CN211607219U - Outdoor integrated intelligent machine room for 5G base station - Google Patents

Abstract

The utility model discloses an outdoor integrated intelligent machine room for a 5G base station, which comprises a room body, wherein the inside of the room body is divided into an outer machine cabin and an inner machine cabin through an inner cabin and an outer cabin partition plate, an air conditioner outer machine is arranged in the outer machine cabin, and an outer machine heat dissipation opening is arranged on the wall of the outer machine cabin; an equipment installation cabinet is arranged in the middle of the inner machine cabin, a cold air cabin and a hot air cabin are arranged in the inner machine cabin, and base station equipment capable of separating the cold air cabin and the hot air cabin is arranged on the equipment installation cabinet; the base station equipment comprises an air conditioner internal unit and a plurality of BBU equipment which are arranged in sequence, a hot air channel and a cold air channel are respectively arranged on the air outlet side and the air inlet side of a fan of the BBU equipment on the equipment installation cabinet, a heat resisting baffle is arranged at one end, close to the cold air bin, of the hot air channel on the equipment installation cabinet, and a cold resisting baffle is arranged at one end, close to the hot air bin, of the cold air channel on the cold air channel. The utility model discloses the cooling radiating effect is good, and the security is high. The structure is compact and reasonable, more base station equipment can be arranged, and the capacity expansion is convenient.

Description

Outdoor integrated intelligent machine room for 5G base station

Technical Field

The utility model relates to a communication base station technical field especially relates to a 5G is outdoor integration intelligence computer lab for basic station.

Background

With the continuous development and deployment planning of 5G services of each operator, especially the rapid increase of 4G data traffic, telecommunication operators build a large number of new base stations. In order to meet the requirements of cost reduction, efficiency improvement, energy conservation, emission reduction and network evolution of a mobile network, a baseband unit grid based on distributed BBU + RRU equipment is centrally deployed and is gradually becoming the mainstream form of a mobile network base station. The centralized deployment of the BBU (indoor baseband processing unit) can improve the resource utilization rate, facilitate centralized maintenance and capacity expansion, save rent of iron tower companies, reduce investment of transmission equipment and improve reliability and stability of stations. Therefore, in 4G construction, the assembled MINI machine room is widely used.

In these assembly type MINI machine rooms, because of the influence of machine room structure arrangement and the like, most of the cooling and heat dissipation methods of the common comfortable air conditioner for refrigerating the whole closed space are adopted, and the common comfortable air conditioner has the defects of small air volume, low temperature regulation capacity, poor air filtration capacity, low safety and the like. In the 5G era, RRUs (radio remote units) and antenna feeders "merge" to become AAUs (active antenna units) which are connected to BBUs (baseband processing units) through optical fibers, so that the overall power consumption is greatly increased, and the devices are highly concentrated and exhibit the characteristic of high heat density. The assembled MINI machine room mode in 4G construction has not met the requirements of 5G base station construction in the aspects of heat dissipation, safety and the like. Therefore, a novel machine room with a compact and reasonable structure, a good heat dissipation effect and high safety needs to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a 5G basic station is with outdoor integration intelligence computer lab that compact structure is reasonable, the radiating effect is good, the security is high and make things convenient for the dilatation is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: the outdoor integrated intelligent machine room for the 5G base station comprises a room body, wherein the room body is divided into an outer machine room and an inner machine room through an inner room partition plate and an outer room partition plate, an air conditioner outer machine is installed in the outer machine room, and an outer machine heat dissipation opening is formed in the wall of the outer machine room; an equipment installation cabinet is arranged in the middle of the inner machine cabin, a cold air cabin and a hot air cabin are respectively arranged on two sides of the equipment installation cabinet in the inner machine cabin, and base station equipment capable of separating the cold air cabin from the hot air cabin is arranged on the equipment installation cabinet; the base station equipment comprises an air conditioner internal unit and a plurality of BBU equipment which are sequentially arranged, wherein the air conditioner internal unit is connected with the air conditioner external unit, a cold air outlet of the air conditioner internal unit is connected with the cold air bin, and a hot air inlet of the air conditioner internal unit is connected with the hot air bin; the device mounting cabinet is provided with a hot air channel and a cold air channel, wherein the hot air channel and the cold air channel are respectively arranged on the fan air outlet side and the fan air inlet side of the BBU device, the device mounting cabinet is provided with a heat resisting baffle plate, the hot air channel is close to one end of the cold air bin, and the cold air channel is close to one end of the hot air bin.

As a preferred technical scheme, an air guide assembly is arranged between a cold air outlet of the air conditioner indoor unit and the cold air channel on the equipment installation cabinet.

As an optimized technical scheme, an equipment reserved space is further arranged on the equipment installation cabinet, and a flow blocking partition plate is arranged at the position, located in the equipment reserved space, of the equipment installation cabinet.

As a preferred technical scheme, a plurality of BBU equipment are vertically arranged, the hot air channel is positioned on the upper side of the BBU equipment, and the cold air channel is positioned on the lower side of the BBU equipment.

As a preferred technical scheme, a plurality of BBU equipment are transversely arranged.

As a preferred technical scheme, a hot air channel sealing baffle is arranged at one end, close to the hot air cabin, of the hot air channel on the equipment installation cabinet, and a hot air outlet channel communicated with the upper end of the hot air channel and the hot air cabin is arranged above the BBU equipment on the equipment installation cabinet; the device mounting cabinet is provided with a cold air channel sealing baffle plate at one end of the cold air channel close to the cold air bin, and the device mounting cabinet is provided with a cold air inlet channel communicated with the lower end of the cold air channel and the cold air bin.

As the preferred technical scheme, the room body includes the base, fixed interior storehouse curb plate and the outer storehouse curb plate of being equipped with on the base, interior storehouse curb plate with the common fixedly connected with top cap in top of outer storehouse curb plate, the front end of interior storehouse curb plate with be equipped with room body qianmen between the front end of outer storehouse curb plate, the rear end of interior storehouse curb plate with be equipped with room body back door between the rear end of outer storehouse curb plate.

As the preferred technical scheme, the outer bin side plate and the room body rear door are provided with the outer machine heat dissipation openings.

As a preferred technical scheme, the air conditioner indoor unit is a row-to-row precise air conditioner indoor unit.

As a preferable technical scheme, an inner bin ventilation port is arranged on the bin wall of the hot air bin.

By adopting the technical scheme, the outdoor integrated intelligent machine room for the 5G base station comprises a room body, wherein the room body is divided into an outer machine cabin and an inner machine cabin through inner and outer cabin partition plates, an air conditioner outer machine is installed in the outer machine cabin, and an outer machine heat dissipation opening is formed in the cabin wall of the outer machine cabin; an equipment installation cabinet is arranged in the middle of the inner machine cabin, a cold air cabin and a hot air cabin are respectively arranged on two sides of the equipment installation cabinet in the inner machine cabin, and base station equipment capable of separating the cold air cabin from the hot air cabin is arranged on the equipment installation cabinet; the base station equipment comprises an air conditioner internal unit and a plurality of BBU equipment which are sequentially arranged, wherein the air conditioner internal unit is connected with the air conditioner external unit, a cold air outlet of the air conditioner internal unit is connected with the cold air bin, and a hot air inlet of the air conditioner internal unit is connected with the hot air bin; the device mounting cabinet is provided with a hot air channel and a cold air channel, wherein the hot air channel and the cold air channel are respectively arranged on the fan air outlet side and the fan air inlet side of the BBU device, the device mounting cabinet is provided with a heat resisting baffle plate, the hot air channel is close to one end of the cold air bin, and the cold air channel is close to one end of the hot air bin. The utility model discloses at first will the outer machine of air conditioner separates alone, then pass through in the interior machine storehouse basic station equipment on the equipment fixing cabinet will interior machine storehouse is the approximate separation for cold wind storehouse and hot-blast storehouse, the air conditioner interior machine through to cold wind storehouse is discharged cold wind and is followed hot-blast storehouse absorbs hot-blastly, basic station equipment department can form by cold wind storehouse extremely the cooling air current in hot-blast storehouse. And the BBU equipment is guided by a fan, and cold air is introduced into the cold air channel and hot air is introduced out of the hot air channel, so that obvious cooling air flow can be formed, and the cooling and heat dissipation effects are good. The utility model discloses an equipment self carries out cold and hot separation, and compact structure is reasonable, can arrange more basic station equipment, convenient dilatation. Because the cooling air flow forms circulation, water drops and the like are not easy to form at the base station equipment, the accident rate is reduced, and the safety is high.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

fig. 1 is a schematic perspective view of a first embodiment of the present invention, in which a front door of a house is not shown;

fig. 2 is a schematic structural view of a rear view angle according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a top view angle according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a side view angle according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a second top view angle according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a three-dimensional structure at a three-BBU device according to an embodiment of the present invention, in which a schematic diagram of a partial three-dimensional cross section is shown;

in fig. 3, 4 and 5, the cold air flow is indicated by solid arrows, and the hot air flow is indicated by hollow arrows.

In the figure: 1-the house body; 11-a base; 12-outer bin side plates; 13-inner bin side plate; 14-inner and outer bin partitions; 15-a top cover; 16-outer bin front door; 17-inner bin front door; 18-outer bin back door; 19-inner bin back door; 2-an external machine bin; 21-an air conditioner outdoor unit; 22-an outdoor unit heat dissipation port; 3-an internal machine bin; 31-equipment installation cabinet; 32-a cold air bin; 33-a hot air bin; 34-an inner bin ventilation port; 4-a base station device; 41-air conditioner indoor unit; 42-BBU device; 43-hot air channel; 44-heat resistant baffles; 45-a cold air channel; 46-cold blocking baffles; 47-a wind guide assembly; 48-wind scooper; 49-a wind guide pipe; 51-hot runner closure baffles; 52-hot air outlet channel; 53-hot air outlet guide plate; 54-cold aisle containment flaps; 55-a cold air inlet duct; 56-cold air intake guide plate.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, exemplary embodiments of the invention are described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

The first embodiment is as follows: as shown in fig. 1 to 4, the outdoor integrated intelligent machine room for the 5G base station comprises a room body 1, the room body 1 is divided into an outer machine cabin 2 and an inner machine cabin 3 by an inner and outer cabin partition plate 14, an air conditioner outer unit 21 is installed in the outer machine cabin 2, and an outer unit heat dissipation opening 22 is formed in the cabin wall of the outer machine cabin 2. In this embodiment, the air conditioner external unit 21 is disposed in the room body 1, so that damage to the air conditioner external unit 21 caused by environmental factors can be reduced, and due to the arrangement of the inner and outer partition plates 14, hot air emitted by the air conditioner external unit 21 does not affect other devices. The outdoor unit heat dissipation port 22 can dissipate hot air of the air conditioner outdoor unit 21, thereby preventing heat accumulation. In this embodiment, an outer machine heat dissipation louver is disposed on the wall of the outer machine cabin 2, and certainly, the wall of the outer machine cabin 2 does not include the inner and outer cabin partition plates 14; the window seam of the outdoor unit heat dissipation louver forms the outdoor unit heat dissipation opening 22.

The middle part of interior machine storehouse 3 is equipped with equipment fixing cabinet 31, lie in interior machine storehouse 3 equipment fixing cabinet 31 both sides are equipped with cold wind storehouse 32 and hot-blast storehouse 33 respectively, but install the separation on the equipment fixing cabinet 31 cold wind storehouse 32 with the base station equipment 4 in hot-blast storehouse 33. This embodiment uses base station equipment 4 as the separation cool wind storehouse 32 with the structure of hot-blast storehouse 33 makes there is a large amount of spaces on equipment fixing cabinet 31 and can be used for arranging base station equipment 4, and compact structure is reasonable, and convenient dilatation. When cold air is supplied into the cold air bin 32, a pressure difference is formed between the cold air bin 32 and the hot air bin 33, cooling air flows from the cold air bin 32 to the hot air bin 33 can be formed in gaps among the base station devices 4, and all the base station devices 4 can be cooled and radiated. The blocking function of the base station apparatus 4 should be understood only as the visual blocking function of the cold air bin 32 and the hot air bin 33 after the base station apparatus 4 is normally installed, and those skilled in the art should recognize that, due to the influence of the external shape of the base station apparatus 4, there are small gaps between the base station apparatus 4 after the base station apparatus 4 is installed, and these gaps can be used for passing through the cooling air flow.

In this embodiment, an equipment reserved space is further provided on the equipment installation cabinet 31, and a flow blocking partition plate is provided on the equipment installation cabinet 31 at the equipment reserved space. Because of different base stations the design volume of base station equipment 4 is different, base station equipment 4 can not necessarily be right cold wind storehouse 32 with hot wind storehouse 33 carries out the complete separation, great intercommunication space probably appears in equipment fixing cabinet 31, and this embodiment sets up these intercommunication spaces as equipment headspace, and set up in these spaces choke baffle, this kind of structural setting can cooperate on the one hand base station equipment 4 is right cold wind storehouse 32 with hot wind storehouse 33 carries out the separation, and on the other hand can provide the space of the installation of expanding when following when adding other equipment.

The base station device 4 described in this embodiment includes an air conditioner internal unit 41 and a plurality of BBU devices 42 arranged in sequence. The air conditioner indoor unit 41 is connected with the air conditioner outdoor unit 21, a cold air outlet of the air conditioner indoor unit 41 is connected with the cold air bin 32, and a hot air inlet of the air conditioner indoor unit 41 is connected with the hot air bin 33. In this embodiment, the air conditioner indoor unit 41 is also used as one of the base station devices 4, and can suck hot air from the hot air cabin 33, and blow cold air into the cold air cabin 32 after heat exchange. Thus, the inner machine cabin 3 forms the circular circulation of cold and hot air, and compared with the pure integral refrigeration of a closed space, the base station equipment 4 can be more efficiently cooled due to the circulation of the cold and hot air.

Preferably, the air conditioner internal unit 41 is an inter-row precise air conditioner internal unit, the inter-row precise air conditioner internal unit can be conveniently arranged on two sides of a hot air inlet and a cold air outlet, the temperature regulation and filtering capabilities of the inter-row precise air conditioner internal unit are higher, and the temperature control and cleanliness maintenance of the inner cabin 3 in the embodiment are facilitated.

In this embodiment, the wall of the hot wind chamber 33 is provided with an inner chamber ventilation port 34, and the wall of the hot wind chamber 33 should not include the inner and outer chamber partition plates 14. Thus, when the hot air generated by the heat of the absorption equipment reaches the hot air bin 33, the hot air can be exchanged with the outside air, and the temperature of the hot air can be reduced by the outside air, so that the refrigeration burden of the air conditioner indoor unit 41 can be reduced, the refrigeration power of the air conditioner can be reduced, and the energy conservation can be facilitated. The inner chamber ventilation openings 34 are also preferably in the form of louvers.

This embodiment is directed at the characteristic that generates heat of BBU equipment 42 high heat density in the 5G construction, it is equipped with hot-blast main 43 and cold wind passageway 45 respectively to lie in on the equipment fixing cabinet 31 fan air-out side and the fan air-inlet side of BBU equipment 42, it is equipped with heat-resisting baffle 44 to lie in on the equipment fixing cabinet 31 the one end that hot-blast main 43 is close to cold wind storehouse 32, it is equipped with cold-resisting baffle 46 to lie in on the equipment fixing cabinet 31 the one end that cold wind passageway 45 is close to hot wind storehouse 33. When cold air is blown into the cold air bin 32, due to the pressure difference and the guiding effect of the fan of the BBU device 42, a cooling air flow obviously passing through the cold air channel 45, the BBU device 42 and the hot air channel 43 is generated at the BBU device 42, the concentrated high heat can be rapidly taken away by the cooling air flow, and the BBU device 42 can maintain efficient cooling and heat dissipation.

Because different types of BBU devices 42 may have different mounting manners, this embodiment is illustrated by vertical mounting arrangements of a plurality of BBU devices 42. In this embodiment, the hot air channel 43 is located at the upper side of the BBU device 42, the cold air channel 45 is located at the lower side of the BBU device 42, and the BBU device 42 can further accelerate the cooling air flow by utilizing the feature of hot air floating upward.

In addition, in the equipment installation cabinet 31 of this embodiment, the air guide assembly 47 is disposed between the cold air outlet of the air conditioner indoor unit 41 and the cold air channel 45, and a part of the cold air blown out by the air conditioner indoor unit 41 can be guided in a concentrated manner by using the air guide assembly 47, and can be guided to the cold air channel 45 in a concentrated and rapid manner, so that the cooling air flow can be further accelerated by the wind force of the air conditioner indoor unit 41, and concentrated high heat can be taken away more rapidly due to the concentrated blowing-in of the cold air, thereby further improving the cooling and heat dissipation effects.

The air guide assembly 47 may include an air guide cover 48 disposed at a cold air outlet of the air conditioner indoor unit 41, and an air guide pipe 49 leading to the cold air channel 45 is disposed on the air guide cover 48. Certainly, the air guiding cover 48 is not hermetically fastened to the cold air outlet of the air conditioner indoor unit 41, but keeps a certain gap with the cold air outlet of the air conditioner indoor unit 41, so that the cold air power of the air conditioner indoor unit 41 can be conveniently utilized, and meanwhile, the air conditioner indoor unit 41 is not influenced to blow a part of cold air into the cold air bin 32. Similarly, the outlet of the air duct 49 is not hermetically fastened to the cool air passage 45, but is spaced from the cool air passage 45 by a certain gap.

Preferably, in the present embodiment, the inner chamber ventilation port 34 is disposed corresponding to the hot air channel 43, so that the hot air exhausted from the hot air channel 43 can be mostly exhausted to the outside of the room through the inner chamber ventilation port 34, and the influence of the heat in the hot air on the cooling load of the air conditioner internal unit 41 is smaller.

Of course, the base station device 4 may further include transmission devices, power supply devices, monitoring devices, and the like commonly used in base stations, which may be installed on the device installation cabinet 31 to perform a blocking function, and these devices are all commonly used in base stations, and are not described herein again.

This embodiment the room body 1 includes base 11, fixed interior storehouse curb plate 13 and outer storehouse curb plate 12 of being equipped with on base 11, interior storehouse curb plate 13 with the common fixedly connected with top cap 15 in top of outer storehouse curb plate 12, the front end of interior storehouse curb plate 13 with be equipped with the room body qianmen between the front end of outer storehouse curb plate 12, the rear end of interior storehouse curb plate 13 with be equipped with the room body back door between the rear end of outer storehouse curb plate 12. The room body qianmen with the setting of room body back door can conveniently carry out equipment maintenance. In this embodiment, the external machine heat dissipation opening 22 is disposed on the external bin side plate 12 and the room body rear door.

Further, the body front door of the present embodiment includes an outer bin front door 16 disposed between the front end of the outer bin side panel 12 and the front ends of the inner and outer bin partitions 14, and an inner bin front door 17 disposed between the front ends of the inner bin side panel 13 and the front ends of the inner and outer bin partitions 14. The room body back door is including setting up outer storehouse back door 18 between the rear end of outer storehouse curb plate 12 with the rear end of interior outer storehouse baffle 14 and setting are in the rear end of interior storehouse curb plate 13 with interior storehouse back door 19 between the rear end of interior outer storehouse baffle 14. The outer bin side plate 12 and the outer bin rear door 18 are provided with the outer unit heat dissipation opening 22. The front door 17 of the inner bin corresponds to the cold air bin 32 side, the rear door 19 of the inner bin corresponds to the hot air bin 33 side, and the rear door 19 of the inner bin is provided with the ventilation port 34 of the inner bin. The inner and outer bins are respectively provided with doors, so that equipment maintenance can be conveniently and respectively carried out, and the inner and outer bins are respectively designed according to the requirement of heat insulation. In addition, in the present embodiment, the air guide assembly 47 may be disposed on the inner-compartment front door 17, so that when the inner-compartment front door 17 is opened, the air guide assembly 47 may be moved away from the base station apparatus 4, and maintenance of the base station apparatus 4 is not affected.

This embodiment carries out cold and hot separation through base station equipment 4 self, and compact structure is reasonable, can arrange more base station equipment 4, the convenient dilatation. Since the cooling airflow is circulated, water drops are not easily formed at the base station device 4, the accident rate is reduced, and the safety is high. The BBU equipment 42 can generate obvious cooling air flow through the combined action of the cold air channel 45, the hot air channel 43, the self fan guide, the air guide assembly 47 for air supply and the like, concentrated high heat can be quickly taken away, and the cooling and heat dissipation effects are excellent. Through the arrangement, the embodiment can be more suitable for the centralized deployment of the 5G baseband unit grids, meets the requirement of 5G base station construction, and has extremely high economic value and social value.

Example two: as shown in FIG. 5, this embodiment differs from the first embodiment in that it is illustrated with a plurality of BBU devices 42 installed laterally, so that a significant lateral flow of cooling air is generated at the BBU devices 42, and efficient cooling and heat dissipation can also be achieved. The lateral cooling air flow of the present embodiment is illustrated as left in and right out.

Example three: as shown in FIG. 6, this embodiment is a further improvement of the cooling and heat dissipating structure at the BBU device 42 based on the second embodiment, and is illustrated by cooling air flows entering right and exiting left.

In the present embodiment, a hot air duct closing baffle 51 is disposed at one end of the hot air duct 43 of the equipment installation cabinet 31, which is close to the hot air chamber 33, so that only up-and-down moving air flow can be generated in the hot air duct 43. A hot air outlet channel 52 which is communicated with the upper end of the hot air channel 43 and the hot air bin 33 is arranged above the BBU equipment 42 on the equipment installation cabinet 31. Thus, after reaching the hot air passageway 43 via the BBU device 42, the cooling air flow can pass upwardly through the hot air outlet passageway 52 into the hot air compartment 33. The BBU device 42 can also utilize hot gas floatation to increase the cooling gas flow rate.

In this embodiment, a hot air outlet guide plate 53 is disposed directly above the BBU device 42, and the upper end of the heat blocking baffle 44 is inclined to the upper end of the cold blocking baffle 46, and the hot air outlet guide plate 53 plays a role of isolating the cold air chamber 32, and can guide hot air to the hot air chamber 33, and the guided channel forms the hot air outlet channel 52.

Similarly, in this embodiment, a cold air duct sealing baffle 54 is disposed at one end of the equipment installation cabinet 31, which is located near the cold air duct 45, of the cold air bin 32, and a cold air inlet duct 55 communicating the lower end of the cold air duct 45 with the cold air bin 32 is disposed below the BBU equipment 42 on the equipment installation cabinet 31. In this embodiment, a cold air intake guide plate 56 is disposed directly below the BBU device 42, and the cold air intake duct 55 is formed by inclining the lower end of the cold-blocking baffle 46 to the lower end of the heat-blocking baffle 44.

The air guide pipe 49 guides part of the cold air of the air conditioner indoor unit 41 to the cold air inlet duct 55, the cold air enters the vertical closed cold air channel 45 from the cold air inlet duct 55, and then is guided to the BBU device 42 by the fan of the BBU device 42 to be cooled, and the formed hot air reaches the vertical closed hot air channel 43 and finally upwards reaches the hot air cabin 33 from the hot air outlet duct 52. In this embodiment, the BBU device 42 also forms an obvious cooling airflow through combined actions of cold and hot channel guiding, self fan guiding, air supply of the air guide assembly 47, hot air floating and the like, concentrated high heat can be rapidly taken away, and the cooling and heat dissipation effects are excellent.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1.5G basic station is with outdoor integration intelligence computer lab, including the room body, its characterized in that: the indoor body is divided into an outer machine cabin and an inner machine cabin by an inner cabin and an outer cabin partition plate, an air conditioner outer machine is installed in the outer machine cabin, and an outer machine heat dissipation port is formed in the cabin wall of the outer machine cabin; an equipment installation cabinet is arranged in the middle of the inner machine cabin, a cold air cabin and a hot air cabin are respectively arranged on two sides of the equipment installation cabinet in the inner machine cabin, and base station equipment capable of separating the cold air cabin from the hot air cabin is arranged on the equipment installation cabinet; the base station equipment comprises an air conditioner internal unit and a plurality of BBU equipment which are sequentially arranged, wherein the air conditioner internal unit is connected with the air conditioner external unit, a cold air outlet of the air conditioner internal unit is connected with the cold air bin, and a hot air inlet of the air conditioner internal unit is connected with the hot air bin; the device mounting cabinet is provided with a hot air channel and a cold air channel, wherein the hot air channel and the cold air channel are respectively arranged on the fan air outlet side and the fan air inlet side of the BBU device, the device mounting cabinet is provided with a heat resisting baffle plate, the hot air channel is close to one end of the cold air bin, and the cold air channel is close to one end of the hot air bin.

2. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: and an air guide assembly is arranged between a cold air outlet of the air conditioner indoor unit and the cold air channel on the equipment installation cabinet.

3. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: still be equipped with equipment headspace on the equipment fixing cabinet, the equipment fixing cabinet is last to be located equipment headspace department is equipped with the choked flow baffle.

4. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: the BBU equipment is vertically arranged, the hot air channel is located on the upper side of the BBU equipment, and the cold air channel is located on the lower side of the BBU equipment.

5. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: and a plurality of BBU equipment is transversely arranged.

6. The outdoor integrated intelligent machine room for the 5G base station as set forth in claim 5, wherein: a hot air channel sealing baffle is arranged at one end, close to the hot air bin, of the hot air channel on the equipment installation cabinet, and a hot air outlet channel communicated with the upper end of the hot air channel and the hot air bin is arranged above the BBU equipment on the equipment installation cabinet; the device mounting cabinet is provided with a cold air channel sealing baffle plate at one end of the cold air channel close to the cold air bin, and the device mounting cabinet is provided with a cold air inlet channel communicated with the lower end of the cold air channel and the cold air bin.

7. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: the room body includes the base, fixed interior storehouse curb plate and the outer storehouse curb plate of being equipped with on the base, interior storehouse curb plate with the common fixedly connected with top cap in top of outer storehouse curb plate, the front end of interior storehouse curb plate with be equipped with room body qianmen between the front end of outer storehouse curb plate, the rear end of interior storehouse curb plate with be equipped with room body back door between the rear end of outer storehouse curb plate.

8. The outdoor integrated intelligent machine room for the 5G base station as set forth in claim 7, wherein: the outer bin side plate and the room body rear door are provided with the outer machine heat dissipation opening.

9. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: the air conditioner indoor unit is a row-to-row precise air conditioner indoor unit.

10. The outdoor integrated intelligent machine room for the 5G base station as claimed in claim 1, wherein: and the wall of the hot air bin is provided with an inner bin ventilation port.

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