CN105967317A - 水流式水体净化增氧装置 - Google Patents
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Abstract
本发明公开了水流式水体净化增氧装置,包括臭氧发生器、进气管、高压水泵、高压喷嘴和导水管,所述高压水泵出水口密封连通高压喷嘴,高压喷嘴出水口连接导水管,高压喷嘴出水口外周与导水管周壁形成的间隙构成回水对流口,所述臭氧发生器通过进气管密封连通高压喷嘴,所述高压喷嘴为锥体,其出水口截面积小于进水口截面积。本发明利用自然水流产生负压,将臭氧和空气吸入,并与水通过高压喷水器向四周雾化喷出,河塘整体形成一个大的回流过程,溶解氧全面渗透至每个死角,形成立体化增氧,提升水体杀菌增氧的效果。
Description
技术领域
本发明涉及水体净化处理设备领域,具体涉及水流式水体净化增氧装置。
背景技术
养殖水域一般是闭塞水域,几乎无水流,水体净化一般采用增氧机机械压送增氧配合好氧性菌体吸收分解,送氧只处于某一局部区域,压送的氧气在水体中的分散面积决定了溶解于水中氧气多少,直接影响了水体净化的效果。
现在臭氧运用于水体净化已得到认同,但臭氧分子结构极不稳定,它在水中比在空气中更容易自行分解、逸出,因此送入水体后臭氧与水体的接触面越大杀菌效果越好。现有技术中利用于气泵将臭氧充送到水里,不仅消耗动力,而且臭氧在水体中局部释放,很难向四周方向扩展,未及充分溶解杀菌即从水和空气的界面上逸出,水体净化效果大打折扣。
发明内容
本发明要解决的技术问题是提供一种水流式水体净化增氧装置,利用自然水流产生负压,将臭氧和空气吸入,并与水通过高压喷嘴向四周雾化喷出,使水体整体形成一个大的回流过程,溶解氧全面渗透至每个死角,提升水体杀菌增氧的效果。
本发明通过以下技术方案实现:
水流式水体净化增氧装置,包括臭氧发生器、进气管、高压水泵、高压喷嘴和导水管,所述高压水泵出水口密封连通高压喷嘴,高压喷嘴出水口连接导水管,高压喷嘴出水口外周与导水管周壁形成的间隙构成回水对流口,所述臭氧发生器通过进气管密封连通高压喷嘴,所述高压喷嘴为锥体,其出水口截面积小于进水口截面积。
本发明进一步改进方案是,所述高压水泵顶端出水口连通分水器,分水器四个方向的分水口分别连通高压喷嘴。同时向四个方向喷射扩散,进一步提高工作效率。
本发明更进一步改进方案是,所述导水管末端出水口安装分水轮。导水管的出水口加装分水轮,可以更好的细碎臭氧和水空气使其达到雾化水,更好地转化成氧气,向出水口外四周水域扩散,并减缓了水流冲击力,有利于保护鱼类。
本发明更进一步改进方案是,所述高压喷嘴的锥度为85°~87°。
本发明更进一步改进方案是,所述高压水泵外周设有防护网。
本发明更进一步改进方案是,装置还包括连接安装在机架上的浮体。方便装置移位于水中各个区域进行水体活化增氧,灵活性强。
本发明与现有技术相比,具有以下明显优点:
一、本发明高压水泵产生高压水流打出,经锥体高压喷嘴能够形成高压,喷出强劲水流,形成负压,将臭氧发生器产生的臭氧吸入其中,与水空气一并向装置四周喷射,可以使河湖池塘等产生水流,整体形成一个大的回流过程,溶解氧全面渗透至每个死角,形成立体化增氧;另外水流形成水体表面的波浪增加了水体表面和阳光的接触面,加快了空气中氧气的渗入;再者水体的循环流动可以有效的促进水中污染有机物的分解,水流搅动形成的曝气可以把水底的氨,氮,琉化物,亚硝酸盐等有害气体排放出来,恢复水体的自净功能,减少了鱼虾病的发生。
二、以往的机械送氧动力消耗严重,本装置利用自然水流产生负压,通过自吸输送臭氧与空气,本身就达到节能的作用,且其增氧立体化和溶氧速度快更大大缩短了开机时间,进一步节约能源。
三、本装置高压喷嘴喷射出的高压气水混合物经分水叶轮打散雾化,向外部周边水域扩散,进一步提升水体活化增氧效果;同时减缓了水流冲击力,有利于保护鱼类。
四、本装置采用优质不锈钢打造,经久耐用;封闭式的专业增氧高压水泵无需后期的保养、维修。
附图说明
图1为实施例正视结构图。
图2为实施例侧视结构图。
图3为高压喷嘴结构图。
图4为导水管结构图。
具体实施方式
如图1至图4所示,本实施例包括臭氧发生器1、进气管2、高压水泵3、分水器7、高压喷嘴4、导水管5和分水轮8,所述高压水泵3顶端出水口连通分水器7,分水器7四个方向的分水口分别密封连通高压喷嘴4,高压喷嘴4出水口连通导水管5,高压喷嘴4出水口外周与导水管5周壁形成的间隙构成回水对流口6,导水管5末端出水口安装分水轮8,所述臭氧发生器1通过进气管2分路密封连通各高压喷嘴4。所述高压喷嘴4为锥体,锥度为85°~87°,其出水口截面积小于进水口截面积。
气体与水流如图1中箭头方向示出,高压水泵3产生高压水流打出,经分水器7及其四方位连接的高压喷嘴4向导水管5内喷出强劲水流,形成负压,此时根据喷射器原理真空吸引发挥作用,将空气从水面上经臭氧发生器、进气管吸入高压喷嘴4内,导水管5可以引导水流,并让水流产生回流状态,此时高压喷嘴向导水管内喷射强劲的吸引力拉动周围的水从回水对流口6一并进入,气水混合物经导水管出水口的分水轮8打散细碎,使臭氧和水空气达到雾化水向装置四周的水域横向扩散而出,增强装置在水体中作用范围,水体产生水流,整体形成一个大的回流过程,溶解氧全面渗透至每个死角,形成立体化增氧,提高装置的水体处理效率。
所述高压水泵3外周设有防护网9。
装置还包括连接安装在机架上的浮体10。增强装置的灵活性,方便装置移位于水中各个区域进行水体活化增氧。
Claims (6)
1.水流式水体净化增氧装置,其特征在于:包括臭氧发生器(1)、进气管(2)、高压水泵(3)、高压喷嘴(4)和导水管(5),所述高压水泵(3)出水口密封连通高压喷嘴(4),高压喷嘴(4)出水口连接导水管(5),高压喷嘴(4)出水口外周与导水管(5)周壁形成的间隙构成回水对流口(6),所述臭氧发生器(1)通过进气管(2)密封连通高压喷嘴(4),所述高压喷嘴(4)为锥体,其出水口截面积小于进水口截面积。
2.根据权利要求1所述的水流式水体净化增氧装置,其特征在于:所述高压水泵(3)顶端出水口连通分水器(7),分水器(7)四个方向的分水口分别连通高压喷嘴(4)。
3.根据权利要求1所述的水流式水体净化增氧装置,其特征在于:所述导水管(5)末端出水口安装分水轮(8)。
4.根据权利要求1所述的水流式水体净化增氧装置,其特征在于:所述高压喷嘴(4)的锥度为85°~87°。
5.根据权利要求1所述的水流式水体净化增氧装置,其特征在于:所述高压水泵(3)外周设有防护网(9)。
6.根据权利要求1所述的水流式水体净化增氧装置,其特征在于:装置还包括连接安装在机架上的浮体(10)。
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106315883A (zh) * | 2016-10-12 | 2017-01-11 | 杭州电子科技大学 | 适用于深水湖泊的自适应压水式曝气机 |
CN111727920A (zh) * | 2020-05-13 | 2020-10-02 | 金湖金龙祥渔业设备有限公司 | 一种鱼塘养殖用漂浮式抛料增氧智能一体机 |
WO2020232768A1 (zh) * | 2019-05-22 | 2020-11-26 | 南京森淼环保科技有限公司 | 一种基于扰流混气的微气泡增氧装置 |
CN114946744A (zh) * | 2021-12-07 | 2022-08-30 | 江西农业大学 | 一种渔业水质管理机器人 |
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