CN215227080U - Multifunctional shower - Google Patents

Abstract

The utility model relates to a multifunctional shower, which comprises a cold and hot water channel, a circuit module, an electromagnetic valve group, a power supply group and a hydroelectric generation module; the control end of the circuit module is connected with the controlled end of the electromagnetic valve group; a valve plate of the electromagnetic valve group is arranged in the cold and hot water waterway and controls the on-off of the waterway; the hydroelectric generation module is connected in the cold and hot water waterway and is driven by water flow to generate electricity. This scheme has added the hydroelectric generation module that can generate electricity through the rivers in the water route in the shower. When the shower is not opened, the power consumption of the shower is low, and power is supplied through a built-in power supply pack; when the shower is opened, the power consumption of the shower is increased, water in the water channel flows, the hydroelectric generation module generates electricity and then supplies power to the circuit module and the electromagnetic valve group, and a battery in the power supply group is charged. According to the technical scheme, the battery in the intelligent shower is prevented from being frequently replaced, energy is saved, and frequent maintenance is avoided.

Description

Multifunctional shower

Technical Field

The utility model relates to a sanitary bath equipment technical field especially relates to a multifunctional shower.

Background

The shower is a bathroom product which can supply water quantitatively and achieve the effect of water saving. Depending on the manner of control, these can be classified into mechanical showers and non-contact showers, and into conventional showers and functional showers depending on the effect on the water. The bathtub has the characteristics and advantages that compared with a bathtub, the bathtub saves more water and space, and is a preferred object for places such as public bathhouses, changing rooms and the like where the bathtub is inconvenient to install.

At present, most of daily household showers are mechanical showers, while most of intelligent showers are powered by pure batteries, and lithium batteries, dry batteries and the like are arranged in the intelligent showers to supply power to electronic devices so as to display information such as temperature. However, the intelligent shower has single function, and the shower has large power consumption, needs to frequently replace batteries, is troublesome, and cannot meet the diversified requirements of customers. And partial built-in hydroelectric power generation's shower, before the water route was opened, its circuit module can't normally operate, can only regard as display lamp, display screen to use, and the function is comparatively single.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a multifunctional shower to solve the problems that the existing intelligent shower needs to be frequently replaced and the maintenance is inconvenient.

A multifunctional shower comprises a cold and hot water waterway, a circuit module, an electromagnetic valve group, a power supply group and a hydroelectric generation module; the control end of the circuit module is connected with the controlled end of the electromagnetic valve group; a valve plate of the electromagnetic valve group is arranged in the cold and hot water waterway and controls the on-off of the waterway; the hydraulic power generation module is connected in the cold and hot water waterway and is driven by water flow to generate power; the power supply pack supplies power to the circuit module and the electromagnetic valve bank when the shower is closed; the hydroelectric generation module supplies power to the circuit module and the electromagnetic valve group when the shower is started, and charges a battery in the power supply group.

In order to display various data to a user, the circuit module comprises an MCU module and a display module, a display end of the MCU module is connected with the display module, and a control end of the MCU module is connected with a controlled end of the electromagnetic valve group.

Wherein, in order to monitor the temperature in the water route, circuit module still including set up in temperature sensor in the hot and cold water route, temperature sensor is right the temperature in the hot and cold water route detects, temperature sensor's output is connected with the input of MCU module.

Wherein, in order to monitor the rivers flow in the water route, circuit module still including set up in the water flow sensor in the hot and cold water route, water flow sensor is right the rivers flow in the hot and cold water route detects, water flow sensor's output is connected with the input of MCU module.

Wherein, for the TDS (Total dissolved solids) value to in the water route monitor, circuit module still including set up in TDS sensor in the hot and cold water route, TDS sensor is to TDS value in the hot and cold water route detects, TDS sensor's output and the input of MCU module are connected.

The circuit module also comprises a trigger module for facilitating a user to control the on-off of the water path through the electromagnetic valve group; the trigger module is in communication connection with the MCU module and outputs a trigger signal to the MCU module.

In order to facilitate a user to directly input a trigger signal so as to control the on-off of the water channel through the electromagnetic valve group, the trigger module is an electronic switch, an infrared inductor or a capacitance inductor, and the trigger module is arranged outside the shell of the multifunctional shower.

Wherein, for the convenience of the user passes through other intelligent terminal input triggering signal to control the water route break-make through the solenoid valve, triggering module is the wireless communication inductor, triggering module sets up in this multifunctional shower's casing.

Further, the electromagnetic valve group is a monostable electromagnetic valve group or a bistable electromagnetic valve group.

Furthermore, the power pack comprises a rechargeable lithium battery and a charging and discharging circuit, and the charging and discharging circuit is used for charging and discharging the rechargeable lithium battery.

The utility model discloses technical scheme has added the hydroelectric generation module that can generate electricity through the rivers in the water route in current intelligent shower. When the shower is not opened, the power consumption of the shower is low, and power is supplied through a built-in power supply pack; when the shower is opened, the power consumption of the shower is increased, water in the water channel flows, the hydraulic power generation module supplies power to the circuit module and the electromagnetic valve group when the shower is opened, and the battery in the power supply group is charged. According to the technical scheme, the battery in the intelligent shower is prevented from being frequently replaced, energy is saved, and frequent maintenance is avoided.

Drawings

Fig. 1 is an overall schematic view of an embodiment of the multifunctional shower of the present invention;

FIG. 2 is an exploded view of an embodiment of the multifunction shower of FIG. 1;

FIG. 3 is a top view of an embodiment of the multifunction shower of FIG. 1;

fig. 4 is a schematic view of an embodiment of the multifunctional shower of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a showerhead assembly; 2. a circuit module; 21. an MCU module; 22. a display module; 23. a temperature sensor; 3. an electromagnetic valve group; 4. a power pack; 5. a hydroelectric power generation module; 61. a hot water inlet; 62. a cold water inlet; 63. and (7) a water outlet.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It is apparent that the specific details set forth in the following description are merely exemplary of the invention, which can be practiced in many other embodiments that depart from the specific details disclosed herein. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In one embodiment, referring to fig. 1 to 4, a multifunctional shower includes a hot and cold water path, a circuit module 2, an electromagnetic valve set 3, a power pack 4, and a hydroelectric generation module 5; the control end of the circuit module 2 is connected with the controlled end of the electromagnetic valve group 3; a valve plate of the electromagnetic valve group 3 is arranged in the cold and hot water waterway and controls the on-off of the waterway; the hydroelectric generation module 5 is connected in the cold and hot water waterway and is driven by water flow to generate electricity; the power pack 4 supplies power to the circuit module 2 and the electromagnetic valve group 3 when the shower is closed; the hydro-power generation module 5 supplies power to the circuit module 2 and the solenoid valve block 3 when the shower is turned on, and charges a battery in the power pack 4.

The utility model discloses technical scheme has added the hydroelectric generation module 5 that can generate electricity through the rivers in the water route in current intelligent shower. When the shower is not opened, the power consumption of the shower is small, and power is supplied through the built-in power pack 4; when the shower is turned on, the power consumption of the shower is increased, water in the water channel flows, the hydroelectric generation module 5 supplies power to the circuit module 2 and the electromagnetic valve group 3 when the shower is turned on, and the battery in the power supply group 4 is charged. According to the technical scheme, the battery in the intelligent shower is prevented from being frequently replaced, energy is saved, and frequent maintenance is avoided.

In this embodiment, the cold and hot water waterway includes a cold water inlet 62, a hot water inlet 61 and a water outlet 63, the water outlet 63 is connected to the nozzle assembly 1, and the hydroelectric generation module 5 is disposed on the waterway between the cold water inlet 62 and the water outlet 63. Of course, the water path may be provided in other forms, which are not limited to the description in this embodiment.

In this embodiment, the hydroelectric generation module 5 is a micro-turbine hydroelectric generator, and generates electricity by driving turbine blades through water flow in a waterway.

In this embodiment, the circuit module 2 includes an MCU module 21 and a display module 22, a display end of the MCU module 21 is connected to the display module 22, and a control end of the MCU module 21 is connected to a controlled end of the solenoid valve set 3.

During the use, MCU module 21 shows with all kinds of information transmission to display module 22, is convenient for show all kinds of data to the user, and this display module 22 can be display screen, charactron subassembly etc..

Further, in order to monitor the water temperature in the water path, the circuit module 2 further includes a temperature sensor 23 disposed in the cold and hot water path, the temperature sensor 23 detects the water temperature in the cold and hot water path, an output end of the temperature sensor 23 is connected with an input end of the MCU module 21, and the display module 22 displays the temperature, so that the user can check the temperature.

Further, in order to monitor the water flow in the water channel, the circuit module 2 further comprises a water flow sensor arranged in the cold and hot water channel, the water flow sensor detects the water flow in the cold and hot water channel, the output end of the water flow sensor is connected with the input end of the MCU module 21, and the information such as the water flow size and the water consumption is displayed through the display module 22, so that the user can check the information.

Further, in order to monitor the TDS (Total dissolved solids) value in the water route, circuit module 2 still includes the TDS sensor that sets up in the hot and cold water route, and the TDS sensor detects the TDS value in the hot and cold water route, and the output of TDS sensor is connected with MCU module 21's input to show the quality of water condition through display module 22, so that the user looks over.

Of course, the type of the sensor in the water path may be other types, which are not described as limitations in the present embodiment.

In this embodiment, in order to facilitate a user to control the on/off of the water path through the electromagnetic valve, the circuit module 2 further includes a trigger module; the trigger module is in communication connection with the MCU module 21 and outputs a trigger signal to the MCU module 21.

Furthermore, in order to facilitate a user to directly input a trigger signal so as to control the on-off of the water path through the electromagnetic valve set 3, the trigger module is an electronic switch, an infrared sensor or a capacitance sensor, and the trigger module is arranged outside the shell of the multifunctional shower. The user triggers infrared inductor or hand touch capacitance sensor through pressing electronic switch, gesture to this inputs control signal, controls solenoid valve group 3 through MCU module 21, accomplishes water control. The scheme is simple and direct, and the on-off of the water channel can be rapidly controlled.

The utility model discloses a further embodiment, in order to facilitate the user to input triggering signal through other intelligent terminal to through 3 control water route break-make of electromagnetism valves, trigger module is the wireless communication inductor, trigger module sets up in this multifunctional shower's casing. When the electromagnetic valve group 3 is used, a user sends a control signal through other terminals such as a mobile phone, a tablet and a remote controller, the MCU module 21 receives the signal through the wireless communication inductor, and then the control of the electromagnetic valve group 3 on a water channel is completed.

Specifically, the solenoid valve group 3 is a monostable solenoid valve group 3 or a bistable solenoid valve group 3. Of course, the type of the electromagnetic valve may be other, which is not described as a limitation in the present embodiment.

Specifically, the power pack 4 includes a rechargeable lithium battery and a charging/discharging circuit that performs charging/discharging management of the rechargeable lithium battery. Of course, the battery of the power pack 4 may be another type such as a nickel hydrogen battery, and the type is not limited to the one described in the present embodiment.

According to the technical scheme, a water circuit power generation module is added in the shower, power is generated through water flow, when the shower is not opened, the power consumption of the shower is low, and power is supplied through a built-in power pack 4; when the shower is turned on, the power consumption of the shower is increased, water in the water channel flows, the hydroelectric generation module 5 supplies power to the circuit module 2 and the electromagnetic valve group 3 when the shower is turned on, and the battery in the power supply group 4 is charged. Simultaneously, added temperature sensor 23, water flow sensor, TDS sensor in the water route and monitored each item index of rivers to show for the user through the display screen. The user can input instructions through the trigger module so as to achieve the function of controlling the water path switches.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes, substitutions and improvements can be made, and all of them should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the claims.

Claims (10)

1. A multifunction shower, comprising: the system comprises a cold and hot water waterway, a circuit module, an electromagnetic valve group, a power supply group and a hydroelectric generation module; the control end of the circuit module is connected with the controlled end of the electromagnetic valve group; a valve plate of the electromagnetic valve group is arranged in the cold and hot water waterway and controls the on-off of the waterway; the hydroelectric generation module is connected to the cold and hot water road and is driven by water flow to generate electricity; the power supply pack supplies power to the circuit module and the electromagnetic valve bank when the shower is closed; the hydroelectric generation module supplies power to the circuit module and the electromagnetic valve group when the shower is started, and charges a battery in the power supply group.

2. The multifunctional shower according to claim 1, wherein the circuit module comprises an MCU module and a display module, a display end of the MCU module is connected to the display module, and a control end of the MCU module is connected to the controlled end of the solenoid valve set.

3. The multifunction shower as claimed in claim 2, wherein said circuit module further comprises a temperature sensor disposed in said hot and cold water path, said temperature sensor detecting the temperature of water in said hot and cold water path, an output terminal of said temperature sensor being connected to an input terminal of said MCU module.

4. The multifunction shower as claimed in claim 2, wherein said circuit module further comprises a water flow sensor disposed in said hot and cold water path, said water flow sensor detecting the flow of water in said hot and cold water path, an output terminal of said water flow sensor being connected to an input terminal of the MCU module.

5. The multifunction shower of claim 2, wherein the circuit module further comprises a TDS sensor disposed within the hot and cold water path, the TDS sensor detecting a TDS value within the hot and cold water path, an output of the TDS sensor being connected to an input of the MCU module.

6. A multifunction shower as claimed in claim 2, wherein said circuit module further comprises a trigger module; the trigger module is in communication connection with the MCU module and outputs a trigger signal to the MCU module.

7. A multifunction shower as claimed in claim 6, wherein said trigger module is an electronic switch, an infrared sensor or a capacitive sensor, said trigger module being disposed outside the housing of the multifunction shower.

8. A multifunction shower as claimed in claim 6, wherein said trigger module is a wireless communication sensor, said trigger module being disposed within a housing of the multifunction shower.

9. A multifunction shower as claimed in claim 1, wherein said solenoid valve set is a monostable solenoid valve set or a bistable solenoid valve set.

10. A multifunction shower as claimed in claim 1, wherein said power pack includes a rechargeable lithium battery and a charging and discharging circuit for managing charging and discharging of said rechargeable lithium battery.

Images