The utility model relates to a direct flushing and flushing structure of a toilet and a washing air storage tank. The second opening valve is opened first, water is stored in the air storage tank, and the air in the air storage tank is compressed by water storage, and pressure will be produced. When the water level sensor detects that the height of the water level in the air pressure tank reaches the predetermined height, the signal opened by the third switch valve is opened, and the third switch valve opens and begins to be washed. During the washing process, when the water pressure is large, the water in the air pressure tank will continue to be stored, and the pressure of a part of the water can be spread out, so that the washing water will not be spatter because of the excessive pressure. After a certain time of washing, the second turn off valve is closed, the first switch valve is opened, and the auxiliary punching water is started. The water in the air pressure tank continues to wash the inner wall of the inner bladder under the action of pressure, and the washing and auxiliary washing are carried out at the same time, and the water will be cleaned more cleanly, and the water of the inner gallbladder will not dry, which can effectively prevent the auxiliary punching. Water can sputter, and also reduce the noise of auxiliary flushing. One
【技术实现步骤摘要】
马桶及其洗刷空气储压箱直冲冲水结构
本技术涉及马桶
,特别是涉及一种马桶及其洗刷空气储压箱直冲冲水结构。
技术介绍
马桶的专利技术被称为一项伟大的专利技术,随着人们生活品质的提高,马桶进入大多数家庭,人们对马桶的要求也越来越高。大多数的马桶属于抽水马桶,目前的抽水马桶的冲水原理基本是直落式和虹吸式两种大类。传统的直落式马桶是利用水箱内的水流下落的冲力来排出排泄物,一般便池壁较陡,存水面积较小,这样水力集中,便圈周围落下的水力加大,冲污效率高,但冲水噪声大,清洁能力较差。传统的虹吸式马桶的排水管道呈“∽”型,水箱内的水流入排水管道,使排水管道充满水后会产生一定的水位差,借冲洗水在便池内的排污管内产生的吸力将排泄物排走,但在冲水过程中容易堵塞管道,且生产工艺比较复杂。传统直落式马桶和虹吸式马桶都是通过预先将水抽入水箱内,通过水箱内的水进行冲洗,不利于节约水资源。因此,自来水直冲式马桶应运而生。目前,大多数自来水直冲式马桶,由于自来水的水量有限,得先打开洗刷开关阀洗刷,然后洗刷开关阀关闭,打开辅冲开关阀开始辅冲,把内胆的污物推出。内胆的污物连同洗刷水、辅冲水推出后,内胆没有洗刷水补给会干,辅冲时产生的噪音较大。另外,辅冲的过程中内胆没办法继续洗刷,内胆上面会沾有污物排不走,没有洗刷水往下压,也会造成辅冲水溅的可能。
技术实现思路
基于此,有必要针对上述技术问题,提供一种洗刷与辅冲可同时进行的马桶及其洗刷空气储压箱直冲冲水结构。一种洗刷空气储压箱直冲冲水结构,包括:进水管,一端用于与供水管相连通;马桶本体,设有内胆、洗刷管道、辅冲管道及虹吸管道,所述洗刷管道的一端与 ...
【技术保护点】
1.一种洗刷空气储压箱直冲冲水结构,其特征在于,包括:
【技术特征摘要】
1.一种洗刷空气储压箱直冲冲水结构,其特征在于,包括:进水管,一端用于与供水管相连通;马桶本体,设有内胆、洗刷管道、辅冲管道及虹吸管道,所述洗刷管道的一端与所述进水管的另一端相连通,所述洗刷管道的另一端位于所述内胆的内壁的上端,所述辅冲管道的一端与所述进水管的另一端相连通,所述辅冲管道的另一端位于所述内胆的底部,所述洗刷管道与所述辅冲管道并联设置,所述虹吸管道的一端与所述内胆的底部相连通,所述虹吸管道的另一端贯穿所述马桶本体的底部;空气储压箱,设置于所述洗刷管道上且与所述洗刷管道相连通;水位传感器,用于检测所述空气储压箱内的水位高度;第一开关阀、第二开关阀及第三开关阀,所述第一开关阀设置于所述辅冲管道上,所述第二开关阀与所述第三开关阀设置于所述洗刷管道上,且分别位于所述空气储压箱的两侧。2.根据权利要求1所述的洗刷空气储压箱直冲冲水结构,其特征在于,所述空气储压箱的内部设置有隔板,所述隔板将所述空气储压箱分隔成第一腔体及第二腔体,所述第一腔体分别与所述进水管、所述洗刷管道相连通,所述隔板上开设有缺口...
【专利技术属性】
技术研发人员:李文明,张成,虞勇利,黄建芳,
申请(专利权)人:深圳市博电电子技术有限公司,
类型:新型
国别省市:广东,44
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