CN113476745B - Control method, electronic equipment and therapeutic apparatus - Google Patents

Abstract

The invention provides a control method of a therapeutic apparatus, electronic equipment and the therapeutic apparatus, wherein the therapeutic apparatus comprises a control component and a host which are detachably connected, and the control method comprises the following steps: detecting whether a first connection interface of the host is electrically connected with a second connection interface of the control assembly; if yes, detecting whether a first battery management module of the host outputs a first charging signal; if not, detecting whether a second battery management module of the control assembly outputs a second charging signal; if the first charging signal is detected, the first charging management module of the host charges a first battery in the host; and if the second charging signal is detected, the second battery management module of the control assembly charges a second battery in the control assembly.

Description

Control method, electronic equipment and therapeutic apparatus

Technical Field

The invention relates to the field of medical equipment, in particular to a control method, electronic equipment and a therapeutic apparatus.

Background

Hyperplasia of mammary glands is the most common breast disease of women, and is caused by structural degenerative changes of mammary tissue ducts and lobules and growth of progressive connective tissue, and the main symptoms in early stages are marked by stagnation of qi and unsmooth blood circulation, and the incidence rate of the hyperplasia of mammary glands occupies the first place of the breast disease. In recent years, the incidence of hyperplasia of mammary glands tends to rise year by year, and the incidence age is also getting lower and lower. Although hyperplasia of mammary glands is mostly a benign tumor, it also develops into malignant lesions, resulting in breast cancer. Breast cancer is one of the most common malignant tumors seriously affecting women's physical and mental health and even endangering life, and the incidence rate of the breast cancer accounts for 7-10% of various malignant tumors of the whole body. Breast cancer has become the malignant tumor with the highest incidence rate of females worldwide. According to clinical data statistics, the incidence rate of hyperplasia of mammary glands is about 70% -80% in female populations, wherein 15% -23% are converted into breast cancer, and female health is seriously threatened.

The treatment modes aiming at hyperplasia of mammary glands on the market approximately comprise drug treatment, surgical treatment and targeted treatment. Hormone medicines are adopted to counter the therapy for treating hyperplasia of mammary glands, so that the side effect is large, the curative effect is not durable, the recurrence is easy to occur, and the burden of patients can be increased after long-term administration; the original beauty of the female breast is deprived by the operation treatment, so that the psychological damage is caused to the patient, and meanwhile, a scar which is difficult to eliminate is left; the targeted therapy method changes the pain brought to the patient by large-dose chemotherapy, and reduces toxic and side effects from the traditional maximum tolerable therapy to the minimum effective therapy, but has high cost and low treatment willingness of the patient.

In addition, the existing household therapeutic apparatus for treating hyperplasia of mammary glands generally has the problems of single therapeutic mode, insignificant therapeutic effect, non-fitting contact between the therapeutic end and human body, large volume, inconvenient carrying and inconvenient operation. Wherein, the single treatment mode leads to a single circuit design, which is not suitable for the control process in the therapeutic apparatus with multiple treatment modes. In view of this, there is a need to propose a new circuit design that can satisfy the control of a therapeutic apparatus having a plurality of therapeutic modes.

Disclosure of Invention

The invention solves the problem of how to realize the control of the therapeutic apparatus which is suitable for various use scenes.

The invention provides a control method of a therapeutic apparatus, which comprises a control component and a host which are detachably connected, wherein the control method comprises the following steps:

detecting whether a first connection interface of the host is electrically connected with a second connection interface of the control assembly; if yes, detecting whether a first battery management module of the host outputs a first charging signal; if not, detecting whether a second battery management module of the control assembly outputs a second charging signal;

if the first charging signal is detected, the first charging management module of the host charges a first battery in the host;

and if the second charging signal is detected, the second battery management module of the control assembly charges a second battery in the control assembly.

As an optional technical solution, the first connection interface is electrically connected with the second connection interface, and if the first charging signal is not detected, the first battery charges towards the second battery, or the first battery supplies power towards the second battery management module of the control assembly.

As an optional solution, the step of charging the first battery towards the second battery, or the step of supplying power from the first battery towards the second battery management module of the control assembly, further includes:

the second logic control module of the control assembly detects whether the switch module of the control assembly outputs a starting signal;

if a starting signal is detected, the first battery supplies power to a second battery management module of the control assembly; and if the starting signal is not detected, the first battery is charged towards the second battery.

As an optional technical solution, the first connection interface is not electrically connected to the second connection interface, and the second charging signal is not detected, so that the second logic control module of the control component detects whether the switch module of the control component outputs a startup signal.

As an optional technical solution, if the step of detecting the power-on signal further includes:

the second logic control module acquires a treatment scheme;

according to the treatment scheme, the electric stimulation module of the control component outputs an electric stimulation signal.

As an optional technical solution, the step of obtaining the treatment plan by the second logic control module includes:

the communication module of the control component establishes data connection with the intelligent terminal to acquire a treatment scheme output by the intelligent terminal;

the second logic control module obtains the treatment plan; and

according to the treatment scheme, the second logic control module controls the electric stimulation module to output an electric stimulation signal.

As an optional technical scheme, the electrical stimulation signal is conducted to a portable electrode slice of the control component for output; or the electrical stimulation signals are output from the electrode plates of the combined treatment head of the host through the first connecting interface and the second connecting interface which are electrically connected.

As an optional technical solution, if the step of detecting the power-on signal further includes:

the second logic control module acquires treatment schemes and identifies infrared treatment schemes and/or vibration treatment schemes in the treatment schemes;

the first logic control module of the host communicates with the second logic control module, and the first logic control module acquires an infrared treatment scheme and/or a vibration treatment scheme;

according to the infrared treatment scheme, the first logic control module controls the infrared drive circuit module of the host to output infrared signals, and/or according to the vibration treatment scheme, the first logic control module controls the vibration drive circuit module of the host to output vibration signals.

As an optional technical scheme, the infrared signal is transmitted to an infrared light source of a therapeutic body of the host machine to be output; and the vibration signal is transmitted to the vibration massager output of the host machine.

As an optional technical solution, the step of detecting whether the first connection interface of the host is electrically connected to the second connection interface of the control component includes:

identifying whether a first logic control module of the host can communicate data with a second logic control module of the control assembly;

if the first logic control module can perform data communication with the second logic control module, the first connection interface and the second connection interface are electrically connected; and if the first logic control module can not carry out data communication with the second logic control module, the first connection interface and the second connection interface are not electrically connected.

The invention also provides an electronic device comprising a memory and a processor, the memory storing a computer program executable on the processor, the processing of which implements the steps of the control method described above when the program is executed.

The invention further provides a therapeutic apparatus, which comprises a host and a control component which are detachably connected, wherein the host comprises a first chip and a combined therapeutic head which are electrically connected; the control assembly comprises a second chip and a portable electrode slice which are electrically connected; wherein the first chip and the second chip are for performing steps in the control method as described above.

As an alternative technical scheme, the second chip controls the portable electrode slice or the combined therapy head to output electric stimulation respectively.

As an optional technical scheme, the host machine further comprises a vibration massager; the first chip and the second chip are in data communication, and the first chip controls the combined treatment head to output infrared rays and/or controls the vibration massager to output vibration stimulation.

Compared with the prior art, the control method, the electronic equipment and the therapeutic apparatus provided by the invention have the advantages that the therapeutic apparatus comprises the host and the control component which are detachably connected, and the control method adjusts the power supply logic of the host and the control component according to the connection relation between the host and the control component so as to adapt to different use states of the combined use of the host and the control component or the independent use of the control component, so that the switching of different use scenes is satisfied, and the more use experience is provided.

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a control method of the therapeutic apparatus provided by the invention.

FIG. 2 is a functional block diagram of the host and control assembly after connection.

FIG. 3 is a functional block diagram of a portion of the structure within a host.

Fig. 4 is a functional block diagram of a part of the structure of the control assembly.

Fig. 5 is a schematic diagram of a therapeutic apparatus according to the present invention.

Fig. 6 is a schematic view of a portable electrode sheet assembly provided by the present invention.

Fig. 7 is a schematic diagram of a control assembly of the therapeutic apparatus of fig. 5.

Fig. 8 is a schematic diagram of the assembly of the control assembly and the portable electrode pad assembly.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1, the present invention provides a control method of a therapeutic apparatus, the therapeutic apparatus includes a control component and a host which are detachably connected, the control method includes:

detecting whether a first connection interface of a host is electrically connected with a second connection interface of a control component;

if yes, detecting whether a first battery management module of the host outputs a first charging signal;

if not, detecting whether a second battery management module of the control assembly outputs a second charging signal;

if the first charging signal is detected, the first charging management module of the host charges the first battery of the host; if the second charging signal is detected, the second charging management module of the control assembly charges the second battery in the control assembly.

Further, the first connection interface and the second connection interface are electrically connected, and if the first charging signal is not detected, the first battery of the host charges towards the second battery of the control assembly, or the first battery of the host supplies power towards the second battery management module of the control assembly.

Wherein, the step of charging the first battery of the host towards the second battery of the control assembly, or the step of supplying power to the second battery management module of the control assembly by the first battery of the host further comprises:

detecting whether a switch module of the control assembly outputs a starting signal;

if the starting signal is detected, the first battery of the host supplies power to the second battery management module of the control assembly; if the starting signal is not detected, the first battery of the host is charged towards the second battery of the control component. That is, in the case that the control assembly and the host are electrically connected through the first connection interface and the second connection interface, after the control assembly switch module is started, the control assembly and the host only use the first battery of the host to provide electricity when executing the subsequent treatment procedure, and do not use the second battery built in the control assembly to supply electricity.

Specifically, the first connection interface and the second connection interface are electrically connected, and the control component acquires the treatment scheme when a start-up signal is detected.

The step of the control assembly obtaining a treatment regimen includes:

the communication module of the control assembly establishes data connection with the intelligent terminal to acquire a treatment scheme output by the intelligent terminal;

the second logic control module acquires a treatment scheme; and

according to the treatment scheme, the second logic control module controls the electric stimulation module to output an electric stimulation signal.

The electric stimulation signals are transmitted to the electrode plates of the combined treatment head of the host through the first connecting interface and the second connecting interface which are electrically connected, and the electrode plates of the combined treatment head output corresponding electric stimulation according to the electric stimulation signals, so that electric stimulation treatment of an affected part is realized.

According to the treatment scheme, the step of controlling the electric stimulation module to output the electric stimulation signal by the second logic control module comprises the following steps of:

the second logic control module identifies an electrical stimulation therapy regimen of the therapy regimens;

the second logic control module controls the electrical stimulation module to output an electrical stimulation signal according to the electrical stimulation therapy scheme.

Further, the second logic control module identifies an infrared treatment regimen and/or a vibration treatment regimen of the treatment regimens;

the first logic control module acquires an infrared treatment scheme and/or a vibration treatment scheme; and

the first logic control module controls the infrared drive circuit module to output infrared signals according to the infrared treatment scheme, and/or controls the vibration module to output vibration signals according to the vibration treatment scheme.

The infrared signals are transmitted to an infrared light source of the combined treatment head of the host, and the infrared light source outputs corresponding infrared rays according to the infrared signals, so that infrared treatment of an affected part is realized; the vibration signal is transmitted to the vibration massager of the host machine, and the vibration massager outputs corresponding vibration according to the vibration signal, so that vibration treatment of the affected part is realized.

In addition, in another preferred embodiment of the present invention, the control unit is separate from the host computer, and the control unit may be used for electrical stimulation therapy alone, in particular.

When the first connection interface and the second connection interface are not electrically connected and the second charging signal is not detected, detecting whether a switch module of the control assembly outputs a starting signal or not; if the starting signal is detected, the control component acquires the treatment scheme.

The step of the control assembly obtaining a treatment regimen includes:

the communication module of the control assembly establishes data connection with the intelligent terminal to acquire a treatment scheme output by the intelligent terminal;

the second logic control module acquires a treatment scheme; and

according to the treatment scheme, the second logic control module controls the electric stimulation module to output an electric stimulation signal.

According to the treatment scheme, the step of controlling the electric stimulation module to output the electric stimulation signal by the second logic control module comprises the following steps of:

the second logic control module identifies an electrical stimulation therapy regimen of the therapy regimens;

the second logic control module controls the electrical stimulation module to output an electrical stimulation signal according to the electrical stimulation therapy scheme.

Further, the electric stimulation signals are transmitted to the portable electrode slice 201 of the control component, and the portable electrode slice 201 outputs corresponding electric stimulation according to the electric stimulation signals, so that electric stimulation treatment of the affected part is realized.

It should be noted that when the control group price alone performs the treatment regimen, it performs only the electrical stimulation treatment regimen.

In addition, after the control component is electrically connected with the host, when executing the treatment scheme, the electric stimulation treatment scheme is executed by the control component; and the infrared treatment scheme and the vibration treatment scheme are executed by the host, wherein the host and the control component perform data interaction to acquire the infrared treatment scheme and the vibration treatment scheme which need to be executed.

As shown in fig. 2 to 4, the above control method is described in detail with reference to functional block diagrams and connection diagrams of the host and the control unit.

The step of detecting whether the first connection interface 1001 of the host is electrically connected to the second connection interface 2001 of the control assembly includes:

the second logic control module 2005 reads the communication information output by the first logic control module 1005 of the host;

if the second logic control module 2005 fails to read the communication information, it is determined that the first connection interface 1001 is not electrically connected to the second connection interface 2001; if the second logic control module 2005 reads the communication information, it determines that the first connection interface 1001 and the second connection interface 2001 are electrically connected.

In this embodiment, the first connection interface 1001 and the second connection interface 2001 are Type C plug ports respectively, and after the two Type C plug ports are plugged, an electrical connection path is established, so that data interaction between the first logic control module 1005 and the second logic control module 2005 is realized.

If it is detected that the first connection interface 1001 and the second connection interface 2001 are electrically connected, the step of detecting whether the first battery management module 1002 of the host outputs the first charging signal includes:

the second logic control module 2005 detects whether the first battery management module 1002 outputs a first charging signal. The first charging signal is, for example, the voltage of the first charging adapter 1007 output from the first battery management module 1002.

If the first charging signal is detected, the second logic control module 2005 outputs the first charging control signal, which is conducted from the second connection interface 2001 and the first connection interface 1001 to the first charging management module 1004, and the first charging management module 1004 makes the first charging adapter 1007 plugged on the charging interface 1006 of the host charge the first battery 1003.

If the first charging signal is not detected, the second logic control module 2005 controls the first battery 1003 to charge toward the second battery 2003 through the first connection interface 1001, the second connection interface 2001, and the second charging management module 2004; alternatively, the second logic control module 2005 controls the first battery 1003 to supply power to the second battery management module 2002 through the first connection interface 1001 and the second connection interface 2001.

The step of charging the first battery 1003 toward the second battery 2003 or the step of supplying power from the first battery 1003 toward the second battery management module 2002 includes:

the second logic control module 2005 detects whether the switch module 2006 of the control module outputs a power-on signal;

if the second logic control module 2005 detects a power-on signal, it indicates that the host and the control component are in use, and at this time, the first battery 1003 is powered toward the second battery management module 2002. That is, during the use of the therapeutic apparatus, the main unit and the control unit are electrically connected, and at this time, only the first battery 1003 of the main unit is used to supply power to the entire system.

Because the host and the control component are respectively provided with the battery, the system is smart and convenient, does not limit the use mode of a user, and can respectively run corresponding functions; the control component emphasizes the portability, the battery capacity is relatively small, and the whole volume is small; when the host and the control component are combined for use, the large-capacity battery of the host is used for running a more complex and comprehensive treatment scheme, so that the working time of the equipment is ensured; as long as the therapeutic apparatus system is not started, the control module can be charged by virtue of the host battery, so that the control module can be in a full-charge state when being used outdoors.

Further, the step of detecting the power-on signal by the second logic control module 2005 further includes: a treatment regimen is obtained.

If the second logic control module 2005 does not detect the power-on signal, it is indicated that the control unit and the host are electrically connected to charge the second battery 2003 of the control unit only through the first battery 1003 of the host. That is, the second logic control module 2005 controls the first battery 1002 to output electric power via the first battery management module 1002, the first connection interface 1001, and the second connection interface 2001, and charges the second battery 2003 via the second charge management module 2004.

Further, if the first connection interface 1001 and the second connection interface 2001 are not electrically connected, the second logic control module 2005 detects whether the second battery management module 2002 outputs the second charging signal. The second charging signal is, for example, a voltage of the second charging adapter 2007 output from the second battery management module 2002.

If the second logic control module 2005 detects the second charging signal, the second logic control module 2005 controls the second charging adapter 2007 to charge toward the second battery 2003 through the second connection interface 2001 and the second charging management module 2004. Wherein the step of the second logic control module 2005 detecting the power-on signal further includes acquiring a treatment plan.

If the second logic control module 2005 does not detect the second charging signal, the second logic control module 2005 detects whether the switch module 2006 outputs the power-on signal.

As shown in fig. 4, in an embodiment of the present invention, the control assembly is connected to the portable electrode slice 201, and in use, the step of obtaining the treatment plan by the second logic control module further includes:

the communication module 2009 of the control component communicates with the intelligent terminal 300, and the second logic control module 2005 obtains a treatment scheme;

the second logic control module 2005 controls the electrical stimulation module 2008 to output an electrical stimulation signal according to the treatment scheme;

the electrical stimulation signal is output to the portable electrode pad 201 via the second connection interface 2001.

In this embodiment, the switch button 23 (shown in fig. 5) in the switch module 2006 is pressed to enable the second power module a2010. The second power module a2010 generates an operating voltage (3.3V) required by the second logic control module 2005, and the second logic control module 2005 starts to determine the power-on signal; the second logic control module 2005 performs self-locking on the second power module a2010, and maintains the voltage signal by means of a circuit.

In this embodiment, when performing the electrical stimulation therapy, the second logic control module 2005 enables the second power module B2010' to output the high voltage (12V) required by the electrical stimulation, and meanwhile, the output of the electrical stimulation scheme is achieved by means of the logic control of the electrical stimulation module 2008.

In a preferred embodiment, the second logic control module 2005 further includes a control module 2011 for outputting a corresponding light prompt. The second status indication module 2011 may display the current on-off status, the second battery charging status, the battery state of charge, the working status, etc. through different light effects.

In a preferred embodiment, the communication module 2009 is, for example, a bluetooth module. The bluetooth module is used for performing data interaction with the intelligent terminal 300 and the second logic control module 2005. And through a Bluetooth transmission mode, the treatment scheme of the intelligent terminal 300 is received, and parameters such as electric stimulation, infrared, vibration and the like are regulated to give and use state feedback.

In a preferred embodiment, the electrical stimulation module 2008 is used for generating electrical stimulation signals and is controlled by the second logic control module 2005. The electro-stimulation module 2008 has a boost circuit and an H-bridge circuit. The second logic control module 2005 controls whether the boost voltage works according to the on or off of the electrical stimulation function; and the H bridge circuit is subjected to the adjustment of parameters such as frequency, pulse width, amplitude and the like to control the intensity adjustment of the electric stimulation output.

In a preferred embodiment, the second logic control module 2005 completes the output control of the electrical stimulation module 2008, completes the processing of the communication module 2009 and the second status indication module 2011, and simultaneously detects the second battery management module 2002 and the second charge management module 2004 and controls the switch module 2006.

In addition, the second logic control module 2005 can also exchange data with the first logic control module 1005 of the host.

In another embodiment of the present invention, as shown in fig. 4, when the host computer and the control module are used in combination, the step of obtaining the treatment plan by the second logic control module further includes:

the communication module 2009 of the control component communicates with the intelligent terminal 300, and the second logic control module 2005 obtains a treatment scheme;

the second logic control module 2005 controls the electrical stimulation module 2008 to output an electrical stimulation signal according to the treatment scheme;

the electrical stimulation signals are output to the electrode pads of the combined therapy head 30 via the second connection interface 2001 and the first connection interface 1001.

According to the treatment regimen, the step of controlling the electrical stimulation module 2008 to output the electrical stimulation signal by the second logic control module 2005 includes:

the second logic control module 2005 identifies an electrical stimulation therapy regimen among the therapy regimens;

according to the electrical stimulation treatment scheme, the second logic control module 2005 controls the electrical stimulation module 2008 to output electrical stimulation signals, and the electrical stimulation signals are conducted to the electrode plates of the combined treatment head 30 through the second connection interface 2001 and the first connection interface 1001 to be output.

In addition, the second logic control module 2005 identifies an infrared therapy regimen and/or a vibration therapy regimen among the therapy regimens;

the first logic control module 1005 communicates with the second logic control module 2005 to obtain an infrared treatment protocol and/or a vibration treatment protocol; and

the first logic control module 1005 controls at least one of the infrared driving circuit module a1008 and the infrared driving circuit module B1008' to output an infrared signal according to the infrared treatment scheme, and/or controls the vibration circuit driving module 1009 to output a vibration signal according to the vibration treatment scheme.

Wherein, the infrared signals are transmitted to the infrared light source of the combined treatment head 30 of the host machine, and the infrared light source outputs corresponding infrared rays according to the infrared signals, so as to realize infrared treatment of the affected part; the vibration signal is transmitted to the vibration massager 40 of the host machine, and the vibration massager 40 outputs corresponding vibration according to the vibration signal, so that vibration treatment of the affected part is realized.

In this embodiment, the first battery 1003 supplies power to the first power module a1011 and the first power module B1010; the first power module B1010 always supplies power to the first logic control module 1005. If the host and the control module are not electrically connected, the first logic control module 1005 does not receive the data signal of the second logic control module 2005, and enters the sleep state itself, which is helpful for power saving.

In addition, the first power supply module a1011 always supplies the operating voltage to the infrared driving circuit module a1008 and the infrared driving circuit module B1008' and the vibration circuit driving module 1009. In the final treatment, the first logic control module 1005 needs to receive the data signal of the second logic control module 2005, perform logic control on the infrared driving circuit module a1008, the infrared driving circuit module B1008' and/or the vibration circuit driving module 1009, and output the infrared treatment and/or the vibration treatment by the combined treatment head 30 and/or the vibration massager 40.

In a preferred embodiment, the host computer further includes a first status prompting module 1012 for displaying the current on/off status, the charging status of the first battery 1003, the battery state, the working status of the combined treatment head 30, etc. through different light effects.

In a preferred embodiment, the first power module 1100 includes a first power module a1011 and a first power module B1010; the driving circuit module 1200 includes an infrared driving circuit module a1008, an infrared driving circuit module B1008', and a vibration driving circuit module. The first power module 1100 provides power to the driving circuit module 1200, and the driving circuit module 1200 is controlled by the first logic control module 1005 to adjust parameters such as frequency, pulse width, amplitude and the like, so as to realize infrared output and vibration output with different intensities.

In a preferred embodiment, the first logic control module 1005 performs output control on the first power module 1100 and the driving circuit module 1200, performs processing on the first indication module 1012, and detects the first battery management module 1002 and the first charge management module 1004.

When the host is used with the control module, the first logic control module 1005 exchanges data with the second logic control module 2005. If the host and the control module are not electrically connected, the first logic control module 1005 does not receive the data signal of the second logic control module 2005, and the first logic control module 1005 is always in a low power consumption operating state.

The invention also provides an electronic device comprising a memory and a processor, wherein the memory stores a computer program which can be run on the processor, and the processor realizes the steps in the control method of the therapeutic apparatus when executing the program.

As shown in fig. 5 to 8, the present invention further provides a therapeutic apparatus 100, which includes a host 10 and a control assembly 20 detachably connected, wherein the host 10 includes a first chip (not shown), and the control assembly 20 includes a second chip (not shown), and the first chip and the second chip are used to perform the steps of the control method.

The host 10 includes a first connection interface 1001 (as shown in fig. 4), the control assembly 20 includes a second connection interface 2001, and the first connection interface 1001 and the second connection interface 2001 are respectively Type C sockets, and are plugged with each other.

The control assembly 20 further comprises a switch key 23.

The host 10 further includes a first channel port 101, and one end of the cable 33 of the combined treatment head 30 is plugged into the first channel port 101 and electrically connected to the host 10.

The combined therapy 30 comprises a body 31 and an electrode plate 32 detachably connected to the bottom of the body 31, wherein the electrode plate 32 and the body 31 are detachably connected through magnetic buckle adsorption.

An infrared light source (not shown) is disposed in the body 31, and the body 31 includes a transparent protective cover corresponding to the infrared light source, and infrared light emitted from the infrared light source irradiates from the transparent protective cover toward the skin of the user.

The host computer 10 further comprises a second port 102, and the vibration massager 40 is inserted into the second port 102 through the cable 42 and is electrically connected with the host computer 10.

The vibration massager 40 further comprises a start button 41, and when the vibration massager 40 is used alone, the start button 41 is pressed to start the vibration massager 40.

In the therapeutic apparatus 100 provided by the invention, the second connection interface 2001 of the control assembly 20 is spliced with the third connection interface 203 of the portable electrode plate assembly 200, and the electrical stimulation signal output by the control assembly 20 is conducted to the portable electrode plate 201201 through the second connection interface 2001, the third connection interface 203 and the cable 202 to output the electrical stimulation.

The therapeutic apparatus 100 can be used to provide electrical stimulation therapy and infrared therapy, and thus is suitable for physical therapy of diseases requiring electrical stimulation and infrared therapy such as hyperplasia of mammary glands. It can be used for promoting breast nodule, lump and inflammation, softening scar, relieving adhesion, exciting neuromuscular, promoting lactation, promoting uterus involution, and promoting puerperal urination.

In summary, the invention provides a control method of a therapeutic apparatus, an electronic device and a therapeutic apparatus, wherein the therapeutic apparatus comprises a host and a control component which are detachably connected, and the control method adjusts power supply logic of the host and the control component according to the connection relation between the host and the control component so as to adapt to different use states of joint use of the host and the control component or independent use of the control component, thereby meeting the switching of different use scenes and providing more use experience.

The invention has been described with respect to the above-described embodiments, however, the above-described embodiments are merely examples of practicing the invention. In addition, the technical features described above in the different embodiments of the present invention may be combined with each other as long as they do not collide with each other. It is to be noted that the present invention is capable of other various embodiments and that various changes and modifications can be made herein by one skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (11)

1. A method of controlling a therapeutic apparatus, the therapeutic apparatus comprising a control assembly and a host computer detachably connected, the method comprising:

detecting whether a first connection interface of the host is electrically connected with a second connection interface of the control assembly; if yes, detecting whether a first battery management module of the host outputs a first charging signal; if not, detecting whether a second battery management module of the control assembly outputs a second charging signal;

if the first charging signal is detected, the first charging management module of the host charges a first battery in the host;

if the second charging signal is detected, the second battery management module of the control assembly charges a second battery in the control assembly;

the first connection interface is electrically connected with the second connection interface, and if the first charging signal is not detected, the first battery charges towards the second battery, or the first battery supplies power towards a second battery management module of the control assembly;

the step of charging the first battery towards the second battery, or the step of supplying power from the first battery towards the second battery management module of the control assembly, further comprises:

the second logic control module of the control assembly detects whether the switch module of the control assembly outputs a starting signal;

if a starting signal is detected, the first battery supplies power to a second battery management module of the control assembly; if the starting signal is not detected, the first battery is charged towards the second battery;

if the step of detecting the startup signal further comprises:

the second logic control module acquires treatment schemes and identifies infrared treatment schemes and/or vibration treatment schemes in the treatment schemes;

the first logic control module of the host communicates with the second logic control module, and the first logic control module acquires an infrared treatment scheme and/or a vibration treatment scheme;

according to the infrared treatment scheme, the first logic control module controls the infrared drive circuit module of the host to output infrared signals, and/or according to the vibration treatment scheme, the first logic control module controls the vibration drive circuit module of the host to output vibration signals.

2. The control method according to claim 1, wherein the first connection interface is not electrically connected to the second connection interface, and the second charging signal is not detected, and the second logic control module of the control module detects whether the switch module of the control module outputs a power-on signal.

3. The control method according to claim 1 or 2, wherein the step of if a power-on signal is detected further comprises:

the second logic control module acquires a treatment scheme;

according to the treatment scheme, the electric stimulation module of the control component outputs an electric stimulation signal.

4. The control method of claim 3, wherein the step of the second logic control module obtaining a treatment plan comprises:

the communication module of the control component establishes data connection with the intelligent terminal to acquire a treatment scheme output by the intelligent terminal;

the second logic control module obtains the treatment plan; and

according to the treatment scheme, the second logic control module controls the electric stimulation module to output an electric stimulation signal.

5. The control method of claim 4, wherein the electrical stimulation signal is conducted to a portable electrode pad output of the control assembly; or the electrical stimulation signals are output from the electrode plates of the combined treatment head of the host through the first connecting interface and the second connecting interface which are electrically connected.

6. The control method according to claim 1, wherein,

the infrared signals are transmitted to an infrared light source of a treatment body of the host machine to be output; and the vibration signal is transmitted to the vibration massager output of the host machine.

7. The control method of claim 1, wherein the step of detecting whether the first connection interface of the host is electrically connected to the second connection interface of the control assembly comprises:

identifying whether a first logic control module of the host can communicate data with a second logic control module of the control assembly;

if the first logic control module can perform data communication with the second logic control module, the first connection interface and the second connection interface are electrically connected; and if the first logic control module can not carry out data communication with the second logic control module, the first connection interface and the second connection interface are not electrically connected.

8. An electronic device comprising a memory and a processor, the memory storing a computer program executable on the processor, the processing implementing the steps in the control method of any of claims 1-7 when the program is executed.

9. A therapeutic apparatus comprises a host and a control component which are detachably connected, and is characterized in that,

the host comprises a first chip and a combined treatment head which are electrically connected; and

the control assembly comprises a second chip and a portable electrode slice which are electrically connected;

wherein the first chip and the second chip are for performing the steps in the control method according to any one of claims 1-7.

10. The therapeutic apparatus of claim 9, wherein the second chip controls the portable electrode pad or the combined therapy head to output electrical stimulation, respectively.

11. The therapeutic apparatus of claim 9, wherein said main machine further comprises a vibratory massager; the first chip and the second chip are in data communication, and the first chip controls the combined treatment head to output infrared rays and/or controls the vibration massager to output vibration stimulation.