CN218957254U - Fingerprint remote controller and intelligent closestool control system - Google Patents

Abstract

The disclosure provides a fingerprint remote controller and intelligent closestool control system, relates to intelligent bathroom technical field. A fingerprint remote control, comprising: the remote control system comprises a wake-up module, a first wireless module, a remote control main control module and a fingerprint module, wherein the wake-up module is used for sending a wake-up signal; the first wireless module is used for receiving and forwarding fingerprint input signals sent by the intelligent closestool; the remote control main control module is used for sending a sleep signal and sending a starting signal according to a wake-up signal; the fingerprint module is used for inputting fingerprints; the remote control main control module controls the first wireless module and/or the fingerprint module to enter a dormant state through a dormant signal; the remote control main control module controls the first wireless module and/or the fingerprint module to enter a working state through a starting signal; the remote control main control module controls the fingerprint module to record the fingerprint according to the fingerprint record signal. The remote controller has two states of dormancy and work, so that standby power consumption of the remote controller is reduced, service life of a battery is prolonged, and user experience is improved.

Description

Fingerprint remote controller and intelligent closestool control system

Technical Field

The disclosure relates to the technical field of intelligent bathrooms, in particular to a fingerprint remote controller and an intelligent closestool control system.

Background

The intelligent toilet refers to an automatic sanitary appliance, which can clean buttocks according to the needs of users and has the functions of cleaning the lower body, preserving heat of a seat ring and the like. When in use, the user can easily operate the toilet only by the button panel, and the toilet has more functions, is more comfortable to use and is healthier. In order to meet the continuous pursuit of users for high quality, the intelligent closestool is provided with a fingerprint identification function, and when the user uses the closestool, the closestool can be automatically opened and enters a use mode for the habit of the user.

In the related art, an intelligent closestool is provided with a remote controller with a fingerprint identification function, a user identifies the identity and controls various functions of the intelligent closestool through the remote controller, and the user needs to record fingerprints before fingerprint identification. Because there is the process of typing in the fingerprint, therefore the remote controller need to have two-way communication with intelligent closestool, and the remote controller is in order to in time receive user's fingerprint requirement of typing in, then remote controller wireless module need be in operating condition all the time, has great stand-by power consumption, leads to the battery life of remote controller to shorten, and is very inconvenient to the use of this kind of remote controller.

It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the present disclosure and thus may include information that does not constitute prior art known to those of ordinary skill in the art.

Disclosure of Invention

The present disclosure is directed to a fingerprint remote controller and an intelligent toilet control system, which at least overcome the problem of reduced battery life due to the large standby power consumption of the remote controller in the related art when not in use.

Other features and advantages of the present disclosure will be apparent from the following detailed description, or may be learned in part by the practice of the disclosure.

According to one aspect of the disclosure, a fingerprint remote controller is provided for controlling a smart toilet, and the fingerprint remote controller comprises a wake-up module, a first wireless module, a remote control main control module and a fingerprint module, wherein the wake-up module is used for sending a wake-up signal; the first wireless module is used for receiving and forwarding fingerprint input signals sent by the intelligent closestool; the remote control main control module is used for sending a sleep signal and sending a starting signal according to the wake-up signal; the fingerprint module is used for inputting fingerprints; the remote control main control module controls the first wireless module and/or the fingerprint module to enter a dormant state through a dormant signal; the remote control main control module controls the first wireless module and/or the fingerprint module to enter a working state through a starting signal; the remote control main control module controls the fingerprint module to record fingerprints according to the fingerprint record signals.

In one embodiment of the disclosure, the remote control main control module includes a wake-up input port, a sleep start output port and a remote control processor, where the wake-up input port is used for receiving a wake-up signal; the dormancy start output port is used for outputting a dormancy signal and a start signal; the remote control processor is used for processing the fingerprint input signal and the wake-up signal and controlling the dormancy start output port.

In one embodiment of the disclosure, the remote control processor further comprises a controller for controlling the fingerprint module to enter a fingerprint, and for controlling the first wireless module to send a urine test signal; the intelligent closestool can start urine detection work according to the urine detection signal sent by the first wireless module.

In one embodiment of the disclosure, the fingerprint module includes a fingerprint acquisition unit and a fingerprint processing unit, the fingerprint acquisition unit is used for acquiring fingerprints; the fingerprint processing unit is used for sending the collected fingerprints to the remote control main control module; the remote control main control module can store the fingerprint collected by the fingerprint collection unit, compare the fingerprint collected by the fingerprint collection unit with the fingerprint stored by the remote control main control module, and control the first wireless module to send urine detection signals according to the compared verification result.

In one embodiment of the disclosure, the fingerprint module includes a fingerprint acquisition unit, a fingerprint storage unit and a fingerprint processing unit, where the fingerprint acquisition unit is used for acquiring fingerprints; the fingerprint storage unit is used for storing the fingerprints acquired by the fingerprint acquisition unit; the fingerprint processing unit is used for comparing the fingerprint of the fingerprint acquisition unit with the fingerprint stored in the fingerprint storage unit and sending the comparison result to the remote control main control module as a verification result; and the remote control main control module controls the first wireless module to send urine detection signals according to the verification result.

In one embodiment of the disclosure, the remote controller further comprises an LED module, wherein the LED module is used for indicating the working state of the remote controller.

In one embodiment of the disclosure, the remote control main control module further comprises a power supply control unit, and the power supply control unit is used for controlling the first power supply module to supply power to the first wireless module and the fingerprint module.

According to another aspect of the disclosure, there is provided an intelligent toilet control system, including the remote controller described above, and an intelligent toilet, the intelligent toilet includes a toilet main control module, the toilet main control module is configured to receive and forward a fingerprint input signal of a user terminal, and the remote controller receives the fingerprint input signal and inputs a fingerprint.

In one embodiment of the disclosure, the intelligent toilet further comprises a urine detection module, wherein the urine detection module is used for receiving a urine detection signal sent by the remote controller.

In one embodiment of the disclosure, the intelligent closestool further comprises a second wireless module, a third wireless module and a second power supply module, wherein the closestool main control module receives a fingerprint recording signal of a user terminal through the second wireless module; the closestool main control module forwards a fingerprint recording signal of the user terminal through the third wireless module; the second power supply module is used for supplying power to the second wireless module, the third wireless module and the toilet main control module; the user terminal is a mobile terminal.

The embodiment of the disclosure provides a fingerprint remote controller and intelligent closestool control system, and the remote controller includes a wake-up module, a first wireless module, a remote control main control module and a fingerprint module. The wake-up module is used for sending a wake-up signal, the remote control main control module is used for sending a sleep signal and sending a starting signal according to the wake-up signal, the first wireless module and/or the fingerprint module are controlled to enter a sleep state through the sleep signal, and the first wireless module and/or the fingerprint module are controlled to enter a working state through the starting signal. The remote controller has a low power consumption mode and a working mode, so that standby power consumption of the remote controller is reduced, the service life of a battery is prolonged, and user experience is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure. It will be apparent to those of ordinary skill in the art that the drawings in the following description are merely examples of the disclosure and that other drawings may be derived from them without undue effort.

Fig. 1 is an electrical schematic diagram of a fingerprint remote controller according to an embodiment of the disclosure.

Fig. 2 is an electrical schematic diagram of another fingerprint remote controller according to an embodiment of the disclosure.

Fig. 3 illustrates an electrical schematic of a smart toilet control system in an embodiment of the present disclosure.

Fig. 4 illustrates an electrical schematic of another intelligent toilet control system in an embodiment of the present disclosure.

Fig. 5 illustrates an electrical schematic of yet another intelligent toilet control system in an embodiment of the present disclosure.

Wherein reference numerals are as follows:

100. a remote controller; 110. a wake-up module; 120. a first wireless module; 130. a remote control main control module; 140. a fingerprint module; 150. a first power supply module;

200. an intelligent closestool; 210. a toilet main control module; 220. a urine detection module; 230. a second wireless module; 240. a third wireless module; 250. a second power supply module;

300. and a user terminal.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments may be embodied in many forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Furthermore, the drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus a repetitive description thereof will be omitted. Some of the block diagrams shown in the figures are functional entities and do not necessarily correspond to physically or logically separate entities. These functional entities may be implemented in software or in one or more hardware modules or integrated circuits or in different networks and/or processor devices and/or microcontroller devices.

Referring to fig. 1, there is representatively illustrated in fig. 1 a fingerprint remote control capable of embodying principles of the present disclosure, which may be used to control a smart toilet 200, the remote control 100 comprising: a wake-up module 110, a first wireless module 120, a remote control master control module 130 and a fingerprint module 140. When the user touches the wake-up module 110, the wake-up module 110 can generate a wake-up signal; the remote control main control module 130 can control the first wireless module 120 and/or the fingerprint module 140 to enter the working state according to the wake-up signal. When the user does not touch the wake-up module 110, the wake-up module 110 does not generate a wake-up signal, and the remote control main control module 130 generates a sleep signal and controls the first wireless module 120 and/or the fingerprint module 140 to enter a sleep state. The remote controller 100 has a low power consumption mode and a working mode, so that the standby power consumption of the remote controller 100 is reduced, the service life of a battery is prolonged, and the user experience is improved.

The remote control main control module 130, the first wireless module 120 and the fingerprint module 140 may be disposed in a housing of the remote controller 100, wherein the wake-up module 110 may be disposed on a surface of a fingerprint acquisition unit of the fingerprint module 140, and the wake-up module 110 and the fingerprint acquisition unit may be disposed on a surface of the housing of the remote controller 100. The remote control main control module 130 is electrically connected with the wake-up module 110, the first wireless module 120 and the fingerprint module 140, and the first wireless module 120 is wirelessly connected with the intelligent closestool 200.

The wake-up module 110 may be a capacitive sensor. When the user does not touch the sensor, the sensor does not output a wake-up signal, and at this time, the remote control main control module 130 transmits a sleep signal to the first wireless module 120 and the fingerprint module 140. When the user touches the sensor, the capacitance value of the sensor changes, and the sensor outputs a wake-up signal, and at this time, the remote control main control module 130 sends wake-up signals to the first wireless module 120 and the fingerprint module 140.

The first wireless module 120 may be a bluetooth module or a radio frequency module, where the bluetooth module transmits through digital signals, and the radio frequency module transmits through mixed digital-to-analog signals. The Bluetooth module is a PCBA board integrating the Bluetooth function and is used for short-distance wireless communication and is divided into a Bluetooth data module and a Bluetooth voice module according to the function. The bluetooth module refers to a chip basic circuit set integrating bluetooth functions, and is used for wireless network communication, and can be roughly divided into three types: the system comprises a data transmission module, a Bluetooth audio and data two-in-one module and the like. The radio frequency module is also called an RFID module and is a middleware for reading and writing the RFID of the radio frequency card. RFID (Radio Frequency Identification ) is a wireless system that uses wireless radio frequency to perform contactless bi-directional data transmission between a reader and a radio frequency card for target identification and data exchange purposes.

The remote control master module 130 includes, but is not limited to, a separate remote control processor, or a discrete component, or a combination of a remote control processor and a discrete component. The remote control processor may include a controller in an electronic device having the functionality to execute instructions, and may be implemented in any suitable manner, for example, by one or more Application Specific Integrated Circuits (ASICs), digital Signal Processors (DSPs), digital Signal Processing Devices (DSPDs), programmable Logic Devices (PLDs), field Programmable Gate Arrays (FPGAs), controllers, microcontrollers, microprocessors, or other electronic elements. Within the remote control processor, the executable instructions may be executed by hardware circuits such as logic gates, switches, application specific integrated circuits (Application SpecificIntegrated Circuit, ASIC), programmable logic controllers, and embedded microcontrollers.

The fingerprint module 140 is a module capable of completing the collection of fingerprints and the identification of fingerprints. The fingerprint module 140 mainly comprises a fingerprint acquisition unit, a fingerprint identification unit, an expansion function unit and the like, and the acquisition of the user fingerprint and the identification of the identity can be realized through the fingerprint module 140.

In an embodiment, the remote control main control module 130 may include a wake-up input port, a sleep-start output port, and a remote control processor for processing the fingerprint input signal and the wake-up signal and controlling the sleep-start output port.

When the wake-up module 110 sends a wake-up signal, the wake-up input port receives the wake-up signal, and at this time, the remote control processor generates a start-up signal according to the wake-up signal, and the sleep start-up output port sends the start-up signal to the first wireless module 120 and the fingerprint module 140. The fingerprint module 140 and the first wireless module 120 enter a working state according to the starting signal, at this time, the first wireless module 120 can receive a fingerprint input signal sent by the intelligent closestool 200 and forward the fingerprint input signal to the remote control processor, the remote control processor generates an input fingerprint control signal according to the fingerprint input signal, and the fingerprint module 140 performs input fingerprint according to the input fingerprint control signal.

After the fingerprint is input, the remote control processor generates a sleep signal, the sleep start output port transmits the sleep signal to the fingerprint module 140 and the first wireless module 120, and the fingerprint module 140 and the first wireless module 120 enter a sleep state according to the sleep signal and wait for the next time the user touches the wake-up module 110.

In an embodiment, the remote control processor may also be used to control the fingerprint module 140 to enter a fingerprint and to control the first wireless module 120 to transmit a urine test signal. The intelligent toilet 200 can initiate a urine test operation based on the urine test signal sent by the first wireless module 120.

The remote control 100 may further include a key module electrically connected to the remote control processor. The button module can comprise buttons for urine detection, flushing, flip cover, buttocks washing and the like, and the remote control processor can generate corresponding function instructions by pressing the buttons for urine detection, flushing, flip cover, buttocks washing and the like.

For example, the remote control processor is electrically connected to the urine test button, and when the user presses the urine test button, the remote control processor can generate a urine test signal and control the first wireless module 120 to send the urine test signal to the intelligent toilet 200, and the intelligent toilet 200 starts the urine test operation according to the urine test signal.

The remote control processor is electrically connected with the fingerprint module 140, and when the first wireless module 120 receives the fingerprint recording signal and forwards the fingerprint recording signal to the remote control processor, the remote control processor controls the fingerprint module 140 to record the fingerprint according to the fingerprint recording signal.

In an embodiment, the fingerprint module 140 may include a fingerprint acquisition unit and a fingerprint processing unit. The fingerprint acquisition unit is used for acquiring fingerprints, and the fingerprint processing unit is used for sending the acquired fingerprints to the remote control main control module 130; the remote control main control module 130 can store the fingerprint collected by the fingerprint collection unit, compare the fingerprint collected by the fingerprint collection unit with the fingerprint stored by the remote control main control module 130, and control the first wireless module 120 to send urine detection signals according to the compared verification result. The remote control main control module 130 may include a storage unit for storing a fingerprint.

The fingerprint acquisition unit may be: optical fingerprint units, capacitive fingerprint units, and radio frequency fingerprint units (scratch fingerprint units). And the optical fingerprint unit is used for identifying fingerprints according to the refraction and reflection principles of light. And the capacitance fingerprint unit is used for collecting fingerprints through the numerical change of the capacitance. The radio frequency fingerprint unit detects the lines by using trace radio frequency signals.

When the fingerprint module 140 records a fingerprint, the user can collect the fingerprint through the fingerprint collection unit, and the fingerprint processing unit processes the collected fingerprint, for example: the method comprises the steps of receiving original data from a fingerprint acquisition unit, and converting the data into fingerprint samples required by fingerprint comparison, wherein the fingerprint samples comprise functions of fingerprint intermediate sample processing, fingerprint feature extraction, quality control and the like. After the processing is completed, the fingerprint processing unit sends the processed fingerprint data to the remote control main control module 130, and the remote control main control module 130 can store the fingerprint data in the storage unit of the remote control main control module 130.

The remote control main control module 130 transmits the collected fingerprint data to the intelligent toilet 200 through the first wireless module 120. The processor of the intelligent toilet 200 can process the fingerprint data and output the result of successful or failed logging.

In one embodiment, the fingerprint module 140 may include: the fingerprint acquisition unit and the fingerprint storage unit are provided with a fingerprint processing unit. The fingerprint acquisition unit is used for gathering the fingerprint, and the fingerprint storage unit is used for saving the fingerprint that the fingerprint acquisition unit gathered, and the fingerprint processing unit is used for comparing the fingerprint of fingerprint acquisition unit and the fingerprint that the fingerprint storage unit preserved to send the comparison result as verification result to remote control main control module 130.

The remote control main control module 130 controls the first wireless module 120 to send the urine detection signal according to the verification result. The verification result may include: the user fingerprint recognition passes and does not pass, and when the user fingerprint recognition passes, the remote control main control module 130 transmits a urine test signal through the first wireless module 120, and the intelligent closestool 200 starts the urine test work according to the urine test signal. When the fingerprint identification of the user fails, the remote control main control module 130 does not send a urine detection signal.

Referring to fig. 1 and 2, the remote controller 100 further includes an LED module, which may be an LED lamp or an LED display screen, for an operation state of the remote controller 100. The operation state of the remote controller 100 may include a low power consumption state and an operation state.

When the LED module is an LED lamp, the LED lamp may indicate the operation state of the remote controller 100 by a light color, for example, a red light represents the operation state, a green light represents the low power consumption state, etc. When the LED module is an LED screen, the LED screen may indicate the operating state of the remote controller 100 by displaying text.

The remote controller 100 may further include a first power supply module 150, and the remote control main control module 130 may include a power supply control unit. The first power supply module 150 is electrically connected to the wake-up module 110, the first wireless module 120, the remote control main control module 130, the fingerprint module 140 and the LED module, and the power supply control unit of the remote control main control module 130 is electrically connected to the wake-up module 110, the first wireless module 120, the fingerprint module 140 and the LED module.

When the remote controller 100 is in the low power consumption state, the first power supply module 150 supplies power to the remote control main control module 130, and at the same time, the power supply control unit in the power supply of the remote control main control module 130 controls the first power supply module 150 to supply power to the wake-up module 110, and controls the first power supply module 150 to stop supplying power to the first wireless module 120, the fingerprint module 140 and the LED module. When the remote controller 100 is in an operating state, the power supply control unit may control the first power supply module 150 to supply power to the wake-up module 110, the first wireless module 120, the fingerprint module 140, and the LED module.

Referring to fig. 3, a control system of a smart toilet 200 includes the remote controller 100 described above, and the smart toilet 200, where the smart toilet 200 includes a toilet main control module 210, and the toilet main control module 210 is configured to receive and forward a fingerprint input signal of a user terminal 300, and the remote controller 100 receives the fingerprint input signal and inputs a fingerprint.

The toilet master control module 210 may be connected to the user terminal 300 and the remote controller 100 wirelessly, respectively. The user terminal 300 sends a fingerprint entry signal to the toilet master control module 210, and the toilet master control module 210 forwards the fingerprint entry signal to the remote controller 100. Meanwhile, the user terminal 300 can prompt the user to press the remote controller 100, so that the wake-up module 110 outputs a wake-up signal, and the remote controller 100 receives the fingerprint entry signal and incorporates the fingerprint. The remote controller 100 sends the collected fingerprint data to the toilet master control module 210, and the toilet master control module 210 can process the fingerprint data, output the result of successful or failed recording, and send the result of successful or failed recording to the client 300.

The user terminal 300 is a mobile terminal, the user terminal 300 may be a mobile phone APP or an applet, and the user terminal 300 is connected to the intelligent toilet 200 through a cloud server for communication.

Referring to fig. 4, the intelligent toilet 200 may include a toilet main control module 210, a urine detection module 220, a second wireless module 230, a third wireless module 240, and a second power supply module 250.

In an embodiment, the second power supply module 250 is electrically connected to the second wireless module 230, the toilet main control module 210, the urine detection module 220, and the third wireless module 240, respectively, and the second power supply module 250 is used for supplying power to the second wireless module 230, the toilet main control module 210, the urine detection module 220, and the third wireless module 240. The user terminal 300 is wirelessly connected with the second wireless module 230, the second wireless module 230 is electrically connected with the toilet main control module 210, the toilet main control module 210 is electrically connected with the urine test module 220, the urine test module 220 is electrically connected with the third wireless module 240, and the third wireless module 240 is wirelessly connected with the remote controller 100.

The user sends instructions from the user side 300. For example, the user terminal 300 sends a fingerprint input signal, the second wireless module 230 forwards the fingerprint input signal to the toilet master control module 210 after receiving the fingerprint input signal, the toilet master control module 210 forwards the fingerprint input signal to the urine detection module 220, and the urine detection module 220 sends the fingerprint input signal to the remote controller 100 through the third wireless module 240.

Meanwhile, the user terminal 300 can also send a prompt to remind the user to operate on the remote controller 100 for inputting fingerprints. After the remote controller 100 finishes inputting the fingerprint, the collected fingerprint data can be returned to the third wireless module 240, and the third wireless module 240 forwards the fingerprint data to the toilet main control module 210 for processing through the urine detection module 220. The processor of the toilet main control module 210 can process the fingerprint data, and output the result of successful or failed recording, and the toilet main control module 210 sends the result of successful or failed recording to the user terminal 300 through the second wireless module 230.

The user sends instructions on the remote control 100. For example, after the fingerprint of the user passes through the fingerprint module 140, the remote controller 100 can send a urine test signal to the third wireless module 240, and the third wireless module 240 forwards the urine test signal to the urine test module 220, and the urine test module 220 performs a urine test operation according to the urine test signal.

Referring to fig. 5, in an embodiment, the second power supply module 250 is electrically connected with the second wireless module 230, the toilet main control module 210, the urine test module 220, and the third wireless module 240, respectively. The user terminal 300 is wirelessly connected with the second wireless module 230, the second wireless module 230 is electrically connected with the toilet main control module 210, the toilet main control module 210 is electrically connected with the third wireless module 240, the urine test module 220 is electrically connected with the toilet main control module 210, and the third wireless module 240 is wirelessly connected with the remote controller 100.

The user sends instructions from the user side 300. For example, the user terminal 300 sends a fingerprint input signal, the second wireless module 230 forwards the fingerprint input signal to the toilet master control module 210 after receiving the fingerprint input signal, and the toilet master control module 210 sends the fingerprint input signal to the remote controller 100 through the third wireless module 240.

Meanwhile, the user terminal 300 can also send a prompt to remind the user to operate on the remote controller 100 for inputting fingerprints. After the remote controller 100 finishes inputting the fingerprint, the collected fingerprint data can be returned to the third wireless module 240, and the third wireless module 240 forwards the fingerprint data to the toilet main control module 210 for processing through the urine detection module 220. The processor of the toilet main control module 210 can process the fingerprint data, and output the result of successful or failed recording, and the toilet main control module 210 sends the result of successful or failed recording to the user terminal 300 through the second wireless module 230.

The user sends instructions on the remote control 100. For example, after the fingerprint of the user passes through the fingerprint module 140, the remote controller 100 can send a urine test signal to the third wireless module 240, the third wireless module 240 forwards the urine test signal to the toilet main control module 210, the toilet main control module 210 forwards the urine test signal to the urine test module 220, and the urine test module 220 performs a urine test operation according to the urine test signal.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims (10)

1. A fingerprint remote control for controlling a smart toilet, comprising:

the wake-up module is used for sending a wake-up signal;

the first wireless module is used for receiving and forwarding fingerprint input signals sent by the intelligent closestool;

the remote control main control module is used for sending a sleep signal and sending a starting signal according to the wake-up signal;

the fingerprint module is used for inputting fingerprints;

the remote control main control module controls the first wireless module and/or the fingerprint module to enter a dormant state through a dormant signal; the remote control main control module controls the first wireless module and/or the fingerprint module to enter a working state through a starting signal; the remote control main control module controls the fingerprint module to record fingerprints according to the fingerprint record signals.

2. The remote control of claim 1, wherein the remote control master control module comprises:

a wake-up input port for receiving a wake-up signal;

the dormancy start output port is used for outputting a dormancy signal and a start signal;

and the remote control processor is used for processing the fingerprint input signal and the wake-up signal and controlling the dormancy start output port.

3. The remote control of claim 2, wherein the remote control processor further comprises means for controlling the fingerprint module to enter a fingerprint and for controlling the first wireless module to transmit a urine test signal; the intelligent closestool can start urine detection work according to the urine detection signal sent by the first wireless module.

4. The remote control of claim 1, wherein the fingerprint module comprises:

the fingerprint acquisition unit is used for acquiring fingerprints;

the fingerprint processing unit is used for sending the collected fingerprints to the remote control main control module;

the remote control main control module can store the fingerprint collected by the fingerprint collection unit, compare the fingerprint collected by the fingerprint collection unit with the fingerprint stored by the remote control main control module, and control the first wireless module to send urine detection signals according to the compared verification result.

5. The remote control of claim 1, wherein the fingerprint module comprises:

the fingerprint acquisition unit is used for acquiring fingerprints;

the fingerprint storage unit is used for storing the fingerprints acquired by the fingerprint acquisition unit;

the fingerprint processing unit is used for comparing the fingerprint of the fingerprint acquisition unit with the fingerprint stored in the fingerprint storage unit and sending a comparison result to the remote control main control module as a verification result;

and the remote control main control module controls the first wireless module to send urine detection signals according to the verification result.

6. The remote control of claim 1, further comprising an LED module for indicating an operational status of the remote control.

7. The remote control of claim 1, further comprising a first power module configured to power the remote control master control module, the remote control master control module further comprising a power control unit configured to control the first power module to power the first wireless module and the fingerprint module.

8. An intelligent toilet control system, comprising the remote controller of any one of claims 1 to 7, and an intelligent toilet, wherein the intelligent toilet comprises a toilet main control module, the toilet main control module is used for receiving and forwarding a fingerprint input signal of a user side, and the remote controller receives the fingerprint input signal and inputs a fingerprint.

9. The toilet control system of claim 8, wherein the intelligent toilet further comprises a urine test module for receiving a urine test signal sent by the remote control.

10. The toilet control system of claim 8, wherein the intelligent toilet further comprises a second wireless module, a third wireless module and a second power supply module, wherein the toilet master control module receives a fingerprint entry signal of a user terminal through the second wireless module; the closestool main control module forwards a fingerprint recording signal of the user terminal through the third wireless module; the second power supply module is used for supplying power to the second wireless module, the third wireless module and the toilet main control module; the user terminal is a mobile terminal.

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