CN212367538U

CN212367538U - A protective structure for inspection shaft formula communication basic station and 5G communication basic station thereof

Info

Publication number: CN212367538U
Application number: CN202020819851.XU
Authority: CN
Inventors: 邓军
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-15
Filing date: 2020-05-15
Publication date: 2021-01-15
Anticipated expiration: 2030-05-15

Abstract

The patent of the utility model relates to a communication equipment, concretely relates to a protective structure and an inspection shaft formula framework 5G communication basic station for inspection shaft formula communication basic station, a protective structure for inspection shaft formula communication basic station includes: the antenna comprises an upper supporting structure and a lower suspension structure, wherein the upper supporting structure is used for accommodating the antenna; a lower suspension structure on which the upper support structure is supported; the lower suspension structure comprises a suspension bracket, an antenna bracket for suspending an antenna is arranged at the upper end of the suspension bracket, and the upper support structure is arranged on the antenna bracket; the lower suspension structure comprises a sealed main body cabinet, the suspension bracket is supported on the sealed main body cabinet, and a gap is reserved between the bottom of the antenna bracket and the upper end of the sealed main body cabinet. Through setting up foretell upper supporting structure and suspension structure down, not only can prevent that the walling crib and the well lid of inspection shaft from subsiding, can also ensure main part communication equipment steady operation.

Description

A protective structure for inspection shaft formula communication basic station and 5G communication basic station thereof

Technical Field

The patent of the utility model relates to a communication equipment, concretely relates to a protective structure and a inspection shaft formula framework 5G communication basic station for inspection shaft formula communication basic station.

Background

With the advance of the construction of the 5G communication network, the problem of scarcity of site resources for the construction of the 5G network in a city is still outstanding, and by utilizing well hole resources distributed on urban sidewalks, roadways, communities, venues and plaza inspection wells, inspection well type 5G communication base stations are distributed, so that the effective supplement of the urban 5G network layout is realized, the urban inspection wells have good concealment, and the beautification construction of the city is facilitated. However, the arrangement of the inspection well type 5G communication base station needs to ensure a better communication environment, and also needs to achieve water resistance, soil resistance and mildew resistance, and such problems need to be solved when the inspection well type 5G communication base station is arranged.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a to setting up in the inspection shaft well hole, possess the protective structure of inspection shaft formula communication base station of better barrier propterty, the utility model also provides a set up the inspection shaft formula framework 5G communication base station that still has higher reliability in the inspection shaft well hole.

In order to realize above-mentioned purpose, the technical scheme that this application adopted is a protective structure for inspection shaft formula communication base station, includes: an upper support structure and a lower suspension structure.

An upper support structure for housing an antenna;

a lower suspension structure upon which the upper support structure is supported;

the lower suspension structure comprises a suspension bracket, an antenna bracket for suspending an antenna is arranged at the upper end of the suspension bracket, and the upper support structure is arranged on the antenna bracket;

the lower suspension structure comprises a sealed main body cabinet, the suspension bracket is supported on the sealed main body cabinet, and a gap is reserved between the bottom of the antenna bracket and the upper end of the sealed main body cabinet.

Specifically, the following steps can be performed:

the above-mentioned upper support structure includes: the device comprises a well ring, a well cover, a suspension base, an antenna bracket, an antenna housing and a 5G antenna; the upper supporting structure is used for placing the 5G antenna.

The lower suspension structure includes: hanging bracket, sealed main part cabinet.

The suspension base, the upper support structure and the lower suspension structure are all fixed on the suspension base;

the antenna bracket for hanging the antenna housing and the hanging bracket for hanging the sealed main body cabinet are connected with the hanging base.

The sealed main body cabinet is arranged on the suspension bracket and used for installing communication and accessory equipment.

The antenna housing is arranged on the antenna bracket and used for mounting a 5G antenna.

Gaps are reserved between the upper ends of the sealed main body cabinets and below the antenna housing and used for installing signal cables.

The well ring and the well cover are arranged above the suspension base.

Through setting up foretell upper supporting structure and suspension structure down, not only can prevent that the walling crib and the well lid of inspection shaft from subsiding, can also ensure main part communication equipment steady operation.

Furthermore, an adjusting support screw is arranged on the antenna support, one end of the adjusting support screw is connected with the antenna support, and the other end of the adjusting support screw supports the antenna housing and is used for adjusting the distance between the antenna and the well cover.

Furtherly is, above-mentioned supporting structure includes walling crib, with the well lid of this walling crib adaptation, above-mentioned well lid is used for setting up in the walling crib inboard, and above-mentioned walling crib inboard is provided with the flexible buffer circle between extrusion and walling crib, the well lid.

Furthermore, the well cover is in a circular truncated cone shape with a large upper part and a small lower part, and a circular truncated cone-shaped cavity matched with the circular truncated cone-shaped well cover is formed on the inner side of the well ring, so that the well cover is convenient to mount and dismount.

Furthermore, a locking device is arranged between the well ring and the well cover, and the locking device is a plurality of groups of spring latches.

Furthermore, the outer wall of the sealed main cabinet is coated with self-drying single-component nano ceramic resin, and the self-drying single-component nano ceramic resin has excellent weather resistance and hydrophobicity and plays roles in water resistance and pollution resistance.

Furthermore, the bottom of the sealing main body cabinet is provided with a radiating fin, and the upper end of the radiating fin is abutted against the bottom of the sealing main body cabinet to radiate the sealing main body cabinet in a well hole environment.

The utility model also provides a higher reliability's inspection shaft formula framework 5G communication basic station, include: an upper support structure and a lower suspension structure.

An upper support structure, wherein the upper support structure is internally accommodated with a 5G antenna;

the upper supporting structure is supported on the lower suspension structure, and 5GRRU equipment is arranged in the lower suspension structure;

the lower suspension structure comprises a suspension bracket, an antenna bracket for suspending the 5G antenna is arranged at the upper end of the suspension bracket, and the upper support structure is arranged on the antenna bracket;

the lower suspension structure comprises a sealed main body cabinet, the suspension bracket is supported on the sealed main body cabinet, and a gap is reserved between the bottom of the antenna bracket and the upper end of the sealed main body cabinet; the 5GRRU equipment is arranged in the sealed main body cabinet.

Specifically, the following steps can be performed:

the above-mentioned upper support structure includes: the device comprises a well ring, a well cover, an electromagnetic lens, a suspension base, an antenna bracket, an antenna housing and a 5G antenna; the upper supporting structure is used for placing the 5G antenna.

The lower suspension structure includes: the suspension support, sealed main part cabinet are provided with 5GRRU equipment in this sealed main part cabinet.

The upper supporting structure comprises a manhole ring and a manhole cover matched with the manhole ring, wherein the manhole cover is arranged on the inner side of the manhole ring, and a flexible buffer ring between the inner side of the manhole ring and between the inner side of the manhole ring and the manhole cover in a squeezing mode is arranged on the inner side of the manhole ring; the materials of the well ring and the well cover are basalt fibers. The electromagnetic lens is arranged in a groove below the well cover.

Specifically, the sealed main body cabinet is also provided with a cooling liquid heat conduction system for cooling the 5GRRU equipment.

The present invention will be further described with reference to the accompanying drawings and the detailed description. Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description. Or may be learned by practice of the invention.

Drawings

The accompanying drawings, which form a part of the disclosure, are included to assist in understanding the disclosure, and the description provided herein and the accompanying drawings, which are related thereto, are intended to explain the disclosure, but do not constitute an undue limitation on the disclosure. In the drawings:

fig. 1 is a schematic structural diagram of an inspection well type 5G communication base station of the present invention;

FIG. 2 is a schematic view of the structure of the manhole ring and the manhole cover of the present invention;

fig. 3 is a schematic partial cross-sectional view of the 5G antenna of the present invention;

FIG. 4 is a schematic view of the suspension system of the present invention

Fig. 5 is a schematic sectional view of the main body cabinet of the present invention;

labeled as: the device comprises a well cover 1, a locking device 11, a well ring 2, a buffer ring 21, an antenna 3-5G, an antenna unit 31, an electromagnetic lens 32, an antenna housing 33, an antenna support 4, a suspension base 5, a suspension support 6, a sealing main cabinet 7, a power supply control module 71, a cooling liquid heat conduction system 72, GRRU equipment 73-5 and a cabinet bottom cooling fin 8.

Detailed Description

The present invention will be described more fully with reference to the accompanying drawings. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Before the present invention is described with reference to the accompanying drawings, it is to be noted that:

the technical solutions and features provided in the present invention in each part including the following description may be combined with each other without conflict.

Moreover, references to embodiments of the invention in the following description are generally only to be considered as examples of the invention, and not as all embodiments. Therefore, all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention shall fall within the protection scope of the present invention.

With respect to the terms and units of the present invention. The term "comprises" and any variations thereof in the description and claims of this invention and the related art are intended to cover non-exclusive inclusions.

In the embodiment, an inspection well type architecture 5G communication base station is taken as an example, the communication base station is used for building an urban 5G communication base station and solving the difficult and difficult points existing in network construction, and the base station consists of a well ring 2, a well cover 1, a 5G antenna 3, a suspension system and a sealing main cabinet 7.

The walling crib 2 is level with the earth's surface, and above-mentioned 2 structures of walling crib include: and the flexible buffer ring 21 between the well lid 1, the flexible buffer ring 21 between well lid 1 and the well lid 1 is the rubber circle promptly, installs in the inboard cavity of well circle 2. Well lid 1 and well curb 2 cooperation, 1 structure of above-mentioned well lid includes: and a locking device 11 between the walling crib 2. Set up 5G antenna 3 on the position adjacent with well lid 1, above-mentioned 5G antenna 3 includes: an antenna unit 31, an electromagnetic lens 32, and an antenna cover 33. The antenna elements 31 here form a corresponding antenna array, depending on the feed type. The electromagnetic lens 32 here sets the multi-beam forming direction for the special-shaped field. The antenna cover 33 is used for protecting and positioning the antenna.

The suspension system comprises a suspension base 5, an antenna bracket 4 and a suspension bracket 6. The suspension base 5 is an embedded part of a metal structure and is connected with the antenna bracket 4 and the suspension bracket 6. The antenna mount 4 acts on the support of the 5G antenna 3. The suspension bracket 6 acts on the suspension mounting of the sealed body cabinet 7.

The sealed main body cabinet 7 is provided with a power supply control assembly, a cooling liquid heat conduction system 72, 5GRRU equipment 73 and a remote monitoring system. The input end of the power control module 71 is connected to the commercial power, and the output end thereof is connected to the power consumption unit. The carrier of the coolant thermal conduction system 72 is coolant, which consists of a water tank pump, a water-cooled plate, a water-cooled row, and a heat dissipation fan. The tank pump pumps the coolant to the water cooled panels to cool the 5GRRU device 73.

The input end of the 5GRRU device 73 is connected to the optical baseband signal, and the output end is connected to the 5G antenna 3. The remote monitoring system collects the set information through the connecting sensor and accesses the network through wireless communication.

By using the well hole resources of inspection wells distributed in cities, arranging inspection well type 5G communication base stations, and covering communication signal beams from the well cover 1 to the air in the direction of multi-beam forming through the electromagnetic lens 32, the method becomes an effective method for solving the problem of 5G network coverage of the urban difficult points. The open pore of base station walling crib 2 accords with the standard size of inspection shaft, makes things convenient for the maintenance of inspection shaft. 5G antenna 3, the hanging of sealed main part cabinet 7 are in the below of suspension base 5, and its monomer weight accords with the requirement of national standard physical power transport weight limit value, and walling crib 2, well lid 1 are installed in the top of suspension base 5, can prevent the settlement of walling crib 2, well lid 1, and the base surface has waterproof, antifouling, mould proof function, adapts to shady cold, moist well bore ecological environment.

The manhole cover 1 of the inspection well type 5G communication base station has excellent electromagnetic wave penetrating performance, and electromagnetic wave beams cover towards the aerial multi-beam forming direction through the manhole cover 1. The well cover 1 and the well ring 2 adopt basalt fiber materials to replace the original nodular cast iron materials, the bearing and compression resistance performance is consistent with that of nodular cast iron, and the traffic safety is facilitated. The aperture size of the well ring 2 of the inspection well type 5G communication base station accords with the recommended size of an inspection well, and the maintenance and normal use of the inspection well cannot be prevented from being excessively hindered. The number of channels of the 5G antenna 3 is set according to the corresponding working mode of the 5GRRU device 73.

Sealed main part cabinet 7 installs power control, coolant liquid heat conduction system 72, 5GRRU equipment 73 and remote monitoring module, and the input of above-mentioned 5GRRU equipment 73 links to each other with the light baseband signal, and the output is connected with 5G antenna 3, and above-mentioned coolant liquid heat conduction system 72 is used for the temperature control of main part cabinet, and above-mentioned remote monitoring module uploads the physical parameter that sets up in advance through connection sensor.

The 5G antenna 3 and the sealed main cabinet 7 of the inspection well type 5G communication base station are of a suspension structure and are connected through a suspension system, and the well cover 1, the antenna and the sealed main cabinet 7 can be assembled and disassembled in sequence. The maximum monomer weight of the site construction meets the requirements of the national standard GB12330-1990 physical transportation weight limit, and the construction machine can be installed and detached manually in a scene where the construction machine is inconvenient to use.

As another aspect of the utility model, still provide a waterproof, antifouling, mould proof three proofings measure, above-mentioned inspection well formula 5G communication base station long-term work in the well bore ecological environment of shady cold, humidity, 7 outer wall spraying of this sealed main part cabinet are from drying type one-component nanometer ceramic resin, should have excellent weatherability, hydrophobicity, wearability from drying type one-component nanometer ceramic resin and protect metal substrate very well.

Fig. 1 is a schematic structural diagram of an inspection well type 5G communication base station, where the inspection well type 5G communication base station includes: well lid 1, walling crib 2, 5G antenna 3, antenna boom 4, suspension base 5, sealed main part cabinet 6, suspension support 7, the radiating fin 8 of cabinet bottom.

(the structure of the well ring and the well cover is shown in the attached figure 2)

The well lid 1 is made of basalt fiber materials and resin, has basic functions of bearing, protecting and penetrating electromagnetic waves, and is provided with a locking device 11 between the well lid 1 and the well ring 2, so that the anti-theft and anti-invasion functions of the well lid are achieved.

The well ring 2 is made of basalt fiber materials and resin, the well ring 2 is arranged to be flush with the road surface, and a flexible buffer ring is designed between the well ring 2 and the well cover 1 and aims to buffer the impact caused by rolling the well cover when a load-carrying vehicle passes through; well curb 2 installs on suspension base 5, and wider support is favorable to preventing subsiding of well curb 2, well lid 1, and 2 pore size of well curb accord with the recommended size of inspection shaft, are favorable to the daily fortune dimension of inspection shaft.

(partial cross-sectional view of antenna in conjunction with FIG. 35G)

The 5G antenna 3 includes: antenna element 31, electromagnetic lens 32, antenna house 33, wherein, antenna element 31 is array antenna, and antenna element 31 can carry out the channel combination between 2T2R to 8T 8R through changing the mode of connection to the demand that adapts to different application scenarios. The electromagnetic lens 32 utilizes the principle of refraction and focusing of the electromagnetic lens, and carries out network signal coverage from the earth surface to the aerial multi-beam forming direction, and the signal coverage from bottom to top and from point to surface is the key of the inspection well type 5G communication base station for solving the urban signal blind area and difficult signal coverage. The radome 33 serves to protect, support and position the 5G antenna.

(schematic of the suspension system in conjunction with FIG. 4)

Above-mentioned antenna boom 4, antenna boom 4's upper end and 5G antenna 3 are connected, and antenna boom 4's lower extreme is connected with suspension base 5, adjusts the support screw through antenna boom 4, can conveniently adjust 5G antenna 3 to the well lid 1 between the distance to obtain better signal coverage.

Above-mentioned suspension base 5, for metal construction's bearing built-in fitting, pre-buried in former inspection shaft department when the inspection shaft transformation is under construction, suspension base 5's top is laid walling crib 2, and suspension base 5's 4 suspension points for connect antenna boom 4 and suspension bracket 6, suspension base 5 and the connection of connecting antenna boom 4 and suspension bracket 6 adopt quick location bolt, conveniently connect antenna boom 4 and suspension bracket 6's fast loading and unloading.

The above-mentioned hanging bracket 6 is the frame structure that encloses that comprises 4 metal bar steel, and the upper end and the suspension base 5 of 6 billet steel of hanging bracket are connected, and the frame is enclosed to the bottom of hanging bracket 6 and plays main supporting role to sealed main part cabinet 7. The upper portion of leaning on of two billet position design has the tie point with sealed main part cabinet 7 and plays the locking action, when preventing that the inspection shaft from running into ponding backward, sealed main part cabinet 7 can upwards strike devices such as 5G antenna 3 because of buoyancy.

The suspension system can be used for sequentially assembling and disassembling the well cover 1, the 5G antenna 3 and the sealed main cabinet 7 through connection, when the suspension system is assembled on a construction site, the weight of the single parts meets the requirement of physical force carrying weight limit of the national standard GB12330-1990, and the suspension system can be manually assembled and disassembled when meeting a scene that engineering machinery is inconvenient to use.

(with reference to FIG. 5, a cross-sectional view of the main body cabinet)

Above-mentioned sealed main part cabinet 7 lays communication and auxiliary assembly's rack for the basic station, includes: a power control module 71, a coolant heat transfer system 72, and 5GRRU equipment 73.

The power supply control module 71 comprises a power supply control part and a temperature control part, wherein the input of the power supply control part is connected with an external commercial power, the output of the power supply control part is connected with the power input end of the 5GRRU equipment 73 and the input end of the switching power supply, the output end of the switching power supply supplies power for the temperature control and remote monitoring module, the temperature control part collects the internal temperature of the sealed main cabinet 7 through the temperature sensor, and the temperature control part controls the starting and stopping of the cooling liquid heat conduction system 72. The remote monitoring module can be general communication base station remote monitoring equipment on the market.

The cooling liquid heat conducting system 72 is composed of cooling liquid, a water tank water pump, a water cooling plate, a water cooling row and a cooling fan, wherein the heat conducting carrier cooling liquid flows to the inlet of the water cooling plate through the outlet of the water tank water pump, flows to the inlet of the water cooling row through the outlet of the water cooling plate after heat-cold exchange, flows to the inlet of the water tank water pump from the outlet of the water cooling row after cold-heat exchange, and forms heat conducting circulation of the cooling liquid, wherein the water cooling plate is tightly attached to the cabinet bottom cooling fins 8, conducts heat of the water cooling plate to the cabinet bottom cooling fins 8, and diffuses to the low-temperature environment of a well hole through the cabinet bottom cooling fins 8. The water cooling row is matched with the cooling fan, and the relatively low temperature of the water cooling row is diffused into the sealing main body cabinet 7 by means of the wind power of the cooling fan.

The input terminal of the 5GRRU device 73 is connected to an external optical baseband signal, and the output terminal of the 5GRRU device 73 is connected to the 5G antenna 3 via a cable. The mode of operation of the 5GRRU device 73 (e.g., 2T2R) determines the combined connectivity of the antenna elements of the 5G antenna 3.

The cabinet bottom radiating fins 8 exchange heat with a low-temperature environment in a manhole of the inspection well for the sealed main cabinet 7, and the natural environment in the inspection well is cold and humid, so that the 5GRRU equipment 73 is favorable for reducing the operating temperature. The temperature inside the capsule 7 is effectively conducted to the capsule bottom fins 8 by the coolant heat conduction system 63, and then forms a heat exchange cycle with the low temperature environment of the well.

In this embodiment, cloudy cold, moist wellhole ecological environment are unfavorable for waterproof, antifouling, the three proofings protection of mould proof of basic station, the utility model provides a waterproof, antifouling, the three proofings measure of mould proof, this sealed main part cabinet 7 and the outer wall spraying that needs the protection from dry type one-component nanometer ceramic resin, the lacquer painting has the drainage anti-soil effect of similar lotus leaf, relies on excellent weatherability, hydrophobicity, wearability to protect metal substrate very well.

In this embodiment, with the help of the special status of the urban inspection well in the intelligent municipal management and the advantages of the innate networking of the inspection well type 5G communication base station, the remote control component carried by the base station can be connected with various sensors (such as temperature, humidity and traffic flow information) and becomes a node of a municipal pipe network through an access network, thereby providing a powerful support for the real-time monitoring of municipal management data flow.

Advantages of the inspection well type 5G communication base station in this embodiment

1. The inspection well type 5G communication base station layout utilizes well hole resources of inspection wells distributed in urban sidewalks, roadway roads, communities, venues and squares, so that the effective supplement of the urban 5G network layout is realized, and the scarce problem of investment in 5G network construction site resources in cities is relieved.

2. The inspection well type 5G communication base station has the advantages that the base station wave beams implement signal coverage from the well cover to the aerial multi-beam forming direction through the electromagnetic lens, the communication quality is guaranteed, meanwhile, the good concealment of the urban inspection well can be utilized, and the urban beautification construction is facilitated.

3. The inspection well type 5G communication base station has the advantages that the aperture size of the well ring meets the recommended size of an inspection well, the well cover is made of basalt fiber materials to replace the original nodular cast iron materials, the compression resistance, the bearing performance and the anti-theft performance of the inspection well type 5G communication base station are consistent with those of the nodular cast iron well ring and the well cover, the normal use of the functions of the inspection well is not hindered, and the passing safety of sidewalks and roadways is guaranteed.

4. Inspection well formula 5G communication basic station, well lid, antenna and sealed main part cabinet are the layering suspended structure, and wherein, the biggest monomer weight accords with the requirement of physical power transport weight limit value, meets the scene of not being convenient for use engineering machine tool, can rely on the manual work to install and maintain.

5. The inspection well type 5G communication base station works in a cold and humid well hole ecological environment for a long time, and the self-drying single-component nano ceramic resin is sprayed on the outer wall of the sealed main cabinet, so that the base station can be well protected from long-term reliable operation due to excellent weather resistance, hydrophobicity and wear resistance.

6. The inspection well type 5G communication base station has a remote monitoring function, can become a node for smart city network construction by setting various sensors to upload collected information, and further is integrated with intelligent municipal management.

The contents of the present invention have been explained above. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Based on the above-mentioned contents of the present invention, all other embodiments obtained by those skilled in the art without creative efforts shall fall within the protection scope of the present invention.

Claims

1. A protective structure for inspection shaft formula communication base station, its characterized in that includes:

an upper support structure for housing an antenna;

2. The shelter structure for the inspection well type communication base station as claimed in claim 1, wherein the antenna support is provided with an adjusting support screw, one end of the adjusting support screw is connected with the antenna support, the other end of the adjusting support screw supports the antenna cover, and the adjusting support screw is used for adjusting the distance between the antenna and the well cover.

3. The protective structure for the inspection well type communication base station as claimed in claim 1, wherein the upper supporting structure comprises a well ring and a well cover matched with the well ring, the well cover is arranged at the inner side of the well ring, and a flexible buffer ring is arranged at the inner side of the well ring and is squeezed between the well ring and the well cover.

4. The protective structure for the inspection well type communication base station as claimed in claim 3, wherein the well cover is in a circular truncated cone shape with a large top and a small bottom, and a circular truncated cone-shaped cavity matched with the circular truncated cone-shaped well cover is formed inside the well ring.

5. The shelter structure for the manhole-type communication base station as claimed in claim 3, wherein a locking device is arranged between the manhole ring and the manhole cover.

6. The protective structure for the inspection well type communication base station as claimed in claim 1, wherein the outer wall of the sealing main cabinet is coated with self-drying single-component nano ceramic resin.

7. The protective structure for the inspection well type communication base station as claimed in claim 1, wherein the bottom of the main enclosure is provided with a heat sink, and the upper end of the heat sink is abutted against the bottom of the main enclosure.

8. The utility model provides an inspection shaft formula framework 5G communication base station which characterized in that includes:

the upper support structure is supported on the lower suspension structure, and 5GRRU equipment is arranged in the lower suspension structure;

9. The inspection well type framework 5G communication base station as claimed in claim 8, wherein the upper supporting structure comprises a well ring and a well cover matched with the well ring, the well cover is arranged at the inner side of the well ring, and a flexible buffer ring is arranged at the inner side of the well ring and is extruded between the well ring and the well cover; the material of the well ring and the well cover is basalt fiber.

10. The inspection well type architecture 5G communication base station as claimed in claim 8, wherein a coolant heat conduction system is provided on the 5GRRU equipment for cooling the 5GRRU equipment.