CN108433591B - Water-saving bathtub - Google Patents

Abstract

The invention discloses a water-saving bathtub, comprising: a bathing table, a bathing pool, a faucet and an intelligent water-saving spray head; the intelligent water-saving shower nozzle is characterized in that the bathing platform is in a rounded rectangle shape, the bathing pool is in an oval shape, the faucet is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, the intelligent water-saving shower nozzle is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, and the faucet and the intelligent water-saving shower nozzle are oppositely arranged. The water-saving bathtub disclosed by the invention enables a user to use less water and obtain more comfortable experience compared with the common bathtub.

Description

Water-saving bathtub

Technical Field

The invention relates to the field of bathtubs, in particular to a water-saving bathtub.

Background

Bathing is a frequent thing that everyone needs to experience, and comfortable bathing can make people's mind and body obtain very big relaxation, especially adopts the bathtub to bathe.

However, when taking a bath with a bathtub, in order to keep the temperature of the body and keep the body at a constant temperature without water, people need to put a lot of water into the bathtub, so that the water is enough to keep the body under the neck in the water. This way very much water is wasted, resulting in a waste of resources.

Disclosure of Invention

The invention provides a water-saving bathtub, which is characterized by comprising: a bathing table, a bathing pool, a faucet and an intelligent water-saving spray head; the intelligent water-saving shower nozzle is characterized in that the bathing platform is in a rounded rectangle shape, the bathing pool is in an oval shape, the faucet is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, the intelligent water-saving shower nozzle is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, and the faucet and the intelligent water-saving shower nozzle are oppositely arranged.

The water-saving bathtub further meets the condition that the bathing platform, the bathing pool, the faucet and the intelligent water-saving spray head are coaxial.

The water-saving bathtub further meets the conditions, and the intelligent water-saving spray head comprises a base, a water inlet pipe, an intelligent treatment box, a universal pipe and a shower head.

The water-saving bathtub further meets the condition that the water inlet pipe is a flexible pipe.

The water-saving bathtub further meets the condition that the universal pipe is a metal shaping hose.

The water-saving bathtub further meets the conditions, and the intelligent processing box comprises a controller module, a pumping module, a temperature control module, a dehumidification module and a power supply module.

The water-saving bathtub further meets the condition that a distance measuring module is arranged on one surface of the shower head, from which water flows out; the ranging module comprises an infrared detector, an ultrasonic transceiver, a microcontroller, a shower head communicator and a storage battery.

The water-saving bathtub further meets the conditions, and the base is detachably fixed on the table top of the bathing table; one end of the water inlet pipe is arranged at the bottom end of the bathing pool, and the other end of the water inlet pipe is connected with the intelligent processing box; one end of the intelligent processing box is connected with the base, and the part of the intelligent processing box, which is close to the connection part of the intelligent processing box and the base, is connected with the other end of the water inlet pipe; one end of the universal pipe is connected with the other end of the intelligent processing box, and the other end of the universal pipe is connected with the shower head; the oral siphon will the water of the bottom of bathing pool inhales, water passes through case, universal pipe are followed to intelligent processing the gondola water faucet flows out.

The water-saving bathtub further meets the condition that the other end of the water inlet pipe is detachably connected with the intelligent processing box.

The water-saving bathtub further meets the conditions, and the universal pipe comprises a piezoelectric material layer and a water pipe; the piezoelectric material layer is in direct contact with the inner wall of the universal tube, so that the piezoelectric material layer can directly convert the borne force into electric energy when a user twists the universal tube; the water pipe is used for the flow of the water.

The water-saving bathtub further meets the condition that the infrared detector, the ultrasonic transceiver and the shower head communicator are in communication connection with the microcontroller, and the infrared detector, the ultrasonic transceiver, the shower head communicator and the microcontroller are in electric connection with the storage battery; the infrared detector is used for detecting whether a part of a human body exists or not and transmitting a detection result to the microcontroller; the ultrasonic transceiver is used for transmitting ultrasonic waves and receiving the ultrasonic waves reflected by an obstacle, the microcontroller is used for calculating the distance between the shower head and the obstacle and outputting an instruction according to the distance, and the shower head communicator is used for sending the instruction; the battery with the piezoelectric material layer is connected for the storage the electric energy that the piezoelectric material layer generated, and use the electric energy does infrared detector, ultrasonic transceiver, microcontroller, gondola water faucet communicator provide working power.

The water-saving bathtub further meets the condition, the controller module comprises a processing box communicator and a control chip, the processing box communicator is used for receiving the instruction sent by the shower head communicator and transmitting the instruction to the control chip, and the control chip realizes control according to the instruction; the pump-up module comprises a pump-up motor and a delivery water pipe, and the pump-up motor is used for sucking the water from the water inlet pipe to the delivery water pipe under the control of the control chip; the temperature control module is arranged in the water conveying pipe and comprises a dynamic pressure controller, a heating pipe and a water temperature meter, the dynamic pressure controller can detect whether water flows through the dynamic pressure controller and transmit a detection result to the control chip, the heating pipe can heat the water under the control of the control chip, and the water temperature meter measures the temperature of the water in real time and transmits the temperature to the control chip; the dehumidification module comprises a hygrometer, a micro fan, an evaporator and a condenser, the hygrometer measures the humidity of the surrounding environment of the intelligent processing box in real time and transmits the humidity to the control chip, the micro fan realizes suction of air in the surrounding environment under the control of the control chip, the evaporator adsorbs moisture in the sucked air to enable the air to be changed into dry air, and the condenser dissipates heat of the dry air to finally enable the dissipated dry air to be blown out from an air outlet; the power supply device comprises a power supply system and a power switch, wherein the power supply system supplies power to the controller module, the pumping module, the temperature control module and the dehumidification module in the intelligent processing box through the power switch.

The water-saving bathtub further meets the conditions that the working process of the water-saving bathtub is as follows: a user stores a certain amount of water in the bathing pool through a faucet on the bathing platform, and then the user manually operates the power switch to enable the power supply system to provide power supply for the controller module, the pumping module, the temperature control module and the dehumidification module, wherein the controller module, the pumping module, the temperature control module and the dehumidification module are all in a standby state; when a user places the head or other parts of the body under the shower head at a position close to the lower part of the shower head, the infrared detector detects the existence of the human body and transmits the detection information of the existence to the microcontroller; the microcontroller controls the ultrasonic transceiver to send out ultrasonic waves and start timing again, then the ultrasonic transceiver receives the reflected ultrasonic waves and informs the microcontroller, the microcontroller stops timing when receiving the notification, the microcontroller judges whether a timing result is smaller than a first preset time, if so, a first instruction is sent to the shower head communicator, otherwise, the microcontroller judges whether the timing result is smaller than a second preset time, if so, a second instruction is sent to the shower head communicator, and otherwise, the microcontroller sends a no-load instruction to the shower head communicator; when the shower communicator receives the first instruction, the second instruction or the no-load instruction, the first instruction, the second instruction and the no-load instruction are wirelessly transmitted to the processing box communicator, and the processing box communicator forwards the first instruction, the second instruction and the no-load instruction to the control chip; the control chip controls the pump-up motor to work at a first preset rotating speed when receiving the first instruction, controls the pump-up motor to work at a second preset rotating speed when receiving the second instruction, controls the pump-up motor to not work when receiving the no-load instruction, and is larger than the second preset rotating speed; when the pumping motor works, the water is sucked into the conveying water pipe from the water inlet pipe, when the water flows through the dynamic pressure controller, the dynamic pressure controller detects the existence of the water and then sends the information of the water to the control chip, and meanwhile, the water temperature meter detects the temperature of the water and transmits the temperature to the control chip; the control chip compares whether the temperature is lower than a preset temperature or not after receiving the information that water exists and the temperature, if so, the control chip controls the heating pipe to work so that the temperature of the water is increased to the preset temperature, and the water with the increased temperature flows out through a water pipe and a shower head; when dehumidification module is in standby mode, the hygrometer real-time detection humidity will humidity transmission gives control chip, control chip judges whether humidity is greater than the predetermined humidity upper limit, if so control chip control micro fan begins work to the inhaled air dehumidifies.

The beneficial technical effects obtained by the invention are as follows:

1. the water in the bathing pool is pumped up by adopting a water inlet pipe, a water pump and the like, so that a user can circularly use the water in the bathing pool for shower heat preservation, and the water consumption is reduced;

2. the function of automatically saving water is realized based on the infrared and ultrasonic technologies, and the hands of a user are liberated;

3. the temperature control module with the dynamic pressure controller enables the water temperature to be adjusted and the safety of temperature rise to be guaranteed;

4. the dehumidification module is adopted to ensure that excessive water vapor generated in the hair washing process can be eliminated;

5. and the piezoelectric design is adopted, clean energy is adopted, and the energy consumption is reduced.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. In the drawings, like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a top view of a water-saving bathtub of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

The first embodiment.

Please refer to the attached drawing.

A water-saving bathtub, comprising: a bathing table, a bathing pool, a faucet and an intelligent water-saving spray head; the intelligent water-saving shower nozzle is characterized in that the bathing platform is in a rounded rectangle shape, the bathing pool is in an oval shape, the faucet is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, the intelligent water-saving shower nozzle is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, and the faucet and the intelligent water-saving shower nozzle are oppositely arranged.

The bath table, the bath pool, the faucet and the intelligent water-saving spray head are coaxial.

The intelligent water-saving sprayer comprises a base, a water inlet pipe, an intelligent processing box, a universal pipe and a shower head.

The water inlet pipe is a flexible hose.

Set up flexible hose and make no matter the size and the shape of bathing pool, all can let it be in the bottom of bathing pool all the time through implementing the deformation to the oral siphon, be convenient for absorb the water of lower floor.

The intelligent processing box comprises a controller module, a pumping module, a temperature control module, a dehumidification module and a power supply module.

The universal pipe is a metal shaping hose.

Adopt the metal design hose to make the height, the position of change gondola water faucet that the user can be at will.

One side of the shower head which flows out water is provided with a distance measuring module.

The ranging module comprises an infrared detector, an ultrasonic transceiver, a microcontroller, a shower head communicator and a storage battery.

The base is detachably fixed on the table top of the bathing table; one end of the water inlet pipe is arranged at the bottom end of the bathing pool, and the other end of the water inlet pipe is connected with the intelligent processing box; one end of the intelligent processing box is connected with the base, and the part of the intelligent processing box, which is close to the connection part of the intelligent processing box and the base, is connected with the other end of the water inlet pipe; one end of the universal pipe is connected with the other end of the intelligent processing box, and the other end of the universal pipe is connected with the shower head; the oral siphon will the water of the bottom of bathing pool inhales, water passes through case, universal pipe are followed to intelligent processing the gondola water faucet flows out.

The other end of the water inlet pipe is detachably connected with the intelligent processing box.

The detachable connection of the two is convenient, and the two can be disassembled when not in use, thereby being convenient for storage.

The universal tube comprises a piezoelectric material layer and a water tube; the piezoelectric material layer is in direct contact with the inner wall of the universal tube, so that the piezoelectric material layer can directly convert the borne force into electric energy when a user twists the universal tube; the water pipe is used for the flow of the water.

The piezoelectric material layer can make full use of clean energy, pioneering the piezoelectric material is applied to the shaping hose, and any energy is not wasted.

The gondola water faucet is the plastics material and has the water spray mode of multiple difference.

In view of the load bearing problem, the shower head should be made of a less dense material, such as plastic.

The infrared detector, the ultrasonic transceiver and the shower head communicator are in communication connection with the microcontroller, and the infrared detector, the ultrasonic transceiver, the shower head communicator and the microcontroller are in electric connection with the storage battery; the infrared detector is used for detecting whether a part of a human body exists or not and transmitting a detection result to the microcontroller; the ultrasonic transceiver is used for transmitting ultrasonic waves and receiving the ultrasonic waves reflected by an obstacle, the microcontroller is used for calculating the distance between the shower head and the obstacle and outputting an instruction according to the distance, and the shower head communicator is used for sending the instruction; the battery with the piezoelectric material layer is connected for the storage the electric energy that the piezoelectric material layer generated, and use the electric energy does infrared detector, ultrasonic transceiver, microcontroller, gondola water faucet communicator provide working power.

The infrared detection module and the ultrasonic ranging module are arranged, so that the existence of a human body can be detected, the flow velocity of water flow can be set according to the distance between the human body and the shower head, and the water resource is saved.

The controller module comprises a processing box communicator and a control chip, wherein the processing box communicator is used for receiving an instruction sent by the shower head communicator and transmitting the instruction to the control chip, and the control chip realizes control according to the instruction; the pump-up module comprises a pump-up motor and a delivery water pipe, and the pump-up motor is used for sucking the water from the water inlet pipe to the delivery water pipe under the control of the control chip; the temperature control module is arranged in the water conveying pipe and comprises a dynamic pressure controller, a heating pipe and a water temperature meter, the dynamic pressure controller can detect whether water flows through the dynamic pressure controller and transmit a detection result to the control chip, the heating pipe can heat the water under the control of the control chip, and the water temperature meter measures the temperature of the water in real time and transmits the temperature to the control chip; the dehumidification module comprises a hygrometer, a micro fan, an evaporator and a condenser, the hygrometer measures the humidity of the surrounding environment of the intelligent processing box in real time and transmits the humidity to the control chip, the micro fan realizes suction of air in the surrounding environment under the control of the control chip, the evaporator adsorbs moisture in the sucked air to enable the air to be changed into dry air, and the condenser dissipates heat of the dry air to finally enable the dissipated dry air to be blown out from an air outlet; the power supply device comprises a power supply system and a power switch, wherein the power supply system supplies power to the controller module, the pumping module, the temperature control module and the dehumidification module in the intelligent processing box through the power switch.

The water level can be improved by the arranged pump lifting module; the temperature control module can adjust the water temperature, so that the bath water is always at a proper temperature; the dehumidification module ensures that the humidity in the environment is not too high due to the over-large water vapor of bathing, so that the environment is kept dry and comfortable all the time, and meanwhile, the reliable working environment of the electronic device is also ensured.

The working process of the water-saving bathtub is as follows: a user stores a certain amount of water in the bathing pool through a faucet on the bathing platform, and then the user manually operates the power switch to enable the power supply system to provide power supply for the controller module, the pumping module, the temperature control module and the dehumidification module, wherein the controller module, the pumping module, the temperature control module and the dehumidification module are all in a standby state; when a user places the head or other parts of the body under the shower head at a position close to the lower part of the shower head, the infrared detector detects the existence of the human body and transmits the detection information of the existence to the microcontroller; the microcontroller controls the ultrasonic transceiver to send out ultrasonic waves and start timing again, then the ultrasonic transceiver receives the reflected ultrasonic waves and informs the microcontroller, the microcontroller stops timing when receiving the notification, the microcontroller judges whether a timing result is smaller than a first preset time, if so, a first instruction is sent to the shower head communicator, otherwise, the microcontroller judges whether the timing result is smaller than a second preset time, if so, a second instruction is sent to the shower head communicator, and otherwise, the microcontroller sends a no-load instruction to the shower head communicator; when the shower communicator receives the first instruction, the second instruction or the no-load instruction, the first instruction, the second instruction and the no-load instruction are wirelessly transmitted to the processing box communicator, and the processing box communicator forwards the first instruction, the second instruction and the no-load instruction to the control chip; the control chip controls the pump-up motor to work at a first preset rotating speed when receiving the first instruction, controls the pump-up motor to work at a second preset rotating speed when receiving the second instruction, controls the pump-up motor to not work when receiving the no-load instruction, and is larger than the second preset rotating speed; when the pumping motor works, the water is sucked into the conveying water pipe from the water inlet pipe, when the water flows through the dynamic pressure controller, the dynamic pressure controller detects the existence of the water and then sends the information of the water to the control chip, and meanwhile, the water temperature meter detects the temperature of the water and transmits the temperature to the control chip; the control chip compares whether the temperature is lower than a preset temperature or not after receiving the information that water exists and the temperature, if so, the control chip controls the heating pipe to work so that the temperature of the water is increased to the preset temperature, and the water with the increased temperature flows out through a water pipe and a shower head; when dehumidification module is in standby mode, the hygrometer real-time detection humidity will humidity transmission gives control chip, control chip judges whether humidity is greater than the predetermined humidity upper limit, if so control chip control micro fan begins work to the inhaled air dehumidifies.

Example two.

A water-saving bathtub, comprising: a bathing table, a bathing pool, a faucet, an intelligent water-saving spray head and a storage rack; the bathroom platform is a rounded rectangle, the bathroom is oval, the faucet is fixedly arranged at the edge of the bathroom platform close to the width direction of the bathroom, the intelligent water-saving sprayer is fixedly arranged at the edge of the bathroom platform close to the width direction of the bathroom, the faucet and the intelligent water-saving sprayer are oppositely arranged, and the storage rack is arranged on the bathroom platform.

The bath table, the bath pool, the faucet and the intelligent water-saving spray head are coaxial.

The intelligent water-saving sprayer comprises a base with a sucker, a water inlet pipe, an intelligent processing box, a universal pipe and a shower head.

The water inlet pipe is a flexible hose.

The intelligent processing box comprises a controller module, a pumping module, a temperature control module, a dehumidification module and a power supply module.

The universal pipe is a metal shaping hose.

One side of the shower head which flows out water is provided with a distance measuring module.

The ranging module comprises an infrared detector, an ultrasonic transceiver, a microcontroller, a shower head communicator and a storage battery.

The base is detachably fixed on the table top of the bathing table; one end of the water inlet pipe is arranged at the bottom end of the bathing pool, and the other end of the water inlet pipe is connected with the intelligent processing box; one end of the intelligent processing box is connected with the base, and the part of the intelligent processing box, which is close to the connection part of the intelligent processing box and the base, is connected with the other end of the water inlet pipe; one end of the universal pipe is connected with the other end of the intelligent processing box, and the other end of the universal pipe is connected with the shower head; the oral siphon will the water of the bottom of bathing pool inhales, water passes through case, universal pipe are followed to intelligent processing the gondola water faucet flows out.

The other end of the water inlet pipe is detachably connected with the intelligent processing box.

The universal tube comprises a piezoelectric material layer and a water tube; the piezoelectric material layer is in direct contact with the inner wall of the universal tube, so that the piezoelectric material layer can directly convert the borne force into electric energy when a user twists the universal tube; the water pipe is used for the flow of the water.

The infrared detector, the ultrasonic transceiver and the shower head communicator are in communication connection with the microcontroller, and the infrared detector, the ultrasonic transceiver, the shower head communicator and the microcontroller are in electric connection with the storage battery; the infrared detector is used for detecting whether a part of a human body exists or not and transmitting a detection result to the microcontroller; the ultrasonic transceiver is used for transmitting ultrasonic waves and receiving the ultrasonic waves reflected by an obstacle, the microcontroller is used for calculating the distance between the shower head and the obstacle and outputting an instruction according to the distance, and the shower head communicator is used for sending the instruction; the battery with the piezoelectric material layer is connected for the storage the electric energy that the piezoelectric material layer generated, and use the electric energy does infrared detector, ultrasonic transceiver, microcontroller, gondola water faucet communicator provide working power.

The controller module comprises a processing box communicator and a control chip, wherein the processing box communicator is used for receiving an instruction sent by the shower head communicator and transmitting the instruction to the control chip, and the control chip realizes control according to the instruction; the pump-up module comprises a pump-up motor and a delivery water pipe, and the pump-up motor is used for sucking the water from the water inlet pipe to the delivery water pipe under the control of the control chip; the temperature control module is arranged in the water conveying pipe and comprises a dynamic pressure controller, a heating pipe and a water temperature meter, the dynamic pressure controller can detect whether water flows through the dynamic pressure controller and transmit a detection result to the control chip, the heating pipe can heat the water under the control of the control chip, and the water temperature meter measures the temperature of the water in real time and transmits the temperature to the control chip; the dehumidification module comprises a hygrometer, a micro fan, an evaporator and a condenser, the hygrometer measures the humidity of the surrounding environment of the intelligent processing box in real time and transmits the humidity to the control chip, the micro fan realizes suction of air in the surrounding environment under the control of the control chip, the evaporator adsorbs moisture in the sucked air to enable the air to be changed into dry air, and the condenser dissipates heat of the dry air to finally enable the dissipated dry air to be blown out from an air outlet; the power supply device comprises a power supply system and a power switch, wherein the power supply system supplies power to the controller module, the pumping module, the temperature control module and the dehumidification module in the intelligent processing box through the power switch.

The working process of the water-saving bathtub is as follows: a user stores a certain amount of water in the bathing pool through a faucet on the bathing platform, and then the user manually operates the power switch to enable the power supply system to provide power supply for the controller module, the pumping module, the temperature control module and the dehumidification module, wherein the controller module, the pumping module, the temperature control module and the dehumidification module are all in a standby state; when a user places the head or other parts of the body under the shower head at a position close to the lower part of the shower head, the infrared detector detects the existence of the human body and transmits the detection information of the existence to the microcontroller; the microcontroller controls the ultrasonic transceiver to send out ultrasonic waves and start timing again, then the ultrasonic transceiver receives the reflected ultrasonic waves and informs the microcontroller, the microcontroller stops timing when receiving the notification, the microcontroller judges whether a timing result is smaller than a first preset time, if so, a first instruction is sent to the shower head communicator, otherwise, the microcontroller judges whether the timing result is smaller than a second preset time, if so, a second instruction is sent to the shower head communicator, and otherwise, the microcontroller sends a no-load instruction to the shower head communicator; when the shower communicator receives the first instruction, the second instruction or the no-load instruction, the first instruction, the second instruction and the no-load instruction are wirelessly transmitted to the processing box communicator, and the processing box communicator forwards the first instruction, the second instruction and the no-load instruction to the control chip; the control chip controls the pump-up motor to work at a first preset rotating speed when receiving the first instruction, controls the pump-up motor to work at a second preset rotating speed when receiving the second instruction, controls the pump-up motor to not work when receiving the no-load instruction, and is larger than the second preset rotating speed; when the pumping motor works, the water is sucked into the conveying water pipe from the water inlet pipe, when the water flows through the dynamic pressure controller, the dynamic pressure controller detects the existence of the water and then sends the information of the water to the control chip, and meanwhile, the water temperature meter detects the temperature of the water and transmits the temperature to the control chip; the control chip compares whether the temperature is lower than a preset temperature or not after receiving the information that water exists and the temperature, if so, the control chip controls the heating pipe to work so that the temperature of the water is increased to the preset temperature, and the water with the increased temperature flows out through a water pipe and a shower head; when dehumidification module is in standby mode, the hygrometer real-time detection humidity will humidity transmission gives control chip, control chip judges whether humidity is greater than the predetermined humidity upper limit, if so control chip control micro fan begins work to the inhaled air dehumidifies.

Example three.

A water-saving bathtub, comprising: a bathing table, a bathing pool, a faucet, an intelligent water-saving spray head and a bracket; the intelligent water-saving shower nozzle is characterized in that the bathing platform is in a rounded rectangle shape, the bathing pool is in an oval shape, the faucet is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, the intelligent water-saving shower nozzle is fixedly arranged at the edge of the bathing platform close to the width direction of the bathing pool, the faucet and the intelligent water-saving shower nozzle are oppositely arranged, and the support is fixedly arranged on the bathing platform.

The support is used for clamping the mobile terminal.

The bath table, the bath pool, the faucet and the intelligent water-saving spray head are coaxial.

The intelligent water-saving spray head comprises a base, a water inlet pipe, an intelligent processing box, a universal pipe, a shower head and an LED lamp; the LED lamp is arranged on the surface of the shower head.

The water inlet pipe is a flexible hose.

The intelligent processing box comprises a controller module, a pumping module, a temperature control module, a dehumidification module and a power supply module.

The universal pipe is a metal shaping hose.

One side of the shower head which flows out water is provided with a distance measuring module.

The ranging module comprises an infrared detector, an ultrasonic transceiver, a microcontroller, a shower head communicator and a storage battery.

The base is detachably fixed on the table top of the bathing table; one end of the water inlet pipe is arranged at the bottom end of the bathing pool, and the other end of the water inlet pipe is connected with the intelligent processing box; one end of the intelligent processing box is connected with the base, and the part of the intelligent processing box, which is close to the connection part of the intelligent processing box and the base, is connected with the other end of the water inlet pipe; one end of the universal pipe is connected with the other end of the intelligent processing box, and the other end of the universal pipe is connected with the shower head; the oral siphon will the water of the bottom of bathing pool inhales, water passes through case, universal pipe are followed to intelligent processing the gondola water faucet flows out.

The other end of the water inlet pipe is detachably connected with the intelligent processing box.

The universal tube comprises a piezoelectric material layer and a water tube; the piezoelectric material layer is in direct contact with the inner wall of the universal tube, so that the piezoelectric material layer can directly convert the borne force into electric energy when a user twists the universal tube; the water pipe is used for the flow of the water.

The infrared detector, the ultrasonic transceiver and the shower head communicator are in communication connection with the microcontroller, and the infrared detector, the ultrasonic transceiver, the shower head communicator and the microcontroller are in electric connection with the storage battery; the infrared detector is used for detecting whether a part of a human body exists or not and transmitting a detection result to the microcontroller; the ultrasonic transceiver is used for transmitting ultrasonic waves and receiving the ultrasonic waves reflected by an obstacle, the microcontroller is used for calculating the distance between the shower head and the obstacle and outputting an instruction according to the distance, and the shower head communicator is used for sending the instruction; the battery with the piezoelectric material layer is connected for the storage the electric energy that the piezoelectric material layer generated, and use the electric energy does infrared detector, ultrasonic transceiver, microcontroller, gondola water faucet communicator provide working power.

The controller module comprises a processing box communicator and a control chip, wherein the processing box communicator is used for receiving an instruction sent by the shower head communicator and transmitting the instruction to the control chip, and the control chip realizes control according to the instruction; the pump-up module comprises a pump-up motor and a delivery water pipe, and the pump-up motor is used for sucking the water from the water inlet pipe to the delivery water pipe under the control of the control chip; the temperature control module is arranged in the water conveying pipe and comprises a dynamic pressure controller, a heating pipe and a water temperature meter, the dynamic pressure controller can detect whether water flows through the dynamic pressure controller and transmit a detection result to the control chip, the heating pipe can heat the water under the control of the control chip, and the water temperature meter measures the temperature of the water in real time and transmits the temperature to the control chip; the dehumidification module comprises a hygrometer, a micro fan, an evaporator and a condenser, the hygrometer measures the humidity of the surrounding environment of the intelligent processing box in real time and transmits the humidity to the control chip, the micro fan realizes suction of air in the surrounding environment under the control of the control chip, the evaporator adsorbs moisture in the sucked air to enable the air to be changed into dry air, and the condenser dissipates heat of the dry air to finally enable the dissipated dry air to be blown out from an air outlet; the power supply device comprises a power supply system and a power switch, wherein the power supply system supplies power to the controller module, the pumping module, the temperature control module and the dehumidification module in the intelligent processing box through the power switch.

The working process of the water-saving bathtub is as follows: a user stores a certain amount of water in the bathing pool through a faucet on the bathing platform, and then the user manually operates the power switch to enable the power supply system to provide power supply for the controller module, the pumping module, the temperature control module and the dehumidification module, wherein the controller module, the pumping module, the temperature control module and the dehumidification module are all in a standby state; when a user places the head or other parts of the body under the shower head at a position close to the lower part of the shower head, the infrared detector detects the existence of the human body and transmits the detection information of the existence to the microcontroller; the microcontroller controls the ultrasonic transceiver to send out ultrasonic waves and start timing again, then the ultrasonic transceiver receives the reflected ultrasonic waves and informs the microcontroller, the microcontroller stops timing when receiving the notification, the microcontroller judges whether a timing result is smaller than a first preset time, if so, a first instruction is sent to the shower head communicator, otherwise, the microcontroller judges whether the timing result is smaller than a second preset time, if so, a second instruction is sent to the shower head communicator, and otherwise, the microcontroller sends a no-load instruction to the shower head communicator; when the shower communicator receives the first instruction, the second instruction or the no-load instruction, the first instruction, the second instruction and the no-load instruction are wirelessly transmitted to the processing box communicator, and the processing box communicator forwards the first instruction, the second instruction and the no-load instruction to the control chip; the control chip controls the pump-up motor to work at a first preset rotating speed when receiving the first instruction, controls the pump-up motor to work at a second preset rotating speed when receiving the second instruction, controls the pump-up motor to not work when receiving the no-load instruction, and is larger than the second preset rotating speed; when the pumping motor works, the water is sucked into the conveying water pipe from the water inlet pipe, when the water flows through the dynamic pressure controller, the dynamic pressure controller detects the existence of the water and then sends the information of the water to the control chip, and meanwhile, the water temperature meter detects the temperature of the water and transmits the temperature to the control chip; the control chip compares whether the temperature is lower than a preset temperature or not after receiving the information that water exists and the temperature, if so, the control chip controls the heating pipe to work so that the temperature of the water is increased to the preset temperature, and the water with the increased temperature flows out through a water pipe and a shower head; when dehumidification module is in standby mode, the hygrometer real-time detection humidity will humidity transmission gives control chip, control chip judges whether humidity is greater than the predetermined humidity upper limit, if so control chip control micro fan begins work to the inhaled air dehumidifies.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. It is therefore intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is the following claims, including all equivalents, that are intended to define the spirit and scope of this invention. The above examples are to be construed as merely illustrative and not limitative of the remainder of the disclosure. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (1)

1. A water-saving bathtub, comprising: a bathing table, a bathing pool, a faucet, an intelligent water-saving spray head and a bracket; the bath table is in a round corner rectangle, the bath pool is in an oval shape, the water faucet is fixedly arranged at the edge of the bath table close to the width direction of the bath pool, the intelligent water-saving spray head is fixedly arranged at the edge of the bath table close to the width direction of the bath pool, the water faucet and the intelligent water-saving spray head are oppositely arranged, and the support is fixedly arranged on the bath table; the bracket is used for clamping the mobile terminal; the bath table, the bath pool, the faucet and the intelligent water-saving spray head are coaxial; the intelligent water-saving spray head comprises a base, a water inlet pipe, an intelligent processing box, a universal pipe, a shower head and an LED lamp; the LED lamp is arranged on the surface of the shower head; the water inlet pipe is a flexible hose; the intelligent processing box comprises a controller module, a pumping module, a temperature control module, a dehumidification module and a power supply module; the universal pipe is a metal shaping hose; a distance measuring module is arranged on one surface of the shower head, from which water flows out; the distance measuring module comprises an infrared detector, an ultrasonic transceiver, a microcontroller, a shower head communicator and a storage battery; the base is detachably fixed on the table top of the bathing table; one end of the water inlet pipe is arranged at the bottom end of the bathing pool, and the other end of the water inlet pipe is connected with the intelligent processing box; one end of the intelligent processing box is connected with the base, and the part of the intelligent processing box, which is close to the connection part of the intelligent processing box and the base, is connected with the other end of the water inlet pipe; one end of the universal pipe is connected with the other end of the intelligent processing box, and the other end of the universal pipe is connected with the shower head; the water inlet pipe sucks water at the bottom end of the bathing pool, and the water flows out of the shower head through the intelligent processing box and the universal pipe; the other end of the water inlet pipe is detachably connected with the intelligent processing box; the universal tube comprises a piezoelectric material layer and a water tube; the piezoelectric material layer is in direct contact with the inner wall of the universal tube, so that the piezoelectric material layer can directly convert the borne force into electric energy when a user twists the universal tube; the water pipe is used for the flow of the water; the infrared detector, the ultrasonic transceiver and the shower head communicator are in communication connection with the microcontroller, and the infrared detector, the ultrasonic transceiver, the shower head communicator and the microcontroller are in electric connection with the storage battery; the infrared detector is used for detecting whether a part of a human body exists or not and transmitting a detection result to the microcontroller; the ultrasonic transceiver is used for transmitting ultrasonic waves and receiving the ultrasonic waves reflected by an obstacle, the microcontroller is used for calculating the distance between the shower head and the obstacle and outputting an instruction according to the distance, and the shower head communicator is used for sending the instruction; the storage battery is connected with the piezoelectric material layer and used for storing electric energy generated by the piezoelectric material layer and providing working power for the infrared detector, the ultrasonic transceiver, the microcontroller and the shower head communicator; the controller module comprises a processing box communicator and a control chip, wherein the processing box communicator is used for receiving an instruction sent by the shower head communicator and transmitting the instruction to the control chip, and the control chip realizes control according to the instruction; the pump-up module comprises a pump-up motor and a delivery water pipe, and the pump-up motor is used for sucking the water from the water inlet pipe to the delivery water pipe under the control of the control chip; the temperature control module is arranged in the water conveying pipe and comprises a dynamic pressure controller, a heating pipe and a water temperature meter, the dynamic pressure controller can detect whether water flows through the dynamic pressure controller and transmit a detection result to the control chip, the heating pipe can heat the water under the control of the control chip, and the water temperature meter measures the temperature of the water in real time and transmits the temperature to the control chip; the dehumidification module comprises a hygrometer, a micro fan, an evaporator and a condenser, the hygrometer measures the humidity of the surrounding environment of the intelligent processing box in real time and transmits the humidity to the control chip, the micro fan realizes suction of air in the surrounding environment under the control of the control chip, the evaporator adsorbs moisture in the sucked air to enable the air to be changed into dry air, and the condenser dissipates heat of the dry air to finally enable the dissipated dry air to be blown out from an air outlet; the power supply device comprises a power supply system and a power switch, wherein the power supply system supplies power to the controller module, the pumping module, the temperature control module and the dehumidification module in the intelligent processing box through the power switch.

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