The utility model discloses a water sample collection tank which is convenient for accurate positioning, including the bottom of an aggravating bottle, the bottom of the aggravating bottle is a cylinder structure, the upper end is a water storage bottle body, the side of the water storage bottle is equipped with a tap, the upper end of the water faucet is equipped with a faucet valve, and the upper end of the water storage bottle body is tightly connected with a water storage bottle. The inner of the bottle cap of the water storage bottle is provided with a valve chug and a valve opening rope steering wheel. The upper part is provided with a water inlet valve and a recovery rope; the valve chug is a square space in the water storage bottle cap, and a water inlet pipe is provided in the middle; the water inlet pipe is connected with the bottle bottle body, and the upper end of the water storage bottle cap and the storage water are stored. The bottle fixed rope and the valve open rope are connected at the same time; the other side of the fixed rope of the water storage bottle is connected with a hollow hose; the hollow hose is a hollow cylinder with a water depth line on the wall, the upper end is provided with a water storage bottle ring, and the inside of the water storage bottle ring is provided with a valve opening ring; the valve opening ring is connected to the pipe. The valve opens the rope, which is connected to the inlet valve. The hollow hose of the utility model is provided with a water depth scale, and can accurately collect water samples according to the specific water depth.
【技术实现步骤摘要】
一种便于精准定位的水样采集罐
本技术属于水质防治设施
,具体涉及一种便于精准定位的水样采集罐。
技术介绍
我国水资源匮乏,水质的研究对于我国经济发展意义重大,水样的采集对研究又至关重要,水样质量直接影响研究结果,而水样质量与水位关系密切,有的重金属离子在底泥和水界面及水界面附近迁移中,有的则在水表面迁移,因此不同水位的水样水质差异性比较大,目前采集水样的装置有很多,但是不能针对具体深度进行水样采集,无法做到对某一水位的水样进行取样。
技术实现思路
本技术的目的在于提供一种便于精准定位的水样采集罐,以解决上述
技术介绍
中提出的水样采集器不能针对具体深度进行水样采集,从而造成影响实验结果的问题。本技术所采用的技术方案是:一种便于精准定位的水样采集罐,包括加重瓶底,其特征在于所述加重瓶底为圆柱体结构,其上端为蓄水瓶瓶身;所述蓄水瓶瓶身为圆柱体中空结构,侧面设置有水龙头;所述水龙头上端装有水龙头阀门;所述蓄水瓶瓶身上端紧连着的是蓄水瓶瓶盖,外围比蓄水瓶瓶身略大;所述蓄水瓶瓶盖的内部设有阀门卡合槽和阀门拉开绳转向轮,上部设有进水阀门和恢复绳;所述阀门卡合槽是蓄水瓶瓶盖中的一个方形空间,中间设有进水管;所述进水管连通着蓄水瓶瓶身,是一种中空管状结构,所述蓄水瓶瓶盖上端与蓄水瓶固定绳和阀门拉开绳同时相连;所述蓄水瓶固定绳的另一侧连接着中空软管;所述中空软管是空心圆柱体,管壁上设置有水深刻度线,其上端设置有蓄水瓶拉环;所述蓄水瓶拉环内侧设有阀门拉开环;所述阀门拉开环连接着阀门拉开绳,其连接着进水阀门。本技术的有益效果是:中空软管上设置有刻度线,能针对具体深度进行水样的采集 ...
【技术保护点】
1.一种便于精准定位的水样采集罐,包括加重瓶底,其特征在于所述加重瓶底为圆柱体结构,其上端为蓄水瓶瓶身;所述蓄水瓶瓶身为圆柱体中空结构,侧面设置有水龙头;所述水龙头上端装有水龙头阀门;所述蓄水瓶瓶身上端紧连着的是蓄水瓶瓶盖,外围比蓄水瓶瓶身略大;所述蓄水瓶瓶盖的内部设有阀门卡合槽和阀门拉开绳转向轮,上部设有进水阀门和恢复绳;所述阀门卡合槽是蓄水瓶瓶盖中的一个方形空间,中间设有进水管;所述进水管连通着蓄水瓶瓶身,是一种中空管状结构,所述蓄水瓶瓶盖上端与蓄水瓶固定绳和阀门拉开绳同时相连;所述蓄水瓶固定绳的另一侧连接着中空软管;所述中空软管是空心圆柱体,管壁上设置有水深刻度线,其上端设置有蓄水瓶拉环;所述蓄水瓶拉环内侧设有阀门拉开环;所述阀门拉开环连接着阀门拉开绳,其连接着进水阀门。
【技术特征摘要】
1.一种便于精准定位的水样采集罐,包括加重瓶底,其特征在于所述加重瓶底为圆柱体结构,其上端为蓄水瓶瓶身;所述蓄水瓶瓶身为圆柱体中空结构,侧面设置有水龙头;所述水龙头上端装有水龙头阀门;所述蓄水瓶瓶身上端紧连着的是蓄水瓶瓶盖,外围比蓄水瓶瓶身略大;所述蓄水瓶瓶盖的内部设有阀门卡合槽和阀门拉开绳转向轮,上部设有进水阀门和恢复绳;所述阀门卡合槽是蓄水瓶瓶盖中的一个方形空间,中间设有进水管;所述进水管连通着蓄水瓶瓶身,是一种中空管状结构,所述蓄水瓶瓶盖上端与蓄水瓶固定绳和阀门拉开绳同时相连;所述蓄水瓶固定绳的另一侧连接着中空软管;所述中空软管是空心圆柱体,管壁上设置有水深刻度线,其上端设置...
【专利技术属性】
技术研发人员:武波,郑慧铭,吴昊,
申请(专利权)人:山东科技大学,
类型:新型
国别省市:山东,37
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