CN210008147U - kinds of server cabinet - Google Patents

Abstract

The utility model belongs to the technical field of the server, a kind of server rack is disclosed, including the rack, from top to bottom is equipped with a plurality of hollow partition plates in it, is to the aviation baffle axle, rotationally set up on the rack, the aviation baffle, correspond and install on the aviation baffle axle, the heat dissipation fan corresponds the aviation baffle setting with side, the server corresponds and hangs and installs in the server compartment, a plurality of snakelike cooling tubes, the both ends of snakelike cooling tube all transversely pass hollow partition plate, the motor, be equipped with the cam on the transmission shaft of motor, drive gear and all leading gear transmission connection with side, and the cylinder body, the utility model discloses a server rack can dispel the heat for all servers on the rack fast through the combination of air-cooled heat dissipation and water-cooled heat dissipation, and the water-cooled heat dissipation mode is safer, and snakelike cooling tube and server isolation setting can protect the.

Description

kinds of server cabinet

Technical Field

The utility model belongs to the technical field of the server, concretely relates to kinds of server cabinets.

Background

When the server cabinet is used, a plurality of servers are usually installed, when the servers are used, heat is large, the servers need to be radiated, the existing radiating assembly usually only adopts water cooling radiating or air cooling radiating, and the radiating effect is poor, so that server cabinets are provided.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems existing in the prior art, the utility model aims to provide kinds of server cabinets.

The utility model discloses the technical scheme who adopts does:

A server cabinet comprising:

the equipment cabinet is internally provided with a plurality of hollow clapboards from top to bottom, the equipment cabinet is divided into a plurality of server compartments through the hollow clapboards, and the server compartments are provided with heat dissipation holes;

air guide plate shafts are correspondingly arranged at the left side and the right side of the server compartment and rotatably arranged on the machine cabinet, the air guide plate shafts are arranged along the front-back direction, and guide gears are arranged on all the air guide plate shafts;

the air guide plates are correspondingly arranged on the air guide plate shafts and correspond to the heat dissipation holes of the corresponding servers;

the heat dissipation fan is arranged on the side of the cabinet and is arranged corresponding to the air deflector on the side;

the server is correspondingly hung and installed in the server compartment;

a plurality of serpentine radiating pipes are correspondingly arranged in the hollow partition plate, and both ends of each serpentine radiating pipe transversely penetrate through the hollow partition plate;

the base is of a hollow structure and is supported and arranged below the cabinet;

the th motor is arranged in the base, and a cam is arranged on a transmission shaft of the th motor;

the transmission gear is rotationally arranged in the base and is in transmission connection with all the guide gears on the same side as ;

the cylinder body is internally provided with a piston in a matching manner, an elastic component is arranged between the cylinder body and the piston, push rods are respectively arranged at two ends of the piston, wherein push rods are provided with teeth facing to the side of the transmission gear, the teeth are meshed with the transmission gear, and the other push rods are tangent to the cam;

the liquid inlet of the cylinder body is externally connected with a water pipe, and the liquid outlet of the cylinder body is connected with inlets of all the serpentine radiating pipes;

a plurality of mounting plates are arranged on the rear side of the server, and a plurality of clamping grooves are formed in the cabinet corresponding to the mounting plates;

but be equipped with the buckle on the mounting panel and be in fixed buckle and activity buckle in the draw-in groove, be equipped with the slide rail along upper and lower direction on the mounting panel, activity buckle sets up with sliding on the slide rail, still rotate on the mounting panel and install the buckle bolt, be equipped with the bolt hole on the activity buckle, the bolt hole with buckle bolt phase-match.

, the hollow partition board is an aluminum hollow partition board.

, heat dissipation fins are arranged at the lower end of the server and are in surface contact connection with the hollow partition plate.

, the heat sink fins are aluminum heat sink fins.

, the number of the heat dissipation fins is multiple, and multiple heat dissipation fins are arranged at the lower end of the server at equal intervals.

, the air deflector shaft is mounted laterally within the cabinet by a pivot bearing.

The utility model has the advantages that:

the utility model discloses a server rack passes through air-cooled heat dissipation and water-cooling heat dissipation's combination, can dispel the heat for all servers on the rack fast, and the water-cooling heat dissipation mode is more safe, and snakelike cooling tube keeps apart the setting with the server, can protect the server better.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a schematic structural diagram of the motor , the cam and the cylinder of the present invention.

Fig. 4 is a schematic structural view of the air deflector shaft and the air deflector of the present invention.

Fig. 5 is a schematic structural view of the serpentine heat dissipation pipe of the present invention.

Fig. 6 is a schematic structural diagram of the mounting plate of the present invention.

Fig. 7 is a schematic view of the process of mounting the mounting plate on the clamping groove of the present invention.

Fig. 8 is a schematic structural view of the heat dissipation fin of the present invention.

In the figure, the device comprises a cabinet 10, a base 11, a side vertical plate 13, a hollow partition plate 20, a server 30, a heat dissipation hole 31, a heat dissipation groove strip 32, a clamping groove 321, an air deflector shaft 41, an air deflector 42, an air deflector 421, an air deflector installation part 43, a guide gear 431, a th connecting shaft 431, a rotating bearing 44, a transmission gear 45, a bevel gear 461 to , a second bevel gear 462, a second connecting shaft 463, a cylinder 47, a piston 471, a push rod 472, a liquid inlet 473, a liquid outlet 474, an elastic part 475, a cam 48, a belt 49, a heat dissipation fan 51, a second motor 52, a server 60, a heat dissipation fin 61, a serpentine heat dissipation pipe 70, a mounting plate 81, a buckle bolt 82, a fixed buckle 83, a fixed buckle jaw 831, a movable buckle 84, a buckle of a movable buckle 841 and a slide rail 85.

Detailed Description

The present invention will be further described in with reference to the following drawings and specific examples.

As shown in fig. 1, the server cabinets of this embodiment, as shown in fig. 1 and 2, include a cabinet, pairs of air guide plate shafts, air guide plates, heat dissipation fans, servers, serpentine heat dissipation pipes, a base, a th motor, transmission gears, and a cylinder.

A plurality of hollow partition plates 20 are arranged in the machine cabinet 10 from top to bottom, the machine cabinet 10 is divided into a plurality of server compartments 30 through the hollow partition plates 20, heat dissipation holes 31 are formed in the server compartments and are formed in side plates of the server compartments, the side plates of the server compartments and the partition plates 20 are welded into bodies, the partition plates and the machine cabinet can be fixedly welded into whole bodies, the whole strength and the structure of the machine cabinet can be used for installing servers, and the hollow structure is arranged between the machine cabinet and the server compartments and can be used for installing air guide plate shafts and air guide plates.

pairs of air deflector shafts 41, pairs of air deflector shafts 41 are arranged corresponding to each server compartment, are arranged at the left side and the right side of the server compartment, are rotatably arranged on the cabinet, are arranged along the front and back direction, and are respectively arranged at the front side and the back side of the cabinet through rotating bearings 44, so that the air deflector shafts can rotate and can be stably installed, the air deflectors 42 are correspondingly installed on the air deflector shafts, as shown in fig. 4, the air deflectors 42 can be installed on the corresponding air deflector shafts through the air deflector installation parts 421, openings are arranged on the cabinet corresponding to the air deflectors, and in a normal state, the air deflectors can be covered on the openings to achieve a dustproof effect.

The side of the cabinet can be provided with a heat dissipation fan 51, the heat dissipation fan 51 is arranged corresponding to the air deflector 42 on the side, the heat dissipation fan 51 is driven to operate by the second motor 52, when heat dissipation is needed, the second motor 52 can be started to drive the heat dissipation fan 51 to operate, meanwhile, the air deflector can alternately rotate forwards and backwards, the air deflector can adjust the air volume of an opening in the rotating process, meanwhile, the guide plate 42 can play a similar effect to a fan, therefore, in the synchronous rotating process of the air deflectors on the two sides of each server compartment, the air deflectors correspond to the heat dissipation holes in the server compartment, heat can be quickly dissipated to the server compartment, and air cooling heat dissipation is carried out on the server.

The server 60 is correspondingly and fixedly installed in the server compartment, in the embodiment, the server 60 is installed in the corresponding server compartment in a hanging mode through the installation plates 81, the rear side of the server is fixedly provided with the installation plates 81, the cabinet is provided with the clamping grooves 321 corresponding to the installation plates, the clamping groove strips 32 are installed on the cabinet and installed in the corresponding server compartment, the clamping grooves 321 are convex grooves formed in the clamping groove strips 32, a schematic diagram of clamping connection of installation plates and three clamping grooves is shown in fig. 7, in the actual installation process, 3 clamping groove strips 32 can be arranged on the rear side of the server from top to bottom, 9 clamping grooves are correspondingly formed, the server is installed on the cabinet in a hanging mode through 9 installation plates, 3 installation plates are transversely and correspondingly arranged on every three clamping grooves, the server can be hung more stably, and the number of the specific clamping grooves and the number of the installation plates are determined according to actual needs.

Taking the installation of mounting plates as an example, as shown in fig. 6, the mounting plate is provided with a fixed buckle 83 and a movable buckle 84 which can be buckled in the slots, the mounting plate is provided with a slide rail 85 along the up-down direction, the movable buckle 84 is slidably arranged on the slide rail 85, the mounting plate is also rotatably provided with a buckle bolt, the movable buckle is provided with a bolt hole which is matched with the buckle bolt, so that the buckle bolt can penetrate through the movable buckle in a matching manner, the movable buckle can move towards the fixed buckle by rotating the buckle bolt 82 in the forward direction, the movable buckle can move away from the fixed buckle by rotating the buckle bolt in the reverse direction, the mounting plate is installed in the slots by buckling a claw 831 of the fixed buckle in a -th slot, the movable buckle can move towards the fixed buckle by rotating the buckle bolt in the forward direction, when a claw 841 of the movable buckle can be buckled in a third slot, the forward direction of the buckle bolt is stopped, thus mounting plates can be buckled in the slots, and the corresponding slots can be buckled in the server compartment more stably.

A suspension installation mode in the prior art, such as a stand column suspension mode, can also be selected, and the stand column is arranged between the server and the corresponding hollow partition plate, so that the server can be more stably suspended in the server compartment.

When circulating cold water is introduced into the serpentine radiating pipe 70, the heat of the server is transferred to the adjacent hollow partition plates, then the heat of the server 60 is taken away by the serpentine radiating pipe in the hollow partition plates, the server is subjected to water-cooling radiation, the serpentine radiating pipe is arranged in a manner of being isolated from the server, the server can be better protected, and the server is prevented from being damaged due to leakage of the serpentine radiating pipe.

The hollow partition plate is preferably made of aluminum, so that heat of the hollow partition plate can be rapidly transferred to the snake-shaped radiating pipe.

The lower end of the server is provided with heat dissipation fins 61 which are in surface contact connection with the hollow partition plate, and preferably, the heat dissipation fins are made of aluminum, so that the heat of the server can be quickly transferred to the hollow partition plate, and then the heat of the server 60 is taken away by the snake-shaped heat dissipation pipe in the hollow partition plate.

As shown in fig. 8, the number of the heat dissipation fins 61 is multiple, and the multiple heat dissipation fins are arranged at the lower end of the server at equal intervals, so that the heat dissipation area of the server can be effectively increased, the heat of the server can be ensured to be uniformly transferred to the adjacent hollow partition plates through the multiple heat dissipation fins, and then the heat of the server 60 is taken away by the serpentine heat dissipation pipe in the hollow partition plates.

It should be noted that the height of the pillars is equal to the height of the heat dissipation fins, and the arrangement of the pillars does not affect the surface contact connection between the heat dissipation fins and the hollow partition.

The base 11 is a hollow structure and is supported and arranged below the cabinet, and the base is made of steel plates with certain thickness and is enough for supporting the weight of the cabinet 10 and the server 60.

All the air deflector shafts on the same side can be driven to synchronously rotate through a transmission gear 45, as shown in fig. 2, the transmission gear 45 is rotationally arranged in the base 11, all the air deflector shafts are provided with guide gears 43, the transmission gear is in transmission connection with all the guide gears on the same side, as shown in fig. 2 and 3, a bevel gear 461 is coaxially connected with guide gears 43, the guide gears are connected with the guide gears 43 on the air deflector shafts through belts 49, the guide gears and a connecting shaft 431 of the bevel gear 461 are transversely arranged on the side vertical plate 13 through rotating bearings, a second bevel gear 462 is externally meshed with a bevel gear 461, and the second bevel gear and a second connecting shaft 463 of the transmission gear 45 penetrate through the longitudinal direction through the rotating bearings to be arranged in the base 11, so that all the guide gears on the same side can be driven to alternatively rotate clockwise and anticlockwise in the process of alternatively rotating clockwise and anticlockwise.

As shown in fig. 3, a piston 471 is arranged in the cylinder 47 in a matching manner, an elastic component 475 is arranged between the cylinder and the piston, push rods 472 are respectively arranged at two ends of the piston, another push rods are tangent to a cam 48, a motor is arranged in the base 11, a cam 48 is arranged on a transmission shaft of a motor, when a motor works, the cam 48 can be driven to rotate, when the highest point of the cam slowly approaches another push rods, another push rods can be driven to move left by push rods, the elastic component can be stretched, because tooth is arranged on push rods facing side of the transmission gear, the tooth is meshed with the transmission gear to drive the transmission gear to rotate clockwise, when the highest point of the cam slowly leaves another push rods, another push rods can be slowly withdrawn, the two push rods and the piston can move in reverse direction under the elastic restoring force of the elastic component to drive the transmission gear to rotate reversely, so that in the process of the cam rotation, the two push rods and the piston are driven to move clockwise and counter-clockwise, the transmission gear and counter-clockwise, so that the two ends of the motor and the electric motors can be driven by and the electric motors to drive the two ends of the power switches , so that the and can be synchronously operated synchronously by the motor, the two synchronous linear switch motor, the synchronous linear switch, the two motors, so that the two ends of.

In addition, the heat dissipation fan is arranged corresponding to the air deflector on the side, so that in the synchronous rotation process of the air deflectors on the two sides of the server compartment, the heat dissipation fan works in combination with the alternate forward rotation and reverse rotation of the air deflectors, and can quickly dissipate heat for the server compartment, thereby performing air cooling heat dissipation for the server.

If liquid inlets 473 and liquid outlets 474 are respectively arranged at two sides of the cylinder body, the cylinder body can be filled with cold water in advance, the motor can drive the piston in the cylinder body to reciprocate when working, when the piston moves rightwards, the volume of the right space of the cylinder body is reduced, the cold water in the right space can be discharged to the serpentine radiating pipe 70 through the liquid outlet at the right side, the volume of the left space of the cylinder body is increased, negative pressure is formed in the left space of the cylinder body, the cold water of the water pipe is driven to be supplemented to the left space of the cylinder body through the liquid inlet at the left side, when the piston moves leftwards, the volume of the left space of the cylinder body is reduced, the cold water in the left space can be discharged to the serpentine radiating pipe 70 through the liquid outlet at the left side, the volume of the right space of the cylinder body is increased, negative pressure is formed in the left space of the cylinder body, the cold water of the water pipe is driven to be supplemented to be supplied to the right space of the cylinder body through the liquid inlet at the right side of the cylinder body, and the serpentine radiating pipe is arranged around the liquid inlet of the serpentine radiating pipe, so that the serpentine radiating server can continuously collect the circulating water and the circulating water which is discharged out to treat the circulating water of the server.

Since sets of motors, cylinders and cams are respectively arranged on the left and right sides to drive all the air deflectors on the same side to rotate, the liquid outlets of cylinders can be connected with the inlets of serpentine heat-radiating tubes, and the liquid outlets of cylinders are connected with the inlets of serpentine heat-radiating tubes, so that the power of circulating cold water of the serpentine heat-radiating tubes can be ensured.

The utility model discloses a server rack passes through air-cooled heat dissipation and water-cooling heat dissipation's combination, can dispel the heat for all servers on the rack fast, and the water-cooling heat dissipation mode is more safe, and snakelike cooling tube keeps apart the setting with the server, can protect the server better.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (6)

1, kinds of server rack, characterized by that includes:

the equipment cabinet is internally provided with a plurality of hollow clapboards from top to bottom, the equipment cabinet is divided into a plurality of server compartments through the hollow clapboards, and the server compartments are provided with heat dissipation holes;

air guide plate shafts are correspondingly arranged at the left side and the right side of the server compartment and rotatably arranged on the machine cabinet, the air guide plate shafts are arranged along the front-back direction, and guide gears are arranged on all the air guide plate shafts;

the air guide plates are correspondingly arranged on the air guide plate shafts and correspond to the heat dissipation holes of the corresponding servers;

the heat dissipation fan is arranged on the side of the cabinet and is arranged corresponding to the air deflector on the side;

the server is correspondingly hung and installed in the server compartment;

a plurality of serpentine radiating pipes are correspondingly arranged in the hollow partition plate, and both ends of each serpentine radiating pipe transversely penetrate through the hollow partition plate;

the base is of a hollow structure and is supported and arranged below the cabinet;

the th motor is arranged in the base, and a cam is arranged on a transmission shaft of the th motor;

the transmission gear is rotationally arranged in the base and is in transmission connection with all the guide gears on the same side as ;

the cylinder body is internally provided with a piston in a matching manner, an elastic component is arranged between the cylinder body and the piston, push rods are respectively arranged at two ends of the piston, wherein push rods are provided with teeth facing to the side of the transmission gear, the teeth are meshed with the transmission gear, and the other push rods are tangent to the cam;

the liquid inlet of the cylinder body is externally connected with a water pipe, and the liquid outlet of the cylinder body is connected with inlets of all the serpentine radiating pipes;

a plurality of mounting plates are arranged on the rear side of the server, and a plurality of clamping grooves are formed in the cabinet corresponding to the mounting plates;

but be equipped with the buckle on the mounting panel and be in fixed buckle and activity buckle in the draw-in groove, be equipped with the slide rail along upper and lower direction on the mounting panel, activity buckle sets up with sliding on the slide rail, still rotate on the mounting panel and install the buckle bolt, be equipped with the bolt hole on the activity buckle, the bolt hole with buckle bolt phase-match.

2. The server cabinet of claim 1, wherein: the hollow partition plate is an aluminum hollow partition plate.

3. The server cabinet of claim 2, wherein: and the lower end of the server is provided with heat radiating fins which are in surface contact connection with the hollow partition plate.

4. The server cabinet of claim 3, wherein: the radiating fins are aluminum radiating fins.

5. The server cabinet of claim 4, wherein: the number of the radiating fins is multiple, and the multiple radiating fins are arranged at the lower end of the server at equal intervals.

6. The server cabinet of any one of claims 1-5, , wherein the air deflection shaft is mounted laterally within the cabinet by a pivot bearing.

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