CN113382604B - Big data center cooling system - Google Patents

Abstract

The invention relates to the field of cooling, in particular to a large data center cooling system. The utility model provides a big data center cooling system, includes parallel plate and curb plate, respectively be provided with one about the curb plate, the parallel plate is provided with a plurality ofly from last to down, and a plurality of parallel plates are parallel to each other, and a plurality of parallel plates all set up between two curb plates. The utility model provides a big data center cooling system still includes back plate and intake pipe, is provided with the back plate between the rear side of two curb plates, is provided with the intake pipe on the back plate. The utility model provides a big data center cooling system still includes the rubber slab, and the upper and lower both ends of back plate all are connected with the rubber slab, and the rubber slab that is located the upside presses on the parallel plate that is located the top, and the rubber slab that is located the downside presses on the parallel plate that is located the downside. The utility model provides a big data center cooling system still includes the pivot, and the rear portion of a plurality of parallel plates all is provided with the pivot, and the both ends of every pivot rotate respectively to be connected on two curb plates.

Description

Big data center cooling system

Technical Field

The invention relates to the field of cooling, in particular to a large data center cooling system.

Background

The patent No. 202010293783.2 discloses a smoke abatement cooling device, the first-stage smoke abatement cooling device comprises a smoke inlet, a smoke abatement cooling chamber, a jet bubbling reactor and a filter screen; the right side of the smoke abatement and temperature reduction chamber is provided with a smoke inlet, the lower part of the smoke abatement and temperature reduction chamber is provided with a jet bubbling reactor, and the left side of the smoke abatement and temperature reduction chamber is provided with a plurality of layers of filter screens; the secondary cooling device comprises a flow equalizing chamber and a secondary cooling spiral finned tube cooler, the flow equalizing chamber is arranged above the secondary smoke abatement cooling device, and a plurality of secondary cooling spiral finned tube coolers are uniformly arranged below the flow equalizing chamber. The invention firstly adopts a chemical reaction and adsorption method and a two-stage water retaining device to treat the high-temperature smoke with the temperature of 500 ℃ and 600 ℃ in a first stage, and the outlet temperature of the smoke-eliminating and cooling device after the primary treatment is less than or equal to 70 ℃. And secondly, secondary treatment is carried out on the smoke gas at the temperature of 70 ℃, so that the aims of comprehensively reducing the smoke concentration of the diesel engine and reducing the temperature to be less than or equal to 35 ℃ can be achieved after the secondary treatment, and the important national hidden military facility requirements are met. However, the patent cannot adjust the blowing direction, and the blown wind is not in a parallel state.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the large data center cooling system which has the advantages that the blowing direction can be adjusted, and the blown air is in a parallel state.

The utility model provides a big data center cooling system, includes parallel plate and curb plate, respectively be provided with one about the curb plate, the parallel plate is provided with a plurality ofly from last to down, and a plurality of parallel plates are parallel to each other, and a plurality of parallel plates all set up between two curb plates.

The utility model provides a big data center cooling system still includes back plate and intake pipe, is provided with the back plate between the rear side of two curb plates, is provided with the intake pipe on the back plate.

The utility model provides a big data center cooling system still includes the rubber slab, and the upper and lower both ends of back plate all are connected with the rubber slab, and the rubber slab that is located the upside presses on the parallel plate that is located the top, and the rubber slab that is located the downside presses on the parallel plate that is located the downside.

The utility model provides a big data center cooling system still includes the pivot, and the rear portion of a plurality of parallel plates all is provided with the pivot, and the both ends of every pivot are rotated respectively and are connected on two curb plates.

The utility model provides a big data center cooling system still includes gear, rack and fixing base, the equal fixedly connected with gear of right-hand member of a plurality of pivots, the equal fixedly connected with fixing base in upper and lower both ends of the curb plate that is located the right side, the vertical sliding connection of rack is on two fixing bases, a plurality of gears all with the rack toothing transmission, threaded connection has fastening screw I on the fixing base, fastening screw I presses on the rack.

The large data center cooling system further comprises an L-shaped frame, and the upper portion of the L-shaped frame is arranged on the lower portion of the rear plate.

The utility model provides a big data center cooling system still includes base and supporting shoe, is provided with the supporting shoe on the base, and L shape frame sliding connection is in the lower part of supporting shoe in the front and back direction, and threaded connection has fastening screw II on the supporting shoe, and fastening screw II presses on L shape frame.

The utility model provides a big data center cooling system still includes door shape outrigger and ventilation hole, and the upper portion of supporting shoe is provided with door shape outrigger, and the left and right sides of door shape outrigger all is provided with a plurality of ventilation holes.

The cooling system for the big data center has the beneficial effects that:

the invention can adjust the blowing direction, and the blown wind is in parallel state.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of a cooling system of a large data center;

FIG. 2 is a schematic structural diagram II of a cooling system of a large data center;

FIG. 3 is a schematic view of a parallel plate configuration;

FIG. 4 is a schematic view of the structure of the rear plate;

FIG. 5 is a schematic view of the structure of the parallel plates and the back plate;

FIG. 6 is a schematic structural view of a base;

FIG. 7 is a schematic view of the structure of the cross bar and the compression leg;

FIG. 8 is a first schematic structural view of the boss;

FIG. 9 is a second schematic structural view of the boss;

fig. 10 is a structural schematic view of a door-shaped outer frame.

In the figure: a rear plate 1001; an air inlet pipe 1002; parallel plates 1003; side plates 1004; a rubber sheet 1005; a gear 1006; a rotating shaft 1007; a rack 2001; a fixed seat 2002; a base 3001; an L-shaped frame 3002; a support block 3003; a cross bar 4001; a side bar 4002; an arc-shaped spring rod 4003; a V-shaped chute 4004; a partition plate 4005; a blocking edge 4006; a compression column 5001; a press screw 5002; a bracket 5003; a square column 5004; a boss 6001; a telescopic rod 6002; a door seat 6003; a nut 6004; a slide shaft 6005; a mandril 6006; a turntable 6007; a turntable frame 6008; a door-shaped outer frame 7001; a vertical bore 7002; a vent 7003.

Detailed Description

Referring to fig. 3-5, an embodiment of the present invention is provided to solve the main technical problem of facilitating cooling a large data center by using parallel cold air, and adjusting the direction of the parallel plates 1003 can adjust the direction of the cold air, and further,

because big data center cooling system, including parallel plate 1003 and curb plate 1004, curb plate 1004 respectively is provided with one about, parallel plate 1003 is provided with a plurality ofly from last to down, parallel arrangement between a plurality of parallel plates 1003, a plurality of parallel plates 1003 all are located between two curb plates 1004, when outside cold wind blows to a plurality of parallel plates 1003, two curb plates 1004 prevent that wind from leaking from both sides, then when cold wind passes through a plurality of parallel plates 1003, a plurality of parallel plates 1003 become the parallel state with cold wind, when needs are cooled down big data center, become the parallel state with cold wind through a plurality of parallel plates 1003, be convenient for use parallel cold wind to cool down big data center, can adjust the direction of cold wind behind the direction of a plurality of parallel plates 1003.

Referring to fig. 3-5, an embodiment of the present invention is provided, which solves the main technical problem that an air inlet pipe 1002 is used for receiving cold air, and then the cold air enters a plurality of parallel plates 1003, and further,

because big data center cooling system still includes back plate 1001 and intake pipe 1002, back plate 1001 fixed connection is between the rear side of two curb plates 1004, fixedly connected with intake pipe 1002 on the back plate 1001, be used for inserting cold wind in the intake pipe 1002, then cold wind gets into a plurality of parallel plates 1003 departments, when cold wind passes through a plurality of parallel plates 1003, a plurality of parallel plates 1003 become cold wind and run parallel, when needs cool down big data center, become parallel state with cold wind through a plurality of parallel plates 1003, be convenient for use parallel cold wind to cool down big data center, can adjust the direction of cold wind behind the direction of adjusting a plurality of parallel plates 1003.

Referring to fig. 3 to 5, an embodiment of the present invention is provided, which solves a main technical problem that a rubber sheet 1005 is used to fill a gap between a parallel plate 1003 and a rear plate 1001 on upper and lower sides, and further,

because the large data center cooling system further comprises rubber plates 1005, the rubber plates 1005 are arranged at the upper end and the lower end of the rear plate 1001, the rubber plate 1005 positioned at the upper side is pressed on the parallel plate 1003 positioned at the uppermost side, and the rubber plate 1005 positioned at the lower side is pressed on the parallel plate 1003 positioned at the lowermost side; the rubber plate 1005 is used to fill the gap between the upper and lower parallel plates 1003 and the rear plate 1001, and the rubber plate 1005 can be elastically deformed without affecting the rotation of the plurality of parallel plates 1003 to adjust the blowing direction.

Referring to fig. 3-4, an embodiment of the present invention is provided, which solves the main technical problem of enabling the parallel plate 1003 to change the direction of the parallel plate 1003 by rotating the rotating shaft 1007, and further,

because big data center cooling system still includes pivot 1007, the equal fixedly connected with pivot 1007 in rear portion of a plurality of parallel plates 1003, a plurality of pivots 1007 all rotate and connect between two curb plates 1004, and then make parallel plate 1003 rotate the direction that changes parallel plate 1003 through pivot 1007, can adjust the direction of cold wind after adjusting the direction of a plurality of parallel plates 1003.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of changing the blowing direction of a plurality of parallel plates 1003, and further,

because big data center cooling system still includes gear 1006, rack 2001 and fixing base 2002, the right-hand member fixedly connected with gear 1006 of a plurality of pivots 1007, the upper and lower both ends that are located the curb plate 1004 on right side all are provided with fixing base 2002, on two fixing bases 2002 of the vertical sliding connection of rack 2001, the meshing transmission between a plurality of gears 1006 and the rack 2001, threaded connection has fastening screw I on fixing base 2002, fastening screw I presses and is used for fixing rack 2001 on rack 2001, rack 2001 can be on two fixing bases 2002 vertical slip, and then drive a plurality of gears 1006 and rotate, and then drive a plurality of pivots 1007 and a plurality of parallel plates 1003 rotate simultaneously, and then realize changing the direction of blowing of a plurality of parallel plates 1003.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of changing the blowing position when a plurality of parallel plates 1003 blow to a large data center, and further,

because big data center cooling system still includes L shape frame 3002, the lower part at back plate 1001 is connected to the upper end fixed connection of L shape frame 3002, and L shape frame 3002 can slide around on supporting shoe 3003, and then drives back plate 1001 and a plurality of parallel plates 1003 and slide around, and then changes the position of blowing when a plurality of parallel plates 1003 blow to big data center.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of fixing the blowing positions of a plurality of parallel plates 1003, and further,

because big data center cooling system still includes base 3001 and supporting shoe 3003, is provided with supporting shoe 3003 on the base 3001, and L shape frame 3002 is in the lower part of front and back direction sliding connection at supporting shoe 3003, and threaded connection has fastening screw II on the supporting shoe 3003, and fastening screw II presses L shape frame 3002 time can be fixed with L shape frame 3002, and then fixes the position of blowing of a plurality of parallel plates 1003.

Referring to fig. 1-10, an embodiment of the present invention is provided to solve the main technical problem of cooling a large data center, and further,

Because big data center cooling system still includes door shape outrigger 7001 and ventilation hole 7003, the upper portion of supporting shoe 3003 is provided with door shape outrigger 7001, and the left and right sides of door shape outrigger 7001 all is provided with a plurality of ventilation holes 7003, is used for setting up big data center on the door shape outrigger 7001, and a plurality of ventilation holes 7003 are used for being convenient for wind to pass through big data center, and then cool down big data center.

Referring to fig. 1-10, a main technical problem to be solved by the present invention is to make a large data center disposed between two side bars 4002 vibrate up and down, so as to facilitate heat dissipation of the large data center, and further,

because the large data center cooling system further comprises a transverse bar 4001, side bars 4002, arc-shaped elastic rods 4003, door seats 6003, nuts 6004, sliding shafts 6005 and vertical holes 7002, the vertical holes 7002 are respectively arranged on two sides of the door-shaped outer frame 7001, the two sliding shafts 6005 are respectively inserted into the two vertical holes 7002, the door seats 6003 are respectively fixedly connected to the two sliding shafts 6005, the nuts 6004 are respectively connected to the two sliding shafts 6005 through threads, the nuts 6004 and the door seats 6003 are respectively arranged on the inner side and the outer side of the door-shaped outer frame 7001, the two sliding shafts 6005 can vertically slide on the vertical holes 7002 to drive the two door seats 6003 to slide up and down, so as to adjust the up and down positions of the two door seats 6003, the two side bars 4002 on the transverse bar 4001 can respectively slide on the two door seats 6003, when the two side bars 4002 slide relative to the two door seats 6003, the arc-shaped elastic rods 4003 can press the arc-shaped elastic rods 4002 and the large data center 4002 can be reset between the two transverse bars 4002, when wind blows on big data center for the big data center that sets up between two side bars 4002 can tremble from top to bottom, is convenient for big data center more and dispels the heat.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of setting a plurality of large data centers to different heights, and further,

because big data center cooling system still includes V-arrangement spout 4004, space bar 4005 and fender arris 4006, the opposite side of two side strips 4002 all is provided with V-arrangement spout 4004, and the both ends of space bar 4005 are sliding connection respectively on two V-arrangement spouts 4004, and space bar 4005 can slide from top to bottom between two V-arrangement spouts 4004, and the upside of space bar 4005 is used for setting up big data center, and the fender arris 4006 of both sides around the upside of space bar 4005 is used for preventing to set up the big data center that the upside of space bar 4005 fell from spacing plate 4005. A plurality of spacers 4005 may be provided, and a plurality of large data centers may be provided between the two side bars 4002 by the plurality of spacers 4005. The plurality of partition plates 4005 may be set to different heights, respectively, and the plurality of large data centers may be set to different heights.

The big data center cooling system further comprises a pressing column 5001, pressing screws 5002, a bracket 5003 and a square column 5004, the bracket 5003 is fixedly connected to the horizontal bar 4001, the square column 5004 is slidably connected to the bracket 5003 in the front-rear direction, the lower end of the pressing column 5001 is fixedly connected to the square column 5004, the square column 5004 is pressed on the plurality of partition plates 4005, the pressing screws 5002 are connected to the bracket 5003 in a threaded mode, and the pressing screws 5002 are pressed on the front side of the pressing column 5001.

Referring to fig. 1-10, an embodiment of the present invention is provided, which solves the main technical problem of fixing a plurality of spacers 4005 at the same time, and further,

when the pressure cylinder 5001 is pressed rearward by rotating the pressure screw 5002, the pressure cylinder 5001 can be pressed against the plurality of spacers 4005, and the plurality of spacers 4005 can be fixed at the same time after the heights of the plurality of spacers 4005 are adjusted.

The utility model provides a big data center cooling system still includes boss 6001, telescopic link 6002, ejector pin 6006, carousel 6007 and revolving stage frame 6008, equal fixedly connected with boss 6001 in both ends about door-shaped outrigger 7001 downside, vertical sliding connection has revolving stage frame 6008 on the boss 6001, fixedly connected with telescopic link 6002 on the boss 6001, the upper end fixed connection of telescopic link 6002 is on the upper portion of revolving stage frame 6008, the outer end fixedly connected with carousel 6007 of slide 6005, carousel 6007 rotates and connects on the upper portion of revolving stage frame 6008, the upside fixedly connected with ejector pin 6006 of carousel 6007, the equal fixedly connected with extension spring in both ends of ejector pin 6006, two extension springs are all fixed connection on the upper portion of revolving stage frame 6008.

Referring to fig. 1-10, the present invention provides an embodiment, which solves the main technical problem that a large data center disposed between two side strips 4002 can swing back and forth with a common shaft axis of two sliding shafts 6005 as a shaft, so as to facilitate heat dissipation of the large data center, and further,

The telescopic link 6002 can drive the carousel frame 6008 when flexible and vertically slide on boss 6001, the door seat 6003 can rotate on the upper portion of the carousel frame 6008 through slide shaft 6005 and carousel 6007, and then at this moment the carousel 6007 is followed to the ejector pin 6006 and is rotated, can stimulate one of them extension spring when the ejector pin 6006 rotates, two extension spring help carousel 6007 go on the return, and then make horizontal bar 4001 and two side bars 4002 can use the common axis of two slide shafts 6005 to rotate as the axle, and then make the big data center that sets up between two side bars 4002 can use the common axis of two slide shafts 6005 to swing around as the axle, be convenient for big data center dispels the heat more.

Claims (3)

1. A big data center cooling system comprises parallel plates (1003) and side plates (1004), and is characterized in that: the left side plate (1004) and the right side plate (1004) are respectively provided with one, the parallel plates (1003) are arranged from top to bottom, the parallel plates (1003) are mutually parallel, and the parallel plates (1003) are arranged between the two side plates (1004);

the air conditioner is characterized by further comprising a rear plate (1001) and an air inlet pipe (1002), wherein the rear plate (1001) is arranged between the rear sides of the two side plates (1004), and the air inlet pipe (1002) is arranged on the rear plate (1001);

the rubber plates (1005) are connected to the upper end and the lower end of the back plate (1001), the rubber plates (1005) on the upper side are pressed on the parallel plate (1003) on the uppermost side, and the rubber plates (1005) on the lower side are pressed on the parallel plate (1003) on the lowermost side;

The device is characterized by further comprising rotating shafts (1007), wherein the rotating shafts (1007) are arranged at the rear parts of the parallel plates (1003), and two ends of each rotating shaft (1007) are respectively and rotatably connected to the two side plates (1004);

the rack-type power transmission device is characterized by further comprising gears (1006), racks (2001) and fixing seats (2002), wherein the gears (1006) are fixedly connected to the right ends of the rotating shafts (1007), the fixing seats (2002) are fixedly connected to the upper end and the lower end of the side plate (1004) on the right side, the racks (2001) are vertically connected to the two fixing seats (2002) in a sliding mode, the gears (1006) are in meshing transmission with the racks (2001), fastening screws I are connected to the fixing seats (2002) in a threaded mode, and the fastening screws I are pressed on the racks (2001);

the upper part of the L-shaped frame (3002) is fixedly connected with the lower part of the back plate (1001);

the support device is characterized by further comprising a base (3001) and support blocks (3003), wherein the support blocks (3003) are fixedly connected to the base (3001), the L-shaped frame (3002) is connected to the lower portion of the support blocks (3003) in a front-rear direction in a sliding mode, fastening screws II are connected to the support blocks (3003) in a threaded mode, and the fastening screws II are pressed on the L-shaped frame (3002);

the device also comprises a door-shaped outer frame (7001) and ventilation holes (7003), wherein the upper part of the supporting block (3003) is fixedly connected with the door-shaped outer frame (7001), and the left side and the right side of the door-shaped outer frame (7001) are respectively provided with a plurality of ventilation holes (7003);

Also comprises a transverse strip (4001), a side strip (4002), an arc elastic rod (4003), a door seat (6003), a nut (6004), a sliding shaft (6005) and a vertical hole (7002), vertical holes (7002) are formed in two sides of the door-shaped outer frame (7001), two sliding shafts (6005) are inserted into the two vertical holes (7002) respectively, door seats (6003) are fixedly connected to the inner ends of the two sliding shafts (6005), nuts (6004) are connected to the two sliding shafts (6005) through threads respectively, the two nuts (6004) are located on the outer side of the door-shaped outer frame (7001), side strips (4002) are fixedly connected to two ends of the transverse strip (4001), the two side strips (4002) are slidably connected to the two door seats (6003) respectively, arc-shaped elastic rods (4003) are fixedly connected to two ends of each side strip (4002), and the inner ends of the two arc-shaped elastic rods (4003) on the same side strip (4002) are fixedly connected to the corresponding door seats (6003);

still include V-arrangement spout (4004), space bar (4005) and keep off arris (4006), the opposite side of two side strips (4002) all is provided with V-arrangement spout (4004), and sliding connection is on two V-arrangement spouts (4004) respectively at the both ends of space bar (4005), and both ends all are provided with and keep off arris (4006) around the space bar (4005) upside, and space bar (4005) are provided with a plurality ofly.

2. The big data center cooling system according to claim 1, wherein: the utility model provides a big data center cooling system still includes compression leg (5001), pressure screw (5002), bracket (5003) and square column (5004), fixedly connected with bracket (5003) on horizontal bar (4001), sliding connection is on bracket (5003) in front and back direction square column (5004), the lower extreme fixed connection of compression leg (5001) is on square column (5004), square column (5004) is pressed on a plurality of space bars (4005), threaded connection presses screw (5002) on bracket (5003), press screw (5002) to press in the front side of compression leg (5001).

3. The big data center cooling system according to claim 1, wherein: the utility model provides a big data center cooling system still includes boss (6001), telescopic link (6002), ejector pin (6006), carousel (6007) and revolving stage frame (6008), equal fixedly connected with boss (6001) in both ends about door-shaped outrigger (7001) downside, vertical sliding connection has revolving stage frame (6008) on boss (6001), fixedly connected with telescopic link (6002) on boss (6001), the upper end fixed connection of telescopic link (6002) is on the upper portion of revolving stage frame (6008), outer end fixedly connected with carousel (6007) of slide shaft (6005), carousel (6007) rotate to be connected on the upper portion of revolving stage frame (6008), upside fixedly connected with ejector pin (6006) of carousel (6007), the equal fixedly connected with extension spring in both ends of ejector pin (6006), the equal fixed connection of two extension springs is on the upper portion of revolving stage frame (6008).

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