CN113453518A - 一种提高换热效率的液冷散热器及液冷散热器系统 - Google Patents

一种提高换热效率的液冷散热器及液冷散热器系统 Download PDF

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CN113453518A
CN113453518A CN202110791257.3A CN202110791257A CN113453518A CN 113453518 A CN113453518 A CN 113453518A CN 202110791257 A CN202110791257 A CN 202110791257A CN 113453518 A CN113453518 A CN 113453518A
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黄崇贤
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Abstract

本发明公开一种提高换热效率的液冷散热器及液冷散热器系统,包括VC均热板、隔液盖以及壳体;所述壳体具有冷液入口和热液出口;所述VC均热板与壳体的底部之间围构形成容置腔,所述隔液盖罩设于VC均热板上以将容置腔分隔形成冷液腔和热液腔,所述冷液入口和热液出口分别连通冷液腔和热液腔,所述隔液盖的顶部开设有连通冷液腔和隔液盖内部之间的第一槽孔;所述隔液盖的周侧底部设置有连通热液腔和隔液盖内部之间的第二槽孔;冷液经冷液入口流入冷液腔,然后经第一槽孔流入隔液盖内部,冷液吸收VC均热板的热量变为热液,热液经第二槽孔流入热液腔,再经热液出口流出壳体。如此,通过VC均热板的设置,大幅提升液冷散热器的换热效率,实现快速散热。

Description

一种提高换热效率的液冷散热器及液冷散热器系统
技术领域
本发明涉及散热器领域技术,尤其是指一种提高换热效率的液冷散热器及液冷散热器系统。
背景技术
目前的液冷散热器通常包括有散热底座、内盖体、叶轮、下壳体以及马达等,其利用散热底座吸收发热元器件的热量,流入液冷头的冷液吸收散热底座的热量变成热液后,热液从液冷头排出散热成为冷液后回流至液冷头内循环吸热。在实际使用时,对于急需快速散热的产品而言,其散热效率难以满足使用需求,导致散热效果不理想。
因此,申请人精心研究了一种新的技术方案来解决上述问题。
发明内容
有鉴于此,本发明针对现有技术存在之缺失,其主要目的是提供一种提高换热效率的液冷散热器及液冷散热器系统,其通过VC均热板的设置,大幅提升液冷散热器的换热效率,实现快速散热。
为实现上述目的,本发明采用如下之技术方案:
一种提高换热效率的液冷散热器,包括VC均热板、隔液盖以及壳体;其中:
所述壳体具有冷液入口和热液出口;所述VC均热板与壳体的底部之间围构形成容置腔,所述隔液盖罩设于VC均热板上以将容置腔分隔形成冷液腔和热液腔,所述冷液入口和热液出口分别连通冷液腔和热液腔,所述隔液盖的顶部开设有连通冷液腔和隔液盖内部之间的第一槽孔;所述隔液盖的周侧底部设置有连通热液腔和隔液盖内部之间的第二槽孔;
冷液经冷液入口流入冷液腔,然后经第一槽孔流入隔液盖内部,冷液吸收VC均热板的热量变为热液,热液经第二槽孔流入热液腔,再经热液出口流出壳体。
作为一种优选方案,所述第二槽孔分别设置于隔液盖的四周。
作为一种优选方案,所述VC均热板具有向上凸起的凸包,所述凸包内设置有真空腔体,所述真空腔体的内壁具有毛细结构;所述隔液盖罩设于凸包上,冷液流入隔液盖内部后,冷液吸收VC均热板的凸包表面的热量变为热液。
作为一种优选方案,所述VC均热板具有位于凸包外周的上侧平面,所述上侧平面经第一密封圈与壳体的底部密封接触,同时,所述上侧平面与壳体的底部相定位并通过螺丝锁固,所述螺丝的锁固位置位于第一密封圈的外周。
作为一种优选方案,所述壳体上方设置有液泵腔,所述液泵腔内装设有液泵;冷液从冷液入口流入液泵腔,经液泵的叶轮转动作用后,冷液从液泵腔的周侧流出并向下流入隔液盖的第一槽孔。
作为一种优选方案,所述冷液腔居中设置于VC均热板的凸包上方。
一种液冷散热器系统,包括有液冷排、连接于液冷排的冷液进液管和热液出液管,还包括有前面任一项所述的一种提高换热效率的液冷散热器;所述冷液进液管连接至所述冷液入口,所述热液出液管连接至所述热液出口;
冷液进液管内的冷液经冷液入口流入壳体内,冷液吸收VC均热板的热量变为热液,热液经热液出口流出壳体并经热液出液管流至液冷排,液冷排将热液的热量散发至外界变为冷液,冷液再次流入冷液进液管形成循环,循环动力由液泵提供。
本发明与现有技术相比具有明显的优点和有益效果,具体而言,由上述技术方案可知:其主要是通过VC均热板的设置,大幅提升液冷散热器的换热效率,实现快速散热,更好地满足产品散热需求,尤其是能够满足急需快速散热的产品的散热效率要求,确保理想的散热效果;
以及,VC均热板与隔液盖以及壳体的结构设计巧妙合理,结合进液、换热、出液整个液体流向,从隔液盖的四周排出热液,确保冷液与VC均热板的凸包表面充分接触、快速换热。
为更清楚地阐述本发明的结构特征和功效,下面结合附图与具体实施例来对本发明进行详细说明。
附图说明
图1是本发明之较佳实施例的立体示图;
图2是本发明之较佳实施例的俯视图;
图3是本发明之较佳实施例的分解示图;
图4是本发明之较佳实施例的截面示图(显示液流向);
图5是本发明之较佳实施例的隔液盖、VC均热板的截面示图;
图6是本发明之较佳实施例的隔液盖、VC均热板的俯视图;
图7是本发明之较佳实施例的隔液盖另一种结构情形示图;
图8是本发明之较佳实施例的壳体立体示图;
图9是本发明之较佳实施例的一种提高换热效率的液冷散热器与液冷排连接使用的液冷散热器系统示图;
图10是本发明之另一较佳实施例的立体示图;
图11是本发明之另一较佳实施例的截面示图;
图12是本发明之另一较佳实施例的分解示图;
图13是本发明之另一较佳实施例的壳体立体示图。
附图标识说明:
VC均热板10
凸包11
毛细结构111
真空腔体112
上侧平面12
隔液盖20
第一槽孔21
第二槽孔22
隔液盖内部23
第一条形凹槽201
第二条形凹槽202
第三条形凹槽203
壳体30
冷液入口31
热液出口32
液泵腔301
第一密封圈40
冷液腔51
热液腔52
第二密封圈60
螺丝70
液泵80
上盖90
脚架组件100
液冷排200
冷液进液管300
热液出液管400。
具体实施方式
请参照图1至图13所示,其显示出了本发明之多种较佳实施例的具体结构。
首先,请参照图1至图8所示,一种提高换热效率的液冷散热器,包括有VC均热板10、隔液盖20以及壳体30;其中:
所述壳体30具有冷液入口31和热液出口32;
所述VC均热板10安装于壳体30的底部,所述VC均热板10与壳体30之间围构形成容置腔50,所述VC均热板10的上侧表面周缘与壳体30之间夹设有第一密封圈40;
所述隔液盖20罩设于VC均热板10上,所述隔液盖20将容置腔50分隔形成有彼此密闭的冷液腔51和热液腔52,所述冷液入口31和热液出口32分别连通冷液腔51和热液腔52,所述隔液盖20的顶部开设有连通冷液腔51和隔液盖内部23之间的第一槽孔21;所述隔液盖20的周侧底部设置有连通热液腔52和隔液盖内部23之间的第二槽孔22,所述隔液盖20的上侧表面周缘与壳体30之间夹设有第二密封圈60;
冷液经冷液入口31流入冷液腔51,然后经第一槽孔21流入隔液盖内部23,冷液吸收VC均热板10的热量变为热液,热液经隔液盖20周侧底部的第二槽孔22流出并流入热液腔52,热液腔52的热液经热液出口32流出壳体30。
优选地,所述第二槽孔22分别设置于隔液盖20的四周以使隔液盖20的四周排出热液。在实际设计时,所述第二槽孔22为若干密布的小孔或者沿隔液盖20的周边延伸的长形孔(请对比图3和图7所示)。
如图3和图5所示,所述VC均热板10具有向上凸起的凸包11,所述凸包11内设置有真空腔体112,所述真空腔体112的内壁具有毛细结构111,所述毛细结构111可以指一些凸凹纹理。所述隔液盖20罩设于凸包11上,冷液流入隔液盖内部23后,冷液吸收VC均热板10的凸包11表面的热量变为热液。优选地,所述冷液腔51居中设置于VC均热板10的凸包11上方。
通常,所述VC均热板10的底部为平面。所述VC均热板10具有位于凸包11外周的上侧平面12,所述上侧平面12经第一密封圈40与壳体30的底部密封接触,同时,所述上侧平面12与壳体30的底部相定位并通过螺丝70锁固,所述螺丝70的锁固位置处于第一密封圈40的外周。
本实施例中,所述壳体30上方设置有液泵腔301,在壳体30的顶部装设有上盖90用于封住液泵腔301。所述液泵腔301内装设有液泵80,所述液泵腔301的底部具有连通冷液入口31、液泵腔301之间的通孔;冷液从通孔内向上抽吸流入液泵腔301,经液泵的叶轮作用后,冷液从液泵腔301的周侧流出并向下流入隔液盖20的第一槽孔21。通常,所述冷液入口31和热液出口32处于相同液平高度。
在壳体30的底部对应热液腔52设置有条形凹槽,例如:在隔液盖20的四周的三边各布置一条形凹槽,定义为第一条形凹槽201、第二条形凹槽202及第三条形凹槽203,所述第一条形凹槽201沿热液流向衔接贯通于第二条形凹槽202的一端,所述第二条形凹槽202的另一端与第三条形凹槽203的一端共同交汇连通至热液出口32;所述第一条形凹槽201、第二条形凹槽202及第三条形凹槽203的内顶面均为沿热液流向渐高式倾斜设置,以使热液腔52的热液可以经第一条形凹槽201、第二条形凹槽202及第三条形凹槽203导流,热液腔52的截流面积沿热液流向是渐大设置的,也有利于热流的快速流出。
以及,在壳体30的底部两侧分别装设有脚架组件100,便于整个液冷散热器的安装应用。
请参照图9所示,一种液冷散热器系统,包括有液冷排200、连接于液冷排的冷液进液管300和热液出液管400,还包括有上述的提高换热效率的液冷散热器;所述冷液进液管300连接至所述的冷液入口31,所述热液出液管400连接至所述的热液出口32;
冷液进液管300内的冷液经冷液入口31流入壳体30内,冷液吸收VC均热板10的热量变为热液,热液经热液出口32从壳体30流出并经热液出液管400流至液冷排200,液冷排200将热液的热量散发至外界变为冷液,冷液再次流入冷液进液管300形成循环,循环动力由液泵80提供。
接着,请参照图10至图13所示,其显示了另一较佳实施例的具体结构,其主要结构与上述实施例相同,主要区别在于:本实施例中,在壳体30’内未设置液泵,因此,壳体30’的结构相对较为简单。 同样地,图10所示的一种提高换热效率的液冷散热器,也可与液冷排、冷液进液管和热液出液管形成液冷散热器系统,只需在图10所示的一种提高换热效率的液冷散热器的外部设置液泵即可,液泵的设置位置可灵活选择,不作限制。
本发明的设计重点在于,其主要是通过VC均热板的设置,大幅提升液冷散热器的换热效率,实现快速散热,更好地满足产品散热需求,尤其是能够满足急需快速散热的产品的散热效率要求,确保理想的散热效果;
以及,VC均热板与隔液盖以及壳体的结构设计巧妙合理,结合进液、换热、出液整个液体流向,从隔液盖的四周排出热液,确保冷液与VC均热板的凸包表面充分接触、快速换热。

Claims (7)

1.一种提高换热效率的液冷散热器,其特征在于:包括VC均热板、隔液盖以及壳体;其中:
所述壳体具有冷液入口和热液出口;所述VC均热板与壳体的底部之间围构形成容置腔,所述隔液盖罩设于VC均热板上以将容置腔分隔形成冷液腔和热液腔,所述冷液入口和热液出口分别连通冷液腔和热液腔,所述隔液盖的顶部开设有连通冷液腔和隔液盖内部之间的第一槽孔;所述隔液盖的周侧底部设置有连通热液腔和隔液盖内部之间的第二槽孔;
冷液经冷液入口流入冷液腔,然后经第一槽孔流入隔液盖内部,冷液吸收VC均热板的热量变为热液,热液经第二槽孔流入热液腔,再经热液出口流出壳体。
2.根据权利要求1所述的一种提高换热效率的液冷散热器,其特征在于:所述第二槽孔分别设置于隔液盖的四周。
3.根据权利要求1或2所述的一种提高换热效率的液冷散热器,其特征在于:所述VC均热板具有向上凸起的凸包,所述凸包内设置有真空腔体,所述真空腔体的内壁具有毛细结构;所述隔液盖罩设于凸包上,冷液流入隔液盖内部后,冷液吸收VC均热板的凸包表面的热量变为热液。
4.根据权利要求3所述的一种提高换热效率的液冷散热器,其特征在于:所述VC均热板具有位于凸包外周的上侧平面,所述上侧平面经第一密封圈与壳体的底部密封接触,同时,所述上侧平面与壳体的底部相定位并通过螺丝锁固,所述螺丝的锁固位置位于第一密封圈的外周。
5.根据权利要求1所述的一种提高换热效率的液冷散热器,其特征在于:所述壳体上方设置有液泵腔,所述液泵腔内装设有液泵;冷液从冷液入口流入液泵腔,经液泵的叶轮转动作用后,冷液从液泵腔的周侧流出并向下流入隔液盖的第一槽孔。
6.根据权利要求3所述的一种提高换热效率的液冷散热器,其特征在于:所述冷液腔居中设置于VC均热板的凸包上方。
7.一种液冷散热器系统,其特征在于:包括有液冷排、连接于液冷排的冷液进液管和热液出液管,还包括有如权利要求1至6中任一项所述的一种提高换热效率的液冷散热器;所述冷液进液管连接至所述冷液入口,所述热液出液管连接至所述热液出口;
冷液进液管内的冷液经冷液入口流入壳体内,冷液吸收VC均热板的热量变为热液,热液经热液出口流出壳体并经热液出液管流至液冷排,液冷排将热液的热量散发至外界变为冷液,冷液再次流入冷液进液管形成循环,循环动力由液泵提供。
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