CN204392763U - Large server heat exchange cabinet - Google Patents

Abstract

The utility model discloses a kind of large server heat exchange cabinet, comprise rack 1, dividing plate 2 is provided with in described rack, enclosure interior is divided into upper and lower two parts by described dividing plate, described upper space is server rest area 3, and described lower space is radiating area 4, is provided with L-type fragmenting plate 12 in described radiating area, whole radiating area is divided into air intake passage 5 and air exhaust passage 6 two parts by described L-type fragmenting plate, and described air intake passage and air exhaust passage are all communicated with server rest area.The beneficial effects of the utility model are, reasonable in design, good cooling results.

Description

Large server heat exchange cabinet

Technical field

The utility model relates to server cooling technology application, particularly a kind of large server heat exchange cabinet.

Background technology

Server is generally the core of IT industry operation; the running of server has closure, and this makes server meeting rapid temperature increases in operation process, if exceed safe operating temperature; may cause system crash or useful life impaired, therefore suitable cooling system just seems most important.Server of the prior art all adopts the mode of fan exhaust to dispel the heat, however due to structural design unreasonable, radiating effect is undesirable, and common hot mode automatic monitoring ability, can not accomplish according to circumstances automatic heat radiation.

Utility model content

The purpose of this utility model is to solve the problem, and devises a kind of large server heat exchange cabinet.

Realizing above-mentioned purpose the technical solution of the utility model is, a kind of large server heat exchange cabinet, comprise rack 1, dividing plate 2 is provided with in described rack, enclosure interior is divided into upper and lower two parts by described dividing plate, described upper space is server rest area 3, described lower space is radiating area 4, L-type fragmenting plate 12 is provided with in described radiating area, whole radiating area is divided into air intake passage 5 and air exhaust passage 6 two parts by described L-type fragmenting plate, described air intake passage and air exhaust passage are all communicated with server rest area, described intake stack also with rack ft connection, described L-type fragmenting plate is provided with the through hole 7 being communicated with air intake passage and air exhaust passage, blower fan 8 is provided with in described air intake passage, heat exchanger tube 9 is provided with in described air exhaust passage, the two ends port of described heat exchanger tube all stretches out rack and docks with the water tank 10 be fixedly mounted on after rack, described outside cabinet is installed with controller, described blower fan and controller are electrically connected.

Be provided with temperature sensor 11 in described server rest area 3, described temperature sensor and controller are electrically connected.

The outer surface of described L-type fragmenting plate 12 is enclosed with heat insulation foam layer.

Be provided with multiple filtration net 13 in described air intake passage 5, described multiple filtration net is near the port of intake stack and rack ft connection.

Described heat exchanger tube 9 is positioned at the part undulate of rack.

One end port that described heat exchanger tube 9 stretches out outside rack is provided with circulating pump.

Through hole 7 on described L-type fragmenting plate 12 is between screen pack 13 and the port of intake stack and rack ft connection.

The large server heat exchange cabinet utilizing the technical solution of the utility model to make, automaticity is high, good heat dissipation effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of large server heat exchange cabinet described in the utility model;

In figure, 1, rack; 2, dividing plate; 3, server rest area; 4, radiating area; 5, air intake passage; 6, air exhaust passage; 7, through hole; 8, blower fan; 9, heat exchanger tube; 10, water tank; 11, temperature sensor; 12, L-type fragmenting plate; 13, multiple filtration net.

Embodiment

Below in conjunction with accompanying drawing, the utility model is specifically described, as the structural representation that Fig. 1 is large server heat exchange cabinet described in the utility model, as shown in the figure, a kind of large server heat exchange cabinet, comprise rack 1, dividing plate 2 is provided with in described rack, enclosure interior is divided into upper and lower two parts by described dividing plate, described upper space is server rest area 3, described lower space is radiating area 4, L-type fragmenting plate 12 is provided with in described radiating area, whole radiating area is divided into air intake passage 5 and air exhaust passage 6 two parts by described L-type fragmenting plate, described air intake passage and air exhaust passage are all communicated with server rest area, described intake stack also with rack ft connection, described L-type fragmenting plate is provided with the through hole 7 being communicated with air intake passage and air exhaust passage, blower fan 8 is provided with in described air intake passage, heat exchanger tube 9 is provided with in described air exhaust passage, the two ends port of described heat exchanger tube all stretches out rack and docks with the water tank 10 be fixedly mounted on after rack, described outside cabinet is installed with controller, described blower fan and controller are electrically connected.Wherein, be provided with temperature sensor 11 in described server rest area 3, described temperature sensor and controller are electrically connected; The outer surface of described L-type fragmenting plate 12 is enclosed with heat insulation foam layer; Be provided with multiple filtration net 13 in described air intake passage 5, described multiple filtration net is near the port of intake stack and rack ft connection; Described heat exchanger tube 9 is positioned at the part undulate of rack; One end port that described heat exchanger tube 9 stretches out outside rack is provided with circulating pump; Through hole 7 on described L-type fragmenting plate 12 is between screen pack 13 and the port of intake stack and rack ft connection.

In the technical program, extraneous Cryogenic air enters air intake passage under the effect of blower fan, then enters server rest area by multiple filtration net.After heat exchange is carried out in server rest area, form high temperature gas flow, then high temperature gas flow enters discharge tube.Above-mentioned high temperature gas flow carries out heat exchange with the water at low temperature in heat exchanger tube in row's wind-power pipeline, again low-temperature airflow is formed, then got back in air intake passage by through hole and mix with the Cryogenic air in the external world, finally under the effect of blower fan, again enter server rest area through multiple filtration net carries out heat exchange, thus reaches the object reducing server temperature.

Technique scheme only embodies the optimal technical scheme of technical solutions of the utility model; those skilled in the art all embody principle of the present utility model to some variations that wherein some part may be made, and belong within protection range of the present utility model.

Claims (7)

1. a large server heat exchange cabinet, comprise rack (1), it is characterized in that, dividing plate (2) is provided with in described rack, enclosure interior is divided into upper and lower two parts by described dividing plate, described upper space is server rest area (3), described lower space is radiating area (4), L-type fragmenting plate (12) is provided with in described radiating area, whole radiating area is divided into air intake passage (5) and air exhaust passage (6) two parts by described L-type fragmenting plate, described air intake passage and air exhaust passage are all communicated with server rest area, described intake stack also with rack ft connection, described L-type fragmenting plate is provided with the through hole (7) being communicated with air intake passage and air exhaust passage, blower fan (8) is provided with in described air intake passage, heat exchanger tube (9) is provided with in described air exhaust passage, the two ends port of described heat exchanger tube all stretches out rack and docks with the water tank be fixedly mounted on after rack (10), described outside cabinet is installed with controller, described blower fan and controller are electrically connected.

2. large server heat exchange cabinet according to claim 1, is characterized in that, be provided with temperature sensor (11) in described server rest area (3), described temperature sensor and controller are electrically connected.

3. large server heat exchange cabinet according to claim 1, is characterized in that, the outer surface of described L-type fragmenting plate (12) is enclosed with heat insulation foam layer.

4. large server heat exchange cabinet according to claim 1, is characterized in that, is provided with multiple filtration net (13) in described air intake passage (5), and described multiple filtration net is near the port of intake stack and rack ft connection.

5. large server heat exchange cabinet according to claim 1, is characterized in that, described heat exchanger tube (9) is positioned at the part undulate of rack.

6. large server heat exchange cabinet according to claim 1, is characterized in that, one end port that described heat exchanger tube (9) stretches out outside rack is provided with circulating pump.

7. large server heat exchange cabinet according to claim 1, is characterized in that, the through hole (7) on described L-type fragmenting plate (12) is positioned between screen pack (13) and the port of intake stack and rack ft connection.