WO2013123778A1 - 结合室外站点机柜及一体化机房应用的远程供风系统 - Google Patents

结合室外站点机柜及一体化机房应用的远程供风系统 Download PDF

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Publication number
WO2013123778A1
WO2013123778A1 PCT/CN2012/082969 CN2012082969W WO2013123778A1 WO 2013123778 A1 WO2013123778 A1 WO 2013123778A1 CN 2012082969 W CN2012082969 W CN 2012082969W WO 2013123778 A1 WO2013123778 A1 WO 2013123778A1
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Prior art keywords
air supply
supply system
remote
wireless communication
driving device
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PCT/CN2012/082969
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English (en)
French (fr)
Inventor
王东
王彬
翟立谦
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华为技术有限公司
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Publication of WO2013123778A1 publication Critical patent/WO2013123778A1/zh

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K7/00Constructional details common to different types of electric apparatus
    • H05K7/20Modifications to facilitate cooling, ventilating, or heating
    • H05K7/20536Modifications to facilitate cooling, ventilating, or heating for racks or cabinets of standardised dimensions, e.g. electronic racks for aircraft or telecommunication equipment
    • H05K7/206Air circulating in closed loop within cabinets wherein heat is removed through air-to-air heat-exchanger

Definitions

  • the invention belongs to the technical field of communication equipment, and particularly relates to a remote air supply system combining the outdoor station machine rejection and the integrated machine room application.
  • a cooling device such as a fan is added to the ground of the outdoor site, and the air generated by the fan is sent to the high-level wireless communication module by the air duct to make the air flow. The heat is removed by the heat of the surface of the wireless communication module.
  • the current remote air supply system increases the cooling device such as a fan on the ground, which additionally increases the floor space and increases the land cost. Moreover, it is also necessary to separately provide a set of protection facilities for the cooling device, so it is also necessary to increase the protection cost. Therefore, the existing remote air supply system has a problem of being too costly.
  • the embodiment of the invention provides a remote air supply system that combines the outdoor site machine to reject the application of the integrated machine room, and solves the problem that the existing remote air supply system is too expensive.
  • a remote air supply system that combines an outside station (OSP) machine rejection application, including:
  • the air supply driving device is disposed inside the OSP machine, wherein, the machine is located in the vicinity of the high tower, and the communication device is provided with a communication device, and the communication device is connected to the wireless communication module disposed above the high tower to communicate with each other;
  • a ventilation pipe configured to connect the airflow generated by the air supply driving device to the wireless communication module through the air duct, and dissipate heat from the wireless communication module.
  • a remote air supply system combined with an integrated computer room application including:
  • the air supply driving device is disposed inside the integrated machine room, wherein the machine is located in the vicinity of the high tower, the communication device is provided with a communication device, and the communication device is disposed in the Wireless communication modules above the high tower are connected to communicate with each other;
  • a ventilation pipe configured to connect the airflow generated by the air supply driving device to the wireless communication module through the air duct, and dissipate heat from the wireless communication module.
  • the air supply driving device is disposed inside the OSP machine rejection or integrated machine room, and the airflow is sent to the wireless communication module above the high tower through the air duct.
  • the purpose of dissipating heat to the wireless communication module can be achieved, and the floor space is not increased, and the protection device of the OSP machine or the integrated machine room can provide protection for the air supply driving device, so there is no need for the air supply driving device. Additional protection facilities. Therefore, the remote air supply system provided by the embodiment of the invention saves the land cost and the protection cost, thereby solving the problem that the existing remote air supply system is too expensive.
  • FIG. 1 is a schematic structural view of a remote air supply system according to Embodiment 1 of the present invention
  • FIG. 2 is a schematic structural view of a remote air supply system according to Embodiment 2 of the present invention
  • 4 is a partial structural schematic view of a remote air supply system according to Embodiment 3 of the present invention
  • Fig. 5 is a schematic structural view of a remote air supply system according to Embodiment 4 of the present invention. detailed description
  • an embodiment of the present invention provides a remote air supply system that incorporates an outdoor station (OSP) machine rejection application, including: a wind supply driving device 12, wherein the air supply driving device 12 is disposed on The OSP machine rejects 11 internal, wherein the OSP machine rejection 11 is located near the high tower 10, and the OSP machine rejection 11 is provided with a communication device, and the communication device is connected to the wireless communication module 14 disposed above the high tower 10 for mutual communication;
  • the air duct 13 is configured to connect the airflow generated by the air supply driving device 12 to the wireless communication module 14 through the air duct 13 to dissipate heat from the wireless communication module 14.
  • the air supply driving device 12 can be generally implemented by a fan, and is horizontally inserted into the OSP machine rejection 11 in the form of components; the communication device in the OSP machine rejection 11 is usually a Building Base Band Unit (BBU), and the tower 10
  • BBU Building Base Band Unit
  • RRU Radio Remote Unit
  • the embodiment provides a remote air supply system with a built-in mode.
  • the air supply driving device 12 is disposed inside the OSP machine 11 and the airflow is sent to the wireless communication module 14 above the high tower 10 through the air duct 13, which can achieve the right
  • the purpose of the heat dissipation of the wireless communication module 14 is that it does not increase the floor space, and the OSP machine rejects its own lightning protection, anti-theft protection and other protection facilities to provide protection for the air supply driving device 12, so there is no need to drive the air supply.
  • the device 12 additionally adds protection. Therefore, the remote air supply system provided by the embodiment of the invention saves the land cost and the protection cost, thereby solving the problem that the existing remote air supply system is too expensive.
  • the remote air supply system provided by this embodiment further It is possible to make the OSP machine 11 and the overall structure of the air supply driving device 12 more compact and beautiful.
  • the remote air supply system in this embodiment further includes a flow guiding device for introducing the airflow generated by the fan to the air duct 13.
  • the flow guiding device includes an enclosed space formed by a plurality of partitions for introducing some or all of the airflow generated by the fan to the air duct 13.
  • the air duct 13 is a three-in-one air duct of a power line, a data transmission line and a air supply duct.
  • the OSP machine rejects 11 itself has a power line and a data transmission line connected to the wireless communication module 14.
  • the air supply pipe and the power line and the data transmission line are combined into a three-in-one air duct to make the line arrangement more clean. Orderly.
  • the OSP machine can be internally provided with two air supply driving devices, one of which is equipped with an OSP machine, and the generated airflow is used to dissipate heat from the OSP machine;
  • An air supply drive is additionally provided, and the generated airflow is connected to the wireless communication module through a ventilation pipe to dissipate heat from the wireless communication module.
  • This embodiment is basically the same as the first embodiment, and the difference is that, as shown in FIG. 2, the embodiment further includes a solar panel assembly 15 connected to the air supply driving device 12 for providing energy for the air supply driving device 12. .
  • the embodiment provides a remote mode air supply system in a green mode, and some OSP machines 11 are equipped with a solar panel assembly 15 to provide energy for the air supply driving device 12 by using solar energy, thereby achieving energy saving and environmental protection while reducing costs. .
  • an embodiment of the present invention provides a remote air supply system for a shared mode of an OSP machine rejection, which is basically the same as the remote air supply system of Embodiment 1, and the difference is: air supply driving
  • the device is a temperature control device 16 of the OSP machine rejection 11
  • the temperature control device 16 generally includes a separate inner circulation fan 161 and an outer circulation fan 162 to form mutually independent inner circulation airflow and outer circulation airflow; the temperature control device 16 further
  • the heat exchange sheet 163 is included, a part of the heat exchange sheet 163 is in the inner circulation airflow, and the other part is in the outer circulation airflow.
  • the heat supply system is configured to exchange heat between the inner circulation airflow and the outer circulation airflow; the remote air supply system further includes a flow guiding device for introducing a part of the airflow generated by the outer circulation fan 162 to the air duct 13.
  • the flow guiding device is specifically a closed space 170 formed by the partition plate 17, and a part of the air flow generated by the outer circulation fan 162 is introduced into the air inlet 131 of the air duct located at the top of the temperature control device.
  • the external circulation fan 162 is used to supply air to the wireless communication module 14, without additionally adding a wind supply driving device, and the land cost and the protection cost are saved.
  • the air inlet of the air duct is provided with a static pressure box for increasing the static pressure of the air flow in the air duct.
  • the effective distance of the air supply can be increased to facilitate remote air supply; the air volume sent to the air duct can be adjusted at any time according to the actual environment and working conditions, so that the heat dissipation of the wireless communication module is more flexible and controllable.
  • an embodiment of the present invention provides a remote air supply system combined with an integrated machine room (Shelter) application, including: a wind supply driving device 42 disposed in an integrated machine room 4 Internally, wherein the machine 41 is located near the tower 40, the communication device is provided with a communication device, and the communication device is connected to the wireless communication module 44 disposed above the tower 40 for communication with each other; the air duct 43 is provided for The airflow generated by the wind drive unit 42 is connected to the wireless communication module 44 through the air duct 43 to dissipate heat from the wireless communication module 44.
  • a wind supply driving device 42 disposed in an integrated machine room 4 Internally, wherein the machine 41 is located near the tower 40, the communication device is provided with a communication device, and the communication device is connected to the wireless communication module 44 disposed above the tower 40 for communication with each other; the air duct 43 is provided for The airflow generated by the wind drive unit 42 is connected to the wireless communication module 44 through the air duct 43 to dissipate heat from the wireless communication module 44.
  • Some outdoor sites are built in the form of an integrated computer room 4, and the interior of the integrated computer room 4 is provided with an indoor unit rejection 41.
  • the air supply driving device 42 is disposed inside the integrated machine room 4, and the airflow is sent to the wireless communication module 44 above the high tower 40 through the air duct 43 to achieve the purpose of dissipating heat to the wireless communication module 44 without additional
  • the floor space is increased, and the protective equipment of the integrated machine room 4 can provide protection for the air supply driving device 42, so that it is not necessary to additionally add protection facilities to the air supply driving device 42. Therefore, the remote air supply system provided by the embodiment of the invention saves the cost of land and the cost of protection, thereby solving the problem that the cost of the existing remote air supply system is too high.
  • the integrated machine room 4 is closed, and the noise generated by the air supply driving device 42 can be effectively controlled inside the integrated machine room 4, so this embodiment is a low Remote air supply system in noise mode.
  • the integrated machine room 4 is usually provided with a temperature control device, that is, an air conditioner 45, for maintaining the temperature in the integrated machine room 4, and providing a low temperature environment for the indoor unit to reject 41.
  • the air supply unit 42 forms a flow of cold air generated by the air conditioner 45, and is connected to the wireless communication module 44 through a 43 air duct to dissipate heat from the wireless communication module 44. Since the air supply driving device 42 is sent to the wireless communication module 44 by the cold air generated by the air conditioner 45, the heat dissipation effect of the wireless communication module 44 can be further improved, and the rotation speed of the air supply driving device 42 can be appropriately reduced to achieve energy saving and noise reduction. purpose.
  • the air duct 43 is a three-in-one air duct of the power line, the data transmission line and the air supply duct.
  • the indoor unit rejects 41 itself has a power line and a data transmission line connected to the wireless communication module 44.
  • the air supply duct and the power line and the data transmission line are juxtaposed into a three-in-one air duct 43 to make the line arrangement more compact. Clean and orderly.

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  • Engineering & Computer Science (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Air Conditioning Control Device (AREA)
  • Cooling Or The Like Of Electrical Apparatus (AREA)

Abstract

本发明实施例公开了一种结合OSP机拒及一体化机房应用的远程供风系统,属于通讯设备技术领域。解决了现有的远程供风系统占地、防盗以及防护成本太高的技术问题。该结合OSP机拒应用的远程供风系统,包括设置于所述OSP机拒内的供风驱动装置,所述供风驱动装置产生的气流通过所述通风管连接至无线通讯模块,对所述无线通讯模块进行散热。该结合一体化机房应用的远程供风系统,包括设置于所述一体化机房内的供风驱动装置,所述供风驱动装置产生的气流通过所述通风管连接至无线通讯模块,对所述无线通讯模块进行散热。本发明应用于改进远程供风系统。

Description

结合室外站点机拒及一体化机房应用的远程供风系统 本申请要求于 2012 年 2 月 20 日提交中国专利局、 申请号为 201210038436.0、 发明名称为"结合室外站点机拒及一体化机房应用 的远程供风系统"的中国专利申请的优先权, 其全部内容通过引用结 合在本申请中。 技术领域
本发明属于通讯设备技术领域, 具体涉及一种结合室外站点机 拒及一体化机房应用的远程供风系统。
背景技术
随着室外站点的无线通讯模块功能不断提升, 功耗持续走高, 无线通讯模块的散热问题日益突出。 目前已有远程供风的方案来实 现无线通讯模块的散热, 具体是在室外站点的地面上增加风扇等冷 却装置, 利用通风管将风扇产生的风送到高处的无线通讯模块, 使 空气流经无线通讯模块的表面带走热量, 从而实现散热。
本发明人在实现本发明的过程中发现, 现有技术至少存在以下 问题: 目前的远程供风系统都是在地面上增加风扇等冷却装置, 额 外增加了 占地面积, 也就增加了土地成本, 而且还需要给冷却装置 单独配备一套防护设施, 所以也要增加防护成本。 因此, 现有的远 程供风系统存在成本太高的问题。
发明内容
本发明实施例提供了一种结合室外站点机拒及一体化机房应用 的远程供风系统, 解决了现有的远程供风系统成本太高的问题。
为达到上述目的, 本发明的实施例采用如下技术方案: 一种结合室外站点 ( Outside Plate , OSP ) 机拒应用的远程供风 系统, 包括:
供风驱动装置, 所述供风驱动装置设置于所述 OSP机拒内部, 其中, 所述机拒位于高塔附近, 所述机拒中设置有通信设备, 所述 通信设备与设置在所述高塔上方的无线通讯模块相连以进行相互通 信;
通风管, 用于将所述供风驱动装置产生的气流通过所述通风管 连接至无线通讯模块, 对所述无线通讯模块进行散热。
一种结合一体化机房应用的远程供风系统, 包括:
供风驱动装置,所述供风驱动装置设置于所述一体化机房内部, 其中, 所述机拒位于高塔附近, 所述机拒中设置有通信设备, 所述 通信设备与设置在所述高塔上方的无线通讯模块相连以进行相互通 信;
通风管, 用于将所述供风驱动装置产生的气流通过所述通风管 连接至无线通讯模块, 对所述无线通讯模块进行散热。
与现有技术相比,本发明所提供的上述技术方案具有如下优点: 将供风驱动装置设置于 OSP机拒或一体化机房的内部, 通过通风管 将气流送至高塔上方的无线通讯模块, 能够达到对无线通讯模块散 热的目 的, 同时不会额外增加占地面积, 并且 OSP机拒或一体化机 房自身的防护设施就能够为供风驱动装置提供防护, 所以也不需要 为供风驱动装置额外增加防护设施。 因此, 本发明实施例提供的远 程供风系统节省了土地成本和防护成本, 从而解决了现有的远程供 风系统成本太高的问题。
附图说明
为了更清楚地说明本发明实施例中的技术方案, 下面将对实施 例描述中所需要使用的附图作筒单地介绍, 显而易见地, 下面描述 中的附图仅仅是本发明的一些实施例, 对于本领域普通技术人员来 讲, 在不付出创造性劳动的前提下, 还可以根据这些附图获得其他 的附图。
图 1为本发明的实施例 1所提供的远程供风系统的结构示意图; 图 2为本发明的实施例 2所提供的远程供风系统的结构示意图; 图 3为本发明的实施例 3所提供的远程供风系统的结构示意图; 图 4为本发明的实施例 3所提供的远程供风系统的局部结构示 意图;
图 5为本发明的实施例 4所提供的远程供风系统的结构示意图。 具体实施方式
下面将结合本发明实施例中的附图, 对本发明实施例中的技术 方案进行清楚、 完整地描述, 显然, 所描述的实施例仅仅是本发明 一部分实施例, 而不是全部的实施例。 基于本发明中的实施例, 本 领域普通技术人员在没有付出创造性劳动的前提下所获得的所有其 他实施例, 都属于本发明保护的范围。
实施例 1 :
如图 1所示,本发明实施例所提供了一种结合室外站点( Outside Plate , OSP ) 机拒应用的远程供风系统, 包括: 供风驱动装置 12 , 所述供风驱动装置 12设置于 OSP机拒 11 内部, 其中, OSP机拒 11 位于高塔 10附近, OSP机拒 11 中设置有通信设备, 所述通信设备 与设置在高塔 10上方的无线通讯模块 14相连以进行相互通信; 通 风管 13 , 用于将供风驱动装置 12产生的气流通过通风管 13连接至 无线通讯模块 14 , 对无线通讯模块 14 进行散热。 其中, 供风驱动 装置 12通常可以用风扇实现, 以组件的形式横向插入 OSP机拒 11 中; OSP机拒 11 中的通信设备通常为基带处理单元 ( Building Base band Unit , BBU ) , 高塔 10上方的无线通信模块 14为射频拉远单元 ( Radio Remote Unit , RRU )。
本实施例提供了一种内置模式的远程供风系统, 将供风驱动装 置 12设置于 OSP机拒 11 的内部, 通过通风管 13将气流送至高塔 10上方的无线通讯模块 14 , 能够达到对无线通讯模块 14散热的目 的, 同时不会额外增加占地面积, 并且 OSP机拒 11 自身的防雷、 防盗等防护设施就能够为供风驱动装置 12提供防护, 所以也不需要 为供风驱动装置 12额外增加防护设施。 因此, 本发明实施例提供的 远程供风系统节省了土地成本和防护成本, 从而解决了现有的远程 供风系统成本太高的问题。 此外, 本实施例提供的远程供风系统还 可以使 OSP机拒 11 以及供风驱动装置 12的整体结构更加紧凑、 美 观。
作为一个优选方案,本实施例中远程供风系统还包括导流装置, 用于将所述风扇产生的气流导入到通风管 13。 具体的, 导流装置包 括由若干隔板形成的封闭空间, 将所述风扇产生的部分或全部气流 导入到通风管 13。
作为一个优选方案, 所述通风管 13为电源线、 数据传输线与送 风管的三合一通风管。 OSP机拒 11 上本身就有与无线通信模块 14 相连的电源线和数据传输线, 本实施例将送风管与电源线和数据传 输线并列合成一条三合一通风管, 使线路排布更加筒洁、 有序。
作为另一种可选方案, OSP机拒内部可以设有两个供风驱动装 置, 其中一个供风驱动装置是 OSP机拒本身配备的, 其产生的气流 用于对 OSP机拒进行散热; 另一个供风驱动装置是额外增设的, 其 产生的气流通过通风管连接至无线通讯模块, 对无线通讯模块进行 散热。
实施例 2:
本实施例与实施例 1基本相同, 其不同点在于: 如图 2所示, 本实施例中还包括与供风驱动装置 12 相连的太阳能板组件 15 , 用 于提供供风驱动装置 12的能源。
本实施例提供了一种绿色模式的远程供风系统, 有的 OSP机拒 11 自身配有太阳能板组件 15 , 利用太阳能为供风驱动装置 12提供 能源, 在降低成本的同时还实现了节能环保。
实施例 3 :
如图 3所示, 本发明实施例所提供了一种用于 OSP机拒的共用 模式的远程供风系统, 与实施例 1 中的远程供风系统基本相同, 其 不同点在于: 供风驱动装置为 OSP机拒 11 的温控装置 16 , 该温控 装置 16通常包括相隔开的内循环风扇 161和外循环风扇 162 , 形成 相互独立的内循环气流和外循环气流; 温控装置 16 还包括换热片 163 , 换热片 163的一部分在内循环气流中, 另一部分在外循环气流 中, 用于在内循环气流和外循环气流之间进行热交换; 远程供风系 统还包括导流装置, 用于将外循环风扇 162产生的部分气流导入到 通风管 13。 如图 4所示, 导流装置具体为由隔板 17 形成的封闭空 间 170 , 将外循环风扇 162 产生的部分气流导入到位于温控装置顶 部的通风管的入风口 131。 本实施例利用外循环风扇 162为无线通 讯模块 14供风, 无需另外增加供风驱动装置, 并且节省了土地成本 和防护成本。
作为一个优选方案, 通风管的入风口设有静压箱, 用于提高通 风管内气流的静压。 这样可以增加送风的有效距离, 以便于远程送 风; 还可以根据实际的环境与工作状况, 随时调节送往通风管的风 量, 使无线通讯模块的散热更加灵活可控。
实施例 4:
如图 5 所示, 本发明实施例所提供了一种结合一体化机房 ( Shelter ) 应用的远程供风系统, 包括: 供风驱动装置 42 , 所述供 风驱动装置 42设置于一体化机房 4 内部, 其中, 机拒 41位于高塔 40附近, 机拒 41 中设置有通信设备, 通信设备与设置在高塔 40上 方的无线通讯模块 44 相连以进行相互通信; 通风管 43 , 用于将供 风驱动装置 42产生的气流通过通风管 43连接至无线通讯模块 44 , 对无线通讯模块 44进行散热。
有的室外站点是以一体化机房 4 的形式建立的, 一体化机房 4 的内部设有室内机拒 41。 本实施例将供风驱动装置 42 设置于一体 化机房 4的内部, 通过通风管 43将气流送至高塔 40上方的无线通 讯模块 44 , 能够达到对无线通讯模块 44 散热的目 的, 同时不会额 外增加占地面积, 并且一体化机房 4 自身的防护设施就能够为供风 驱动装置 42提供防护, 所以也不需要为供风驱动装置 42额外增加 防护设施。 因此, 本发明实施例提供的远程供风系统节省了土地成 本和防护成本, 从而解决了现有的远程供风系统成本太高的问题。
除此之外, 一体化机房 4是封闭的, 可以有效将供风驱动装置 42产生的噪音控制在一体化机房 4的内部, 因此本实施例是一种低 噪模式的远程供风系统。
一体化机房 4内通常还设有设有温控装置, 也就是空调 45 , 用 于保持一体化机房 4内的温度, 为室内机拒 41提供低温的环境。 供 风驱动装置 42将空调 45产生的冷空气形成气流, 通过 43通风管连 接至无线通讯模块 44 , 对无线通讯模块 44 进行散热。 由于供风驱 动装置 42输送至无线通讯模块 44的是空调 45产生的冷空气, 因此 能够进一步提高无线通讯模块 44的散热效果, 并且可以适当降低供 风驱动装置 42的转速, 达到节能降噪的目的。
作为一个优选方案, 所述通风管 43为电源线、 数据传输线与送 风管的三合一通风管。 室内机拒 41 上本身就有与无线通信模块 44 相连的电源线和数据传输线, 本实施例将送风管与电源线和数据传 输线并列合成一条三合一通风管 43 , 使线路排布更加筒洁、 有序。
以上所述, 仅为本发明的具体实施方式, 但本发明的保护范围 并不局限于此, 任何熟悉本技术领域的技术人员在本发明揭露的技 术范围内, 可轻易想到的变化或替换, 都应涵盖在本发明的保护范 围之内。 因此, 本发明的保护范围应以权利要求的保护范围为准。

Claims

权 利 要 求 书
1、 一种结合室外站点机拒应用的远程供风系统, 其特征在于, 包括:
供风驱动装置, 所述供风驱动装置设置于所述室外站点机拒内 部, 其中, 所述机拒位于高塔附近, 所述机拒中设置有通信设备, 所 述通信设备与设置在所述高塔上方的无线通讯模块相连以进行相互 通信;
通风管,用于将所述供风驱动装置产生的气流通过所述通风管连 接至无线通讯模块, 对所述无线通讯模块进行散热。
2、 根据权利要求 1所述的远程供风系统, 其特征在于, 所述供 风驱动装置为风扇, 所述远程供风系统还包括:
导流装置, 用于将所述风扇产生的气流导入到所述通风管。
3、 根据权利要求 2所述的远程供风系统, 其特征在于: 所述导 流装置包括由若干隔板形成的封闭空间, 将所述风扇产生的部分或全 部气流导入到所述通风管。
4、 根据权利要求 1所述的远程供风系统, 其特征在于: 所述供 风驱动装置为所述室外站点机拒的温控装置, 其中, 所述温控装置包 括相隔开的内循环风扇和外循环风扇, 形成相互独立的内循环气流和 外循环气流;
所述温控装置还包括换热片,所述换热片的一部分在所述内循环 气流中, 另一部分在所述外循环气流中, 用于在所述内循环气流和所 述外循环气流之间进行热交换;
所述远程供风系统还包括导流装置,用于将所述外循环风扇产生 的部分气流导入到所述通风管。
5、 根据权利要求 4所述的远程供风系统, 其特征在于: 所述通 风管的入风口设有静压箱, 用于提高所述通风管内气流的静压, 以便 于远程送风。
6、 根据权利要求 1所述的远程供风系统, 其特征在于: 所述机 拒内部设有两个供风驱动装置, 其中一个供风驱动装置产生的气流用 于对所述机拒进行散热, 另一个供风驱动装置产生的气流通过所述通 风管连接至无线通讯模块, 对所述无线通讯模块进行散热。
7、 根据权利要求 1至 6任一项所述的远程供风系统, 其特征在 于: 所述通风管为电源线、 数据传输线与送风管的三合一通风管。
8、 根据权利要求 1所述的远程供风系统, 其特征在于: 还包括 与所述供风驱动装置相连的太阳能板组件, 用于提供所述供风驱动装 置的能源。
9、 根据权利要求 1所述的远程供风系统, 其特征在于: 所述供 风驱动装置为风扇, 所述机拒中的所述通信设备为基带处理单元 BBU , 所述高塔上方的所述无线通信模块为射频拉远单元 RRU。
10、 一种结合一体化机房应用的远程供风系统, 其特征在于, 包 括:
供风驱动装置, 所述供风驱动装置设置于所述一体化机房内部, 其中, 所述机拒位于高塔附近, 所述机拒中设置有通信设备, 所述通 信设备与设置在所述高塔上方的无线通讯模块相连以进行相互通信; 通风管,用于将所述供风驱动装置产生的气流通过所述通风管连 接至无线通讯模块, 对所述无线通讯模块进行散热。
11、 根据权利要求 10所述的远程供风系统, 其特征在于: 所述 一体化机房内设有空调, 所述供风驱动装置将所述空调产生的冷空气 形成气流, 通过所述通风管连接至无线通讯模块, 对所述无线通讯模 块进行散热。
12、 根据权利要求 10或 11所述的远程供风系统, 其特征在于: 所述通风管为电源线、 数据传输线与送风管的三合一通风管。
PCT/CN2012/082969 2012-02-20 2012-10-15 结合室外站点机柜及一体化机房应用的远程供风系统 WO2013123778A1 (zh)

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