The utility model relates to an energy saving and temperature control system for a distribution cabinet, which includes air conditioning and air supply system installed in a distribution room. The cold air sent out by air conditioning and air supply system is connected to the distribution cabinet through a wind pipe, and the wind pipe includes a hard wind pipe installed in a distribution room and a soft wind pipe installed in a cable trench under the cabinet, and the hard wind pipe and the wind pipe. The soft wind pipe is sealed and butted; the lower wall of the distribution cabinet is provided with the air outlet, the upper wall is set up the exhaust air outlet, the soft wind pipe is connected with the air outlet, and the temperature sensor is installed in the distribution cabinet, and the temperature sensor controls the air conditioning and the start and stop of the air supply system. The utility model sets the temperature sensor in the distribution cabinet. When the temperature reaches the upper limit of the working environment temperature, the air conditioner and the air supply system are started, the cold wind is sent directly into the distribution cabinet through the wind pipe to control the temperature in the distribution cabinet, so that the energy consumption for the whole distribution room is reduced and the distribution equipment can be guaranteed. Running in the right environment increases the reliability of distribution equipment and reduces the failure rate.
【技术实现步骤摘要】
配电室配电柜节能控温系统
本技术涉及电力设备
,具体涉及一种配电室配电柜节能控温系统。
技术介绍
现有配电室配电柜控温方案通常为全室通风降温,或全室空调降温,配电柜内散热到室内,配电柜内温度控制效果不能保证,虽然配电室室温可以达标,但配电柜内温度可能超标,影响配电柜正常运行,甚至温度超标报警。另外,设置全室空调,能耗较大。
技术实现思路
本技术要解决的技术问题在于针对上述现有技术存在的不足,提供一种配电室配电柜节能控温系统,它对配电柜进行空调送风,直接控制配电柜内温度,保证配电柜内温度达标,自动控温,节省空调能耗。本技术为解决上述提出的技术问题所采用的技术方案为:一种配电室配电柜节能控温系统,包括安装于配电室的空调及送风系统,所述空调及送风系统送出的冷风通过风管接入配电柜内;所述风管包括安装于配电室内的硬质风管和安装于柜下电缆沟内的软质风管,所述硬质风管和软质风管密封对接;所述配电柜的下壁设置送风口,上壁设置排风口,所述软质风管与所述送风口连通;所述配电柜内安装有温度传感器,所述温度传感器控制所述空调及送风系统的启停。上述方案中,所述硬质风管贴着墙壁安装或者通过吊架安装。上述方案中,所述硬质风管为复合材料风管。上述方案中,所述软质风管吊装在所述配电柜下方。上述方案中,所述软质风管为布袋风管。上述方案中,所述软质风管根据所述配电柜的排布设置送风接头,所述送风接头通过法兰与所述配电柜下壁的送风口连接。上述方案中,所述排风口为百叶风口。上述方案中,所述温度传感器设置于电器元件多、温升大的配电柜中。上述方案中,所述温度传感器控制启动空调及送风系统的测量温度设置为+4 ...
【技术保护点】
一种配电室配电柜节能控温系统,包括安装于配电室的空调及送风系统,其特征在于,所述空调及送风系统送出的冷风通过风管接入配电柜内;所述风管包括安装于配电室内的硬质风管和安装于柜下电缆沟内的软质风管,所述硬质风管和软质风管密封对接;所述配电柜的下壁设置送风口,上壁设置排风口,所述软质风管与所述送风口连通;所述配电柜内安装有温度传感器,所述温度传感器控制所述空调及送风系统的启停。
【技术特征摘要】
1.一种配电室配电柜节能控温系统,包括安装于配电室的空调及送风系统,其特征在于,所述空调及送风系统送出的冷风通过风管接入配电柜内;所述风管包括安装于配电室内的硬质风管和安装于柜下电缆沟内的软质风管,所述硬质风管和软质风管密封对接;所述配电柜的下壁设置送风口,上壁设置排风口,所述软质风管与所述送风口连通;所述配电柜内安装有温度传感器,所述温度传感器控制所述空调及送风系统的启停。2.根据权利要求1所述的配电室配电柜节能控温系统,其特征在于,所述硬质风管贴着墙壁安装或者通过吊架安装。3.根据权利要求2所述的配电室配电柜节能控温系统,其特征在于,所述硬质风管为复合材料风管。4.根据权利要求1所述的配电室配电柜节能控温系统,其特征在于,所述软质风管吊装在所述配电柜下方。5.根据权利要求4所述的配电室配...
【专利技术属性】
技术研发人员:张元,陶新伟,
申请(专利权)人:中国医药集团联合工程有限公司,
类型:新型
国别省市:湖北,42
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