CN113700099A - Intelligent control shower system - Google Patents

Abstract

The invention discloses an intelligent control shower system, which comprises a control panel, an integrated circuit board, a hot water input pipe, a cold water input pipe and a main water outlet pipe, the hot water input pipe is connected with a hot water flow valve, a hot water stepping motor is arranged in the hot water flow valve, the cold water input pipe is connected with a cold water flow valve, a cold water stepping motor is arranged in the cold water flow valve, the total water outlet pipe is provided with a temperature sensor, the control panel, the temperature sensor, the hot water stepping motor and the cold water stepping motor are all electrically connected with the integrated circuit board, the total water outlet pipe is provided with a flow sensor, the total water outlet pipe is provided with a flow regulating valve, the flow sensor and the flow regulating valve are both electrically connected with the integrated circuit board, the output end of the main water outlet pipe is connected with a shunt valve, and the shunt valve is connected with water outlet equipment through a pipeline. The invention can improve the intelligent degree of regulating the temperature and the flow of the shower system.

Description

Intelligent control shower system

Technical Field

The invention relates to a shower system, in particular to an intelligent control shower system.

Background

The shower system comprises water outlet equipment such as a shower head, a shower and the like, and is a standard product of a modern high-end bathroom. The shower system among the prior art relies on the mode of manual stirring to adjust the proportion of intaking of cold, hot water to adjust leaving water temperature and flow, this regulation mode is not intelligent enough, and convenient degree is lower. The industry is in need of a shower system with a more intelligent control mode.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide an intelligent control shower system which can improve the intelligent degree of temperature and flow regulation of the shower system.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides an intelligent control's shower system, includes integrated circuit board, hot water input pipe, cold water input pipe and total outlet pipe, hot water input pipe is connected with hot water flow valve, the inside hot water step motor that is equipped with of hot water flow valve, cold water input pipe is connected with cold water flow valve, the inside cold water step motor that is equipped with of cold water flow valve, total outlet pipe is equipped with temperature sensor, temperature sensor hot water step motor cold water step motor all with the integrated circuit board electricity is connected, total outlet pipe is equipped with flow sensor, total outlet pipe is equipped with flow control valve, flow sensor with flow control valve all with the integrated circuit board electricity is connected, total outlet pipe's output is connected with the shunt valve, the shunt valve has water outlet device through the pipe connection.

Specifically, the temperature sensor includes: the shell comprises a shell supporting ring, a rivet connecting seat, a thermistor matching groove and terminal connecting holes, wherein the shell supporting ring is arranged at the top end of the shell, the rivet connecting seat and the thermistor matching groove are arranged in the shell from outside to inside, the terminal connecting holes are respectively formed in the left end and the right end of the bottom of the shell, and the rivet connecting seat comprises rivet connecting holes respectively arranged at the bottom ends;

the terminal system comprises terminals and rivets, wherein terminal connecting holes are formed in the inner ends of the terminals respectively, the terminals are arranged in the terminal connecting holes respectively, and the rivet connecting holes are connected with the terminal connecting holes through the rivets;

the thermistor system is arranged at the top end of the rivet and comprises a thermistor, pins and insulating sleeves, wherein one end of each pin is respectively arranged at the left end and the right end of the bottom of the thermistor, the other end of each pin is respectively welded to the top of the rivet through soldering tin, and the insulating sleeves are respectively sleeved outside the pins;

the guide frame is arranged at the top end of the thermistor system and comprises a bearing guide ring, a fit guide seat and a thermosensitive induction hole which are arranged from outside to inside;

the heat conduction cover is arranged at the top of the guide frame and comprises heat conduction cover connecting holes arranged at the front end and the rear end.

Specifically, hot water step motor and cold water step motor include:

a support;

a stator coupled to one end of the bracket;

a thrust plate coupled to the stator and inserted into the one end of the bracket;

a lead screw, one end of which is supported by the thrust plate and the other end of which is supported by the other end of the bracket, and which is mounted to be rotatable forward and backward;

a rotor coupled to the lead screw and rotated by cooperation with the stator to rotate the lead screw; and a substrate including an upper surface facing the holder, a lower surface opposite to the upper surface, and a side surface;

wherein the substrate is coupled to the bracket such that the side surface and the lower surface are disposed inside the bracket and the substrate is electrically connected to the stator and an external power source, wherein the bracket includes a plurality of elastic hooks which surround corner portions of the substrate and are coupled to the lower surface of the substrate;

wherein the bracket includes a plurality of protrusions coupled to a plurality of holes on the substrate.

Specifically, the flow sensor includes:

a substrate, a first electrode and a second electrode,

the resonance sensitive structure is arranged on the substrate and comprises a resonance beam structure and a reading beam structure connected with the resonance beam structure, and the resonance beam structure is connected with the substrate through an anchor area;

the first balance beam and the reading beam structure are symmetrically arranged relative to the resonant beam structure, and the first balance beam is connected to the resonant beam structure;

a read port structure disposed on the substrate forming a semi-enclosed cavity surrounding the read beam structure;

a closed loop sense circuit connected to the sense port structure.

Specifically, the shunt valve includes:

the water diversion frame comprises a water diversion frame, water outlet pipes, water inlet pipes, a switching frame, a water inlet block and a guide block, wherein the switching frame is movably arranged on the inner side of the water diversion frame, the water inlet pipe is arranged at the lower part of the rear side of the water diversion frame and communicated with the switching frame, the four water outlet pipes are arranged on the front side of the water diversion frame, the guide block is arranged at the bottom in the switching frame and communicated with the switching frame, the water inlet block is arranged at the top in the switching frame and communicated with the water outlet pipes, the water inlet block is communicated with the guide block and connected with the guide block, the water diversion frame further comprises a first rotating rod, a second rotating rod, a bearing, a clamping frame, clamping blocks, a telescopic rod, a first spring and a first pressing block, the bearing is embedded in the middle of the upper wall of the water diversion frame, the first rotating rod is arranged in the bearing, the bottom of the first rotating rod is connected with the middle of the top of the switching frame, the left side of the upper part of the first rotating rod is connected with a second rotating rod, the clamping frame is arranged at the top of the water diversion frame, the clamping frame is provided with the four clamping blocks, and the middle of the right side of the first rotating rod is connected with the telescopic rod, the telescopic rod is positioned in the clamping frame, a first pressing block is arranged at the right end of the telescopic rod and matched with the clamping block, and a first spring is connected between the first pressing block and the telescopic rod; the water inlet device is characterized by further comprising a guide sleeve, a guide rod, a plug, a second spring and a second pressing block, the guide sleeve is arranged in the first rotating rod, the guide rod is arranged in the guide sleeve in a sliding mode and penetrates through the guide sleeve, the lower portion of the guide rod penetrates through the switching frame and is located in the water inlet block, the plug is connected to the bottom of the guide rod, a first groove is formed in the middle of the water inlet block, the plug is located in the first groove, the second pressing block is arranged at the top of the guide rod, and the second spring is connected between the second pressing block and the top of the guide sleeve.

The water outlet equipment is a shower head, the shower head comprises a shower head seat and a water outlet panel, and a water outlet channel and a sewage recovery channel are arranged in the shower head seat;

a water outlet area and an anti-splashing area are respectively arranged on one surface of the water outlet panel, which is far away from the shower head seat, and the anti-splashing area is positioned at the edge of the water outlet panel;

at least one water outlet hole communicated with the water outlet channel is arranged in the water outlet area;

at least two first protruding parts are arranged in the anti-splashing area, the at least two first protruding parts are arranged at intervals, and anti-splashing suction holes communicated with the sewage recovery channel are respectively arranged on the end surfaces of the first protruding parts, which are far away from one end of the water outlet panel;

the side, provided with the anti-splashing suction hole, of the first protruding part is provided with at least two protruding parts respectively, and the anti-splashing suction hole is positioned between the at least two protruding parts;

a sewage adsorption area is arranged on one surface of the water outlet panel, which is far away from the shower head seat, and at least one sewage adsorption hole communicated with the sewage recovery channel is arranged in the sewage adsorption area; the sewage adsorption area is provided with at least one second bulge, the side walls of the second bulges are respectively provided with the sewage adsorption hole, and the sewage adsorption hole is arranged towards the center of the water outlet area; the distance between the end face of one end, far away from the water outlet panel, of the first protruding portion and the water outlet panel is larger than the distance between the end face of one end, far away from the water outlet panel, of the second protruding portion and the water outlet panel.

Specifically, the water outlet device is a shower, and the shower comprises: a mounting frame mounted on a mounting opening that penetrates a ceiling with a first area;

a plurality of connectors having connection pipes connected to cold and hot water pipes, the connectors being formed on respective ends of branch pipes branching from the connection pipes and exposed through the mounting frame; and a plurality of head panels having a second area smaller than the first area, including a connection head coupled to the connector, discharging water at a portion or all of the second area through the connection pipe, and selectively and detachably coupled to the mounting frame, the head panels having different or the same shapes as each other in which cold water or hot water is discharged from the plurality of head panels, respectively, the head panels including:

a panel body having a connector coupled to a center thereof in such a manner that the height of the connector can be adjusted, and having a water passage space of a predetermined size therein, the water passage space being communicated with the connector and the connection pipe;

a plurality of first nozzles disposed on a bottom surface of the panel body and communicating with the water passage space; and the second nozzle, set up on the connector, be used for forming the follow the bottom surface of panel body is discharged the runner of cold water or hot water, the connector passes through lead to the water space with first nozzle intercommunication, the connector passes through the connecting pipe with the second nozzle intercommunication, the second nozzle includes:

the nozzle connector extends from the lower end part of the connector and is fixed on the bottom surface of the panel body in a buckling mode;

a nozzle head coupled to an inner circumferential surface of the nozzle link body in such a manner that a height thereof can be adjusted, and discharging the cold water or the hot water through the connection pipe and the connection head; and a discharge guide built in the nozzle head to discharge the cold or hot water through a bottom surface of the nozzle head.

Compared with the prior art, the invention has the beneficial effects that:

the control panel, the temperature sensor, the hot water stepping motor and the cold water stepping motor are all electrically connected with the integrated circuit board, and the temperature sensor senses the temperature of the total water outlet pipe in real time. When the leaving water temperature of total outlet pipe is adjusted to needs, only need touch control panel, set up suitable temperature, control panel can feed back integrated circuit board promptly, then, integrated circuit board can adjust hot water step motor and cold water step motor correspondingly to adjust cold water inflow and hot water inflow, thereby adjust the inflow proportion of cold water and hot water, thereby adjust leaving water temperature (total outlet pipe department temperature) after cold water and hot water mix.

The flow sensor and the flow regulating valve are electrically connected with the integrated circuit board, and the flow sensor senses the flow of the total water outlet pipe in real time. When the flow of the main water outlet pipe needs to be adjusted, the control panel is touched to set a proper water outlet amount, the control panel immediately feeds back the integrated circuit board, and the integrated circuit board controls the flow adjusting valve so as to adjust the flow of the main water outlet pipe.

The invention can improve the intelligent degree of regulating the temperature and the flow of the shower system.

Drawings

FIG. 1 is a system schematic of a intelligently controlled shower system;

fig. 2 is another system schematic of the intelligently controlled shower system.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

The utility model provides an intelligent control's shower system, includes integrated circuit board, hot water input pipe, cold water input pipe and total outlet pipe, hot water input pipe is connected with hot water flow valve, the inside hot water step motor that is equipped with of hot water flow valve, cold water input pipe is connected with cold water flow valve, the inside cold water step motor that is equipped with of cold water flow valve, total outlet pipe is equipped with temperature sensor, temperature sensor hot water step motor cold water step motor all with the integrated circuit board electricity is connected, total outlet pipe is equipped with flow sensor, total outlet pipe is equipped with flow control valve, flow sensor with flow control valve all with the integrated circuit board electricity is connected, total outlet pipe's output is connected with the shunt valve, the shunt valve has water outlet device through the pipe connection.

Specifically, the temperature sensor includes: the shell comprises a shell supporting ring, a rivet connecting seat, a thermistor matching groove and terminal connecting holes, wherein the shell supporting ring is arranged at the top end of the shell, the rivet connecting seat and the thermistor matching groove are arranged in the shell from outside to inside, the terminal connecting holes are respectively formed in the left end and the right end of the bottom of the shell, and the rivet connecting seat comprises rivet connecting holes respectively arranged at the bottom ends;

the terminal system comprises terminals and rivets, wherein terminal connecting holes are formed in the inner ends of the terminals respectively, the terminals are arranged in the terminal connecting holes respectively, and the rivet connecting holes are connected with the terminal connecting holes through the rivets;

the thermistor system is arranged at the top end of the rivet and comprises a thermistor, pins and insulating sleeves, wherein one end of each pin is respectively arranged at the left end and the right end of the bottom of the thermistor, the other end of each pin is respectively welded to the top of the rivet through soldering tin, and the insulating sleeves are respectively sleeved outside the pins;

the guide frame is arranged at the top end of the thermistor system and comprises a bearing guide ring, a fit guide seat and a thermosensitive induction hole which are arranged from outside to inside;

the heat conduction cover is arranged at the top of the guide frame and comprises heat conduction cover connecting holes arranged at the front end and the rear end.

Specifically, hot water step motor and cold water step motor include:

a support;

a stator coupled to one end of the bracket;

a thrust plate coupled to the stator and inserted into the one end of the bracket;

a lead screw, one end of which is supported by the thrust plate and the other end of which is supported by the other end of the bracket, and which is mounted to be rotatable forward and backward;

a rotor coupled to the lead screw and rotated by cooperation with the stator to rotate the lead screw; and a substrate including an upper surface facing the holder, a lower surface opposite to the upper surface, and a side surface;

wherein the substrate is coupled to the bracket such that the side surface and the lower surface are disposed inside the bracket and the substrate is electrically connected to the stator and an external power source, wherein the bracket includes a plurality of elastic hooks which surround corner portions of the substrate and are coupled to the lower surface of the substrate;

wherein the bracket includes a plurality of protrusions coupled to a plurality of holes on the substrate.

Specifically, the flow sensor includes:

a substrate, a first electrode and a second electrode,

the resonance sensitive structure is arranged on the substrate and comprises a resonance beam structure and a reading beam structure connected with the resonance beam structure, and the resonance beam structure is connected with the substrate through an anchor area;

the first balance beam and the reading beam structure are symmetrically arranged relative to the resonant beam structure, and the first balance beam is connected to the resonant beam structure;

a read port structure disposed on the substrate forming a semi-enclosed cavity surrounding the read beam structure;

a closed loop sense circuit connected to the sense port structure.

Specifically, the shunt valve includes:

the water diversion frame comprises a water diversion frame, water outlet pipes, water inlet pipes, a switching frame, a water inlet block and a guide block, wherein the switching frame is movably arranged on the inner side of the water diversion frame, the water inlet pipe is arranged at the lower part of the rear side of the water diversion frame and communicated with the switching frame, the four water outlet pipes are arranged on the front side of the water diversion frame, the guide block is arranged at the bottom in the switching frame and communicated with the switching frame, the water inlet block is arranged at the top in the switching frame and communicated with the water outlet pipes, the water inlet block is communicated with the guide block and connected with the guide block, the water diversion frame further comprises a first rotating rod, a second rotating rod, a bearing, a clamping frame, clamping blocks, a telescopic rod, a first spring and a first pressing block, the bearing is embedded in the middle of the upper wall of the water diversion frame, the first rotating rod is arranged in the bearing, the bottom of the first rotating rod is connected with the middle of the top of the switching frame, the left side of the upper part of the first rotating rod is connected with a second rotating rod, the clamping frame is arranged at the top of the water diversion frame, the clamping frame is provided with the four clamping blocks, and the middle of the right side of the first rotating rod is connected with the telescopic rod, the telescopic rod is positioned in the clamping frame, a first pressing block is arranged at the right end of the telescopic rod and matched with the clamping block, and a first spring is connected between the first pressing block and the telescopic rod; the water inlet device is characterized by further comprising a guide sleeve, a guide rod, a plug, a second spring and a second pressing block, the guide sleeve is arranged in the first rotating rod, the guide rod is arranged in the guide sleeve in a sliding mode and penetrates through the guide sleeve, the lower portion of the guide rod penetrates through the switching frame and is located in the water inlet block, the plug is connected to the bottom of the guide rod, a first groove is formed in the middle of the water inlet block, the plug is located in the first groove, the second pressing block is arranged at the top of the guide rod, and the second spring is connected between the second pressing block and the top of the guide sleeve.

The water outlet equipment is a shower head, the shower head comprises a shower head seat and a water outlet panel, and a water outlet channel and a sewage recovery channel are arranged in the shower head seat;

a water outlet area and an anti-splashing area are respectively arranged on one surface of the water outlet panel, which is far away from the shower head seat, and the anti-splashing area is positioned at the edge of the water outlet panel;

at least one water outlet hole communicated with the water outlet channel is arranged in the water outlet area;

at least two first protruding parts are arranged in the anti-splashing area, the at least two first protruding parts are arranged at intervals, and anti-splashing suction holes communicated with the sewage recovery channel are respectively arranged on the end surfaces of the first protruding parts, which are far away from one end of the water outlet panel;

the side, provided with the anti-splashing suction hole, of the first protruding part is provided with at least two protruding parts respectively, and the anti-splashing suction hole is positioned between the at least two protruding parts;

a sewage adsorption area is arranged on one surface of the water outlet panel, which is far away from the shower head seat, and at least one sewage adsorption hole communicated with the sewage recovery channel is arranged in the sewage adsorption area; the sewage adsorption area is provided with at least one second bulge, the side walls of the second bulges are respectively provided with the sewage adsorption hole, and the sewage adsorption hole is arranged towards the center of the water outlet area; the distance between the end face of one end, far away from the water outlet panel, of the first protruding portion and the water outlet panel is larger than the distance between the end face of one end, far away from the water outlet panel, of the second protruding portion and the water outlet panel.

Specifically, the water outlet device is a shower, and the shower comprises: a mounting frame mounted on a mounting opening that penetrates a ceiling with a first area;

a plurality of connectors having connection pipes connected to cold and hot water pipes, the connectors being formed on respective ends of branch pipes branching from the connection pipes and exposed through the mounting frame; and a plurality of head panels having a second area smaller than the first area, including a connection head coupled to the connector, discharging water at a portion or all of the second area through the connection pipe, and selectively and detachably coupled to the mounting frame, the head panels having different or the same shapes as each other in which cold water or hot water is discharged from the plurality of head panels, respectively, the head panels including:

a panel body having a connector coupled to a center thereof in such a manner that the height of the connector can be adjusted, and having a water passage space of a predetermined size therein, the water passage space being communicated with the connector and the connection pipe;

a plurality of first nozzles disposed on a bottom surface of the panel body and communicating with the water passage space; and the second nozzle, set up on the connector, be used for forming the follow the bottom surface of panel body is discharged the runner of cold water or hot water, the connector passes through lead to the water space with first nozzle intercommunication, the connector passes through the connecting pipe with the second nozzle intercommunication, the second nozzle includes:

the nozzle connector extends from the lower end part of the connector and is fixed on the bottom surface of the panel body in a buckling mode;

a nozzle head coupled to an inner circumferential surface of the nozzle link body in such a manner that a height thereof can be adjusted, and discharging the cold water or the hot water through the connection pipe and the connection head; and a discharge guide built in the nozzle head to discharge the cold or hot water through a bottom surface of the nozzle head.

The invention has the beneficial effects that:

the control panel, the temperature sensor, the hot water stepping motor and the cold water stepping motor are all electrically connected with the integrated circuit board, and the temperature sensor senses the temperature of the total water outlet pipe in real time. When the leaving water temperature of total outlet pipe is adjusted to needs, only need touch control panel, set up suitable temperature, control panel can feed back integrated circuit board promptly, then, integrated circuit board can adjust hot water step motor and cold water step motor correspondingly to adjust cold water inflow and hot water inflow, thereby adjust the inflow proportion of cold water and hot water, thereby adjust leaving water temperature (total outlet pipe department temperature) after cold water and hot water mix.

The flow sensor and the flow regulating valve are electrically connected with the integrated circuit board, and the flow sensor senses the flow of the total water outlet pipe in real time. When the flow of the main water outlet pipe needs to be adjusted, the control panel is touched to set a proper water outlet amount, the control panel immediately feeds back the integrated circuit board, and the integrated circuit board controls the flow adjusting valve so as to adjust the flow of the main water outlet pipe.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (7)

1. An intelligent control shower system is characterized by comprising a control panel, an integrated circuit board, a hot water input pipe, a cold water input pipe and a main water outlet pipe, the hot water input pipe is connected with a hot water flow valve, a hot water stepping motor is arranged in the hot water flow valve, the cold water input pipe is connected with a cold water flow valve, a cold water stepping motor is arranged in the cold water flow valve, the total water outlet pipe is provided with a temperature sensor, the control panel, the temperature sensor, the hot water stepping motor and the cold water stepping motor are all electrically connected with the integrated circuit board, the total water outlet pipe is provided with a flow sensor, the total water outlet pipe is provided with a flow regulating valve, the flow sensor and the flow regulating valve are both electrically connected with the integrated circuit board, the output end of the main water outlet pipe is connected with a shunt valve, and the shunt valve is connected with water outlet equipment through a pipeline.

2. The intelligently controlled shower system of claim 1 wherein said temperature sensor comprises: the shell comprises a shell supporting ring, a rivet connecting seat, a thermistor matching groove and terminal connecting holes, wherein the shell supporting ring is arranged at the top end of the shell, the rivet connecting seat and the thermistor matching groove are arranged in the shell from outside to inside, the terminal connecting holes are respectively formed in the left end and the right end of the bottom of the shell, and the rivet connecting seat comprises rivet connecting holes respectively arranged at the bottom ends;

the terminal system comprises terminals and rivets, wherein terminal connecting holes are formed in the inner ends of the terminals respectively, the terminals are arranged in the terminal connecting holes respectively, and the rivet connecting holes are connected with the terminal connecting holes through the rivets;

the thermistor system is arranged at the top end of the rivet and comprises a thermistor, pins and insulating sleeves, wherein one end of each pin is respectively arranged at the left end and the right end of the bottom of the thermistor, the other end of each pin is respectively welded to the top of the rivet through soldering tin, and the insulating sleeves are respectively sleeved outside the pins;

the guide frame is arranged at the top end of the thermistor system and comprises a bearing guide ring, a fit guide seat and a thermosensitive induction hole which are arranged from outside to inside;

the heat conduction cover is arranged at the top of the guide frame and comprises heat conduction cover connecting holes arranged at the front end and the rear end.

3. The intelligently controlled shower system of claim 1 wherein said hot water stepper motor and cold water stepper motor comprise:

a support;

a stator coupled to one end of the bracket;

a thrust plate coupled to the stator and inserted into the one end of the bracket;

a lead screw, one end of which is supported by the thrust plate and the other end of which is supported by the other end of the bracket, and which is mounted to be rotatable forward and backward;

a rotor coupled to the lead screw and rotated by cooperation with the stator to rotate the lead screw; and a substrate including an upper surface facing the holder, a lower surface opposite to the upper surface, and a side surface;

wherein the substrate is coupled to the bracket such that the side surface and the lower surface are disposed inside the bracket and the substrate is electrically connected to the stator and an external power source, wherein the bracket includes a plurality of elastic hooks which surround corner portions of the substrate and are coupled to the lower surface of the substrate;

wherein the bracket includes a plurality of protrusions coupled to a plurality of holes on the substrate.

4. The intelligently controlled shower system of claim 1 wherein said flow sensor comprises:

a substrate, a first electrode and a second electrode,

the resonance sensitive structure is arranged on the substrate and comprises a resonance beam structure and a reading beam structure connected with the resonance beam structure, and the resonance beam structure is connected with the substrate through an anchor area;

the first balance beam and the reading beam structure are symmetrically arranged relative to the resonant beam structure, and the first balance beam is connected to the resonant beam structure;

a read port structure disposed on the substrate forming a semi-enclosed cavity surrounding the read beam structure;

a closed loop sense circuit connected to the sense port structure.

5. The intelligently controlled shower system of claim 1 wherein the diverter valve comprises:

the water diversion frame comprises a water diversion frame, water outlet pipes, water inlet pipes, a switching frame, a water inlet block and a guide block, wherein the switching frame is movably arranged on the inner side of the water diversion frame, the water inlet pipe is arranged at the lower part of the rear side of the water diversion frame and communicated with the switching frame, the four water outlet pipes are arranged on the front side of the water diversion frame, the guide block is arranged at the bottom in the switching frame and communicated with the switching frame, the water inlet block is arranged at the top in the switching frame and communicated with the water outlet pipes, the water inlet block is communicated with the guide block and connected with the guide block, the water diversion frame further comprises a first rotating rod, a second rotating rod, a bearing, a clamping frame, clamping blocks, a telescopic rod, a first spring and a first pressing block, the bearing is embedded in the middle of the upper wall of the water diversion frame, the first rotating rod is arranged in the bearing, the bottom of the first rotating rod is connected with the middle of the top of the switching frame, the left side of the upper part of the first rotating rod is connected with a second rotating rod, the clamping frame is arranged at the top of the water diversion frame, the clamping frame is provided with the four clamping blocks, and the middle of the right side of the first rotating rod is connected with the telescopic rod, the telescopic rod is positioned in the clamping frame, a first pressing block is arranged at the right end of the telescopic rod and matched with the clamping block, and a first spring is connected between the first pressing block and the telescopic rod; the water inlet device is characterized by further comprising a guide sleeve, a guide rod, a plug, a second spring and a second pressing block, the guide sleeve is arranged in the first rotating rod, the guide rod is arranged in the guide sleeve in a sliding mode and penetrates through the guide sleeve, the lower portion of the guide rod penetrates through the switching frame and is located in the water inlet block, the plug is connected to the bottom of the guide rod, a first groove is formed in the middle of the water inlet block, the plug is located in the first groove, the second pressing block is arranged at the top of the guide rod, and the second spring is connected between the second pressing block and the top of the guide sleeve.

6. The intelligently controlled shower system of claim 1 wherein the water output device is a shower head, the shower head includes a shower head seat and a water output panel, the shower head seat is provided with a water output channel and a sewage recovery channel;

a water outlet area and an anti-splashing area are respectively arranged on one surface of the water outlet panel, which is far away from the shower head seat, and the anti-splashing area is positioned at the edge of the water outlet panel;

at least one water outlet hole communicated with the water outlet channel is arranged in the water outlet area;

at least two first protruding parts are arranged in the anti-splashing area, the at least two first protruding parts are arranged at intervals, and anti-splashing suction holes communicated with the sewage recovery channel are respectively arranged on the end surfaces of the first protruding parts, which are far away from one end of the water outlet panel;

the side, provided with the anti-splashing suction hole, of the first protruding part is provided with at least two protruding parts respectively, and the anti-splashing suction hole is positioned between the at least two protruding parts;

a sewage adsorption area is arranged on one surface of the water outlet panel, which is far away from the shower head seat, and at least one sewage adsorption hole communicated with the sewage recovery channel is arranged in the sewage adsorption area; the sewage adsorption area is provided with at least one second bulge, the side walls of the second bulges are respectively provided with the sewage adsorption hole, and the sewage adsorption hole is arranged towards the center of the water outlet area; the distance between the end face of one end, far away from the water outlet panel, of the first protruding portion and the water outlet panel is larger than the distance between the end face of one end, far away from the water outlet panel, of the second protruding portion and the water outlet panel.

7. The intelligently controlled shower system of claim 1 wherein the water outlet device is a shower, the shower comprising: a mounting frame mounted on a mounting opening that penetrates a ceiling with a first area;

a plurality of connectors having connection pipes connected to cold and hot water pipes, the connectors being formed on respective ends of branch pipes branching from the connection pipes and exposed through the mounting frame; and a plurality of head panels having a second area smaller than the first area, including a connection head coupled to the connector, discharging water at a portion or all of the second area through the connection pipe, and selectively and detachably coupled to the mounting frame, the head panels having different or the same shapes as each other in which cold water or hot water is discharged from the plurality of head panels, respectively, the head panels including:

a panel body having a connector coupled to a center thereof in such a manner that the height of the connector can be adjusted, and having a water passage space of a predetermined size therein, the water passage space being communicated with the connector and the connection pipe;

a plurality of first nozzles disposed on a bottom surface of the panel body and communicating with the water passage space; and the second nozzle, set up on the connector, be used for forming the follow the bottom surface of panel body is discharged the runner of cold water or hot water, the connector passes through lead to the water space with first nozzle intercommunication, the connector passes through the connecting pipe with the second nozzle intercommunication, the second nozzle includes:

the nozzle connector extends from the lower end part of the connector and is fixed on the bottom surface of the panel body in a buckling mode;

a nozzle head coupled to an inner circumferential surface of the nozzle link body in such a manner that a height thereof can be adjusted, and discharging the cold water or the hot water through the connection pipe and the connection head; and a discharge guide built in the nozzle head to discharge the cold or hot water through a bottom surface of the nozzle head.

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