CN219175402U - Induction flushing device, automatic flushing water tank and toilet - Google Patents

Abstract

The utility model discloses an induction flushing device, an automatic flushing water tank and a toilet, wherein the induction flushing device comprises an installation box body, a drainage driving device, a storage battery, a wireless charging receiving module, an induction module and a main control board, wherein the drainage driving device is arranged in the installation box body and is used for driving the drainage device; the storage battery is arranged in the installation box body, the drainage driving device is electrically connected with the storage battery, the wireless charging receiving module is arranged in the installation box body, the wireless charging receiving module is electrically connected with the storage battery, the sensing module is arranged in the installation box body and used for detecting the change condition of the use environment, the main control board controls the opening or closing of the drainage driving device according to the detection signal of the sensing module, and the wireless charging receiving module converts energy into electric energy to provide energy for the storage battery through receiving the energy emitted by the external wireless charging transmitting module. The technical scheme of the utility model improves the universality of the product and can realize water-electricity separation.

Description

Induction flushing device, automatic flushing water tank and toilet

Technical Field

The utility model relates to the technical field of bathroom products, in particular to an induction flushing device, an automatic flushing water tank and a toilet.

Background

The existing flushing mode of the water tank can be divided into induction flushing or manual flushing, in the induction flushing water tank, a power consumption module for controlling flushing generally adopts a dry battery/lithium battery to supply power, the dry battery has limited electric quantity and short service time, a user needs to replace the water tank regularly, the user is troublesome to replace the water tank by himself, the experience is poor or a power adapter is adopted to supply power, an external power socket is needed on one hand, the water tank cannot be used, and on the other hand, the leakage risk exists when an external power supply system fails; in addition, the existing water tank induction structure generally leads out a connecting wire, an air pipe or a cable between an induction drive, a power supply and an induction water piece through a specific hole site of the water tank, so that the product cost is high, the product assembly procedure of the water tank induction structure is complicated, the extra parts are required to be assembled in a narrow water tank, the disassembly and assembly operation are difficult, and the traditional manual flushing water tank is difficult to reform into the induction flushing water tank.

Disclosure of Invention

The utility model mainly aims to provide an induction flushing device which is arranged outside an automatic flushing water tank, wherein the water tank comprises a drainage device capable of flushing water in the water tank, so that the universality of products is improved, the problems that a dry battery/lithium battery needs to be replaced regularly, replacement is troublesome or an external power socket needs to be equipped by adopting a power adapter, and electric leakage exists are solved, and water and electricity separation can be realized.

In order to achieve the above object, the present utility model provides an induction flushing device, comprising:

installing a box body;

a drain driving device disposed in the mounting box body, the drain driving device being connected to the drain device to drive the drain device;

the storage battery is arranged in the installation box body, and the drainage driving device is electrically connected with the storage battery;

the wireless charging receiving module is arranged in the installation box body and is electrically connected with the storage battery;

the sensing module is arranged in the installation box body and is used for detecting the change condition of the use environment; and

the main control board is electrically connected with the wireless charging receiving module, the storage battery, the drainage driving device and the induction module, and the main control board controls the drainage driving device to be opened or closed according to detection signals of the induction module, wherein the wireless charging receiving module converts energy emitted by the external wireless charging emitting module into electric energy to provide energy for the storage battery.

Optionally, the induction flushing device further comprises a functional load module, wherein the functional load module is arranged in the installation box body, and the functional load module is electrically connected with the induction module.

Optionally, the installation box body includes first installation department, second installation department and is located first installation department with walk the line passageway between the second installation department, first installation department the second installation department with walk and form between the line passageway and dodge the mouth, and wholly be the U-like structure.

Optionally, the drainage driving device is disposed in the first mounting portion, and the storage battery, the wireless charging receiving module and the sensing module are respectively disposed in the second mounting portion.

Optionally, the wireless charging receiving module is a magnetic resonance wireless charging receiving module.

Optionally, the wireless charging receiving module is a radio wave type charging receiving module.

Optionally, the wireless charging receiving module is a WIFI wireless charging receiving module.

Optionally, the wireless charging receiving module is an ultrasonic wireless charging receiving module.

The utility model also provides an automatic flushing water tank which comprises the induction flushing device.

The utility model also provides a toilet bowl, which comprises the induction flushing device.

The technical scheme of the utility model is applied to an automatic flushing water tank, the water tank comprises a water draining device which can flush water in the water tank, the induction flushing device comprises an installation box body, a water draining driving device, a storage battery, a wireless charging receiving module, an induction module and a main control board, the water draining driving device, the induction module, the main control board and the wireless charging receiving module are arranged in the installation box body, the installation box body and the water tank are independently arranged, or the installation box body is arranged outside the water tank, compared with the prior scheme, an electricity utilization function module is arranged in the water tank, so that water and electricity are mixed, the safety problem exists, the scheme can improve the design effect of water and electricity separation, and is beneficial to the structural sharing of the common water tank and the induction water tank, the main control board is electrically connected with the wireless charging receiving module, the storage battery, the water draining driving device and the induction module, and the main control board controls the opening or closing of the water draining driving device according to detection signals of the induction module, and the wireless charging receiving module converts energy emitted by an external wireless charging transmitting module into electric energy to provide energy for the storage battery. Through wireless charging technique, with wireless receiving module that charges arrange in the installation box body and with battery electric connection, charge for the battery through wireless receiving module that charges to solved and adopted dry battery/lithium cell as the power, dry battery electric quantity is limited, and live time is short, change trouble problem, also solved and adopted power adapter, if not equipped with external supply socket unable use, when power supply system breaks down, have the problem of electric leakage risk.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a system block diagram of an induction flush apparatus of the present utility model;

FIG. 2 is a schematic diagram of an embodiment of an inductive flush apparatus mounted to a tank;

fig. 3 is a schematic view of the induction flushing device of fig. 2 separated from the water tank.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				10	Induction flushing device	4	Storage battery
1	Mounting box	5	Drainage driving device
				11	A first mounting part	6	Induction module
12	Wire-laying part	7	Functional load module
				13	A second mounting part	20	Water tank
2	Main control board	30	Drain pipe
				3	Wireless charging receiving module

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The existing flushing mode of the water tank can be divided into induction flushing or manual flushing, in the induction flushing water tank, a power consumption module for controlling flushing generally adopts a dry battery/lithium battery to supply power, the dry battery has limited electric quantity and short service time, a user needs to replace the water tank regularly, the user is troublesome to replace the water tank by himself, the experience is poor or a power adapter is adopted to supply power, an external power socket is needed on one hand, the water tank cannot be used, and on the other hand, the leakage risk exists when an external power supply system fails; in addition, the existing water tank induction structure generally leads out a connecting wire, an air pipe or a cable between an induction drive, a power supply and an induction water piece through a specific hole site of the water tank, so that the product cost is high, the product assembly procedure of the water tank induction structure is complicated, the extra parts are required to be assembled in a narrow water tank, the disassembly and assembly operation are difficult, and the traditional manual flushing water tank is difficult to reform into the induction flushing water tank.

The utility model provides an induction flushing device which is arranged outside an automatic flushing water tank, wherein the water tank comprises a drainage device capable of flushing water in the water tank, the water tank is a water tank for storing water in a toilet, the toilet can be a sitting type or a squatting type, the flushing mode of the existing water tank can be divided into induction flushing or manual flushing, in the induction flushing water tank, a power consumption module for controlling flushing is generally powered by a dry battery/a lithium battery, the dry battery has limited electric quantity and short service time, the power consumption module needs to be replaced periodically by a user, the user is troublesome to replace by himself, the experience is poor or the power consumption is realized by adopting a power adapter, an external power socket is needed on one hand, the toilet cannot be used, and on the other hand, the electric leakage risk exists when an external power supply system fails.

Therefore, the utility model provides an induction flushing device, which aims to solve the problems that a dry battery/lithium battery needs to be replaced regularly, the replacement is troublesome or an external power socket needs to be equipped with a power adapter, and electric leakage exists.

Referring to fig. 1, in an embodiment of the present utility model, the induction flushing device 10 is configured to be disposed outside the automatic flushing water tank 20, the water tank 20 includes a water draining device capable of flushing water in the water tank 20, the induction flushing device 10 includes a mounting box 1, a water draining driving device 5, a storage battery 4, a wireless charging receiving module 3, an induction module 6 and a main control board 2, the main control board 2 may be a single chip microcomputer, the water draining driving device 5 is disposed in the mounting box 1, the water draining driving device 5 is configured to be in air connection with the water draining device, the storage battery 4 is disposed in the mounting box 1, the water draining driving device 5 is electrically connected with the storage battery 4, the wireless charging receiving module 3 is disposed in the mounting box 1, the wireless charging receiving module 3 is electrically connected with the storage battery 4, the induction module 6 is disposed in the mounting box 1, the induction module 6 is configured to detect a change condition of a use environment, the main control board 2 is electrically connected with the wireless charging receiving module 3, the storage battery 4 and the water draining driving device 5 is configured to be in turn on or turn off the wireless charging receiving module 6, and the wireless charging device is configured to emit an energy from the external energy source according to the change condition of the use environment.

The existing water tank 20 induction structure generally leads out a connecting lead, an air pipe or a cable between an induction drive and a power supply and an induction piece through a specific hole site of a tank body, so that the risk of water leakage exists, parts such as a sealing rubber pad, a connecting stud, a connecting rubber pad, a locking nut and a compression nut are required to be additionally arranged for matching sealing, even local glue filling is required, the product cost is high, and the product assembly procedure of the water tank 20 induction structure is complicated, and the extra parts are required to be assembled in a narrow water tank 20 and are difficult to assemble and disassemble.

The installation box body 1 and the water tank 20 are arranged independently, or the installation box body 1 is arranged outside the water tank 20, the drainage driving device 5, the storage battery 4, the main control board 2 and other electricity-using functional modules are arranged in the installation box body 1 in a sealing mode, then the installation box body 1 is connected with the flushing water tank 20, and the water tank is easy to disassemble and assemble, good in universality and capable of helping to realize water-electricity separation.

The installation box body 1 is arranged with the induction module 6, on the one hand can realize water and electricity separation, on the other hand is convenient for repacking traditional manual flushing water tank 20 and washes water for the response, compares in current scheme with electric function module arrangement in water tank 20, leads to water and electricity to mix, has the security problem, and this scheme can promote the design effect of water and electricity separation to do benefit to the structure sharing of ordinary water tank 20 and induction water tank 20.

The technical scheme of the utility model is applied to an automatic flushing water tank 20, the water tank 20 comprises a water draining device which can flush water in the water tank 20, the induction flushing water device 10 comprises a mounting box body 1, a water draining driving device 5, a storage battery 4, a wireless charging receiving module 3, an induction module 6 and a main control board 2, the water draining driving device 5, the induction module 6, the main control board 2 and the wireless charging receiving module 3 are arranged in the mounting box body 1, the mounting box body 1 and the water tank 20 are independently arranged, or the mounting box body 1 is arranged outside the water tank 20, compared with the prior scheme, an electricity utilization function module is arranged in the water tank 20, so that water and electricity are mixed, the safety problem exists, the scheme can improve the design effect of water and electricity separation, and is beneficial to the structure sharing of a common water tank 20 and an induction water tank 20, the main control board 2 is electrically connected with the wireless charging receiving module 3, the storage battery 4 and the water draining driving device 5 and the induction module 6, and the main control board 2 controls the opening or closing of the water draining driving device 5 according to detection signals of the induction module 6, wherein the wireless charging receiving module 3 converts energy from an external energy source to energy source through the wireless charging receiving module 4. Through wireless charging technique, with wireless receiving module 3 that charges arrange in mounting box 1 and with battery 4 electric connection, charge for battery 4 through wireless receiving module 3 that charges to solved and adopted dry battery/lithium cell as the power, dry battery electric quantity is limited, and live time is short, changes trouble problem, also solved and adopted the power adapter, if not equipped with external supply socket unable use, when power supply system breaks down, have the problem of electric leakage risk.

Specifically, the wireless charging receiver is matched with an external wireless charging transmitter, so that the battery 4 can be charged remotely, and how the wireless charging receiving module 3 charges the battery 4 is described below.

In an embodiment, the wireless charging mode is a magnetic resonance wireless charging mode, and the wireless charging receiving module 3 is a magnetic resonance wireless charging receiving module 3. Currently, there are two main wireless charging modes:

strong coupling inductive wireless power transfer (lightning-coupled induction): the mode is based on Faraday electromagnetic induction principle and is characterized by short transmission distance.

Weakly coupled magnetic resonance wireless transmission (Loosely-coupled resonance): the method has the characteristics of long transmission distance, high efficiency, high power and high potential practical value.

In contrast, resonant charging can be more distant, efficient, and can charge multiple devices simultaneously.

Taking a mobile phone as an example, the strong coupling means that the mobile phone is placed on a wireless charging base and is necessarily at a correct position, so that almost no excessive deviation exists, and otherwise, the mobile phone cannot be charged; the weak coupling means that the mobile phone is randomly placed on the wireless charging base, and the mobile phone can be charged without being fixedly placed at a certain position, and the mobile phone can be charged only by being randomly placed on the base, so that the difference of the strong coupling and the weak coupling is the difference.

A method of charging a battery built in an electronic device by wireless and contactless wireless charging (Wireless Power Transfer) is rapidly spreading. The magnetic resonance wireless charging is a method in which a capacitor is inserted between a transmitting side and a receiving side to form an LC resonant circuit, and power transmission is performed after the resonant frequencies of the transmitting side and the receiving side are matched. This has the advantage that the distance of the coils can be increased and at the same time power transmission is possible even if the center between the coils is slightly shifted. Principle of magnetic resonance wireless charging: the energy of the wireless charging transmitting end meets the wireless charging receiving end with the same resonance frequency, and the electric energy transmission is carried out by the resonance effect. The magnetic vibrator consists of a large inductance coil with a small capacitor connected in parallel or in series, and the same resonance frequency is a necessary condition for energy transfer. For example, two coils act as resonators, the transmitting end vibrates at a frequency of 10MHz to radiate an electromagnetic field around, and the receiving end also needs to vibrate at a frequency of 10MHz to receive the transferred energy. Transmission power of magnetic resonance wireless charging mode: several kW, transmission distance: several cm-several m, frequency range of use: 13.56KHz, charging efficiency: about 50%.

In another embodiment, the wireless charging mode is a radio wave charging mode, and the wireless charging receiving module 3 is a radio wave charging receiving module. Radio wave type which uses a wave generating device similar to WIFI and uses 2.45GHz to transmit power, the transmitting device is basically the same as a "magnetron" used in a microwave oven. The transmitted microwaves are also alternating current waves, can be received in different directions by using an antenna, and are converted into direct current by using a rectifying circuit to charge a battery, and the main problem is that the efficiency is low. Principle of radio wave charging: the ambient electromagnetic wave is converted into current, which is transmitted through the circuit. Transmission power of radio wave charging: greater than 100mW, transmission distance: greater than 10m, frequency range of use: 2.45KHz, charging efficiency: about 38%.

In yet another embodiment, the wireless charging mode is a WIFI wireless charging mode, and the wireless charging receiving module 3 is a WIFI wireless charging receiving module 3.WIFI wireless charging: the charging system mainly comprises two components, wherein one component is a WIFI access point (router), and the other component is a customized charging sensor. The mode does not need to replace a traditional wireless router, only needs to deploy schemes such as software, and the charging function can coexist with the Internet access function without mutual influence, for example, a flexible rectenna is adopted for capturing signals of a WIFI frequency band and converting the signals into direct current to directly supply power for electronic equipment, that is, the electronic equipment can get rid of the limitation of a battery through the technology, and can be charged at any time by using the WIFI. The rectifying antenna mainly comprises a rectifying diode and an antenna in a WIFI frequency band. The antenna is used for receiving the WIFI signal, and the rectifier diode is used for realizing energy conversion and converting the alternating current signal into direct current. Rectifiers are two-dimensional semiconductor materials, often used to fabricate flexible semiconductor components, with molybdenum disulfide (MoS 2) connected to different metal phases. Upon exposure to a particular chemical species, the atoms of molybdenum disulfide may rearrange, converting from a semiconductor phase to a metallic phase. Because of the special semiconductor-metal structure, the rectifier can switch Wi-Fi frequency band signals, and meanwhile parasitic capacitance and resistance of the circuit can be reduced. The lower the parasitic capacitance and resistance, the higher the efficiency of the rectifier. Experiments show that under the condition of proper external conditions, the maximum output power of the flexible rectenna can reach 40 percent.

In other embodiments, the wireless charging mode is an ultrasonic wireless charging mode, and the wireless charging receiving module 3 is an ultrasonic wireless charging receiving module 3. The principle of the ultrasonic wireless charging mode is to use ultrasonic waves to convey electric power to a place 15 feet (about 4.6 meters) away from the space. Therefore, a user can walk in the house while charging by only using the special wireless charging sleeve. This technology is very safe, and the price of the receiver is very cheap, and the volume is small, besides wireless charging, the data transmission can be realized. The ultrasonic energy transmission principle is the piezoelectric effect, and the PWM is fully called Pulse Width Modulation: pulse width modulation (pulse width modulation for short, namely, adjusting the width of a pulse in popular terms), PWM signals can be output through a square wave rectangular signal generator, PWM can also be output by a singlechip for control, an ultrasonic wave transmitting probe is driven by PWM to generate mechanical vibration so as to drive vibration of surrounding air, namely ultrasonic waves, the ultrasonic waves reach a receiving probe through transmission of a certain distance, then the ultrasonic waves drive vibrators on the receiving probe to generate mechanical vibration, the mechanical vibration is converted into electric energy, and the electric energy is stored in a storage battery 4 through a charging energy storage circuit.

Further, in order to save installation space, the combination of the flushing device of the water tank 20 and the induction flushing tank 20 is facilitated, in an embodiment, the installation box 1 includes a first installation portion 11, a second installation portion 13, and a routing portion 12 located between the first installation portion 11 and the second installation portion 13, an avoidance opening is formed between the first installation portion 11, the second installation portion 13, and the routing portion 12, and the overall structure is in a U-like structure, and the electric function module is installed in the first installation portion 11 and/or the second installation portion 13, and the avoidance opening is used for avoiding the drain pipe 30 of the water tank 20.

Further, the installation box 1 includes a first installation portion 11, a second installation portion 13, and a routing portion 12 located between the first installation portion 11 and the second installation portion 13, where an avoidance opening is formed between the first installation portion 11, the second installation portion 13, and the routing portion 12, and the installation is installed below the drain pipe 30 of the water tank 20 through the avoidance opening, so that the overall appearance of the water tank 20 is not affected.

Specifically, in one embodiment, the installation box 1 is configured to be installed at the drain pipe 30 of the water tank 20, and the avoidance port is configured to avoid the drain pipe 30 of the water tank 20. According to the embodiment, the induction module 6 is arranged in the mounting box 1 below the box body, the connection lead and the air pipe of the induction module 6 and the drainage device in the box body are fixed on the outer wall of the box body through the protective strips, so that the problem that the box body is perforated for mounting and sealing at the perforated position is avoided, and the mounting structure is simpler; the box body structure can be used for sensing the flushing water tank 20 and the common flushing water (flushing water with a pure mechanical structure) water tank 20, so that the universal matching performance is good, and the function expansion is convenient; the induction module 6, the lead and the air pipe are all arranged outside the box body, so that the assembly and the disassembly are easy; the mounting box body is independent of the box body 1, and the induction module and other electric components are mounted in the electric mounting box, so that water-electricity separation can be realized.

In this embodiment, the installation box body 1 is the U-shaped structure of class as a whole, be the installation box body 1 of horseshoe shape promptly and install in the drain pipe 30 below of water tank 20, be used for detecting outside temperature, the response module 6 that light changes can be arranged in water tank 20, reform transform original water tank 20 through water tank 20 bath device promptly, thereby can avoid needing the periodic replacement battery or avoid the risk of electric leakage, during the installation, the accessible is glued, hang modes such as detain and arrange drain pipe 30 department below water tank 20, do not additionally occupy the space, influence the outward appearance, when water tank 20 has the response function, pass water tank 20 with the wire of response module 6 and be connected with the main control board 2 in the installation box body 1, install the installation box body 1 on water tank 20 or water tank 20's drain pipe 30 department, connect the pneumatic control drain valve at last can.

In the water tank 20 without induction flushing function, the induction module 6 can be arranged in the installation box body 1, so that the manual flushing mode is changed into an induction flushing mode, the universality is good, the function expansion is convenient, and the induction module 6 and the drainage driving device 5 are arranged in the installation box body 1, so that the water and electricity separation can be realized; the mounting box 1 and the water tank 20 are independent from each other and are easy to assemble and disassemble.

In another embodiment, such as in a unitary toilet, i.e. with the tank 20 being provided integrally with the toilet, the mounting box 1 may be mounted outside the housing of the tank 20.

Specifically, the drain driving device 5 is disposed in the first mounting portion 11, the drain driving device 5 is configured to be in air-path communication with the drain device through an air pipe, and the storage battery 4 and the wireless charging receiving module 3 are disposed in the second mounting portion 13.

The drainage device comprises a pneumatic drainage valve, a drainage driving device 5 is arranged in the electric installation box, the pneumatic drainage valve and the drainage driving device 5 are connected through an air pipe, and the air pipe is fixed in the installation groove through the protective strip. The electric component drainage driving device 5 and the induction module 6 are arranged in the electric installation box, so that water and electricity separation can be realized, and potential leakage hazards are eliminated.

Specifically, the induction flushing device 10 further includes a functional load module 7, the functional load module 7 is disposed in the mounting box 1, and the functional load module 7 is electrically connected with the induction module 6.

The functional load module 7 is a module having a certain function and functioning as a load in a circuit, and the function load module 7 is provided differently according to purposes.

In an embodiment, the drainage driving device 5 is configured as an air pump, the drainage device is an air bag, the air pump and the air bag are connected through an air pipe, and the load function module can be an electromagnetic valve connected with the air pump to realize multi-channel conduction.

In other embodiments, the drain driving device 5 can also be a motor gear assembly, and the drain valve is driven to move by the motor driving gear assembly to realize the drain function of the water tank 20.

In another embodiment, the functional load module 7 can also be an LED lamp, for example, the LED lamp can be used to visually display the electric quantity condition of the storage battery 4, and when the LED lamp is turned on, the charging of the storage battery 4 is required; or the LED lamp is used for visual display, and if the charging condition of the storage battery 4 is changed in red and green, the charging condition is indicated as being charged, and a normally-on green light indicates that the charging is completed; still alternatively, the LED lamp may be used for lighting purposes in household applications.

Optionally, to further ensure the effect of water and electricity separation, the storage battery 4, the wireless charging receiving module 3, the sensing module 6 and the functional load module 7 are integrally sealed.

The utility model also provides an induction flushing tank 20, the induction flushing tank 20 comprises a drainage device and a flushing device of the tank 20, the specific structure of the flushing device of the tank 20 refers to the above embodiment, and as the induction flushing tank 20 adopts all the technical schemes of all the embodiments, at least has all the beneficial effects brought by the technical schemes of the embodiments, and the description is omitted herein. Wherein, the induction flushing water tank 20 comprises a tank body, the drainage device can be a pneumatic drainage valve, and the drainage driving device 5 is connected with the pneumatic drainage valve through an air pipe. When the automatic flushing device is used, the sensing module 6 is positioned in the sensing flushing water tank 20 or is arranged in the installation box body 1, after a human body leaves the sensing area, a signal processed by a microcomputer in the integrated circuit is transmitted to a pneumatic drainage valve in the water tank 20, the pneumatic drainage valve works, namely the drainage valve component is forced to ascend, and at the moment, the water tank 20 starts to automatically flush water; when the pneumatic drain valve is finished, the drain valve is automatically reset, and no water is flushed. No direct human contact is required and the automatic flushing will be completed after leaving the water tank 20 as long as it is within the sensing range. If the induction system fails or the electric quantity is insufficient, the aim of flushing can be achieved through a manual button function.

The present utility model also contemplates a toilet including an inductive flush apparatus 10 as described above.

The toilet may be a sitting type toilet or a squatting type toilet.

In an embodiment, the toilet is a toilet in a sitting manner, a flushing waterway is arranged in the toilet body, the flushing waterway comprises a constant temperature device communicated with a water outlet pipe of the water heater through a water inlet electromagnetic valve and a cleaning spray gun communicated with a water outlet of the constant temperature device through a water washing distribution valve, the water inlet electromagnetic valve, the water washing distribution valve and the cleaning spray gun are respectively electrically connected with a controlled circuit of the main control board 2, the water temperature of the flushing waterway is the water temperature in the water outlet pipe of the water heater, after a buttocks washing or woman washing function key is pressed down, the water inlet electromagnetic valve is opened, water in an external waterway is respectively connected to the constant temperature device through a cold and hot waterway, the water temperature is regulated to 37 ℃, the flushing requirement is met, constant temperature water flows through the water washing distribution valve, the human body cleaning function is carried out after the spray gun is cleaned, when the water inlet temperature is too high or too low, the constant temperature requirement of the water temperature cannot be met, the cleaning function cannot be normally cleaned, and the cleaning function cannot be disabled when abnormal water shortage occurs in the cold and hot water inlet pipe. The water inlet electromagnetic valve and the water washing distributing valve can be integrally arranged in the mounting box body 1, so that the water-electricity separation is realized, and the potential leakage hazard is avoided.

Specifically, after the user finishes using the lavatory, trigger the sensing module 6 after the human body leaves the sensing area or the people can trigger the sensing module 6 through waving the hand, sensing module 6 transmits the signal of production to drainage drive arrangement 5, gasbag and drainage drive arrangement 5 pass through air inlet connection, the gasbag is arranged in water tank 20, the control valve sets up in the intake pipe, sensing module 6 triggers the control valve and opens the intake pipe, and drive drainage drive arrangement 5 work, in order to aerify to the gasbag, make the gasbag inflation, drive the interior drain valve of water tank 20 and open the drainage channel, the hydroenergy in the water storage chamber is discharged from the drainage channel, accomplish the bath action, after the water tank 20 accomplishes the bath action, the water storage chamber is through the water inlet channel water injection, rivers flow in the installation chamber from the inlet opening, and flow to the water storage chamber through the apopore.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. An induction flushing device for placement outside an automatic flush tank, said tank including a drain device for flushing water from within said tank, said induction flushing device comprising:

installing a box body;

a drain driving device disposed in the mounting box body, the drain driving device being connected to the drain device to drive the drain device;

the storage battery is arranged in the installation box body, and the drainage driving device is electrically connected with the storage battery;

the wireless charging receiving module is arranged in the installation box body and is electrically connected with the storage battery;

the sensing module is arranged in the installation box body and is used for detecting the change condition of the use environment; and

the main control board is electrically connected with the wireless charging receiving module, the storage battery, the drainage driving device and the induction module, and the main control board controls the drainage driving device to be opened or closed according to detection signals of the induction module, wherein the wireless charging receiving module converts energy emitted by the external wireless charging emitting module into electric energy to provide energy for the storage battery.

2. The inductive flush device of claim 1, further comprising a functional load module disposed within the mounting enclosure, the functional load module being electrically connected to the inductive module.

3. The inductive flush device of claim 1, wherein the mounting case includes a first mounting portion, a second mounting portion, and a routing channel between the first mounting portion and the second mounting portion, wherein an avoidance opening is formed between the first mounting portion, the second mounting portion, and the routing channel, and the overall U-like structure is formed.

4. The inductive flush device of claim 3, wherein the drain drive is disposed in the first mounting portion, and the battery, the wireless charge receiving module, and the inductive module are disposed in the second mounting portion, respectively.

5. The inductive flush device of claim 1, wherein the wireless charging receiving module is a magnetic resonance wireless charging receiving module.

6. The inductive flush device of claim 1, wherein the wireless charging receiving module is a radio wave charging receiving module.

7. The inductive flush device of claim 1, wherein the wireless charging receiving module is a WIFI wireless charging receiving module.

8. The inductive flush device of claim 1, wherein the wireless charging receiving module is an ultrasonic wireless charging receiving module.

9. An automatic flush tank comprising an inductive flush apparatus as claimed in any one of claims 1 to 8.

10. A toilet comprising an inductive flush device as claimed in any one of claims 1 to 8.

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