A shower water rotating structure includes a main body having a water inlet and water outlet, and a rotating disk, pinion, water inclining support, impeller and rotors arranged top to bottom inside the main body; the water inclining support has inclined water inlet adapted to guide water flow to imp
A shower water rotating structure includes a main body having a water inlet and water outlet, and a rotating disk, pinion, water inclining support, impeller and rotors arranged top to bottom inside the main body; the water inclining support has inclined water inlet adapted to guide water flow to impact the impeller to rotate the impeller configured with a drive gear adapted to drive the pinion to rotate; the pinion is configured with a guide rod adapted to drive the rotating disk to rotate; the rotating disk is distributed radially with guide grooves for the staged matching with the guide rod; and a lower part of rotating disk is configured with a gear adapted to drive the rotors having an inclined water hole and capable of being rotated in the water outlet of the main body, thereby realize spray having a pulsating rotating water effect.
대표청구항▼
1. A shower water rotating structure, comprising a main body having a water inlet and a water outlet, and a rotating disk, pinion, water inclining support, impeller and rotors arranged inside said main body, said water inclining support having an inclined water inlet adapted to guide water flow to i
1. A shower water rotating structure, comprising a main body having a water inlet and a water outlet, and a rotating disk, pinion, water inclining support, impeller and rotors arranged inside said main body, said water inclining support having an inclined water inlet adapted to guide water flow to impact said impeller to rotate, said impeller further comprising a drive gear which drives said pinion to rotate, said pinion being configured with a guide rod adapted to drive said rotating disk to rotate, said rotating disk being distributed radially with guide grooves for matching with said guide rod, and a lower part of rotating disk being configured with a gear adapted to drive said rotors having an inclined water hole and capable of being rotated in said water outlet of said main body; wherein said rotating disk is a circular disk body, a projecting rod matching with a through hole is extended downward from a middle part of said circular disk body, the gear is configured on a lower end of said projecting rod, guide grooves are distributed radially on a lower surface of said circular disk body, a closed positioning seat for the positioning of said pinion is formed between each two said adjacent guide grooves, and a deep seat allowing said guide rod of said pinion to be passed through is formed between each said positioning seat and said projecting rod. 2. The structure according to claim 1, wherein an upper part of said rotating disk is further configured with a water separating disk, and a peripheral of said water separating disk is configured with water passing gaps. 3. The structure according to claim 2, wherein said water separating disk is a disk body, an upper surface of the water separating disk is formed with convex edges, notches are distributed on said convex edges, and said water passing gaps are distributed on said water separating disk outside said convex edges. 4. The structure according to claim 1, wherein a guide concave arc is formed on a periphery of the lower surface of said circular disk body between each two adjacent said guide grooves. 5. The structure according to claim 4, wherein the guide rod is configured on a matching face of said pinion with said rotating disk close to a periphery thereof, and a guide convex arc operated in coordination with said guide concave arc is configured on an opposite side to said guide rod. 6. The structure according to claim 5, wherein a positioning rod operated in coordination with said positioning seat of said rotating disk is formed on a middle part of said pinion between said guide rod and guide convex arc of said pinion, and another side of said positioning rod is formed with an engagement seat matching with said water inclining support. 7. The structure according to claim 1, wherein said water inclining support is a post cover, a middle part thereof is formed into a partitioning plate adapted to divide said post cover into an upper seat and lower seat, the middle part of said partitioning plate is configured with a matching hole allowing said drive gear of said impeller to be passed through, one side of said matching hole of said partitioning plate is configured with a projecting bar matching with said pinion, said rotating disk and pinion are accepted inside said upper seat, said impeller is accepted inside said lower seat, and said inclined water inlets are configured on a side wall of said lower seat. 8. The structure according to claim 1, wherein said drive gear in engagement with said pinion is configured on an upper part of an axle of said impeller with an engagement hole, and a periphery of a lower part of said axle is formed with leaves, said axle of said impeller allowing said projecting rod of said rotating disk to be passed through. 9. The structure according to claim 1, wherein said inclined water holes of said rotors have an included angle with a rotation axis of said rotors, and an upper end edge of said rotors is formed with a driven gear in engagement with said gear of said rotating disk.
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