on the second filter screen 8 is absorbed, because the first turnover plate 41 shields and covers the second heat dissipation opening 32 at this time, the situation that the external dust is sucked into the cabinet body 3 under the suction effect of the first dust suction pipe 53 is avoided.

The working principle is as follows:

the distance adjustability between two adjacent cabinet bodies 3 is realized by installing the connecting mechanism 1 between the two adjacent cabinet bodies 3, and the distance between the rotating shafts 6 in the two adjacent cabinets 2 is ensured to be kept unchanged; the first fan 62 and the second fan 63 with opposite wind directions are arranged on the rotating shaft 6, so that the dust on the first filter screen 9 is reduced while the server is cooled, and the cooling effect on the server is improved; the swinging mechanism 4 is arranged in the cabinet body 3, so that the air circulation in the cabinet body 3 is increased, and the heat dissipation effect is enhanced; through at cabinet body 3 internally mounted dust absorption mechanism 5, realize the dust removal effect to cabinet body 3 inside.

The foregoing illustrates and describes the general principles, principal features, and advantages of the present disclosure. It will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, which are presented solely for purposes of illustrating the principles of the disclosure, and that various changes and modifications may be made to the disclosure without departing from the spirit and scope of the disclosure, which is intended to be covered by the claims.

Claims (6)

1. A server cabinet group with heat dissipation and dust removal functions comprises a cabinet body (3), and is characterized in that a rotating shaft (6) is mounted inside the cabinet body (3), the rotating shaft (6) comprises a central rod (61), and the central rod (61) penetrates through the cabinet body and is in sliding connection with the cabinet body (3);

two side surfaces of the cabinet body (3) which are axially parallel to the central rod (61) are respectively provided with a second heat dissipation opening (32), and each second heat dissipation opening (32) is provided with two second filter screens (8);

the swing mechanism (4) is arranged in the cabinet body (3), and the swing mechanism (4) is used for increasing the circulation of gas in the cabinet body (3);

the swing mechanism (4) comprises a first turnover plate (41) and a second turnover plate (42), the first turnover plate (41) and the second turnover plate (42) are respectively positioned at the outer sides of the two second radiating holes (32), and the first turnover plate (41) and the second turnover plate (42) are respectively hinged with the cabinet body (3);

a first swinging rod (46) and a second swinging rod (48) are mounted above the rotating shaft (6), a first swinging plate (45) is connected to the first swinging rod (46) in a rotating mode, a first connecting rod (43) is mounted between the first swinging plate (45) and the first turnover plate (41), and two ends of the first connecting rod (41) are hinged to the first swinging plate (45) and the first turnover plate (41) respectively; a second swinging plate (47) is rotatably connected to the second swinging rod (48), a second connecting rod (44) is installed between the second swinging plate (47) and the second turnover plate (42), and two ends of the second connecting rod (44) are respectively hinged with the second swinging plate (47) and the second turnover plate (42);

a first cam (65) is mounted on the central rod (61), the first cam (65) is located between the first swinging plate (45) and the second swinging plate (47), and the outer circle of the first cam (65) is in contact with the surfaces of the first swinging plate (45) and the second swinging plate (47).

2. The server cabinet group for dissipating heat and removing dust according to claim 1, wherein a dust suction mechanism (5) is installed in the cabinet body (3), the dust suction mechanism (5) comprises a first push plate (51) and a second push plate (54), the first push plate (51) and the second push plate (54) are located on two sides of the central rod (61), and the first push plate (51) and the second push plate (54) are both located at the upper end of the bottom surface of the cabinet body (3) and are both connected with the cabinet body (3) in a sliding manner;

a first spring (52) is arranged between the first push plate (51) and the inner surface of the cabinet body (3), one end of the first spring (52) is fixedly connected with the surface of the first push plate (51), and the other end of the first spring is fixedly connected with the inner surface of the cabinet body (3); a second spring (55) is arranged between the second push plate (54) and the inner surface of the cabinet body (3), one end of the second spring (55) is fixedly connected with the surface of the second push plate (54), and the other end of the second spring is fixedly connected with the inner surface of the cabinet body (3);

a second cam (64) is mounted on the central rod (61), the second cam (64) is positioned between the first push plate (51) and the second push plate (54), and the outer circle of the second cam (64) is in contact with the surface of the first push plate (51) and the surface of the second push plate (54);

the first push plate (51) is fixedly connected with a first dust suction pipe (53), the second push plate (52) is fixedly connected with a second dust suction pipe (56), the first dust suction pipe (53) and the second dust suction pipe (56) penetrate through the side face of the cabinet body (3) respectively, and a hose is arranged at the joint of the first dust suction pipe and the cabinet body (3).

3. The server cabinet set for dissipating heat and removing dust of claim 2, wherein the first cam (65) and the second cam (64) are protruded in opposite directions.

4. The server cabinet set for dissipating heat and removing dust of claim 1, wherein a connecting plate (7) is installed between the first swinging rod (46), the second swinging rod (48) and the central rod (61), and the connecting plate (7) is used for fixing the relative positions of the first swinging rod (46), the second swinging rod (48) and the central rod (61);

a bearing piece (71) is arranged at the lower end part of the connecting plate (7), the inner circle and the outer circle of the bearing piece (71) are rotationally connected, and a central rod (61) is fixedly connected to the inner circle of the bearing piece (71);

two third fixing holes (73) are formed in the upper end of the connecting plate (7), and the first swinging rod (46) and the second swinging rod (48) are fixedly installed in the third fixing holes (73) respectively;

and a second fixing hole (72) is formed in the connecting plate (7), and the connecting plate (7) is fixedly connected to the side face of the cabinet body (3) through the second fixing hole (72).

5. The server cabinet group for heat dissipation and dust removal as recited in claim 1, wherein two side surfaces of the cabinet body (3) axially parallel to the central rod (61) are respectively provided with a first heat dissipation opening (39), and each first heat dissipation opening (39) is provided with a first filter screen (9);

the central rod (61) is provided with a first fan (62) and a second fan (63), and the first fan (62) and the second fan (63) are positioned between the server and the first filter screen (9);

the first fan (62) is close to the first filter screen (9), the second fan (63) is close to the server, the wind direction of the first fan (62) faces the first filter screen (9), and the wind direction of the second fan (63) faces the server.

6. The server cabinet group for heat dissipation and dust removal according to claim 1, wherein a connecting mechanism (1) is installed between two adjacent cabinet bodies (3), and the connecting mechanism (1) is used for adjusting the distance between two adjacent cabinet bodies (3);

the connecting mechanism (1) comprises a first rack (11), the first rack (11) is connected with one cabinet body (3) in a sliding mode and fixedly connected with the side face of the other cabinet body (3);

a first gear (12) is meshed at the upper end of the first rack (11), a second gear (15) is installed on one side of the first gear (12), the second gear (15) is coaxial with the first gear (12), and the tooth pitch of the second gear (15) is the same as that of the first gear (12);

a second rack (16) is meshed above the second gear (15), and the pitch of the second rack (16) is the same as that of the first rack (11);

the second rack (16) is connected with the two adjacent cabinets (3) in a sliding mode, and one end of the second rack (16) is rotatably connected with the central rod (61).

Images