A variable type water storage device. The supporting plate is transversely arranged in the box body, the worm wheel is arranged on the supporting plate, the hub of the worm wheel is connected with the through hole of the supporting plate, the shaft hole of the worm wheel is arranged with the spline hole structure, and the plug is arranged above the worm wheel and corresponding to the water inlet pipe on the box cover. The buoy is arranged in the box body and under the supporting plate, and the nut is arranged in the longitudinal central axis position of the buoy. The drive shaft is composed of a spline shaft and a screw shaft in series. The upper shaft head, a spline shaft and a screw shaft of the drive shaft are connected with the plug head, the spline hole on the worm wheel and the nut on the buoy respectively. The worm is connected to the rotating shaft and meshes with the worm wheel. The front and rear axle heads of the rotating shaft are respectively connected with the front and rear axles of the box body. When the capacity is adjusted, the rotating shaft drives the transmission shaft through the worm and worm wheel, and the transmission shaft can adjust the height and low position of the buoy in the box body through the screw shaft. When the buoy controls the height and low position of the water level in the box body through the transmission shaft and the plug, the capacity of the box body can be changed accordingly.
【技术实现步骤摘要】
变量式储水器
本技术涉及一种储水容器,尤其是能改变内部容量大小的变量式储水器。
技术介绍
目前,公知的储水容器由于内部空间固定不变,因此其容量的大小也不能变化。
技术实现思路
为了克服现有的储水容器其容量大小不能变化的不足,本技术提供一种变量式储水器,该变量式储水器能通过调整内部浮筒的位置,从而改变其容量的大小。本技术解决其技术问题所采用的技术方案是:本技术包括箱体、箱盖、进水管、排水阀、堵头、蜗轮、蜗杆、支承板、轴承座、转轴、调节钮、传动轴、浮筒和螺母。箱体为矩形桶体结构,箱盖连接在箱体的上端口上,进水管垂直连接在箱盖上并与箱体连通,排水阀连接在箱体的底板上,在箱体的前箱板上开设有轴孔,在箱体的后箱板上设置有轴承座。支承板横向设置在箱体中,支承板的前后端头分别与箱体的前后箱板连接,在支承板上开设有与进水管同轴线的通孔,蜗轮设置在支承板上,蜗轮的轮毂与支承板上的通孔连接并通过卡圈限位,蜗轮的轴孔设置为花键孔结构,堵头设置在蜗轮的上方并与进水管相对应。浮筒设置在箱体中并位于支承板的下方,所述的浮筒为倒置的矩形桶体结构,螺母设置在浮筒的纵向中轴线位置。传动轴由花键轴和螺杆轴上下串联构成,传动轴的上端轴头与堵头连接,传动轴上的花键轴与蜗轮上的花键孔连接,传动轴上的螺杆轴与浮筒上的螺母连接。蜗杆连接在转轴上并与蜗轮啮合,转轴的后轴头与箱体后箱板上的轴承座轴连接,转轴的前轴颈与箱体前箱板上轴孔轴连接,转轴的前轴头与位于箱体外部的调节钮连接。向箱体中注水时,浮筒即可随箱体中水位的上升而上浮,并直到浮筒通过传动轴驱动堵头封闭进水管为止。当调节钮通过转轴驱动蜗杆和蜗轮时,蜗轮 ...
【技术保护点】
1.一种变量式储水器,包括箱体、进水管、排水阀、堵头、传动轴、浮筒、蜗轮、蜗杆、转轴和调节钮,其特征是:箱体为矩形桶体结构,箱盖连接在箱体的上端口上,进水管垂直连接在箱盖上并与箱体连通,在箱体的前箱板上开设有轴孔,在箱体的后箱板上设置有轴承座,支承板横向设置在箱体中,支承板的前后端头分别与箱体的前后箱板连接,在支承板上开设有与进水管同轴线的通孔,蜗轮设置在支承板上,蜗轮的轮毂与支承板上的通孔连接并通过卡圈限位,蜗轮的轴孔设置为花键孔结构,堵头设置在蜗轮的上方并与进水管相对应,浮筒设置在箱体中并位于支承板的下方,螺母设置在浮筒的纵向中轴线位置,传动轴由花键轴和螺杆轴上下串联构成,传动轴的上端轴头与堵头连接,传动轴上的花键轴与蜗轮上的花键孔连接,传动轴上的螺杆轴与浮筒上的螺母连接,蜗杆连接在转轴上并与蜗轮啮合,转轴的后轴头与箱体后箱板上的轴承座轴连接,转轴的前轴颈与箱体前箱板上轴孔轴连接。
【技术特征摘要】
1.一种变量式储水器,包括箱体、进水管、排水阀、堵头、传动轴、浮筒、蜗轮、蜗杆、转轴和调节钮,其特征是:箱体为矩形桶体结构,箱盖连接在箱体的上端口上,进水管垂直连接在箱盖上并与箱体连通,在箱体的前箱板上开设有轴孔,在箱体的后箱板上设置有轴承座,支承板横向设置在箱体中,支承板的前后端头分别与箱体的前后箱板连接,在支承板上开设有与进水管同轴线的通孔,蜗轮设置在支承板上,蜗轮的轮毂与支承板上的通孔连接并通过卡圈限位,蜗轮的轴孔设置为花键孔结构,堵头设置在蜗轮的上方并与进水管相对应,浮筒设置在箱体中并位于支承板的下方,螺母设置...
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