CN214665008U - IDC machine room hot air temperature regulating system - Google Patents

Abstract

The utility model discloses a hot-blast temperature regulation system of IDC computer lab aims at providing the hot-blast temperature regulation system of IDC computer lab of the temperature of a steerable air. The novel air conditioner comprises a machine room, a fresh air unit, a power supply and a controller, wherein a first air pipe and a second air pipe are installed on the fresh air unit, the machine room and the fresh air unit are communicated with the two ends of the first air pipe respectively, the machine room and the fresh air unit are communicated with the two ends of the second air pipe respectively, fans are installed in the first air pipe and the second air pipe respectively, a cooler is arranged in the fresh air unit, and the fans are electrically connected with the power supply through the controller. The utility model has the advantages that: the purpose of controlling the temperature of the air can be achieved; the effect of automatic circulation of air can be achieved; the air in the air can be supplemented in time; has the effect of viewing the condition of the internal components.

Description

IDC machine room hot air temperature regulating system

Technical Field

The utility model belongs to the technical field of the temperature regulation technique and specifically relates to indicate a hot-blast temperature control system of IDC computer lab.

Background

With the development of internet and information technology, the data volume and processing capacity of data centers are continuously increasing, and as to how to ensure the safe and stable operation of network devices and servers, the data centers take various effective measures, such as: static electricity prevention, temperature and humidity control of a machine room, lightning protection, power failure prevention and the like, but the influence of positive pressure in the machine room is ignored or not paid attention to by many people; and because the computer lab is in under the negative pressure environment, can make the interior unclean air of external unpurified treatment inhale the computer lab through airtight untight window, door crack in, cause the interior dust cleanliness factor of computer lab seriously to exceed standard, can influence network equipment's life-span, cause the trouble moreover easily, so more and more data center has adopted fresh air handling unit to maintain the malleation in the computer lab.

A fresh air unit is mostly adopted in a large IDC machine room to maintain positive pressure, purify air and remove dust in the machine room, and an external air cold source is utilized to realize certain energy-saving and emission-reducing effects. Since the temperature of the heat path in the machine room is high, if air is excessively cooled and enters the machine room, dew condensation may occur, and in order to prevent this, it is also necessary to perform a certain temperature control function by electric heating. In order to maintain positive pressure of a machine room, most IDC machine rooms adopt a fresh air handling unit, but the problems in the aspect of temperature and humidity control are often ignored, the temperature and humidity control function is lacked, or the temperature control is realized by adopting electric heating, so that more energy consumption is increased.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome the problem in the aspect of neglected temperature control among the prior art, lack the not enough of temperature control function, provide the hot-blast temperature regulation system of IDC computer lab of the temperature of a steerable air.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a hot-blast temperature regulation system of IDC computer lab, includes computer lab, new fan unit, power and controller, install tuber pipe one and tuber pipe two on the new fan unit, computer lab and new fan unit communicate with the both ends of tuber pipe one respectively, computer lab and new fan unit communicate with the both ends of tuber pipe two respectively, all install the fan in tuber pipe one and the tuber pipe two, be equipped with the cooler in the new fan unit, the fan passes through the controller and is connected with the power electricity.

The fan of installation can use the electric resource in the power of electricity connection to begin gaseous compression and carry work in the tuber pipe one interior and tuber pipe two, so the tuber pipe one interior and the interior gas of tuber pipe two just have the circulation effect, and computer lab and new fan all with tuber pipe one, the both ends of tuber pipe two communicate, like this alright get back in order to let gas at the circulation effect of tuber pipe one and tuber pipe two in computer lab and new fan unit, be equipped with the cooler in the new fan unit, under the cooling effect of cooler, the gas alright received the influence lowering temperature of the circulation of returning. Thus, the purpose of controlling the temperature of the air is achieved.

Preferably, the air conditioner further comprises an air shaft, the air shaft is arranged between the machine room and the fresh air unit, a first temperature sensor is installed in the air shaft, an air valve is installed on the first air pipe, the first temperature sensor is electrically connected with the air valve through a controller, one end of the first air pipe is communicated with the machine room, and the other end of the first air pipe penetrates through the air shaft and is communicated with the fresh air unit. The temperature sensor arranged in the air shaft can sense the temperature in the air shaft, when the temperature does not meet the requirement, the electrically connected controller opens the air valve on the air pipe I, so that the gas in the machine room communicated with one end of the air pipe I can be circulated into the fresh air unit through the air pipe I, of course, the other end of the air pipe I is communicated with the fresh air unit,

preferably, a second temperature sensor is installed in the fresh air handling unit and electrically connected with a fan in the second air pipe through a controller. The temperature sensor two of installing in the new fan unit can be experienced the temperature in the new fan unit like this, if the temperature is not conform to the requirement, the controller of electricity connection can let the fan in the tuber pipe two begin to work, and under the work of fan, the air in the new fan unit just can circulate.

Preferably, the fresh air handling unit is provided with a box door, the box door is provided with a door shaft, a hinge, a handle and a sealing layer, the box door is connected with the fresh air handling unit through the door shaft matched with the hinge, the handle is arranged on the outer side wall of the box door, and the sealing layer is sleeved on the outer edge of the box door. The design like this through the handle on the lateral wall of manual control chamber door alright use the door-hinge cooperation hinge to open with letting the chamber door, when closing the chamber door of course, the sealing layer suit on the outward flange of chamber door just has fine airtight effect, reduces the probability of the outside circulation of the air in the fresh air handling unit.

Preferably, protective layers are arranged in the first air pipe and the second air pipe, and the first air pipe and the second air pipe are sleeved on the outer side wall of each protective layer. The design can avoid the damage of the first air pipe and the second air pipe caused by the temperature influence of the ventilation body through the protective layer sleeved in the first air pipe and the second air pipe.

Preferably, an exhaust pipe is installed on the first air pipe and is arranged in the air well, the exhaust pipe is communicated with the first air pipe, a fan is installed in the exhaust pipe, the fan is arranged between the first temperature sensor and the first air pipe, and the fan in the exhaust pipe is electrically connected with a power supply through a controller. The design can let the interior fan of the exhaust tube of electricity connection use the electric resource in the power and begin work through the control of controller like this, and under the operating condition of fan, the gas outside the exhaust tube just can be taken into the exhaust tube, and the exhaust tube is with tuber pipe one intercommunication, and the gas in the exhaust tube just also can enter into tuber pipe one.

The utility model has the advantages that: the purpose of controlling the temperature of the air can be achieved; the effect of automatic circulation of air can be achieved; the air in the air can be supplemented in time; has the effect of viewing the condition of the internal components.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a first air duct of the present invention;

FIG. 3 is a schematic structural view of the air exhaust tube of the present invention;

fig. 4 is a schematic structural diagram of the door of the present invention.

In the figure: 1. computer lab, 2, air shaft, 3, fresh air unit, 4, tuber pipe one, 5, blast gate, 6, fan, 7, controller, 8, temperature sensor one, 9, tuber pipe two, 10, temperature sensor two, 11, power, 12, cooler, 13, protective layer, 14, exhaust tube, 15, chamber door.

Detailed Description

The following description of the present invention will be made with reference to the accompanying drawings.

In the embodiment shown in fig. 1, an IDC machine room hot air temperature adjusting system comprises a machine room 1, a fresh air unit 3, a power supply 11 and a controller 7, wherein a first air pipe 4 and a second air pipe 9 are installed on the fresh air unit 3, the machine room 1 and the fresh air unit 3 are respectively communicated with two ends of the first air pipe 4, the machine room 1 and the fresh air unit 3 are respectively communicated with two ends of the second air pipe 9, fans 6 are installed in the first air pipe 4 and the second air pipe 9, a cooler 12 is arranged in the fresh air unit 3, and the fans 6 are electrically connected with the power supply 11 through the controller 7. Still include air shaft 2, air shaft 2 arranges in between computer lab 1 and the fresh air unit 3, installs temperature sensor 8 in air shaft 2, installs blast gate 5 on the tuber pipe 4, and temperature sensor 8 is connected with blast gate 5 electricity through controller 7, and 4 one ends of tuber pipe communicate with computer lab 1, and 4 other ends of tuber pipe pass air shaft 2 and fresh air unit 3 intercommunication.

As shown in fig. 2, a second temperature sensor 10 is installed in the fresh air handling unit 3, and the second temperature sensor 10 is electrically connected with the fan 6 in the second air duct 9 through the controller 7.

As shown in fig. 4, the fresh air handling unit 3 is provided with a door 15, the door 15 is provided with a door shaft, a hinge, a handle and a sealing layer, the door 15 is connected with the fresh air handling unit 3 through the hinge matched with the door shaft, the handle is arranged on the outer side wall of the door, and the sealing layer is sleeved on the outer edge of the door 15.

As shown in fig. 3, protective layers 13 are respectively arranged in the first air duct 4 and the second air duct 9, and the first air duct 4 and the second air duct 9 are both sleeved on the outer side walls of the protective layers 13. An air exhaust pipe 14 is installed on the first air pipe 4, the air exhaust pipe 14 is arranged in the air shaft 2, the air exhaust pipe 14 is communicated with the first air pipe 4, a fan 6 is installed in the air exhaust pipe 14, the fan 6 is arranged between the first temperature sensor 8 and the first air pipe 4, and the fan 6 in the air exhaust pipe 14 is electrically connected with a power supply 11 through a controller 7.

At first look over the sealed effect of computer lab 1 and fresh air unit 3, it is outside leakage to avoid the circulation of air in computer lab 1 and the fresh air unit 3 each other, what need pay attention to here is that install chamber door 15 on the fresh air unit 3, this chamber door 15 is connected with fresh air unit 3 through the cooperation of door-hinge and hinge, and then be the suit sealing layer on the outward flange of chamber door 15, only sealing layer chamber door 15 has guaranteed the sealed effect when closing, just can avoid outwards leaking the air in the fresh air unit 3 from chamber door 15, the sealing layer selectable rubber here, not only airtight can not have an influence to closing of chamber door 15. Meanwhile, the controller 7 is electrically connected with a single chip microcomputer which has a temperature range required by the machine room 1.

Then the first air pipe 4 is communicated with the machine room 1, at the moment, a first temperature sensor 8 arranged in the air shaft 2 detects the temperature of the inlet position of the air shaft 2, when the temperature value is not in the temperature range of the singlechip in the controller 7, the temperature sensor 8 transmits the information to the controller 7 which is electrically connected, the controller 7 opens the air valve 5, after the opening work of the air valve 5 is completed, the controller 7 sends information to the fan 6 in the first air pipe 4, so that the fan 6 starts to operate to convey air in the machine room 1, the other end of the first air pipe 4 passes through the air shaft 2 and is communicated with the fresh air unit 3, the air enters the fresh air unit 3 along the trend, the fresh air handling unit 3 is internally provided with the cooler 12, the entering air can be cooled, the cooler 12 can select a basin filled with chilled water, and the fresh air handling unit is good in freezing effect, energy-saving and safe.

In the change process of the temperature in the fresh air unit 3, the second temperature sensor 10 installed in the fresh air unit 3 detects the temperature constantly, the second temperature sensor 10 is electrically connected with the fan 6 in the second air pipe 9 through the controller 7, and in the change of the temperature value of the second temperature sensor 10, the controller 7 performs frequency conversion work on the fan 6 along with the temperature of the second temperature sensor 10, so that the temperature is controlled. In the process, if the temperature sensor I8 detects that the temperature value reaches the stop temperature of the fan 6, the fan 6 enables the air valve 5 to be adjusted to the closed state, and therefore the temperature of the external air and the chilled water in the fresh air handling unit 3 is controlled to work.

Claims (6)

1. The utility model provides a hot-blast temperature regulation system of IDC computer lab, characterized by, includes computer lab (1), new fan unit (3), power (11) and controller (7), install tuber pipe (4) and tuber pipe two (9) on new fan unit (3), computer lab (1) and new fan unit (3) communicate with the both ends of tuber pipe (4) respectively, computer lab (1) and new fan unit (3) communicate with the both ends of tuber pipe two (9) respectively, all install fan (6) in tuber pipe one (4) and tuber pipe two (9), be equipped with desuperheater (12) in new fan unit (3), fan (6) are connected with power (11) electricity through controller (7).

2. The IDC machine room hot air temperature adjusting system according to claim 1, characterized by further comprising an air shaft (2), wherein the air shaft (2) is arranged between the machine room (1) and the fresh air unit (3), a first temperature sensor (8) is installed in the air shaft (2), an air valve (5) is installed on the first air pipe (4), the first temperature sensor (8) is electrically connected with the air valve (5) through a controller (7), one end of the first air pipe (4) is communicated with the machine room (1), and the other end of the first air pipe (4) penetrates through the air shaft (2) and is communicated with the fresh air unit (3).

3. The IDC machine room hot air temperature adjusting system according to claim 2, characterized in that a second temperature sensor (10) is installed in the fresh air handling unit (3), and the second temperature sensor (10) is electrically connected with the fan (6) in the second air duct (9) through a controller (7).

4. The IDC machine room hot air temperature regulating system according to claim 3, characterized in that the fresh air handling unit (3) is provided with a door (15), the door (15) is provided with a door shaft, a hinge, a handle and a sealing layer, the door (15) is connected with the fresh air handling unit (3) through the door shaft matching with the hinge, the handle is arranged on the outer side wall of the door, and the sealing layer is sleeved on the outer edge of the door (15).

5. The IDC machine room hot air temperature regulating system according to claim 3, characterized in that a protective layer (13) is arranged in each of the first air pipe (4) and the second air pipe (9), and the first air pipe (4) and the second air pipe (9) are sleeved on the outer side wall of the protective layer (13).

6. The IDC machine room hot air temperature adjusting system according to claim 5, characterized in that the air pipe I (4) is provided with an air exhaust pipe (14), the air exhaust pipe (14) is arranged in the air shaft (2), the air exhaust pipe (14) is communicated with the air pipe I (4), the air exhaust pipe (14) is internally provided with a fan (6), the fan (6) is arranged between the temperature sensor I (8) and the air pipe I (4), and the fan (6) in the air exhaust pipe (14) is electrically connected with the power supply (11) through a controller (7).

Images