CN201093658Y

CN201093658Y - A forced convection type heat pipe room heat removal device

Info

Publication number: CN201093658Y
Application number: CNU2007201732746U
Authority: CN
Inventors: 江亿; 夏建军; 李震; 赵勇; 魏庆芃
Original assignee: Tsinghua University
Current assignee: Tsinghua University
Priority date: 2007-09-21
Filing date: 2007-09-21
Publication date: 2008-07-30
Anticipated expiration: 2017-09-21

Abstract

A forced convection separated heat pipe machine room heat removal device, the device uses a separate heat pipe, the heat pipe is the heat absorption end indoors, and the heat exhaust end of the heat pipe is outdoor; it is mainly composed of an evaporator installed in the machine room and an The outer condenser is composed of two parts. The upper part of the evaporator is connected with the upper part of the condenser through a steam pipe; the bottom of the condenser is connected with the bottom of the evaporator through a liquid pipe. Fans are installed in both the evaporator and the condenser. The use of the heat exhaust device effectively solves the problem of heat exhaust in the computer room. Compared with continuously operating air-conditioning equipment, it can greatly reduce the energy consumption of heat exhaust in the computer room and improve the reliability of the equipment.

Description

A forced convection type heat pipe room heat removal device

技术领域technical field

本实用新型涉及一种机房排热装置，属于换热设备技术领域。The utility model relates to a heat exhausting device for a machine room, which belongs to the technical field of heat exchange equipment.

背景技术Background technique

机房中由于设备发热量大，需要专门的排热设备来维持机房内的温度。目前现有技术中普遍采用舒适性空调连续运行来排出室内的热量。此种排热方式虽然能够实现排热控温的要求，但是能耗巨大，造成运行成本较高。Due to the high heat generated by the equipment in the equipment room, special heat removal equipment is required to maintain the temperature in the equipment room. At present, continuous operation of comfort air conditioners is commonly used in the prior art to discharge indoor heat. Although this heat removal method can meet the requirements of heat removal and temperature control, it consumes a lot of energy, resulting in high operating costs.

实用新型内容Utility model content

本实用新型的目的是提供一种强迫对流式分离型热管机房排热装置，旨在降低机房排热的能耗，同时提高设备可靠性，延长设备的使用寿命。The purpose of the utility model is to provide a forced convection type heat pipe room heat exhaust device, which aims to reduce the energy consumption of heat exhaust in the machine room, improve the reliability of the equipment, and prolong the service life of the equipment.

本实用新型的技术方案如下：The technical scheme of the utility model is as follows:

一种强迫对流式分离型热管机房排热装置，该装置由安装在机房内的蒸发器和安装在机房外的冷凝器两部分组成，蒸发器的上部通过蒸汽管与冷凝器的上部相连通；冷凝器的底部通过液管与蒸发器的底部相连通；所述的蒸发器和冷凝器均带有风机。A forced convection separate heat pipe machine room heat removal device, the device is composed of an evaporator installed in the machine room and a condenser installed outside the machine room, the upper part of the evaporator is connected with the upper part of the condenser through a steam pipe; The bottom of the condenser communicates with the bottom of the evaporator through a liquid pipe; both the evaporator and the condenser are equipped with fans.

本实用新型采用分离式热管，室内为热管的吸热端，室外为热管的排热端，当室内温度高于室外温度的时候，热管将室内热量排放到室外，有效解决了机房排热问题，与采用舒适性空调连续运行的设备相比，大大降低了机房排热的能耗，提高了设备的可靠性。The utility model adopts a separated heat pipe, the indoor is the heat-absorbing end of the heat pipe, and the outdoor is the heat-exhausting end of the heat pipe. When the indoor temperature is higher than the outdoor temperature, the heat pipe discharges the indoor heat to the outdoor, effectively solving the heat discharge problem of the machine room. Compared with the continuous operation of equipment using comfort air conditioners, it greatly reduces the energy consumption of heat removal in the computer room and improves the reliability of the equipment.

附图说明Description of drawings

图1为本实用新型提供的强迫对流式分离型热管机房排热装置的结构示意图。Fig. 1 is a structural schematic diagram of a forced convection type heat pipe room heat removal device provided by the utility model.

具体实施方式Detailed ways

本实用新型主要由安装在机房内的蒸发器3和安装在机房外的冷凝器1两部分组成。蒸发器和冷凝器均带有风机，采用强迫对流换热。蒸发器3上部通过蒸汽管2与冷凝器1相连通；冷凝器底部通过液管4与蒸发器底部相连通。The utility model is mainly composed of an evaporator 3 installed in the machine room and a condenser 1 installed outside the machine room. Both the evaporator and the condenser are equipped with fans and adopt forced convection heat exchange. The upper part of the evaporator 3 communicates with the condenser 1 through the steam pipe 2; the bottom of the condenser communicates with the bottom of the evaporator through the liquid pipe 4.

该装置运行时，蒸发器风机启动，机房5内热空气流过蒸发器3，加热蒸发器3中的制冷剂，当温度超过工质沸点时，蒸发器内工质沸腾；同时，空气被冷却。蒸发器内沸腾产生的气态制冷剂，由蒸汽管2流入冷凝器1，冷凝器带有风机，为强迫对流形式，冷凝器中气态制冷剂被流过冷凝器的空气冷却，凝结成液态，由冷凝器底部连管流入液管4流回蒸发器中，完成循环。制冷剂采用R22。When the device is in operation, the evaporator fan starts, and the hot air in the machine room 5 flows through the evaporator 3 to heat the refrigerant in the evaporator 3. When the temperature exceeds the boiling point of the working medium, the working medium in the evaporator boils; at the same time, the air is cooled. The gaseous refrigerant generated by boiling in the evaporator flows into the condenser 1 from the steam pipe 2. The condenser is equipped with a fan, which is in the form of forced convection. The gaseous refrigerant in the condenser is cooled by the air flowing through the condenser and condenses into a liquid state. The bottom of the condenser is connected to the liquid pipe 4 and flows back into the evaporator to complete the cycle. The refrigerant is R22.

Claims

1. forced convection formula separate heat pipe heat extraction device for equipment room, this device is formed by being installed in the evaporimeter (3) in the machine room and being installed in outer condenser (1) two parts of machine room, and the top of evaporimeter (3) is connected by the top of steam pipe (2) with condenser (1); The bottom of condenser is connected with the bottom of evaporimeter by liquid pipe (4); Described evaporimeter and condenser all have blower fan.