CN210321965U - Intelligent night lamp health scale - Google Patents

Abstract

The utility model discloses an intelligent night lamp health scale. The utility model discloses a healthy balance of intelligence night-light can be through the operating time of the long-range lighting module of settlement of intelligent terminal and/or cloud server, specifically through the long-range control command that sends of intelligent terminal and/or cloud server, and control module controls lighting module after receiving control command and begins work to utilize the timing module to mark the time point that lighting module began work, when the timing result of timing module reaches predetermined time node, control module controls lighting module stop work promptly. The utility model discloses a healthy balance of intelligence night-light need not to go at every turn to operate switch and controls the LED lamp and light or the lamp goes out through setting for lighting module's operating time, and it is very convenient to use, has both played the effect of night illumination, has still played energy-conserving effect.

Description

Intelligent night lamp health scale

Technical Field

The utility model relates to a healthy balance technical field especially relates to a healthy balance of intelligence night-light.

Background

In modern society, people are pursuing healthy life more and more, and people pay special attention to the control of human body index parameters such as weight, body fat percentage, heart rate, so that the health scale becomes a common product in daily life. The LED lamp is installed on the health scale to emit light at night, but the existing LED lamp is controlled by a manual operation switch, so that the user needs to find the switch button on the health scale at night and then control the LED lamp to be turned on, and the health scale is very inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent night lamp health scale to solve the LED lamp on the current health scale and adopt on-off control to lead to using inconvenient technical problem.

According to the utility model discloses an aspect provides a healthy balance of intelligence night-light, including the sensor that is used for monitoring human index parameter and the power module that is used for providing the electric energy, still include

The control module is respectively connected with the sensor, the communication module, the timing module, the illumination module, the display screen and the power supply module, and the power supply module is respectively connected with the sensor, the communication module, the timing module, the display screen and the illumination module;

the timing module is used for carrying out time identification on the working state of the lighting module, the control module is used for acquiring human body index parameter information detected by the sensor, transmitting the human body index parameter information to the intelligent terminal and/or the cloud server through the communication module and controlling the display screen to display the human body index parameter information, and is also used for receiving a control instruction sent by the intelligent terminal and/or the cloud server through the communication module, controlling the working state of the lighting module according to the received control instruction and controlling the working time of the lighting module according to the timing result of the timing module.

Further, intelligence night-light health balance still include with control module connects and is used for the response whether there is infrared induction module and/or the microwave response module that the human body is close to, control module is used for the basis infrared induction module and/or the response result control of microwave response module lighting module is at the operating condition of within the operating time of settlement.

Furthermore, the communication module is also used for searching the Bluetooth device name or UUID of the intelligent device, and the control module is used for controlling the working state of the lighting module within the set working time according to the searching result of the communication module.

Further, the communication module is a gateway, the gateway includes a communication protocol converter, and the communication protocol converter supports conversion between at least two communication protocols of a bluetooth communication protocol, a Wi-Fi communication protocol, a Zigbee communication protocol, a 2G communication protocol, a 3G communication protocol, a 4G communication protocol, a 5G communication protocol, an ethernet communication protocol, an NB-IOT communication protocol, an eMTC communication protocol, a LoRa communication protocol, and a Sigfox communication protocol;

or the communication module comprises at least one of a Bluetooth module, a Wi-Fi module, a Zigbee module, a 2G module, a 3G module, a 4G module, a 5G module, an Ethernet module, an NB-IOT module, an eMTC module, a LoRa module and a Sigfox module;

or the communication module is a Bluetooth broadcast receiving and transmitting module which transmits and receives information through Bluetooth broadcast frequency.

Further, intelligence night-light health balance still include with control module connects and is used for the sound module that sound was reminded, control module is used for controlling the operating condition of sound module according to received control command.

Furthermore, the intelligent night light health scale further comprises a laser height measurement module for measuring the height, the laser height measurement module comprises a laser emission unit, a laser receiving unit and a data processing unit, the laser emission unit is connected with the control module, the laser emission unit and the laser receiving unit are both connected with the data processing unit, and the data processing unit is further connected with the communication module;

the control module is used for controlling the laser emitting unit to emit laser according to a received height measuring control instruction sent by the intelligent terminal and/or the cloud server, the laser receiving unit is used for receiving reflected laser, and the data processing unit is used for calculating height parameters and transmitting height parameter information to the intelligent terminal and/or the cloud server through the communication module.

Further, the illumination module and the laser height measurement module are combined and arranged, perpendicular to the panel of the scale and higher than the panel.

Further, intelligence night-light health balance still includes pulse current generation circuit module and stimulation electrode, pulse current generation circuit module respectively with control module with stimulation electrode connects, control module is used for controlling pulse current generation circuit module output pulse current extremely stimulation electrode is with the human target location of amazing.

Further, the pulse current generating circuit module at least comprises a boost circuit, the boost circuit at least comprises an inductor L and a capacitor C, and the inductance value of the inductor L is larger than 0.5 mH.

Furthermore, the number of the stimulation electrodes is two, the two stimulation electrodes are respectively connected with the output end of the pulse current generation circuit module and are used for being respectively contacted with two sole parts of a human body so as to inject pulse current into the sole parts, and the area of each stimulation electrode is larger than 9 square centimeters.

Further, the sensor includes one or more of a pressure sensor for measuring a weight value of the human body, a sensor for measuring an impedance value of the human body, and a heart rate sensor for measuring a heart rate of the human body.

Further, the control module comprises a first MCU and a second MCU, the first MCU is a separately packaged chip, and the second MCU is a separately packaged chip or packaged together with the communication module in one chip.

The utility model discloses following beneficial effect has:

the utility model discloses a healthy balance of intelligence night-light can be through the operating time of the long-range lighting module of settlement of intelligent terminal and/or cloud server, specifically through the long-range control command that sends of intelligent terminal and/or cloud server, and control module controls lighting module after receiving control command and begins work, simultaneously timing module 18 carries out the time sign to the time point that lighting module 15 began work, when the timing result of timing module reaches predetermined time node, control module controls lighting module stop work promptly. The utility model discloses a healthy balance of intelligence night-light need not to go at every turn to operate switch and controls the LED lamp and light or the lamp goes out through setting for lighting module's operating time, and it is very convenient to use, has both played the effect of night illumination, has still played energy-conserving effect.

Additionally, the utility model discloses a healthy balance of intelligence night-light still is provided with the laser altimetry module to have the function of measuring the height.

In addition, the intelligent night light health scale is also provided with stimulating electrodes, thereby having the function of electric pulse massage.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural diagram of an intelligent night light health scale according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of the combination of the lighting module and the laser height measuring module in fig. 1 according to the preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of another state of the lighting module and the laser height measuring module in fig. 1 according to the preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of a booster circuit included in the pulse current generation circuit block in fig. 1 according to a preferred embodiment of the present invention.

Description of the reference numerals

11. A control module; 12. a sensor; 13. a laser height measurement module; 14. an infrared sensing module; 15. a lighting module; 16. a display screen; 17. a sound module; 18. a timing module; 19. a communication module; 20. a pulse current generating circuit module; 21. a stimulation electrode; 22. and a power supply module.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

As shown in fig. 1, a preferred embodiment of the present invention provides an intelligent night light health scale, which comprises a bottom shell and a panel, wherein the bottom shell is connected with the panel to form a storage space inside the bottom shell and the panel. Healthy balance of intelligence night-light still includes control module 11, sensor 12, communication module 19, timing module 18, lighting module 15, power module 22, control module 11 is connected with sensor 12, communication module 19, timing module 18, lighting module 15 and power module 22 respectively, power module 22 is connected with sensor 12, communication module 19, timing module 18 and lighting module 15 respectively. The control module 11, the sensor 12, the communication module 19, the timing module 18 and the power supply module 22 are all located in a containing space formed by the bottom shell and the panel, the lighting module 15 may be disposed above the panel, below the panel or at the edge of the panel, when the lighting module 15 is disposed below the panel or at the edge of the panel, the upper surface of the panel or at the edge of the bottom shell is correspondingly provided with a light-transmitting through hole, or the panel is entirely or partially made of a light-transmitting material so as to allow light to pass through. The power supply module 22 is used for providing electric energy for each module, and the power supply module 22 may be an external power interface, a dry battery, a rechargeable battery, a light energy battery, or the like. The sensor 12 is used for monitoring human body index parameters, and comprises at least one of a pressure sensor for measuring a human body weight value, a sensor for measuring a human body impedance value and a heart rate sensor for measuring a human body heart rate, wherein the pressure sensor for measuring the human body weight value is arranged below the panel, and the sensor for measuring the human body impedance value and the heart rate sensor for measuring the human body heart rate can be arranged on the panel. The lighting module 15 is used for emitting light to facilitate a user to move at night, the lighting module 15 is an LED lamp, an energy saving lamp, an incandescent lamp, and the like, and is not limited in particular, in addition, the number of the lighting modules 15 may be one or more, and is not limited in this respect, and the light emitting color of the lighting module 15 may be white, red, blue, purple, and the like, and is not limited in this respect. The timing module 18 is configured to perform timing, and may also be configured to perform time identification on the working state of the lighting module 15, where the timing module 18 may be integrated with the control module 11, or may be a separately configured timing chip. The communication module 19 is configured to be in communication connection with an intelligent terminal and/or a cloud server, the communication module 19 includes at least one of a bluetooth module, a Wi-Fi module, a Zigbee module, a 2G module, a 3G module, a 4G module, a 5G module, an ethernet module, an NB-IOT module, an eMTC module, a LoRa module, and a Sigfox module, or the communication module 19 is a gateway, the gateway includes a communication protocol converter, and the communication protocol converter supports conversion between at least two of a bluetooth communication protocol, a Wi-Fi communication protocol, a Zigbee communication protocol, a 2G communication protocol, a 3G communication protocol, a 4G communication protocol, a 5G communication protocol, an ethernet communication protocol, an NB-IOT communication protocol, a tc communication protocol, an emra communication protocol, and a Sigfox communication protocol, and takes into account that the illumination module 15 in the intelligent night light health scale needs to consume more electric power, the health scale usually adopts long-time circular telegram, adopts the gateway as communication module 19 can realize that the health scale is the relay node in gateway or bluetooth mesh concurrently, accords with the development demand of thing networking more. The control module 11 includes a single chip, and the single chip performs data processing and control functions. The control module 11 may obtain the human body index parameter information detected by the sensor 12 and transmit the human body index parameter information to the intelligent terminal and/or the cloud server through the communication module 19, and the intelligent terminal and/or the cloud server may further transmit a control instruction to the communication module 19, where the control instruction may be an instruction to detect a certain human body index parameter, an instruction to set an operating time of the lighting module 15, an instruction to adjust a light emitting color of the lighting module 15, or an instruction to adjust a light emitting mode of the lighting module 15, the communication module 19 transmits the received control instruction to the control module 11, the control module 11 controls an operating state of the lighting module 15 according to the received control instruction, for example, controls the lighting module 15 to start operating, or controls the lighting module 15 to change a light emitting color or a light emitting mode, the control module 11 further sets the operating time of the lighting module 15 through the timing module 18, for example, after the control module 11 receives a control instruction for setting the operating time of the lighting module 15, the control module 11 controls the lighting module 15 to start operating at the set time, and at the same time, the timing module 18 performs time marking on the time point at which the lighting module 15 starts operating, when the timing of the timing module 18 reaches a preset time node, the control module 11 controls the lighting module 15 to stop operating, so that the operating time of the lighting module 15 can be set, for example, the lighting module 15 can be controlled not to emit light in the daytime, the lighting module 15 can be controlled to emit light at night, or the lighting module 15 can be set not to emit light in the period when the user is not at home for a long time. In addition, the intelligent terminal can be a smart phone, a smart watch, a smart bracelet, smart glasses, a smart gateway, a tablet computer, a smart sound box, a smart television or a smart router, etc.

The utility model discloses a healthy balance of intelligence night-light can be through the long-range operating time who sets for lighting module 15 of intelligent terminal and/or cloud server, specifically through the long-range control command that sends of intelligent terminal and/or cloud server, control module 11 is receiving control command back control lighting module 15 and is starting work at predetermined time to utilize timing module 18 to carry out the time sign to the time point that lighting module 15 started work, when timing module 18's timing result reached predetermined time node, control module 11 controls lighting module 15 stop work promptly. The utility model discloses a healthy balance of intelligence night-light need not to go at every turn to operate switch and controls the LED lamp and light or the lamp goes out through setting for lighting module 15's operating time, and it is very convenient to use, has both played the effect of night illumination, has still played energy-conserving effect.

It can be understood that as preferred, healthy balance of intelligence night-light still includes infrared induction module 14, infrared induction module 14 with control module 11 is connected, and it can sense whether there is the human body to be close to healthy balance, control module 11 can be according to the response result control of infrared induction module 14 the operating condition of lighting module 15 in the operating time of settlement. For example, the working time set by the lighting module 15 is at night, when the infrared sensing module 14 detects that a human body approaches, a feedback signal is transmitted to the control module 11, the control module 11 controls the lighting module 15 to emit light according to the received feedback signal, and if the infrared sensing module 14 does not detect that a human body approaches, the control module 11 controls the lighting module 15 not to emit light, so that even in the set working time of the lighting module 15, if no human body approaches the health scale, the lighting module 15 can be controlled not to emit light, and the energy-saving effect is further improved. The infrared sensing module 14 is an infrared sensor. In addition, the infrared sensing module 14 may be disposed on the panel or the bottom case or the edge of the panel. It is understood that the infrared sensing module 14 may be replaced with a microwave sensing module 14, which is a microwave radar sensor. Or, the healthy balance of intelligence night-light includes infrared induction module 14 and microwave response module simultaneously, as long as any one in infrared induction module 14 and the microwave response module senses that there is the human body to be close to, control module 11 controls lighting module 15 promptly and gives out light, only when both do not sense when there is the human body to be close to, control module 11 just controls lighting module 15 and does not give out light to can improve response degree of accuracy and reliability effectively.

It is to be understood that, as an advantage, the communication module 19 may also search for a bluetooth device name or UUID (Universally Unique Identifier) of a nearby smart device, and the control module 11 may control the operating state of the lighting module 15 within the set operating time according to the search result of the communication module 19. For example, when the communication module 19 searches for the name of a bluetooth device or a UUID of a nearby smart device, which means that a person is in a room or a person is close to a health scale, the control module 11 controls the lighting module 15 to emit light within a set working time; when the communication module 19 does not search the name of the bluetooth device or the UUID of the nearby intelligent device, it means that no person is in the room or no person is close to the health scale, and the control module 11 controls the lighting module 15 not to emit light, so that even in the set working time of the lighting module 15, if no person is close to the health scale or no person is in the room, the lighting module 15 can be controlled not to emit light, and the energy-saving effect is further improved.

It is to be understood that, as a preferred option, the intelligent night light health scale further comprises a sound module 17 for emitting a sound prompt, and the sound module 17 is connected with the control module 11. The intelligent terminal and/or the cloud server may send a control instruction for controlling the sound module 17 to start working, and after receiving the control instruction, the control module 11 controls the sound module 17 to send a voice prompt, for example, controls the sound module 17 to broadcast a detection result of the sensor 12 by voice, or controls the sound module 17 to send a buzzer. The sound module 17 may be a speaker or a buzzer. The sound module 17 may be disposed on the panel or the bottom case, or disposed in the receiving space formed by the panel and the bottom case, and a corresponding through hole is formed on the panel or the bottom case so as to transmit sound.

In addition, as preferred, intelligence night-light health scale still includes laser altimetry module 13 that is used for measuring the height, laser altimetry module 13 includes laser emission unit 131, laser receiving element 132 and data processing unit 133, laser emission unit 131 with control module 11 is connected, laser emission unit 131 and laser receiving element 132 all with data processing unit 133 is connected, data processing unit 133 still with communication module 19 is connected. The control module 11 controls the laser emitting unit 131 to emit laser after receiving a control instruction for measuring the height sent by the intelligent terminal and/or the cloud server, the laser receiving unit 132 is used for receiving the reflected laser, and the data processing unit 133 is used for calculating the height parameter and transmitting the height parameter information to the intelligent terminal and/or the cloud server through the communication module 19. In actual use, when the user stands on the intelligent night light health scale, a flat plate is placed on the top of the user's head to bounce the laser light emitted by the laser emitting unit 131, so that the laser receiving unit 132 can successfully receive the reflected laser light, ensuring that the data processing unit 133 can successfully calculate the rise. It can be understood that the laser height measuring module 13 can be disposed on the panel or under the panel, as an option, the laser height measuring module 13 is disposed under the panel to protect the laser height measuring module 13 in this embodiment, the laser emitting unit 131 and the laser receiving unit 132 are disposed perpendicular to the panel, and two through holes are disposed on the panel, and the positions of the two through holes correspond to the laser emitting unit 131 and the laser receiving unit 132, respectively, so that the laser can be emitted and the reflected laser can be received smoothly. Alternatively, the portions of the panel corresponding to the laser emitting unit 131 and the laser receiving unit 132 may be made of a transparent material so that the laser can pass through the panel. Alternatively, a large hole may be opened in the panel to expose the laser emitting unit 131 and the laser receiving unit 132. It can be understood that the laser height measuring module 13 and the lighting module 15 are combined to improve the integration degree of the parts, as shown in fig. 2, the laser height measuring module 13 and the lighting module 15 are combined to be arranged on the panel of the scale and perpendicular to the panel, or as shown in fig. 3, the laser height measuring module 13 and the lighting module 15 are combined to be arranged on the edge of the panel and perpendicular to the panel and higher than the panel.

It can be understood that, as a preferred option, the intelligent night light health scale further includes a pulse current generation circuit module 20 and a stimulation electrode 21, the pulse current generation circuit module 20 is respectively connected with the control module 11 and the stimulation electrode 21, and the control module 11 can control the pulse current generation circuit module 20 to output a pulse current to the stimulation electrode 21 so as to stimulate a target position of a human body. Specifically, the pulse current generating circuit module 20 includes at least one boost circuit, as shown in fig. 4, the boost circuit includes an inductor L, a capacitor C, a transistor Q, and a diode D, a first end of the inductor L is connected to an anode output end of the power supply module 22, a second end of the inductor L is connected to an anode end of the diode D and a collector end of the transistor Q, a cathode end of the diode D is connected to a first end of the capacitor C, a base of the transistor Q is connected to the control module 11, an emitter of the transistor Q and a second end of the capacitor C are both connected to a cathode output end of the power supply module 22, the transistor Q is turned on during charging, an input voltage flows through the inductor, an inductor current is generated in the inductor, the diode D can prevent the capacitor C from discharging to the ground, then during discharging, the transistor Q is turned off, and the inductor L starts to charge the capacitor C, at this time, the voltage across the capacitor C is higher than the output voltage of the power supply module 22, so as to realize boosting. The magnitude of the inductor current in the inductor L is positively correlated to the inductance thereof, and the larger the inductance of the inductor L is, the larger the generated inductor current is, so that the voltage at the two ends of the capacitor C is higher, therefore, the inductance of the inductor L is selected to be greater than 0.5mH in this embodiment, so as to ensure that the pulse voltage output by the pulse current generating circuit module 20 is greater than 36V to stimulate nerves and/or muscles of a human body, and in addition, the withstand voltage of the capacitor C is greater than 50V to prevent breakdown. In addition, the triode Q can be replaced by a MOS transistor or other switching elements. The pulse current output by the pulse current generating circuit module 20 may be a low-frequency pulse current, an intermediate-frequency pulse current, or a high-frequency pulse current. In addition, the stimulation electrodes 21 are arranged on the panel, the stimulation electrodes 21 can be integrated with a sensor for measuring the impedance value of a human body and/or a heart rate sensor for measuring the heart rate of the human body into a whole or integrated with three into a whole, the number of the stimulation electrodes 21 is two, the stimulation electrodes 21 can adopt metal electrode plates or ITO conductive films, the area of each stimulation electrode 21 is larger than 9 square centimeters, when a user stands on a health scale with bare feet, the two stimulation electrodes 21 can have enough contact area to stimulate more muscles and/or nerves, and can also be used as a sensor for measuring the impedance value of the human body and/or a sensor for measuring the heart rate of the human body. The boost circuit of this embodiment only provides a specific embodiment of the boost circuit, the boost circuit needs to include an inductor L and a capacitor C, the inductance value of the inductor L needs to be greater than 0.5mH, and in practical applications, the boost circuit may have various modifications, which is not limited herein.

It can be understood that, as preferred, the communication module 19 adopts a bluetooth broadcast transceiver module, which is different from the existing bluetooth module and transmits and receives information through bluetooth broadcast frequency, for example, the bluetooth broadcast transceiver module can transmit the human body index parameter information collected by the sensor 12 in a form of a bluetooth broadcast data packet on a specific bluetooth broadcast channel, the intelligent terminal can obtain the human body index parameter information only by scanning and analyzing the data packet on the specific bluetooth broadcast channel, and the bluetooth broadcast transceiver module can also receive the control instruction transmitted by the intelligent terminal on the specific bluetooth broadcast channel. In the process of communicating the bluetooth broadcast transceiver module with the intelligent terminal, a data link does not need to be established with the intelligent terminal for connection communication, so that a complete GAP (generic access profile) and GATT (generic attribute profile) bluetooth protocol is not needed, a bluetooth protocol stack processor is not needed, the cost of the communication module 19 is greatly reduced, and the structure is simpler. The bluetooth broadcast transceiver module can be configured with embedded software and/or peripheral circuits through chips without a bluetooth protocol stack processor, such as a bluetooth beacon chip for a 2.4G chip and a bluetooth beacon chip, a bluetooth radio frequency front-end chip and the like, so that the bluetooth broadcast transceiver module can receive and transmit information in a bluetooth broadcast channel.

It can be understood that intelligence night-light health scale still includes the display screen 16 that is used for showing information, display screen 16 with control module 11 connects, display screen 16 can show at least one of human index parameter information, height information, the pulse voltage value of pulse current generation circuit module 20 output that sensor 12 detected.

It will be appreciated that in one embodiment, the control module 11 comprises one MCU, and all functional modules are controlled by the one MCU. In another embodiment, the control module 11 includes a first MCU and a second MCU, the first MCU is connected to the second MCU, the first MCU is further connected to the sensor 12 and the display screen 16, the lighting module 15 is connected to the second MCU, and the communication module 19 is connected to the first MCU and/or the second MCU, so that the first MCU is responsible for acquiring the human body index parameter detection result from the sensor 12 and controlling the display screen 16 to display information correspondingly, and the second MCU is responsible for controlling the operating state of the lighting module 15. In addition, the power supply module 22 is connected to the first MCU and the second MCU respectively. In another embodiment, the communication chip in the communication module 19 includes the second MCU, or the communication chip wafer and the second MCU chip wafer are sealed together, so that the peripheral circuit can be simpler and lower in cost.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. An intelligent night light health scale, which comprises a sensor (12) for monitoring human body index parameters and a power supply module (22) for providing electric energy, is characterized in that,

also comprises

The intelligent lighting device comprises a control module (11), a communication module (19), a timing module (18), a display screen (16) and a lighting module (15), wherein the control module (11) is respectively connected with a sensor (12), the communication module (19), the timing module (18), the lighting module (15), the display screen (16) and a power supply module (22), and the power supply module (22) is respectively connected with the sensor (12), the communication module (19), the timing module (18), the display screen (16) and the lighting module (15);

the timing module (18) is used for carrying out time identification on the working state of the lighting module (15), the control module (11) is used for acquiring the human body index parameter information detected by the sensor (12), transmitting the human body index parameter information to the intelligent terminal and/or the cloud server through the communication module (19) and controlling the display screen (16) to display the human body index parameter information, and is also used for receiving a control instruction sent by the intelligent terminal and/or the cloud server through the communication module (19), controlling the working state of the lighting module (15) according to the received control instruction and controlling the working time of the lighting module (15) according to the timing result of the timing module (18).

2. The intelligent nightlight health scale of claim 1,

healthy balance of intelligence night-light still include with control module (11) are connected and are used for the response to have infrared induction module (14) and/or the microwave response module that human body is close to, control module (11) are used for the basis infrared induction module (14) and/or the response result control of microwave response module lighting module (15) operating condition in the operating time of settlement.

3. The intelligent nightlight health scale of claim 1,

the communication module (19) is also used for searching the Bluetooth device name or UUID of the intelligent device, and the control module (11) is used for controlling the working state of the lighting module (15) within the set working time according to the searching result of the communication module (19).

4. The intelligent nightlight health scale of claim 1,

the communication module (19) is a gateway, the gateway comprises a communication protocol converter, and the communication protocol converter supports conversion between at least two communication protocols of a Bluetooth communication protocol, a Wi-Fi communication protocol, a Zigbee communication protocol, a 2G communication protocol, a 3G communication protocol, a 4G communication protocol, a 5G communication protocol, an Ethernet communication protocol, an NB-IOT communication protocol, an eMTC communication protocol, a LoRa communication protocol and a Sigfox communication protocol;

or the communication module (19) comprises at least one of a Bluetooth module, a Wi-Fi module, a Zigbee module, a 2G module, a 3G module, a 4G module, a 5G module, an Ethernet module, an NB-IOT module, an eMTC module, a LoRa module and a Sigfox module;

or the communication module (19) is a Bluetooth broadcast transceiving module which transmits and receives information through Bluetooth broadcast frequency.

5. The intelligent nightlight health scale of claim 1,

the intelligent night light health scale further comprises a sound module (17) connected with the control module (11) and used for making a sound prompt, and the control module (11) is used for controlling the working state of the sound module (17) according to the received control instruction.

6. The intelligent nightlight health scale of claim 1,

the intelligent night light health scale further comprises a laser height measuring module (13) for measuring height, the laser height measuring module (13) comprises a laser emitting unit (131), a laser receiving unit (132) and a data processing unit (133), the laser emitting unit (131) is connected with the control module (11), the laser emitting unit (131) and the laser receiving unit (132) are both connected with the data processing unit (133), and the data processing unit (133) is further connected with the communication module (19);

the control module (11) is used for controlling the laser emitting unit (131) to emit laser according to a received height measuring control instruction sent by the intelligent terminal and/or the cloud server, the laser receiving unit (132) is used for receiving reflected laser, and the data processing unit (133) is used for calculating height parameters and transmitting height parameter information to the intelligent terminal and/or the cloud server through the communication module (19).

7. The intelligent nightlight health scale of claim 6,

the lighting module (15) and the laser height measuring module (13) are combined and arranged, perpendicular to the panel of the scale and higher than the panel.

8. The intelligent nightlight health scale of claim 1,

healthy balance of intelligence night-light still includes pulse current generation circuit module (20) and stimulation electrode (21), pulse current generation circuit module (20) respectively with control module (11) with stimulation electrode (21) are connected, control module (11) are used for control pulse current generation circuit module (20) output pulse current extremely stimulation electrode (21) are in order to stimulate human target location.

9. The intelligent nightlight health scale of claim 8,

the pulse current generation circuit module (20) at least comprises a booster circuit, the booster circuit at least comprises an inductor L and a capacitor C, and the inductance value of the inductor L is larger than 0.5 mH.

10. The intelligent nightlight health scale of claim 8,

the number of the stimulation electrodes (21) is two, the two stimulation electrodes (21) are respectively connected with the output end of the pulse current generation circuit module (20) and are used for being respectively contacted with two sole parts of a human body so as to inject pulse current into the sole parts, and the area of each stimulation electrode (21) is larger than 9 square centimeters.

11. The intelligent nightlight health scale of claim 1,

the sensors (12) include one or more of a pressure sensor for measuring a body weight value, a sensor for measuring a body impedance value, and a heart rate sensor for measuring a heart rate of the body.

12. The intelligent nightlight health scale of claim 1,

the control module (11) comprises a first MCU and a second MCU, the first MCU is a chip packaged independently, and the second MCU is a chip packaged independently or packaged together with the communication module (19) in one chip.

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