CN111637578A - 一种全热新风除湿净化一体机 - Google Patents
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Abstract
一种全热新风除湿净化一体机,包括:壳体,壳体上设有室内回风口,室内送风口,室外新风口,室外排风口;壳体内与室外新风口连接配合设有新风风阀,与室外排风口连接配合设有排风风机,与室内送风口配合设有送风风机,壳体内另设有热交换芯体及其与配合的初效滤网、中效滤网及高效滤网,内循环旁通阀,除湿模块;上述各部件配合形成三种循环通道分别为:新风通道,新风除湿通道及内循环通道;将新风机与除湿机结合在一起,使该机不但具有除湿的功能,也具有新风机的功能,比原有的单向流新风除湿机组更节能,更便利,提高了人们的生活品质。
Description
技术领域:
本发明属于新风空调领域,涉及一种全热新风除湿净化一体机。
背景技术:
随着全球变暖及环境污染的日趋严重,人们对新风机及除湿机的需求越来越大,很多场所都既要装除湿机又要装新风机,不但占用空间大,需要连接线路多,影响美观,安全性也降低。
例如图6所示,也有新风除湿机,但其为单向流新风除湿机组,没有热交换功能,只有除湿功能。原理:除湿模式:当环境湿度传感器检测到环境湿度过高,送风机开启,压缩机开启;室内回风(潮湿空气)与室外新风经过初效滤网和高效滤网过滤净化后被送风机送入到室内,达到室内所需的效果。当环境湿度探头检测到环境湿度达到设定值的某个设定范围时,压缩机自动关闭停止工作;除湿后的冷凝器水通过水管排出室外;此时风机继续开启,起到引入新风功能。
发明内容:
针对现有技术中存在的缺陷,本发明提供一种结构简单,安装方便的全热新风除湿净化一体机组。
为实现上述目的,本发明技术方案为:
一种全热新风除湿净化一体机,包括:壳体,壳体上设有室内回风口,室内送风口,室外新风口,室外排风口;壳体内与室外新风口连接配合设有新风风阀,与室外排风口连接配合设有排风风机,与室内送风口配合设有送风风机,壳体内另设有热交换芯体及其与配合的初效滤网、中效滤网及高效滤网,内循环旁通阀,除湿模块;上述各部件配合形成三种循环通道,通道间通过隔板分隔,三种循环通道分别为:新风通道,新风除湿通道及内循环通道;其中,新风通道:室外新风通过室外新风口及新风阀进入壳体内,进而依次通过中效滤网、热交换芯体、高效滤网、未开启的除湿模块、送风风机,室内送风口进入室内;室内空气通过室内回风口进入壳体内,进而通过初效滤网进入全热交换芯体,并通过排风风机从室外排风口排出室外,室外新风与室内回风在热交换芯体内完成热交换;新风除湿通道:室外新风通过室外新风口及新风阀进入壳体内,进而依次通过中效滤网、热交换芯体、高效滤网、开启的除湿模块、送风风机,室内送风口进入室内;室内空气通过室内回风口进入壳体内,进而通过初效滤网进入全热交换芯体,并通过排风风机从室外排风口排出室外,室外新风与室内回风在热交换芯体内完成热交换;内循环通道:室内空气通过室内回风口进入壳体内,经过内循环旁通阀,再经过高效滤网净化后,通过除湿模块除湿,并通过送风风机从室内送风口送入室内。
进一步,所述的除湿模块包括依次配合的压缩机,蒸发器,冷凝器,提升泵。
进一步,所述壳体四角设有便于吊装的承重梁吊架。
进一步,所述的壳体采用钣金做成机组框架结构,壳体上设有可拆卸检修门。
采用上述技术方案,本发明相对于现有技术,壳体结构采用钣金作为机组框架,壳体上部增加可拆卸检修门,内部零部件单独模块化的设计,保证机组检修便利性。内部主要由送风机、中效过滤网、热回收芯体、高效过滤网、压缩机、除湿模块、内循环旁通阀、排风机、初效过滤网、新风旁通阀等组成,既有新风热回收功能,又有除湿功能;属于高效节能舒适产品。
主要功能如下:(1)新风模式(根据室内空气PM2.5,VOC,CO2调节风速及风机启停);(2)新风除湿模式(根据室内环室内空气PM2.5,VOC,CO2调节风速及风机启停,根据室外环境湿度开启压缩机;(3)内循环模式(根据室内空气湿度开启内旁通阀及压缩机除湿)。
其特点是将室外的新鲜新风引入,室内的浑浊空气排出,并通过热回收芯体,将室内外的空气热量进行热交换,避免排出的室内空气热量损失过大,提高了引入新风的热量,起到节能效果,同时压缩机可根据室内外湿度的变化开启与关闭,保证了室内湿度;机组内置不同等级的净化滤网,保证了室内的洁净度。
将新风机与除湿机有效的整合在一起,使该机不但具有除湿机的功能,也具有新风机的功能,同时也有两者组合在一起的新风除湿功能,满足不同场所的需求,实现节能环保。
附图说明:
此处所说明的附图用来提供对本发明的进一步理解,构成本发明的一部分,本发明的示意性实施例及其说明用于解释本发明,并不构成对本发明的不当限定。在附图中:
图1为本发明的立体结构示意图一;
图2为本发明的立体结构示意图二;
图3为本发明的俯视结构示意图;
图4为本发明的主视结构示意图;
图5为本发明的俯视空气流向示意图;
图6为本发明现在技术结构示意图。
具体实施方式:
为了使本发明所要解决的技术问题、技术方案及有益效果更加清楚、明白,以下结合附图和实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅用以解释本发明,并不用于限定本发明。
如图1-5所示,为本发明实施例。
一种全热新风除湿净化一体机,包括:壳体1,壳体上设有室内回风口11,室内送风口12,室外新风口13,室外排风口14;壳体1内与室外新风口11连接配合设有新风风阀15,与室外排风口14连接配合设有排风风机16,与室内送风口12配合设有送风风机17,壳体1内另设有热交换芯体2及其与配合的初效滤网3、中效滤网4及高效滤网5,内循环旁通阀6,除湿模块7;上述各部件配合形成三种循环通道,通道间通过隔板8分隔,三种循环通道分别为:新风通道A,新风除湿通道B及内循环通道C;其中,新风通道A:室外新风通过室外新风口13及新风阀15进入壳体1内,进而依次通过中效滤网4、热交换芯体2、高效滤网5、未开启的除湿模块7、送风风机17,室内送风口12进入室内;室内空气通过室内回风口11进入壳体1内,进而通过初效滤网3进入全热交换芯体2,并通过排风风机16从室外排风口14排出室外,室外新风与室内回风在热交换芯体2内完成热交换;新风除湿通道B:室外新风通过室外新风口13及新风阀进入壳体1内,进而依次通过中效滤网4、热交换芯体2、高效滤网5、开启的除湿模块7、送风风机17,室内送风口12进入室内;室内空气通过室内回风口11进入壳体1内,进而通过初效滤网3进入全热交换芯体2,并通过排风风机16从室外排风口14排出室外,室外新风与室内回风在热交换芯体2内完成热交换;内循环通道C:室内空气通过室内回风口11进入壳体1内,经过内循环旁通阀6,再经过高效滤网5净化后,通过开启的除湿模块除湿7,并通过送风17风机从室内送风口12送入室内。
具体的,所述的除湿模块7包括依次配合的压缩机71,蒸发器72,冷凝器73,提升泵74。
所述壳体四角设有便于吊装的承重梁吊架9。壳体采用钣金做成机组框架结构,壳体上设有可拆卸检修门。
工作时:
(1)新风模式:当室内的环境检测仪检测到室内环境质量(PM2.5,VOC,CO2等)差时,机组自动开启,此时新风风阀(电动)打开,内旁通风阀关闭,送风风机(AC/EC)开启,排风风机(AC/EC)开启,室内新风和室内回风分别经过新风中效过滤网和回风初效过滤网后过滤后同时经过热回收芯体,将引入的室外新风和排出的室内回风进行热交换,室内回风直接通过风机(AC/EC)排出室外,而室外新风再经过高效滤网过滤净化,再经过除湿模块(此模式下压缩机不开启),最后被送风机送入到室内。当室内环境检测仪检测到室内环境质量(PM2.5,VOC,CO2等)达到设定值某个范围值时会自动调节新风风机和排风风机风速,减小能耗,低于设定值时自动关闭新风风机和排风风机。
(2)新风除湿模式:当室内的环境质量传感器检测到室内环境质量(PM2.5,VOC,CO2等)差时,机组自动开启,此时新风旁通风阀(电动)打开,内循环旁通阀关闭,送风风机(AC/EC)开启,排风风机(AC/EC)开启;当环境湿度传感器检测到室外环境湿度过高,压缩机开启;室外新风和室内回风分别经过中效过滤网和初效过滤网过滤后同时经过热回收芯体,将引入的室外新风和排出的室内回风进行热交换,室内回风直接通过排风风机(AC/EC)排除室外,而室外新风(潮湿空气)再经过除湿模块除湿后被送风机送入到室内,达到室内所需的效果;当室内环境检测仪检测到室内环境质量(PM2.5,VOC,CO2等)达到设定值某个范围值时会自动调节送风风机和排风风机风速,减小能耗,低于设定值时自动关闭风机;而环境湿度探头检测到环境湿度达到设定值的某个设定范围时,压缩机自动关闭停止工作;除湿后的冷凝器水经过提升泵排出室外。
(3)内循环模式:当环境湿度传感器检测到环境湿度过高,送风机开启,排风机关闭,新风旁通阀关闭,内循环旁通阀开启,压缩机开启;室内回风(潮湿空气)经过内循环旁通阀进入高效滤网过滤净化后再经过除湿模块除湿后被送风机送入到室内,达到室内所需的效果。当环境湿度探头检测到环境湿度达到设定值的某个设定范围时,压缩机自动关闭停止工作;除湿后的冷凝器水经过水泵排出室外。
本发明将新风机与除湿机有效的整合在一起,既有新风与排风热交换功能,又有除湿功能,属于多功能一体机。比原有的单向流新风除湿机组更节能,更便利,提高了人们的生活品质。本发明是基于模块化的设计并且同侧检修,维护检修更合理,更方便。增加了提升泵,解决了排水不通畅时引起的漏水,更合理,更智能。
上述说明示出并描述了本发明的优选实施例,如前所述,应当理解本发明并非局限于本文所披露的形式,不应看作是对其他实施例的排除,而可用于各种其他组合、修改和环境,并能够在本文所述发明构想范围内,通过上述教导或相关领域的技术或知识进行改动。而本领域人员所进行的改动和变化不脱离本发明的精神和范围,则都应在本发明所附权利要求的保护范围内。
Claims (4)
1.一种全热新风除湿净化一体机,其特征在于:包括:壳体,壳体上设有室内回风口,室内送风口,室外新风口,室外排风口;壳体内与室外新风口连接配合设有新风风阀,与室外排风口连接配合设有排风风机,与室内送风口配合设有送风风机,壳体内另设有热交换芯体及其与配合的初效滤网、中效滤网及高效滤网,内循环旁通阀,除湿模块;上述各部件配合形成三种循环通道,通道间通过隔板分隔,三种循环通道分别为:新风通道,新风除湿通道及内循环通道;其中,新风通道:室外新风通过室外新风口及新风阀进入壳体内,进而依次通过中效滤网、热交换芯体、高效滤网、未开启的除湿模块、送风风机,室内送风口进入室内;室内空气通过室内回风口进入壳体内,进而通过初效滤网进入全热交换芯体,并通过排风风机从室外排风口排出室外,室外新风与室内回风在热交换芯体内完成热交换;新风除湿通道:室外新风通过室外新风口及新风阀进入壳体内,进而依次通过中效滤网、热交换芯体、高效滤网、开启的除湿模块、送风风机,室内送风口进入室内;室内空气通过室内回风口进入壳体内,进而通过初效滤网进入全热交换芯体,并通过排风风机从室外排风口排出室外,室外新风与室内回风在热交换芯体内完成热交换;内循环通道:室内空气通过室内回风口进入壳体内,经过内循环旁通阀,再经过高效滤网净化后,通过除湿模块除湿,并通过送风风机从室内送风口送入室内。
2.如权利要求1所述的一种全热新风除湿净化一体机,其特征在于:所述的除湿模块包括依次配合的压缩机,蒸发器,冷凝器,提升泵。
3.如权利要求2所述的一种全热新风除湿净化一体机,其特征在于:所述壳体四角设有便于吊装的承重梁吊架。
4.如权利要求1、2或3所述的一种全热新风除湿净化一体机,其特征在于:所述的壳体采用钣金做成机组框架结构,壳体上设有可拆卸检修门。
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CN112283842A (zh) * | 2020-11-17 | 2021-01-29 | 南京宇洁环境系统技术有限公司 | 一种模块化新风机 |
CN114484669A (zh) * | 2022-01-27 | 2022-05-13 | 赫为科技有限公司 | 一种室内空气控制净化装置 |
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CN112283842A (zh) * | 2020-11-17 | 2021-01-29 | 南京宇洁环境系统技术有限公司 | 一种模块化新风机 |
WO2023050890A1 (zh) * | 2021-09-30 | 2023-04-06 | 中兴通讯股份有限公司 | 间接蒸发冷却空调系统及其控制方法、空调控制装置 |
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