Faucet water economizer with two water outlet modes for switching

Abstract

The invention provides a faucet water economizer with two water outlet modes for switching. The faucet water economizer comprises an outer nozzle, an inner nozzle, a shower water sealing ring and a screw rod. A limiting ring, a guide rod, a spray water sealing ring and an elastic piece are arranged in an inner chamber of the inner nozzle. A shower water channel and a spray water channel are arranged in the outer nozzle. The screw rod is arranged at the bottom of the spray water channel. The limiting ring is arranged inside the inner chamber of the inner nozzle. A screw rod protrusion is arranged at the top end of the screw rod and penetrates through a spray water inlet hole to abut against the lower part of the guide rod. The upper end of the guide rod penetrates through the center hole ofthe limiting ring and is in sliding connection with the limiting ring. A sealing seat is arranged at the lower end of the guide rod. The elastic piece is arranged between the guide rod and the limiting ring. The outer nozzle is turned in one direction to the end or reversely turned to the end. According to the faucet water economizer with two water outlet modes for switching, it is achieved thatcomplete switching can be carried out between two water outlet modes including the shower water outlet mode and the spray water outlet mode, and therefore, it is avoided that water resources are wasted; and because the limiting snap ring is arranged on the outer side of the upper end of the outer nozzle in a sleeving manner so that the inner nozzle is limited inside the outer nozzle to move upwards and downwards, and it can be prevented that a user detach the outer nozzle and inner nozzle.

Description

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AI Technical Summary

Benefits of technology

This new design for a water saver has three main components: one or more parts like a limited ring, guiding rods, and a spaywater seal ring that work together inside the internal chamber of this specific component's nozzles. These parts are designed such that during rotation only on their own axis, they create two separate channels where different types of fluids can flow separately without mixing them up again. By cutting off these channels at certain points along its length, it becomes possible to achieve both cleaning functions by controllably relying upon less than all available fluid sources while still achieving effective coolant usage efficiency.

Problems solved by technology

This patented technical problem addressed in this patents relates to improving upon existing fauces for reducing energy usage while conserving water resources. Current methods involve turning off both the main stream and side streams when only needed, which leads to unnecessary wastewater loss over time.

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