CN211214647U - Intelligent cupping instrument - Google Patents

Abstract

The utility model discloses an intelligence cup appearance. The intelligent cupping instrument of the utility model has very compact structure, is convenient for the miniaturization design of the intelligent cupping instrument and the portability by inwards sinking the lower part of the shell to form a negative pressure cavity and arranging the electronic components such as the control module, the communication module, the air exhaust module, the power supply module and the like in the shell, in addition, the control module can send the working state of the intelligent cupping instrument to the intelligent terminal and/or the cloud server through the communication module, and/or receiving a control instruction sent by the intelligent terminal and/or the cloud server, controlling the working state of the air pump according to the received control instruction, thereby adjusting the suction force in the negative pressure cavity, realizing different cupping effects, realizing the intelligent function of the intelligent cupping instrument, meeting the development requirements of the Internet of things, and the user can adjust the suction in the negative pressure cavity at any time according to the actual cupping experience to obtain the most comfortable cupping experience.

Description

Intelligent cupping instrument

Technical Field

The utility model relates to a cup instrument technical field especially, relates to an intelligence cup appearance.

Background

The existing cupping is mainly divided into a cupping jar and a vacuum jar, in the using process of the cupping jar, a combustion object easily burns the skin, the size of negative pressure in the cupping jar is difficult to control, the skin is easily damaged when the negative pressure is too large, the treatment effect is poor when the negative pressure is too small, even secondary operation is required, the cupping jar is complex to use and has strong specialization; at present, a vacuum cupping instrument is developed, and the defects that the skin is easily burnt by fire cupping and the size of negative pressure is difficult to control are overcome.

But current vacuum cup instrument, its volume is great and the structure is complicated, is not convenient for hand-carry to current vacuum cup instrument can not carry out information interaction between with intelligent terminal equipment (for example cell-phone, panel computer, intelligent wearable equipment, intelligent house etc.), can't satisfy the development demand of thing networking.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligence cup appearance to solve the great and structure complicacy of volume that current vacuum cup appearance exists, portable not, can not and intelligent terminal carry out the interactive technical problem of information between the equipment.

According to one aspect of the utility model, an intelligent cupping instrument is provided, which comprises a shell, the lower part of the shell is sunken inwards to form a negative pressure cavity, the negative pressure cavity is provided with an air guide hole, the shell is internally provided with a control module, a communication module, an air exhaust module and a power supply module, the control module, the communication module and the air extraction module are all electrically connected with the power supply module, the air extraction module comprises an air pump and an air duct, the air duct is respectively connected with an air pump and an air guide hole, the air pump is used for adjusting the suction force of the negative pressure cavity, the control module is respectively and electrically connected with the air pump and the communication module, the control module sends the working state of the intelligent cupping instrument to the intelligent terminal and/or the cloud server through the communication module, and/or receiving a control instruction sent by the intelligent terminal and/or the cloud server, and controlling the working state of the air pump according to the received control instruction.

Furthermore, a filtering device is arranged in the shell, one end of the filtering device is connected with the air guide hole, and the other end of the filtering device is connected with the air guide pipe.

Further, the control module comprises a first storage module, the first storage module is used for storing a control instruction of a preset working mode, and the control module controls the air pump to work according to the preset working mode according to the control instruction of the preset working mode.

Further, the control module further comprises a second storage module, the second storage module adopts a non-volatile memory and is used for storing a control instruction of the personalized customization working mode sent by the intelligent terminal and/or the cloud server, and the control module controls the air pump to work according to the personalized customization working mode according to the control instruction.

Furthermore, a temperature adjusting module electrically connected with the control module is arranged in the shell, and the temperature adjusting module is used for adjusting the temperature in the negative pressure cavity and/or at the edge part of the negative pressure cavity according to a control instruction of the control module.

Further, the temperature adjusting module comprises at least one of a semiconductor refrigeration piece, an electrothermal film and an electrothermal sheet.

Furthermore, the inner wall and/or the edge part of the negative pressure cavity are/is provided with a groove, moxa is arranged in the groove, and the moxa in the groove plays a role of moxa fumigation when the temperature of the temperature adjusting module adjusts the temperature of the edge part of the negative pressure cavity and/or the negative pressure cavity.

The stimulation device comprises a control module, a power supply module and a stimulation electrode, wherein the control module is used for controlling the stimulation electrode to output pulse current to the stimulation electrode so as to stimulate the target position of a human body.

Furthermore, the communication module adopts a Bluetooth broadcast receiving and transmitting module, the Bluetooth broadcast receiving and transmitting module is used for sending out the working state information of the intelligent cupping instrument in a Bluetooth broadcast mode and/or receiving a control command in the Bluetooth broadcast mode and transmitting the control command to the control module, and the control module controls the working state of the intelligent cupping instrument according to the control command.

Furthermore, the bluetooth broadcast transceiver module comprises a bluetooth broadcast transceiver chip, the bluetooth broadcast transceiver chip adopts a bluetooth broadcast transceiver SOC chip comprising an MCU, and the MCU is an 8-bit MCU; or

The Bluetooth broadcast receiving and transmitting module comprises a Bluetooth broadcast receiving and transmitting chip, the Bluetooth broadcast receiving and transmitting chip comprises a Bluetooth radio frequency front end wafer and an MCU wafer, the Bluetooth radio frequency front end wafer and the MCU wafer are sealed in one chip, and the MCU is an 8-bit MCU; or

The Bluetooth broadcast receiving and transmitting module comprises an MCU chip and a Bluetooth radio frequency front end chip, and the MCU chip is electrically connected with the Bluetooth radio frequency front end chip.

Furthermore, the bluetooth broadcast transceiver module comprises a bluetooth radio frequency front end chip, the control module comprises an MCU, and the MCU is electrically connected with the bluetooth radio frequency front end chip.

Further, the MCU in the control module is an MCU in the bluetooth broadcast transceiver module or an MCU in the bluetooth broadcast transceiver chip.

The utility model discloses following beneficial effect has:

the utility model discloses an intelligent cupping instrument, through forming the negative pressure chamber with the lower part of casing inwards sunken, and all set up electronic component such as control module, communication module, bleed module and power module in the casing, the structure is very compact, be convenient for the miniaturized design of intelligent cupping instrument, be convenient for hand-carry, in addition, control module can send the operating condition of intelligent cupping instrument to intelligent terminal and/or cloud server through communication module, and/or receive the control command that intelligent terminal and/or cloud server sent, and according to the operating condition of control command control air pump that receives, and then adjust the suction in the negative pressure chamber, thereby can realize different cup effects, not only realize the intelligent function of intelligent cupping instrument, satisfy the development demand of thing networking, and the user can experience according to the actual cup at any time and adjust the suction in the negative pressure chamber so as to obtain the most comfortable cup and experience sense, great convenience and good experience are brought to the user.

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 view of an intelligent cupping instrument according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of a module connection structure of the intelligent cupping device according to the preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of a sub-module structure of the control module in fig. 2 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. 2 according to a preferred embodiment of the present invention.

Description of the reference numerals

10. A housing; 11. a control module; 12. a communication module; 13. an air extraction module; 14. a power supply module; 15. a filtration device; 16. a temperature adjustment module; 17. a pulse current generating circuit module; 18. a stimulation electrode; 101. a negative pressure chamber; 102. an air vent; 131. an air pump; 132. an air duct; 111. a first storage module; 112. and a second storage 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 and 2, the preferred embodiment of the present invention provides an intelligent cupping device, which comprises a casing 10 for sealing and protecting, wherein the lower part of the casing 10 is recessed inwards to form a negative pressure chamber 101, the negative pressure chamber 101 is provided with an air guide hole 102, and when cupping is needed, one end of the negative pressure chamber 101 is adsorbed on the human body. Be provided with control module 11, communication module 12, air extraction module 13 and power module 14 in the casing 10, control module 11, communication module 12, air extraction module 13 all with power module 14 electricity is connected, power module 14 is used for providing the electric energy for each module, power module 14 can be external power source interface, dry battery, rechargeable battery, light energy battery etc.. The air pumping module 13 comprises an air pump 131 and an air guide tube 132, the air guide tube 132 is respectively connected with the air pump 131 and the air guide hole 102, the air pump 131 can pump air to adjust the suction force in the negative pressure cavity 101, the control module 11 is respectively electrically connected with the air pump 131 and the communication module 12, and the control module 11 sends the working state of the intelligent cupping instrument to the intelligent terminal and/or the cloud server through the communication module 12 and/or receives a control instruction sent by the intelligent terminal and/or the cloud server and controls the working state of the air pump 131 according to the received control instruction. The intelligent terminal can be a smart phone, a smart watch, a smart bracelet, smart glasses, a smart gateway, a network manager arranged in household equipment, a smart sound box, a smart router, a smart television and the like. It can be understood that the intelligent terminal may directly send the control instruction to the communication module 12, or the intelligent terminal sends the control instruction to the communication module 12 by logging in the cloud server. For example, the control module 11 may transmit parameter information such as a motor rotation speed, a working voltage, a working current, and a pressure at an air outlet of the air pump 131 to the intelligent terminal and/or the cloud server through the communication module 12, and may also receive a control instruction sent by the intelligent terminal and/or the cloud server through the communication module 12, and control a working state of the air pump 131 according to the received control instruction, for example, increase the working current of the air pump 131, increase the motor rotation speed, and the like. The air pump 131 needs to be controlled to increase the suction force in the negative pressure chamber 101 when cupping is performed, and to decrease the suction force in the negative pressure chamber 101 when cupping is performed. It can be understood that, as an option, the edge part of negative pressure chamber 101 can adopt materials such as plastics, metallics, stone needle, magnetic material, jade, mineral substance, animal bone, animal angle to can utilize the edge part of negative pressure chamber 101 to carry out the popular treatment for sunstroke by scraping, intelligent cupping appearance's function is more diversified.

The utility model discloses an intelligent cupping instrument, through forming negative pressure chamber 101 with the lower part of casing 10 inwards sunken, and set up electronic component such as control module 11, communication module 12, bleed module 13 and power module 14 in casing 10, the structure is very compact, the miniaturized design of intelligent cupping instrument of being convenient for, be convenient for hand-carry, in addition, control module 11 can send the operating condition of intelligent cupping instrument to intelligent terminal and/or cloud server through communication module 12, and/or receive the control command that intelligent terminal and/or cloud server sent, and according to the operating condition of control command control air pump 131 that receives, and then adjust the suction in negative pressure chamber 101, thereby can realize different cup effects, not only realized the intelligent function of intelligent cupping instrument, satisfy the development demand of thing networking, and the user can experience according to the actual cup at any time and adjust the suction in negative pressure chamber 101 in order to gain the most comfortable cup experience sense, great convenience and good experience are brought to the user.

It can be understood that the control module 11 includes an MCU, and the communication module 12 may adopt at least one of bluetooth, WiFi, Zigbee, 2G, 3G, 4G, 5G, ethernet, NB-IOT, eMTC, LoRa, Sigfox, and other communication manners. Preferably, the communication module 12 is a bluetooth broadcast transceiver module, the bluetooth broadcast transceiver module is configured to send the working state information of the intelligent cupping instrument in a bluetooth broadcast manner and/or is configured to receive a control command in a bluetooth broadcast manner and transmit the control command to the control module 11, and the control module 11 controls the working state of the intelligent cupping instrument according to the control command. For example, the bluetooth broadcast transceiver module sends out the working parameter information of the air pump 13 in a bluetooth broadcast manner, and/or receives a control instruction sent by the intelligent terminal and/or the cloud server in a bluetooth broadcast manner and transmits the control instruction to the control module 11, and the control module 11 controls the working state of the air pump 13 according to the received control instruction. The Bluetooth broadcast receiving and transmitting module comprises a Bluetooth broadcast receiving and transmitting chip, the Bluetooth broadcast receiving and transmitting chip adopts a Bluetooth broadcast receiving and transmitting SOC chip comprising an MCU, and the MCU is an 8-bit MCU; or the Bluetooth broadcast receiving and sending module comprises a Bluetooth broadcast receiving and sending chip, the Bluetooth broadcast receiving and sending chip comprises a Bluetooth radio frequency front end wafer and an MCU wafer, the Bluetooth radio frequency front end wafer does not have an MCU and can receive and send Bluetooth broadcast information in a Bluetooth broadcast channel, the Bluetooth radio frequency front end wafer and the MCU wafer are sealed in one chip, sealing cost can be reduced, peripheral circuits are reduced, and the MCU is an 8-bit MCU; or the Bluetooth broadcast receiving and transmitting module comprises an MCU chip and a Bluetooth radio frequency front end chip, namely the Bluetooth radio frequency front end wafer and the MCU wafer are independently packaged into independent chips, the Bluetooth radio frequency front end chip comprises radio frequency and a baseband but does not comprise an MCU, and the MCU chip is electrically connected with the Bluetooth radio frequency front end chip. In addition, as another option, the bluetooth broadcast transceiver module includes a bluetooth radio frequency front end chip, the bluetooth radio frequency front end chip does not have an MCU, the control module 11 includes an MCU, the MCU is electrically connected to the bluetooth radio frequency front end chip through a circuit board, for example, through one or more of resistors, capacitors, diodes, and transistors, or directly electrically connected to the circuit board, and the MCU of the control module 11 controls the bluetooth radio frequency front end chip. It can be understood that, as another option, the MCU in the control module 11 is an MCU in the bluetooth broadcast transceiver module or an MCU in the bluetooth broadcast transceiver chip, that is, the bluetooth broadcast transceiver module or the bluetooth broadcast transceiver chip itself has an MCU, which can take the work of the control module 11, reduce the MCU settings in the control module 11, achieve higher circuit integration level, and reduce the cost.

Preferably, a filtering device 15 is further disposed in the housing 10, and one end of the filtering device 15 is connected to the air-guide hole 102, and the other end is connected to the air-guide tube 132. The filtering device 15 can filter the air entering the air pump 131 to prevent impurities from entering the air pump 131.

It can be understood that, as shown in fig. 3, the control module 11 includes a first storage module 111, where the first storage module 111 is used to store a control instruction of a preset operation mode, the control module 11 controls the air pump 131 to operate according to the preset operation mode according to the control instruction of the preset operation mode, and the first storage module 111 is a one-time programmable memory. Preferably, the control module 11 further includes a second storage module 112, the second storage module 112 uses a non-volatile memory to store a control instruction of the personalized customization working mode sent by the intelligent terminal and/or the cloud server, and the control module 11 controls the air pump 131 to work according to the personalized customization working mode according to the control instruction. The user can select personalized parameters such as cupping time, suction force of the cupping and the like on the intelligent terminal to generate a control instruction of a personalized customized working mode and send the control instruction to the control module 11, and the control module 11 controls the air pump 131 to work according to the control instruction of the personalized customized working mode. In addition, because the second storage module 112 adopts a non-volatile memory, the personalized customized working mode in the second storage module 112 can be rewritten for many times, and the personalized customized working mode can still be stored after the intelligent cupping instrument is powered off. It can be understood that the second storage module 112 may be included in the MCU of the control module 11, or may be a separately configured non-volatile memory, where the non-volatile memory may be any one of an ear rom (Electrically alterable read only memory), an EPROM (erasable programmable read only memory), an EEPROM (Electrically erasable programmable read only memory), and a Flash memory.

Preferably, a temperature adjusting module 16 electrically connected to the control module 11 is further disposed in the housing 10, and the temperature adjusting module 16 can adjust the temperature in the negative pressure chamber 101 and/or at the edge portion of the negative pressure chamber 101 according to a control command of the control module 11. For example, a user can set a control command of the cupping temperature through the intelligent terminal and send the control command to the control module 11, and the control module 11 controls the temperature adjusting module 16 to adjust the temperature in the negative pressure cavity 101 and/or at the edge portion of the negative pressure cavity 101 according to the control command. The temperature adjusting module 16 comprises at least one of a semiconductor refrigeration sheet, an electric heating film or an electric heating sheet, so that the intelligent cupping device has the functions of thermal therapy, cold compress and moxibustion. The electric heating film can be made of high polymer materials which generate heat after being electrified, such as a printing oil film, carbon black, carbon fiber, metal wire, graphene and the like. It can be understood that, as a further preferred option, the intelligent cupping device further comprises a temperature sensor for detecting the temperature in the negative pressure cavity 101 and/or at the edge of the negative pressure cavity 101, the temperature sensor is arranged on the inner wall of the negative pressure cavity 101 and/or at the edge of the negative pressure cavity 101, the temperature sensor is electrically connected with the control module 11, and the control module 11 can control the working state of the temperature adjusting module 16 according to the detection result of the temperature sensor, so as to form negative feedback adjustment of the temperature, and the temperature adjustment is more accurate.

Preferably, the inner wall and/or the edge of the negative pressure cavity 101 are/is provided with a groove, moxa is arranged in the groove, and the moxa in the groove can release moxa gas or moxa smoke when the temperature of the temperature adjusting module 16 adjusts the temperature of the inner wall and/or the edge of the negative pressure cavity 101, so that the moxa fumigation effect is achieved.

It can be understood that the intelligent cupping instrument further comprises a pulse current generating circuit module 17 and a stimulation electrode 18, the pulse current generating circuit module 17 is respectively connected with the control module 11, the power supply module 14 and the stimulation electrode 18, the stimulation electrode 18 is used for contacting with a human body, and the control module 11 is further used for controlling the pulse current generating circuit module 17 to output pulse current to the stimulation electrode 18 so as to stimulate a target position of the human body. Wherein the pulse current generation circuit module 17 is arranged in the housing 10, and the stimulation electrode 18 is positioned outside the housing 10. Alternatively, the stimulation electrode 18 may be formed by disposing a conductive material, such as metal, a conductive film, a conductive cloth, a conductive gel, a conductive plastic, etc., on the edge region of the negative pressure chamber 101, so as to reduce the number of electronic components of the intelligent cupping instrument and improve the degree of integration. In addition, the stimulation electrode 18 may also be an external stimulation electrode, and a jack or a plug is disposed on the housing 10, and the external stimulation electrode 18 is electrically connected to the pulse current generation circuit module 17 through the jack or the plug. The control module 11 can control the pulse current generation circuit module 17 to output the current magnitude and/or pulse period of the pulse current according to the received control instruction, so as to provide different electrotherapy massage modes and/or electrotherapy massage intensities. The pulse current generating circuit module 17 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 14, 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 14, the control module 11 controls the transistor Q to be 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, and then the control module 11 controls the transistor Q to be turned off during discharging, the inductor L starts to charge the capacitor C, and the voltage across the capacitor C is higher than the output voltage of the power supply module 14, so that the voltage boosting is realized. The magnitude of the inductive 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 inductive current is, so that the voltage at the two ends of the capacitor C is higher, therefore, the inductive value 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 17 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 17 may be a low-frequency pulse current, a medium-frequency pulse current, or a high-frequency pulse current, and the stimulation electrode 18 may be a metal electrode sheet or an ITO conductive film. 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 intelligent cupping device further comprises a pressure sensor arranged in the negative pressure cavity 101 to detect the air pressure in the negative pressure cavity 101, the pressure sensor is connected with the control module 11, and the control module 11 can control the working state of the air pump 131 according to the detection result of the pressure sensor, so as to realize the accurate adjustment of the air pressure in the negative pressure cavity 101.

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 cupping instrument, which comprises a shell (10) and is characterized in that,

the lower part of the shell (10) is inwards sunken to form a negative pressure cavity (101), the negative pressure cavity (101) is provided with an air guide hole (102),

the vacuum suction device is characterized in that a control module (11), a communication module (12), an air suction module (13) and a power supply module (14) are arranged in the shell (10), the control module (11), the communication module (12) and the air suction module (13) are electrically connected with the power supply module (14), the air suction module (13) comprises an air pump (131) and an air guide pipe (132), the air guide pipe (132) is respectively connected with the air pump (131) and the air guide hole (102), the air pump (131) is used for adjusting the suction of the negative pressure cavity (101), the control module (11) is respectively electrically connected with the air pump (131) and the communication module (12),

the control module (11) sends the working state of the intelligent cupping instrument to the intelligent terminal and/or the cloud server through the communication module (12), receives a control instruction sent by the intelligent terminal and/or the cloud server, and controls the working state of the air pump (131) according to the received control instruction.

2. The intelligent cupping instrument of claim 1 wherein,

the air-conditioning device is characterized in that a filtering device (15) is further arranged in the shell (10), one end of the filtering device (15) is connected with the air guide hole (102), and the other end of the filtering device (15) is connected with the air guide pipe (132).

3. The intelligent cupping instrument of claim 1 wherein,

the control module (11) comprises a first storage module (111), the first storage module (111) is used for storing a control instruction of a preset working mode, and the control module (11) controls the air pump (131) to work according to the preset working mode according to the control instruction of the preset working mode.

4. The intelligent cupping instrument of claim 3 wherein,

the control module (11) further comprises a second storage module (112), the second storage module (112) adopts a non-volatile memory storage and is used for storing a control instruction of the personalized customization working mode sent by the intelligent terminal and/or the cloud server, and the control module (11) controls the air pump (131) to work according to the personalized customization working mode according to the control instruction.

5. The intelligent cupping instrument of claim 1 wherein,

the temperature adjusting module (16) electrically connected with the control module (11) is further arranged in the shell (10), and the temperature adjusting module (16) is used for adjusting the temperature in the negative pressure cavity (101) and/or at the edge part of the negative pressure cavity (101) according to a control instruction of the control module (11).

6. The intelligent cupping instrument of claim 5 wherein,

the temperature adjusting module (16) comprises at least one of a semiconductor refrigerating sheet, an electrothermal film and an electrothermal sheet.

7. The intelligent cupping instrument of claim 5 wherein,

the inner wall and/or the edge part of the negative pressure cavity (101) are/is provided with a groove, moxa is arranged in the groove, and the moxa in the groove plays a role of moxa fumigation when the temperature of the inner wall and/or the edge part of the negative pressure cavity (101) is adjusted by the temperature adjusting module (16).

8. The intelligent cupping instrument of claim 1 wherein,

the stimulation electrode device is characterized by further comprising a pulse current generation circuit module (17) and a stimulation electrode (18), wherein the pulse current generation circuit module (17) is respectively connected with the control module (11), the power supply module (14) and the stimulation electrode (18), the stimulation electrode (18) is used for being in contact with a human body, and the control module (11) is further used for controlling the pulse current generation circuit module (17) to output pulse current to the stimulation electrode (18) so as to stimulate the target position of the human body.

9. The intelligent cupping instrument of claim 1 wherein,

the communication module (12) adopts a Bluetooth broadcast receiving and transmitting module, the Bluetooth broadcast receiving and transmitting module is used for sending out the working state information of the intelligent cupping instrument in a Bluetooth broadcast mode and/or receiving a control command in a Bluetooth broadcast mode and transmitting the control command to the control module (11), and the control module (11) controls the working state of the intelligent cupping instrument according to the control command.

10. The intelligent cupping instrument of claim 9 wherein,

the Bluetooth broadcast receiving and transmitting module comprises a Bluetooth broadcast receiving and transmitting chip, the Bluetooth broadcast receiving and transmitting chip adopts a Bluetooth broadcast receiving and transmitting SOC chip comprising an MCU, and the MCU is an 8-bit MCU; or

The Bluetooth broadcast receiving and transmitting module comprises a Bluetooth broadcast receiving and transmitting chip, the Bluetooth broadcast receiving and transmitting chip comprises a Bluetooth radio frequency front end wafer and an MCU wafer, the Bluetooth radio frequency front end wafer and the MCU wafer are sealed in one chip, and the MCU is an 8-bit MCU; or

The Bluetooth broadcast receiving and transmitting module comprises an MCU chip and a Bluetooth radio frequency front end chip, and the MCU chip is electrically connected with the Bluetooth radio frequency front end chip.

11. The intelligent cupping instrument of claim 9 wherein,

the Bluetooth broadcast transceiver module comprises a Bluetooth radio frequency front end chip, the control module (11) comprises an MCU, and the MCU is electrically connected with the Bluetooth radio frequency front end chip.

12. The intelligent cupping instrument of claim 10 wherein,

and the MCU in the control module (11) is the MCU in the Bluetooth broadcast transceiver module or the MCU in the Bluetooth broadcast transceiver chip.

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