CN204994117U - Base station room and rack thereof - Google Patents

Abstract

The utility model relates to an electronic equipment technical field provides a base station room and rack thereof, and the rack includes: the cabinet body, interval, the cold passageway of the internal formation holding of cabinet, the passage of heat, be located the holding interval and install in the frame of the cabinet body, install the functional module in the frame, still include: deep bead subassembly, deep bead subassembly set up internal and form the wind -guiding passageway of leading into the wind direction the required wind direction of functional module with the cooperation of functional module and the cabinet body in the cabinet. In the above -mentioned rack, the deep bead subassembly can form the wind -guiding passageway that satisfies functional module wind direction demand with functional module and the cooperation of the cabinet body, has improved the refrigeration efficiency of cold air to each functional module, the deep bead subassembly can also improve in each rack the isolation between the hot -air in the cold air in the cold passageway and the passage of heat, reduces hot -air in the passage of heat to cooling the influence of passageway cold air. Consequently, the utilization ratio of the cold air that produces refrigeration plant in the above -mentioned rack is higher, has improved the utilization ratio to the refrigeration plant energy consumption.

Description

A kind of base station machine room and rack thereof

Technical field

The utility model relates to technical field of electronic equipment, particularly a kind of base station machine room and rack thereof.

Background technology

Along with the quick update of the communication technology, the quantity steady-state growth of national mobile communication subscriber, data service becomes the core of each operator, has driven a large amount of communication apparatus demands.Meanwhile, country vigorously advocates communication enterprise and to build together Infrastructure platform, for wilderness demand has been with in the newly-built enlarging of later stage base station machine room.

At present, in rack on market, each interior of equipment cabinet forms the passage of heat and cold passage, functional module is arranged in the frame in rack between cold passage and the passage of heat, cold air in cold passage is blown in the passage of heat after the frame being provided with functional module, and then the heat that the functional module that frame is installed sends can be taken away, realize the refrigeration to functional module.

But, in rack, when functional module is arranged in frame, functional module not necessarily can take frame, and then cause between the cold passage in rack and the passage of heat penetrating, and then the isolation in the cold air reduced in cold passage and the passage of heat between hot-air, cause the hot-air in the passage of heat likely to return in cold passage; Further, the wind direction that the functional module in interior of equipment cabinet frame needs is not necessarily the direction being pointed to the passage of heat by cold passage, and in existing rack by the wind direction of rack section is all the direction being pointed to hot-flow flue by cold air duct, lower to the cooling effectiveness of functional module.

Therefore, lower to the utilance of refrigeration plant energy consumption in existing rack.

Utility model content

The utility model provides a kind of base station machine room and rack thereof, and the utilance of this rack to refrigeration plant energy consumption is higher.

For achieving the above object, the utility model provides following technical scheme:

A rack for base station machine room, comprising:

Cabinet, described cabinet comprises front door, Rear Door, top board, base plate and two side plates, is formed in described cabinet between disposal area, to be positioned between disposal area towards the cold passage of described front door side, to be positioned at the passage of heat towards described Rear Door side between disposal area;

To be positioned between described disposal area and to be installed on the frame of cabinet;

Be installed on the functional module in described frame; Also comprise:

Deep bead assembly, described deep bead assembly to be arranged in cabinet and to coordinate with functional module and cabinet the air-guiding aisle being formed and wind direction is led into wind direction needed for described functional module.

In above-mentioned rack, deep bead assembly can coordinate the air-guiding aisle forming content with funtion module wind direction demand with functional module and cabinet, improve the refrigerating efficiency of cold air to each functional module; And, deep bead assembly can also make region penetrating between cold passage and the passage of heat carry out shutoff to the gap etc. between functional module and side plate when functional module does not take between disposal area, improve the cold air in cold passage and the isolation between the hot-air in the passage of heat in each rack, hot-air in the passage of heat can be reduced on the impact of cold passage cold air.

Therefore, higher to the utilance of the cold air that refrigeration plant produces in above-mentioned rack, and then improve the utilance to refrigeration plant energy consumption.

Preferably, the functional module in described frame and form the first gap between a side plate and and form the second gap between another side plate, described deep bead assembly coordinates with described cabinet and functional module and forms described air-guiding aisle.

Preferably, when the wind direction needed for each described functional module is along the first gap towards the second gap, described deep bead assembly comprises:

For first baffle plate of shutoff first gap towards passage of heat one end;

For the second baffle of shutoff second gap towards cold passage end.

Preferably, when the wind direction needed for each described functional module is along cold passage towards the passage of heat, described deep bead assembly comprises:

For the third gear plate of shutoff first gap towards passage of heat one end;

For the fourth gear plate of shutoff first gap towards cold passage end;

For the fifth gear plate of shutoff second gap towards passage of heat one end;

For the sixth gear plate of shutoff second gap towards cold passage end.

Preferably, described third gear plate and fifth gear plate have integral structure, and/or described fourth gear plate and described fifth gear plate have integral structure.When third gear plate and second baffle have integral structure, the stability of the relative position relation between third gear plate and fifth gear plate is high; In like manner, when fourth gear plate and fifth gear plate have integral structure, between fourth gear plate and fifth gear plate, the stability of relative position relation is higher, and therefore, in the rack of said structure, the stability coordinated between each baffle plate is higher.

Preferably, also comprise refrigeration plant, the indoor module of described refrigeration plant is installed in described disposal area, the cold wind air outlet of described indoor module with described cold channel connection and hot blast return air inlet be communicated with the described passage of heat.Now, each rack is provided with independent refrigeration plant, and refrigeration plant only needs to freeze to the inner space of rack, and without the need to freezing to the inner space of whole base station machine room, and then the power output of refrigeration plant can be reduced, save the energy.

Preferably, described front door is provided with the emergent air intake vent being communicated with described cabinet external environment condition and described cold passage when opening, and described emergent air intake vent place is provided with air inlet fan group; Described Rear Door is provided with the emergent exhaust outlet being communicated with described cabinet external environment condition and the described passage of heat when opening, and described emergent exhaust outlet place is provided with emergent air ejector fan group.The setting of emergent air intake vent and emergent exhaust outlet in above-mentioned rack, can the cool equipment of rack break down or the internal temperature of rack more than a threshold value time, hot-air in rack can be got rid of in time outside to rack by opening emergent air intake vent and air inlet fan group, emergent exhaust outlet and emergent air ejector fan group, improving rack total system reliability of operation.

Preferably, also comprise be arranged at least one demarcation strip in described cabinet with by compartition in described cabinet for pointing to the subinterval of base plate direction arrangement along described top board, have between cold passage, disposal area in subinterval described in each and the passage of heat, and be interconnected between the cold passage in each described subinterval, be interconnected between the passage of heat; And described front door by with described subinterval one to one cervical orifice of uterus plate form, cervical orifice of uterus plate described in each is used for the subinterval of its correspondence of opening and closing.The inner space of rack is divided into two or more subinterval by the mode increasing demarcation strip in rack by above-mentioned rack, and cervical orifice of uterus plate corresponding to each subinterval can control separately the opening and closing in this subinterval, the physical isolation that different locksets can meet different operators equipment is configured, misoperation when avoiding on-site maintenance on each cervical orifice of uterus plate.The design of above-mentioned rack can meet the need for independence of each communication common carrier under the prerequisite not separately for each self-configuring of each communication common carrier independently rack, the occupation of land demand caused because configuring alone rack can being reduced on the one hand, can utilize fully the inner space of rack simultaneously.

Preferably, in two side plates of described cabinet, described in each, side plate comprises:

Body, described body is provided with the first ventilation window for the position surrounding described cold passage, and described body is provided with the second ventilation window for the position surrounding the described passage of heat;

Be removably installed in the first cover plate and second cover plate of described body, close described first ventilation window when described first cover plate is installed on described body, close described second ventilation window when described second cover plate is installed on described body.When two above-mentioned racks are carried out also cabinet splicing by needs, only each rack need be got off towards the first cover plate on the side plate of another rack and the second detachable cover plate and two racks are spliced, after splicing, the cold passage of two racks is directly communicated with, and be directly communicated with between the passage of heat of two racks, convenient and swift.

The utility model additionally provides a kind of base station machine room, and this base station machine room comprises at least one rack, wherein, and described rack any one rack for providing in technique scheme.

Preferably, described base station machine room comprises multiple rack, and when each side plate of described rack cabinet is provided with the first ventilation window and the second ventilation window and also comprises refrigeration plant, each described rack splices mutually, and in two often adjacent racks, the passage of heat of a rack is communicated with the passage of heat of another rack, and the cold channel connection of the cold passage of a rack and another rack.

Preferably, described base station machine room also comprises:

The cabinet internal temperature information of each described rack of Real-Time Monitoring and the monitoring module of refrigeration plant running state information;

The refrigeration control platform be connected with described monitoring module and each refrigeration plant signal, for regulating refrigerating capacity and the discharge quantity of fan of each refrigeration plant according to the cabinet internal temperature information of each rack and the running state information of refrigeration plant.

Monitoring module can be monitored in real time to the running status of temperature information and refrigeration plant in each rack, and the temperature information monitored and refrigeration plant running state information are transferred to refrigeration control platform, refrigeration control platform can control the refrigeration plant coordinative operation in each rack, the refrigeration plant in each rack is made to provide the cold wind of lasting air quantity and stable temperature to control for whole system, can export according to real-time running state dynamic adjustments refrigerating capacity and air quantity simultaneously, meet energy saving of system requirement, the PUE of overall base station machine room can be reduced to about 1.5, expenditure is runed in a large number for operator saves.

Accompanying drawing explanation

Structural representation in the base station machine room that Fig. 1 provides for the utility model embodiment during multiple rack splicing;

A kind of structural representation of the rack that Fig. 2 provides for a kind of embodiment of the utility model;

The structural representation of the rack that Fig. 3 provides for the another kind of embodiment of the utility model;

Fig. 4 has the structural representation of the rack of ventilation window for side plate that a kind of embodiment of the utility model provides.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Please refer to Fig. 1, the utility model embodiment provides a kind of base station machine room and rack thereof, multiple rack is provided with in this base station machine room, rack 1 as shown in Figure 1, rack 2 and rack 3, in each rack, between cold passage and the passage of heat, isolation effect is better, further, can meet the functional module cooling air installed in disposal area to demand, and then the utilance to refrigeration plant energy consumption can be improved.

In a kind of preferred embodiment, for rack 1, as Figure 1-Figure 4, above-mentioned rack 1 comprises:

Cabinet, cabinet comprises front door 101, Rear Door 102, top board 105, base plate 104 and two side plates 103, as shown in Figure 4; As shown in Figure 1, to form between disposal area 11 in cabinet, to be positioned between disposal area 11 towards front door 101 side cold passage 13, to be positioned between disposal area 11 towards the passage of heat 12 of Rear Door 102 side;

To be positioned between disposal area 11 and to be installed on the frame 106 of cabinet;

Be installed on the functional module in frame 106; Also comprise:

Deep bead assembly, deep bead assembly to be arranged in cabinet and to coordinate with functional module and cabinet the air-guiding aisle being formed and wind direction is led into wind direction needed for functional module.

Specifically as shown in Figure 1, the first gap 111 is formed as the functional module in rack 1 and between a side plate 103, and and form the second gap 112 between another side plate 103, and the wind direction that in Fig. 1, in rack 1, functional module needs is for point to the second gap 112 by the first gap 111, then deep bead assembly can comprise for first baffle plate 14 of shutoff first gap 111 towards the passage of heat 12 one end, with for the second baffle 15 of shutoff second gap 112 towards cold passage 13 one end, and then the air-guiding aisle of content with funtion module heat dissipating wind direction can be formed in rack 1, the air-guiding aisle in direction as shown in dotted arrow in rack 1.

In like manner, in rack 2, the wind direction that the functional module prevented in 21 between disposal area needs points to the passage of heat 22 for its cold passage 23, then, if the functional module in rack 2 and when forming the first gap and the second gap between two side plates of rack 2, then above-mentioned deep bead assembly then needs the two ends in the two ends in the first gap and the second gap to carry out shutoff, then, above-mentioned deep bead assembly comprises:

For the third gear plate of shutoff first gap towards passage of heat one end;

For the fourth gear plate of shutoff first gap towards cold passage end;

For the fifth gear plate of shutoff second gap towards passage of heat one end;

For the sixth gear plate of shutoff second gap towards cold passage end.

Certainly, in order to improve the stability coordinated between each baffle plate, preferably, third gear plate and fifth gear plate have integral structure, and/or fourth gear plate and sixth gear plate have integral structure.

When needing third gear plate and fifth gear plate to be designed to integral structure, third gear plate can be a frame of a frame-type structure, and fifth gear plate is another frame of this frame-type structure.

In like manner, when needing fourth gear plate and sixth gear plate to be designed to integral structure, fourth gear plate can be a frame of a frame-type structure, and sixth gear plate is another frame of this frame-type structure.

Certainly, rack 3 as shown in Figure 1, functional module between its disposal area in 31 and an one side plate form the first gap 311, and functional module and another each side plate form the second gap 312, the wind direction that in rack 3, function module heat dissipating needs is towards the first gap 311 by the second gap 312, deep bead assembly then in rack 3 comprises for shutoff first gap towards the baffle plate 35 of cold passage 33 one end with for the baffle plate 34 of shutoff second gap 312 towards the passage of heat 32 one end, and then forms the air-guiding aisle in direction as shown in dotted arrow in rack 3 in rack 3.

Therefore, in the above-mentioned rack that the utility model embodiment provides, deep bead assembly can coordinate the air-guiding aisle forming content with funtion module wind direction demand with functional module and cabinet, improve the refrigerating efficiency of cold air to each functional module; And, deep bead assembly can also between the disposal area that functional module does not take rack time make region penetrating between cold passage and the passage of heat carry out shutoff to the gap etc. between functional module and side plate, improve the cold air in cold passage and the isolation between the hot-air in the passage of heat in each rack, hot-air in the passage of heat can be reduced on the impact of cold passage cold air.

Therefore, higher to the utilance of the cold air that refrigeration plant produces in above-mentioned rack, and then improve the utilance to refrigeration plant energy consumption.

As shown in Figure 3, in a kind of preferred implementation, above-mentioned rack also comprises refrigeration plant, and the indoor module 113 of refrigeration plant to be installed between disposal area in 11, and the cold wind air outlet of indoor module 113 is communicated with cold passage 13 and hot blast return air inlet is communicated with the passage of heat 12.Now, each rack is provided with independent refrigeration plant, and refrigeration plant only needs to freeze to the inner space of rack, and without the need to freezing to the inner space of whole base station machine room, and then the power output of refrigeration plant can be reduced, save the energy.

On the basis of above-mentioned execution mode, in a kind of preferred implementation, as shown in Figure 3, continue for rack 1, the front door 101 of cabinet is provided with the emergent air intake vent being communicated with cabinet external environment condition and cold passage 13 when opening, and emergent air intake vent place is provided with air inlet fan group 131; Rear Door 102 is provided with the emergent exhaust outlet being communicated with cabinet external environment condition and the passage of heat 12 when opening, and emergent exhaust outlet place is provided with emergent air ejector fan group 121.

The setting of emergent air intake vent and emergent exhaust outlet in above-mentioned rack 1, can the cool equipment of rack 1 break down or the internal temperature of rack 1 more than a threshold value time, hot-air in rack 1 can be got rid of in time outside to rack 1 by opening emergent air intake vent and air inlet fan group 131, emergent exhaust outlet and emergent air ejector fan group 121, improve rack 1 total system reliability of operation.

In like manner, rack 2 and rack 3 can be provided with the structures such as emergent air inlet, emergent exhaust outlet, air inlet fan group, emergent air ejector fan group equally.

In a kind of preferred implementation, as shown in Figures 2 and 3, preferably, also comprise be arranged at least one demarcation strip 18 in cabinet with by compartition in cabinet for pointing to the subinterval of base plate direction arrangement along top board, have between cold passage, disposal area in each subinterval and the passage of heat, and be interconnected between the cold passage in each subinterval, be interconnected between the passage of heat; And front door 101 by with subinterval one to one cervical orifice of uterus plate 1011 form, each cervical orifice of uterus plate 1011 is for the subinterval of its correspondence of opening and closing.

Further, preferably, each Rear Door 102 also by with subinterval one to one cervical orifice of uterus plate 1021 form.

In above-mentioned rack 1, by the mode increasing demarcation strip 18 in rack, the inner space of rack is divided into two or more subinterval, simultaneously rack front door 101 by with subinterval one to one cervical orifice of uterus plate 1011 form, and Rear Door by with subinterval one to one cervical orifice of uterus plate 1021 form, the physical isolation that different locksets can meet different operators equipment is configured, misoperation when avoiding on-site maintenance on each cervical orifice of uterus plate 1011 and cervical orifice of uterus plate 1021.Therefore, the design of above-mentioned rack 1 can meet the need for independence of each communication common carrier under the prerequisite not separately for each self-configuring of each communication common carrier independently rack, the occupation of land demand caused because configuring alone rack can being reduced on the one hand, can utilize fully the inner space of rack simultaneously.

In a kind of preferred implementation, in order to enable to be communicated with between the cold passage of each rack easily when also cabinet splices between each rack, the passage of heat of each rack is communicated with simultaneously, for rack 1, as shown in Figure 4, in two side plates 103 of cabinet, each side plate 103 comprises:

Body 1031, body 1031 is provided with the first ventilation window 1034 for the position surrounding cold passage 13, and body 1031 is provided with the second ventilation window 1035 for the position surrounding the passage of heat 12;

Be removably installed in the first cover plate 1032 and the second cover plate 1033 of body 1031, close the first ventilation window 1034 when the first cover plate 1032 is installed on body 1031, close the second ventilation window 1035 when the second cover plate 1033 is installed on body 1031.

When rack 1 and rack 2 carry out by needs and cabinet splices, rack 1 is disassembled towards the first cover plate 1032 on the side plate of rack 2 and the second cover plate 1033, and rack 2 is got off towards the first cover plate on the side plate of rack 1 and the second detachable cover plate, like this, by rack 1 and rack 2 and after cabinet splicing, the cold passage 13 of rack 1 is directly communicated with the cold passage 13 of rack 2, and is directly communicated with between the passage of heat 12 of rack 1 and the passage of heat 22 of rack 2, convenient and swift.

In addition, the utility model embodiment still provides a kind of base station machine room, and this base station machine room comprises at least one rack, wherein, and above-mentioned rack any one rack for providing in the respective embodiments described above.

In a kind of preferred implementation, base station machine room comprises multiple rack, and when each side plate of rack cabinet is provided with the first ventilation window and the second ventilation window and each rack also comprises refrigeration plant, also cabinet splicing between each rack, and in two often adjacent racks, the passage of heat of a rack is communicated with the passage of heat of another rack, and the cold channel connection of the cold passage of a rack and another rack.

Like this, in base station machine room, each rack carries out and cold passage after cabinet splicing and the passage of heat are driven by the refrigeration plant arranged in each rack simultaneously, when the refrigeration plant of one of them rack breaks down, can can be met the air quantity of demand when all racks freeze by the power output of the refrigeration plant improving other racks, improve the stability of refrigerating system work in base station machine room further.

Certainly, above-mentioned base station machine room can also comprise:

The cabinet internal temperature information of each rack of Real-Time Monitoring and the monitoring module of refrigeration plant running state information;

The refrigeration control platform be connected with monitoring module and each refrigeration plant signal, for regulating refrigerating capacity and the discharge quantity of fan of each refrigeration plant according to the cabinet internal temperature information of each rack and the running state information of refrigeration plant.

Monitoring module can be monitored in real time to the running status of temperature information and refrigeration plant in each rack, and the temperature information monitored and refrigeration plant running state information are transferred to refrigeration control platform, refrigeration control platform can control the refrigeration plant coordinative operation in each rack, the refrigeration plant in each rack is made to provide the cold wind of lasting air quantity and stable temperature to control for whole system, can export according to real-time running state dynamic adjustments refrigerating capacity and air quantity simultaneously, meet energy saving of system requirement, the PUE of overall base station machine room can be reduced to about 1.5, expenditure is runed in a large number for operator saves.

Obviously, those skilled in the art can carry out various change and modification to the utility model embodiment and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (12)

1. a rack for base station machine room, comprising:

Cabinet, described cabinet comprises front door, Rear Door, top board, base plate and two side plates, is formed in described cabinet between disposal area, to be positioned between disposal area towards the cold passage of described front door side, to be positioned at the passage of heat towards described Rear Door side between disposal area;

To be positioned between described disposal area and to be installed on the frame of cabinet;

Be installed on the functional module in described frame; It is characterized in that, also comprise:

Deep bead assembly, described deep bead assembly to be arranged in cabinet and to coordinate with functional module and cabinet the air-guiding aisle being formed and wind direction is led into wind direction needed for described functional module.

2. rack according to claim 1, it is characterized in that, functional module in described frame and form the first gap between a side plate and and form the second gap between another side plate, described deep bead assembly coordinates with described cabinet and functional module and forms described air-guiding aisle.

3. rack according to claim 2, is characterized in that, when the wind direction needed for each described functional module is along the first gap towards the second gap, described deep bead assembly comprises:

For first baffle plate of shutoff first gap towards passage of heat one end;

For the second baffle of shutoff second gap towards cold passage end.

4. rack according to claim 2, is characterized in that, when the wind direction needed for each described functional module is along cold passage towards the passage of heat, described deep bead assembly comprises:

For the third gear plate of shutoff first gap towards passage of heat one end;

For the fourth gear plate of shutoff first gap towards cold passage end;

For the fifth gear plate of shutoff second gap towards passage of heat one end;

For the sixth gear plate of shutoff second gap towards cold passage end.

5. rack according to claim 4, is characterized in that, described third gear plate and fifth gear plate have integral structure, and/or described fourth gear plate and described sixth gear plate have integral structure.

6. rack according to claim 1, it is characterized in that, also comprise refrigeration plant, the indoor module of described refrigeration plant is installed in described disposal area, the cold wind air outlet of described indoor module with described cold channel connection and hot blast return air inlet be communicated with the described passage of heat.

7. rack according to claim 6, is characterized in that, described front door is provided with the emergent air intake vent being communicated with described cabinet external environment condition and described cold passage when opening, and described emergent air intake vent place is provided with air inlet fan group; Described Rear Door is provided with the emergent exhaust outlet being communicated with described cabinet external environment condition and the described passage of heat when opening, and described emergent exhaust outlet place is provided with emergent air ejector fan group.

8. the rack according to any one of claim 1-7, it is characterized in that, also comprise be arranged at least one demarcation strip in described cabinet with by compartition in described cabinet for pointing to the subinterval of base plate direction arrangement along described top board, have between cold passage, disposal area in subinterval described in each and the passage of heat, and be interconnected between the cold passage in each described subinterval, be interconnected between the passage of heat; And described front door by with described subinterval one to one cervical orifice of uterus plate form, cervical orifice of uterus plate described in each is used for the subinterval of its correspondence of opening and closing.

9. the rack according to any one of claim 1-7, is characterized in that, in two side plates of described cabinet, described in each, side plate comprises:

Body, described body is provided with the first ventilation window for the position surrounding described cold passage, and described body is provided with the second ventilation window for the position surrounding the described passage of heat;

Be removably installed in the first cover plate and second cover plate of described body, close described first ventilation window when described first cover plate is installed on described body, close described second ventilation window when described second cover plate is installed on described body.

10. a base station machine room, comprises at least one rack, it is characterized in that, described rack is the rack as described in any one of claim 1-9.

11. base station machine rooms according to claim 10, it is characterized in that, described base station machine room comprises multiple rack, and when each side plate of described rack cabinet is provided with the first ventilation window and the second ventilation window and also comprises refrigeration plant, each described rack splices mutually, and in two often adjacent racks, the passage of heat of a rack is communicated with the passage of heat of another rack, and the cold channel connection of the cold passage of a rack and another rack.

12. base station machine rooms according to claim 11, is characterized in that, described base station machine room also comprises:

The cabinet internal temperature information of each described rack of Real-Time Monitoring and the monitoring module of refrigeration plant running state information;

The refrigeration control platform be connected with described monitoring module and each refrigeration plant signal, for regulating refrigerating capacity and the discharge quantity of fan of each refrigeration plant according to the cabinet internal temperature information of each rack and the running state information of refrigeration plant.