CN112987623A - Low-power consumption massage chair control system, standby method and awakening method - Google Patents

Abstract

The invention provides a low-power consumption massage armchair control system, a standby method and a wake-up method, which comprise the following steps: a main driver; the power supply comprises an electric energy converter, a first power supply module, a second power supply module and a second power switch; the handrail controller is electrified with the first power switch and comprises a handrail micro-control unit, a handrail control interface and a handrail key module which are connected in pairs, the handrail control interface is correspondingly connected with the handrail control port, and a wake-up communication path is arranged between the handrail control interface and the handrail control port; each massage controller comprises a massage micro-control unit, a driving circuit module, a detection circuit module and a massage communication interface, wherein the driving circuit module, the detection circuit module and the massage communication interface are respectively connected with the massage micro-control unit; and powering on the user interaction system of the second power supply module. The invention can reduce the overall energy consumption of the low-power consumption massage armchair control system, and effectively awakens the whole low-power consumption massage armchair control system when the massage armchair is in a low-power consumption standby state.

Description

Low-power consumption massage chair control system, standby method and awakening method

Technical Field

The invention relates to the technical field of massage chairs, in particular to a low-power consumption massage chair control system, a standby method and a wake-up method.

Background

With the development of the world economy and science and technology, the living standard of people is improved, and the attention of people to health is continuously improved. The massage chair is a combination of traditional Chinese medicine and modern technology, and the use of the massage chair is gradually trusted by more and more people. The manufacturers of massage chairs also have come out like bamboo shoots in spring after rain. However, the authentication of massage chairs in various countries of the world is becoming stricter. For example, export to eu countries has to meet standby power consumption requirements.

The standby power consumption of the traditional massage chair is not taken as an index which must be met during design, and if a consumer forgets to turn off the power supply after using the massage chair, the electricity is wasted. However, there are also national legal requirements that massage chairs must meet local standby power requirements. In the process of product development, an external power supply is required to be cut off to enable a product to enter a low power consumption mode, and meanwhile, the condition that the product can be normally awakened from the low power consumption mode under the condition that user experience is not influenced is guaranteed. Particularly in the case of multiple control modes in a massage chair system, such as: under the circumstances that hand controller, handrail keypad, APP exist simultaneously, how solve the standby power consumption problem in the system and can easily awaken up again from under the standby power consumption mode, be one and remain to solve and have the prior art problem of certain degree of difficulty.

Currently, many countries have no mandatory requirements for standby power consumption. Many massage chairs are sold but do not meet the requirement of standby power consumption. In the future, as the requirements of the national quality control department on massage products become stricter and stricter, the standby power consumption may be as strict as the requirements of the European Union. At that time, massage chairs that cannot satisfy the standby power consumption cannot be sold in the market. In addition, if the massage chair does not meet the standby power consumption, the massage chair can increase the waste of electric quantity when in use, which is not beneficial to environmental protection.

Disclosure of Invention

In view of the above drawbacks of the prior art, the technical problem to be solved by the present invention is to provide a low power consumption massage chair control system, a standby method and a wake-up method, which can effectively distribute and control direct currents with different voltages of an electric energy converter, reduce the overall energy consumption of the low power consumption massage chair control system, and effectively wake up the whole low power consumption massage chair control system when the massage chair is in a low power consumption standby state, without affecting user experience.

In order to solve the above technical problem, the present invention provides a low power consumption massage chair control system, comprising:

the main driver comprises a main micro-control unit, and a power control port, a user interaction port, a handrail control port, a massage communication port and a first power switch which are respectively connected with the main micro-control unit;

the electric energy converter comprises a first power supply module, a second power supply module and a second power switch, wherein the voltage value of the first power supply module is higher than that of the second power supply module, the second power switch is respectively connected with the first power supply module and the power control port, and the second power supply module is connected with the power control port;

the handrail controller is electrified with the first power switch and comprises a handrail micro-control unit, a handrail control interface and a handrail key module which are connected in pairs, the handrail control interface is correspondingly connected with the handrail control port, and a wake-up communication path is arranged between the handrail control interface and the handrail control port;

the massage system comprises a plurality of massage controllers, a plurality of power supply modules and a plurality of power supply modules, wherein each massage controller comprises a massage micro-control unit, and a driving circuit module, a detection circuit module and a massage communication interface which are respectively connected with the massage micro-control unit;

and the user interaction system is powered on the second power supply module and comprises a hand controller and a user interface device, and the hand controller is correspondingly connected to the user interaction port through the user interface device.

Preferably, the user interaction port comprises a hand controller port and a wireless control port; the user interface device comprises a matching circuit module and a wireless transceiving module, the matching circuit module is respectively connected with the hand controller and the hand controller port, and the wireless transceiving module is connected with the wireless control port.

Preferably, the hand controller comprises a touch screen, a manual micro-control unit and a hand controller interface which are connected in sequence, and the hand controller interface is correspondingly connected to the matching circuit module.

Preferably, the user interface device further comprises a power amplifier module, and the power amplifier module is connected with the wireless transceiver module.

Preferably, the main driver further comprises a sensor signal port connected with the main micro control unit; the low-power consumption massage chair control system further comprises a signal detector, the signal detector is electrified on the first power switch, and the signal detector is connected with the signal port of the sensor.

Preferably, the signal detector comprises a sensor peripheral circuit module and a sensor signal interface which are connected with each other, and the sensor signal interface is correspondingly connected to the sensor signal port.

Preferably, the massage controller is a movement massage controller or a lower leg massage controller.

The invention also provides a standby method of the low-power consumption massage armchair control system, which comprises the following steps:

s1, after the power converter is connected to the power grid, the massage chair is in an idle state: the main micro-control unit respectively controls the first power switch and the second power switch to enter an electric energy supply interruption mode, and is not in a sleep mode;

s2, judging whether the user turns on the power key of the massage chair through the user interaction system, if so, making the massage chair enter a waiting instruction state, otherwise, executing S5;

s3, judging whether the user triggers the massage program of the main micro-control unit in a second preset time through the user interaction system, if so, enabling the massage chair to enter a massage running state until the running time of the massage program reaches a preset running time, otherwise, jumping back to S1;

s4, the massage chair enters the reset state, and jumps back to S1 after the reset is finished;

s5, starting timing and judging whether the accumulated time exceeds a first preset time, if so, executing S6, otherwise, jumping back to S1;

s6, the massage chair enters a low-power consumption standby state: the main micro-control unit respectively controls the first power switch and the second power switch to enter an electric energy supply interruption mode, and then the main micro-control unit enters a sleep mode.

The invention also provides a wake-up method of the low-power consumption massage armchair control system, which comprises the following steps:

s1, when the massage chair is in the low power consumption standby state, the user turns on the power key of the massage chair through the user interaction system;

s2, the user sends a communication instruction to the main micro-control unit through the user interaction system to activate the main micro-control unit, and after the main micro-control unit is activated, the user interaction system automatically sends the communication instruction to the main micro-control unit;

s3, the main micro-control unit respectively controls the first power switch and the second power switch to enter an electric energy supply mode;

s4, activating all the low-power consumption massage chair control systems;

and S5, executing the communication command by the low-power consumption massage chair control system.

The invention also provides a wake-up method of the low-power consumption massage armchair control system, which comprises the following steps:

s1, when the massage chair is in the low power consumption standby state, the user turns on the power key of the massage chair through the user interaction system;

s2, the user makes the wake-up pin of the main driver generate high-low level change through the armrest key module to activate the main micro-control unit;

s3, the main micro-control unit respectively controls the first power switch and the second power switch to enter an electric energy supply mode;

and S4, activating all the low-power consumption massage chair control systems.

As described above, the low power consumption massage chair control system, the standby method and the awakening method of the present invention have the following beneficial effects: in the invention, the user interaction port of the main driver can communicate with the hand controller through the user interface device, and can also communicate with the server or the mobile terminal through the user interface device; the power supply control port is responsible for receiving or controlling two direct currents of the electric energy converter; the first power switch is controlled by the main micro-control unit so as to control whether the second power supply module supplies power to electric devices such as a massage controller, an armrest controller and the like of the massage chair; the handrail control port is responsible for communicating with the handrail controller; the massage communication port is responsible for communicating with the massage micro-control unit of each massage controller. The electric energy converter is used for being connected to a power grid and outputting two types of direct currents with different voltages, wherein one direct current with a larger voltage supplies power for a driving execution part of the massage chair, and the other direct current with a smaller voltage supplies power for a sensor, a signal detector, each micro-control unit and a user interaction system of the massage chair. The second power switch of the electric energy converter can be connected with the power control port of the main driver through the IO port, receives the control signal from the main micro-control unit, and controls the existence of the direct current with larger voltage according to the control signal. The handrail controller comprises two handrail micro-control units, two handrail control interfaces and two handrail key modules which are connected with each other, the handrail control interfaces are correspondingly connected to the handrail control ports, a wake-up communication path is arranged between the handrail control interfaces and the handrail control ports, specifically, the handrail control interfaces are responsible for communicating with the main driver, and signals generated by the handrail key modules are transmitted to the handrail micro-control units. When the handrail micro-control unit cannot be powered on, the handrail key module enables the level of the awakening pin of the main driver to be changed through the awakening communication path between the handrail control interface and the handrail control port, so that the main micro-control unit is activated. In each massage controller, the driving circuit module is electrified to the first power supply module; the massage controller except the drive circuit module is powered on by the second power supply module through the first power switch. The massage communication interface is in data transmission with the main driver, transmits the instruction of the main driver to the massage micro-control unit, and feeds back the data information of the massage micro-control unit to the main driver. The massage micro-control unit is mainly used for receiving instruction information from the main driver, acquiring information of the detection circuit module, feeding back the information to the main driver, and sending a driving signal to the driving circuit module for execution. The driving circuit module is used for executing signals from the massage micro-control unit and driving the massage executing component of the massage chair. The detection circuit module transmits the detection information of various sensors to the massage micro-control unit. Therefore, the low-power consumption massage armchair control system can effectively distribute and control direct currents with different voltages of the electric energy converter, reduces the overall energy consumption of the low-power consumption massage armchair control system, effectively awakens the whole low-power consumption massage armchair control system when the massage armchair is in a low-power consumption standby state, and does not affect user experience. The standby method can reduce the overall energy consumption of the massage chair; the awakening method can activate the whole low-power-consumption massage chair control system and enable the low-power-consumption massage chair control system to execute the communication instruction only by sending a communication instruction to the main micro-control unit, or can activate the whole low-power-consumption massage chair control system only by touching the armrest key module.

Drawings

Fig. 1 is a schematic diagram of a low power consumption massage chair control system according to the present invention.

Description of the element reference numerals

1 Main driver

11 main micro control unit

12 power supply control port

13 user interaction port

131 hand controller port

132 wireless control port

14 handrail control port

15 massage communication port

16 first power switch

17 sensor signal port

2 electric energy converter

21 first power supply module

22 second power supply module

23 second power switch

3 arm controller

31 handrail micro-control unit

32 armrest control interface

33 handrail key module

4 user interaction system

41 hand controller

411 touch control screen

412 manual control micro-control unit

413 interface of hand controller

42 user interface unit

421 matching circuit module

422 wireless transceiver module

423 power amplifier module

5 Signal detector

51 sensor peripheral circuit module

52 sensor signal interface

6 machine core massage controller

7 shank massage controller

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings are only used for matching the disclosure of the present disclosure, and are not used for limiting the conditions that the present disclosure can be implemented, so that the present disclosure is not limited to the technical essence, and any structural modifications, ratio changes, or size adjustments should still fall within the scope of the present disclosure without affecting the efficacy and the achievable purpose of the present disclosure. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

As shown in fig. 1, the present invention provides a low power consumption massage chair control system, comprising:

the main driver 1, the main driver 1 includes a main micro-control unit 11, and a power control port 12, a user interaction port 13, a handrail control port 14, a massage communication port 15 and a first power switch 16 which are respectively connected with the main micro-control unit 11;

the power converter 2, the power converter 2 includes a first power module 21, a second power module 22 and a second power switch 23, a voltage value (e.g. 24V) of the first power module 21 is higher than a voltage value (e.g. 5V) of the second power module 22, the second power switch 23 is respectively connected to the first power module 21 and the power control port 12, and the second power module 22 is connected to the power control port 12;

the handrail controller 3 is powered on by the first power switch 16, the handrail controller 3 comprises a handrail micro-control unit 31, a handrail control interface 32 and a handrail key module 33 which are connected in pairs, the handrail control interface 32 is correspondingly connected to the handrail control port 14, and a wake-up communication path is arranged between the handrail control interface 32 and the handrail control port 14;

each massage controller comprises a massage micro-control unit, a driving circuit module, a detection circuit module and a massage communication interface, wherein the driving circuit module, the detection circuit module and the massage communication interface are respectively connected with the massage micro-control unit, the massage communication interface is correspondingly connected with the massage communication port, the driving circuit module is powered on the first power supply module 21, and the rest modules of the massage controllers except the driving circuit module are powered on the first power supply switch 16;

the user interaction system 4 powered by the second power supply module 22 includes a hand controller 41 and a user interface 42, and the hand controller 41 is correspondingly connected to the user interaction port 13 through the user interface 42.

In the present invention, the user interaction port 13 of the main drive 1 can communicate with the hand controller 41 through the user interface 42, and can also communicate with a server or a mobile terminal through the user interface 42; the power control port 12 is responsible for receiving or controlling two types of direct current of the electric energy converter 2; the first power switch 16 is controlled by the main micro-control unit 11, so as to control whether the second power supply module 22 supplies power to electric devices such as a massage controller, an armrest controller 3 and the like of the massage chair; the arm control port 14 is responsible for communication with the arm controller 3; the massage communication port 15 (e.g., 485 communication module) is responsible for communication with the massage micro-control unit of each massage controller.

The power converter 2 is used for accessing a power grid and outputting two types of direct currents with different voltages, for example, the power converter 2 is used for receiving 110V alternating current or 220V alternating current provided by the power grid and outputting stable 24V direct current through the first power supply module 21 and stable 5V direct current through the second power supply module 22. Wherein, the 24V direct current supplies power for the driving execution part of the massage armchair, and the 5V direct current supplies power for the sensor of the massage armchair, the signal detector 5, each Micro Control Unit (MCU) and the user interaction system 4. The second power switch 23 of the power converter 2 may be connected to the power control port 12 of the main driver 1 through an IO port, receive a control signal from the main micro control unit 11, and control the presence or absence of 24V dc power according to the control signal.

The handrail controller 3 comprises a handrail micro-control unit 31, a handrail control interface 32 and a handrail key module 33 which are connected in pairs, the handrail control interface 32 is correspondingly connected to the handrail control port 14, a wake-up communication path is arranged between the handrail control interface 32 and the handrail control port 14, specifically, the handrail control interface 32 is responsible for communicating with the main driver 1, and a signal generated by the handrail key module 33 is transmitted to the handrail micro-control unit 31. When the armrest micro-control unit 31 cannot be powered (for example, the massage chair is in a low power consumption standby state), the armrest key module 33 changes the level of the wake-up pin of the main driver 1 through the wake-up communication path between the armrest control interface 32 and the armrest control port 14, so as to activate the main micro-control unit 11.

In each massage controller, the driving circuit module is powered by the first power supply module 21, for example, the required voltage of the driving circuit module is 24V; the parts of the massage controller except the driving circuit module are powered to the second power supply module 22 through the first power switch 16, for example, the required voltage of the parts of the massage controller except the driving circuit module is VCCIO. The massage communication interface is in data transmission with the main driver 1, transmits the instruction of the main driver 1 to the massage micro-control unit, and feeds back the data information of the massage micro-control unit to the main driver 1. The massage micro-control unit is mainly responsible for receiving instruction information from the main driver 1, acquiring information of the detection circuit module, feeding the information back to the main driver 1, and sending a driving signal to the driving circuit module for execution. The driving circuit module is used for executing signals from the massage micro-control unit and driving the massage executing component of the massage chair. The detection circuit module transmits the detection information of various sensors to the massage micro-control unit.

Therefore, the low-power consumption massage armchair control system can effectively distribute and control direct currents with different voltages of the electric energy converter 2, reduces the overall energy consumption of the low-power consumption massage armchair control system, effectively awakens the whole low-power consumption massage armchair control system when the massage armchair is in a low-power consumption standby state, and does not affect user experience.

In order to make the main micro-control unit 11 obtain the adapted voltage, the main driver 1 further includes a low dropout regulator (LDO) that is responsible for adapting the voltage of the second power supply module 22 to the main micro-control unit 11.

In order to increase the interaction mode between the user and the low-power consumption massage armchair control system, the user interaction port 13 comprises a hand controller port 131 and a wireless control port 132; the user interface 42 includes a matching circuit module 421 and a wireless transceiver module 422, the matching circuit module 421 is connected to the hand controller 41 and the hand controller port 131, respectively, and the wireless transceiver module 422 is connected to the wireless control port 132. The wireless transceiver module 422 includes a WiFi communication unit and a bluetooth communication unit, the WiFi communication unit or the bluetooth communication unit can communicate with the main micro control unit 11 of the main driver 1 through a serial port, and transmit data to a server or a mobile terminal, and the main micro control unit 11 can also control the on and off of the WiFi communication unit and the bluetooth communication unit. The matching circuit module 421 is mainly used to match the level between the hand controller 41 and the main drive 1.

In order to facilitate the user to operate the control system of the low power consumption massage chair, the hand controller 41 includes a touch screen 411, a manual micro-control unit 412 and a hand controller interface 413 connected in sequence, and the hand controller interface 413 is correspondingly connected to the matching circuit module 421. The touch screen 411 displays an interactive interface for a user to control. The manual micro-control unit 412 is connected to the matching circuit module 421 of the user interface 42 through the manual controller interface 413, and further communicates with the main micro-control unit 11 of the main driver 1, so as to control the massage function of the massage chair and receive the feedback information from the main micro-control unit 11, and the processed information is displayed on the touch screen 411.

In order to play the sound, the user interface 42 further includes a power amplifier module 423, and the power amplifier module 423 is connected to the wireless transceiver module 422. The power amplifier module 423 is used for receiving the audio bluetooth data signal, amplifying the bluetooth data signal, and then playing the audio bluetooth data signal through the sound box.

In order to collect the detection signals of the massage chair except the sensors related to the massage controller, the main driver 1 also comprises a sensor signal port 17 connected with the main micro-control unit 11; the low-power consumption massage chair control system further comprises a signal detector 5, the signal detector 5 is powered on the first power switch 16, and the signal detector 5 is connected with the sensor signal port 17. The sensor signal port 17 is responsible for receiving sensor signals from the signal detector 5 and transmitting them to the main micro control unit 11.

Further, the signal detector 5 includes a sensor peripheral circuit module 51 and a sensor signal interface 52 connected to each other, and the sensor signal interface 52 is correspondingly connected to the sensor signal port 17.

The massage controller is a machine core massage controller 6 or a lower leg massage controller 7.

The respective states of the massage chair will now be described as follows:

the idle state of the massage chair is as follows: in the low-power consumption massage chair control system, a main micro-control unit 11 respectively controls a first power switch 16 and a second power switch 23 to enter an electric energy supply-cut-off mode, and the main micro-control unit 11 is not in a sleep mode;

the waiting instruction state of the massage chair is as follows: in the low-power consumption massage chair control system, a main micro-control unit 11 respectively controls a first power switch 16 and a second power switch 23 to enter an electric energy supply mode, and all driving circuit modules of a massage controller do not obtain massage instructions;

the massage operation state of the massage chair is as follows: in the low-power consumption massage chair control system, a main micro-control unit 11 respectively controls a first power switch 16 and a second power switch 23 to enter an electric energy supply mode, and a driving circuit module of at least one massage controller executes a massage instruction;

the reset state of the massage chair is as follows: in the low-power consumption massage chair control system, after the main micro-control unit 11 receives a power-off instruction of a user or the running time of a massage controller reaches a preset massage time, the pose of the massage chair is restored to the original state.

The low power consumption standby state of the massage chair is as follows: in the low-power consumption massage chair control system, the main micro-control unit 11 respectively controls the first power switch 16 and the second power switch 23 to enter the power supply interruption mode, and then the main micro-control unit 11 enters the sleep mode.

In order to reduce the overall energy consumption of the massage armchair, the invention also provides a standby method of the low-power consumption massage armchair control system, which comprises the following steps:

s1, after the power converter 2 is connected to the power grid, the massage chair is in an idle state: the main micro-control unit 11 respectively controls the first power switch 16 and the second power switch 23 to enter an electric energy supply interruption mode, and the main micro-control unit 11 is not in a sleep mode;

s2, judging whether the user turns on the power key of the massage chair through the user interaction system 4, if so, making the massage chair enter a waiting instruction state, otherwise, executing S5;

s3, judging whether the user triggers the massage program of the main micro-control unit 11 in a second preset time through the user interaction system 4, if so, making the massage chair enter a massage running state until the running time of the massage program reaches the preset running time, otherwise, jumping back to S1;

s4, the massage chair enters the reset state, and jumps back to S1 after the reset is finished;

s5, starting timing and judging whether the accumulated time exceeds a first preset time, if so, executing S6, otherwise, jumping back to S1;

s6, the massage chair enters a low-power consumption standby state: the main micro-control unit 11 controls the first power switch 16 and the second power switch 23 to enter the power supply interruption mode, and then the main micro-control unit 11 enters the sleep mode.

When the main micro-control unit 11 is in the sleep mode, if the communication instruction is sent to the main micro-control unit 11 through the serial port, because the main micro-control unit 11 is not yet awakened from the sleep mode, the communication instruction can play a role of activating the main micro-control unit 11, but the content transmitted by the communication instruction is lost, and the user needs to send the communication instruction to the main micro-control unit 11 again to operate the massage chair, so that poor experience is brought to the user. Based on the above, the invention further provides a wake-up method of the low-power consumption massage armchair control system, which comprises the following steps:

s1, when the massage chair is in the low power consumption standby state, the user turns on the power key of the massage chair through the user interaction system 4;

s2, the user sends a communication instruction to the main micro-control unit 11 through the user interaction system 4 to activate the main micro-control unit 11, and after the main micro-control unit 11 is activated, the user interaction system 4 automatically sends the communication instruction to the main micro-control unit 11;

s3, the main micro-control unit 11 controls the first power switch 16 and the second power switch 23 to enter the power supply mode respectively;

s4, activating all the low-power consumption massage chair control systems;

and S5, executing the communication command by the low-power consumption massage chair control system.

By the above wake-up method, the user only needs to send a communication instruction to the main micro-control unit 11, and the entire low-power-consumption massage chair control system can be activated and be made to execute the communication instruction. Specifically, the time interval between the communication command sent by the user and the communication command automatically sent by the user interaction system 4 is millisecond-level, the user is unaware, and the above wake-up method does not bring bad user experience to the user.

Since the power supply voltage of the armrest controller 3 is VCCIO, when the massage chair enters a low power consumption standby state, the first power switch 16 enters an electric power off mode, a power supply line related to VCCIO is disconnected, and the armrest micro-control unit 31 cannot be powered, that is, the armrest micro-control unit 31 cannot activate the main micro-control unit 11 by means of a serial port instruction. Based on the above, the present invention further provides another waking method for the low power consumption massage armchair control system, which comprises the following steps:

s1, when the massage chair is in the low power consumption standby state, the user turns on the power key of the massage chair through the user interaction system 4;

s2, the user makes the wake-up pin of the main driver 1 generate high-low level change through the armrest key module 33 to activate the main micro-control unit 11;

s3, the main micro-control unit 11 controls the first power switch 16 and the second power switch 23 to enter the power supply mode respectively;

and S4, activating all the low-power consumption massage chair control systems.

The user touches the armrest key module 33 to make the wake-up pin connected to the main driver 1 generate level change, the main micro-control unit 11 is activated by the wake-up function of the main driver 1, and then the main micro-control unit 11 controls the first power switch 16 and the second power switch 23 to enter the power supply mode, respectively, so that the rest of the low power consumption massage chair control system is activated successively.

In conclusion, the low-power-consumption massage chair control system can effectively distribute and control direct currents with different voltages of the electric energy converter, reduces the overall energy consumption of the low-power-consumption massage chair control system, effectively awakens the whole low-power-consumption massage chair control system when the massage chair is in a low-power-consumption standby state, and does not affect user experience. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A low-power consumption massage chair control system, comprising:

the main driver (1), the main driver (1) includes a main micro-control unit (11), and a power control port (12), a user interaction port (13), a handrail control port (14), a massage communication port (15) and a first power switch (16) which are respectively connected with the main micro-control unit (11);

the power supply device comprises a power converter (2), wherein the power converter (2) comprises a first power supply module (21), a second power supply module (22) and a second power switch (23), the voltage value of the first power supply module (21) is higher than that of the second power supply module (22), the second power switch (23) is respectively connected with the first power supply module (21) and a power control port (12), and the second power supply module (22) is connected with the power control port (12);

the handrail control device (3) is powered on the first power switch (16), the handrail control device (3) comprises two handrail micro-control units (31), a handrail control interface (32) and a handrail key module (33), the handrail control interface (32) is correspondingly connected to the handrail control port (14), and a wake-up communication path is formed between the handrail control interface (32) and the handrail control port (14);

the massage system comprises a plurality of massage controllers, each massage controller comprises a massage micro-control unit, and a driving circuit module, a detection circuit module and a massage communication interface which are respectively connected with the massage micro-control unit, the massage communication interface is correspondingly connected with a massage communication port (15), the driving circuit module is powered on a first power supply module (21), and the rest modules of the massage controller except the driving circuit module are powered on a first power switch (16);

the user interaction system (4) is powered on the second power supply module (22), the user interaction system (4) comprises a hand controller (41) and a user interface device (42), and the hand controller (41) is correspondingly connected to the user interaction port (13) through the user interface device (42).

2. The low power consumption massage chair control system of claim 1, wherein: the user interaction port (13) comprises a hand controller port (131) and a wireless control port (132); the user interface device (42) comprises a matching circuit module (421) and a wireless transceiving module (422), the matching circuit module (421) is respectively connected with the hand controller (41) and the hand controller port (131), and the wireless transceiving module (422) is connected with the wireless control port (132).

3. The low power consumption massage chair control system of claim 2, wherein: the hand controller (41) comprises a touch screen (411), a manual micro-control unit (412) and a hand controller interface (413) which are sequentially connected, and the hand controller interface (413) is correspondingly connected to the matching circuit module (421).

4. The low power consumption massage chair control system of claim 2, wherein: the user interface device (42) further comprises a power amplifier module (423), and the power amplifier module (423) is connected with the wireless transceiver module (422).

5. The low power consumption massage chair control system of claim 1, wherein: the main driver (1) also comprises a sensor signal port (17) connected with the main micro-control unit (11); the low-power consumption massage chair control system further comprises a signal detector (5), the signal detector (5) is electrified on the first power switch (16), and the signal detector (5) is connected with the sensor signal port (17).

6. The low power consumption massage chair control system of claim 5, wherein: the signal detector (5) comprises a sensor peripheral circuit module (51) and a sensor signal interface (52) which are connected with each other, and the sensor signal interface (52) is correspondingly connected to the sensor signal port (17).

7. The low power consumption massage chair control system of claim 1, wherein: the massage controller is a machine core massage controller (6) or a crus massage controller (7).

8. A standby method of a low power consumption massage chair control system according to any one of claims 1 to 7, comprising the steps of:

s1, after the power converter (2) is connected to the power grid, the massage chair is in an idle state: the main micro-control unit (11) respectively controls the first power switch (16) and the second power switch (23) to enter an electric energy supply interruption mode, and the main micro-control unit (11) is not in a sleep mode;

s2, judging whether the user turns on the power key of the massage chair through the user interaction system (4), if so, enabling the massage chair to enter a waiting instruction state, otherwise, executing S5;

s3, judging whether the user triggers the massage program of the main micro-control unit (11) in a second preset time through the user interaction system (4), if so, enabling the massage chair to enter a massage running state until the running time of the massage program reaches the preset running time, otherwise, jumping back to S1;

s4, the massage chair enters the reset state, and jumps back to S1 after the reset is finished;

s5, starting timing and judging whether the accumulated time exceeds a first preset time, if so, executing S6, otherwise, jumping back to S1;

s6, the massage chair enters a low-power consumption standby state: the main micro-control unit (11) respectively controls the first power switch (16) and the second power switch (23) to enter an electric energy supply-cut-off mode, and then the main micro-control unit (11) enters a sleep mode.

9. A waking method of a low-power consumption massage chair control system as claimed in any one of claims 1 to 7, comprising the steps of:

s1, when the massage chair is in the low power consumption standby state, the user turns on the power key of the massage chair through the user interaction system (4);

s2, the user sends a communication instruction to the main micro-control unit (11) through the user interaction system (4) to activate the main micro-control unit (11), and after the main micro-control unit (11) is activated, the user interaction system (4) automatically sends the communication instruction to the main micro-control unit (11);

s3, the main micro-control unit (11) respectively controls the first power switch (16) and the second power switch (23) to enter a power supply mode;

s4, activating all the low-power consumption massage chair control systems;

and S5, executing the communication command by the low-power consumption massage chair control system.

10. A waking method of a low-power consumption massage chair control system as claimed in any one of claims 1 to 7, comprising the steps of:

s1, when the massage chair is in the low power consumption standby state, the user turns on the power key of the massage chair through the user interaction system (4);

s2, the user makes the wake-up pin of the main driver (1) generate high-low level change through the armrest key module (33) to activate the main micro-control unit (11);

s3, the main micro-control unit (11) respectively controls the first power switch (16) and the second power switch (23) to enter a power supply mode;

and S4, activating all the low-power consumption massage chair control systems.

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