CN117398605A - Noon streamer low frequency therapeutic instrument control system - Google Patents

Abstract

The invention relates to the technical field of medical equipment, and provides a midday streamer low-frequency therapeutic apparatus control system which aims at solving the technical problem that a therapeutic apparatus is inconvenient for a plurality of people to use simultaneously. The multi-channel treatment, the multi-channel pulse channel of the relay controller allows treatment of multiple channels simultaneously, and multiple electrode interfaces enable the multi-channel pulse channel to be connected with multiple treatment electrodes so as to output different low-frequency electromagnetic waves, so that the requirements of different users can be met at the same time.

Description

Noon streamer low frequency therapeutic instrument control system

Technical Field

The invention relates to the technical field of medical equipment, in particular to a control system of a midday streamer low-frequency therapeutic apparatus.

Background

The calculation method of the midnight-noon ebb-flow is complex, only few high-skill acupuncture and moxibustion college can master and implement, and the dialectical meridian is followed, the acupoints are selected on time, and the corresponding different acupoints are selected at different times to treat diseases, so that the curative effect is excellent, the acupuncture is replaced by low-frequency current, the side effects of needle sickness, infection and skin pain are avoided, the local pain can be remarkably relieved, the blood circulation and lymphatic reflux of local tissues are promoted, the contraction of skeletal muscles is caused, the muscular atrophy is prevented, the tension of smooth muscles is improved, the ganglion and nerve segments are acted, the autonomic nerve functions are regulated, and the like.

The existing midnight-noon ebb-flow therapeutic apparatus, although embodying the spirit of time acupuncture of traditional Chinese medicine, in view of the condition limit of itself, the aspect still to be improved is a lot, for the product itself, it is necessary to provide a medical midnight-noon ebb-flow low frequency therapeutic apparatus that multiple items and multiple people use the treatment simultaneously to satisfy one kind of multichannel.

Disclosure of Invention

In order to solve the technical problem that the therapeutic apparatus is inconvenient for a plurality of people to use simultaneously, the invention provides a control system of the midday low-frequency therapeutic apparatus, and the medical midnight-noon low-frequency therapeutic apparatus can simultaneously meet the requirements of multiple frequency pulse waveforms, multiple projects and simultaneous use therapy of a plurality of people through multiple channels.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

the noon streamer low frequency therapeutic apparatus control system comprises a main controller, a touch screen and a power supply module, wherein the touch screen is electrically connected with the main controller and is used for displaying working information and states and receiving interaction instructions through touch operation and feeding back the interaction instructions to the main controller; the power supply module is electrically connected with the main controller and is used for supplying power; the relay controller is electrically connected with the main controller and is used for receiving control instructions of the main controller and carrying out relay distribution, a rear stage of the relay controller is connected with a plurality of pulse channels, each pulse channel comprises a pulse controller, an MOS control circuit, a transformer control circuit and an electrode interface, and the pulse controller is electrically connected with the relay controller and is used for receiving the control instructions distributed by the relay controller and outputting high-low level signals; the MOS control circuit is electrically connected with the pulse controller and is used for receiving the high-low level signals to form pulse signals; the transformer control circuit is electrically connected with the MOS control circuit and is used for receiving the pulse signal, isolating, shaping and amplifying the pulse signal and then outputting pulse voltage; the electrode interface is electrically connected through the transformer control circuit and is used for connecting a treatment electrode and outputting low-frequency electromagnetic waves.

Multiple pulse channels of the relay controller allow treatment of multiple channels simultaneously, meaning that different patients or treatment needs can be met at the same time. The design of the electrode interfaces enables the electrode interfaces to be connected with various treatment electrodes so as to output different low-frequency electromagnetic waves to meet different treatment requirements and targets. This increases the efficiency of the therapeutic device, particularly in medical institutions. The cooperation of the pulse controller and the MOS control circuit enables the formation of pulse signals to be more accurate, so that accurate acupoint therapy is realized.

The use of MOS control circuits facilitates efficient processing of high and low level signals and formation of pulse signals, which provides reliable electromagnetic wave output to achieve therapeutic objectives.

The system can customize treatment parameters including pulse voltage, waveform, frequency and intensity according to the needs of the patient, and can perform personalized treatment according to the specific illness state of the user.

The use of the touch screen enables the hole opening calculation to be more convenient. The system can calculate the acupoints by different algorithms and geographic position information, so as to provide more accurate acupoints position and time.

The touch screen allows the user to interact with the system to more easily set treatment parameters, control treatment progress, and view operating status and information. This improves the user experience and controllability of the treatment.

Further, a level conversion chip is also arranged between the relay controller and the main controller.

The use of the level conversion chip is beneficial to improving the signal compatibility, stability, expandability and communication reliability of the therapeutic apparatus control system, and provides a more reliable, flexible and easily-upgraded therapeutic apparatus system for users.

Further, the relay controller and the pulse controller are respectively connected with an independent DOG chip, and the pulse controller is connected with an indicator lamp group.

The setting of connecting independent DOG chip and pilot lamp group has improved the control accuracy, the multifunctionality of therapeutic instrument, user-friendly nature and error elimination ability, also supports multichannel treatment simultaneously, provides higher level treatment experience and operation convenience for the user.

Further, the power supply module is connected with the voltage transformation control circuit through the two-stage voltage reduction module.

The therapeutic apparatus can obtain stable, strong-adaptability, high-efficiency and reliable power supply by connecting the two-stage voltage reducing module with the voltage-transformation control circuit, thereby improving the performance and usability of the therapeutic apparatus. This helps ensure that the therapeutic apparatus will work properly under a variety of power conditions, providing a consistent and high quality therapeutic experience for the user.

Further, the controller is electrically connected with a USB communication change-over switch, the USB communication change-over switch is respectively connected with a burning port and an expansion module, and the USB communication change-over switch is used for switching the burning port or the expansion module; the expansion module comprises a USB expansion chip and an FPC connector, and a USB interface and a SIM card holder are connected through the FPC connector.

The functions, communication capacity and flexibility of the therapeutic apparatus are enhanced by the arrangement of the USB communication change-over switch and the expansion module. These features help to meet the needs of different users and ensure that the device performs well in maintenance and communication, thereby providing a higher level of performance and usability.

Further, a USB boost module and a USB load switch are connected in series between the power supply module and the FPC connector, and the USB boost module and the USB load switch are used for boosting the voltage of the power supply module and outputting the boosted voltage to the USB interface.

The existence of the USB boost module and the USB load switch improves the compatibility of the power management and external equipment of the therapeutic apparatus, is helpful for providing better user experience, and ensures the stability and reliability of the equipment.

Further, the main controller is also electrically connected with a spiral encoder, and the intensity of the output pulse voltage signal can be adjusted by rotating the spiral encoder, so that the treatment effect of different gears is realized.

By allowing the user to adjust the intensity of the output pulsed voltage signal, the therapeutic apparatus provides more personalized, adaptive and fine therapy control, which is beneficial for improving the therapeutic effect, user satisfaction and success rate of therapy, and such fine adjustment helps to meet the needs of different users, both during rehabilitation and in symptomatic relief.

Further, the main controller is also electrically connected with a switch key for starting and stopping the therapeutic apparatus; the main controller is also electrically connected with a silicon microphone chip for storing and processing data.

The on-off key and the silicon chip provide more convenient operation of the therapeutic instrument, are beneficial to better managing the therapeutic process, optimizing the therapeutic effect and realizing personalized therapeutic experience, and the data storage and processing functions are beneficial to recording, tracking and optimizing the therapy, so that the effectiveness and the success rate of the therapy are improved.

Further, the main controller is also electrically connected with an encryption chip for encrypting the communication information of the main controller, so that the information safety is ensured; the main controller is also electrically connected with a gyroscope for sensing the posture and deflection angle of the therapeutic apparatus.

The existence of the encryption chip and the gyroscope improves the safety, accuracy and user experience of the therapeutic apparatus. The information safety is ensured, the communication confidentiality is maintained, and the gyroscope is favorable for posture sensing and position positioning of the therapeutic instrument, so that the therapeutic effect and success rate are improved.

Further, the main controller is also electrically connected with a GPS antenna for positioning, and is also electrically connected with a communication antenna. The GPS and communication antenna improve the positioning capability, remote monitoring function, upgrading flexibility and interconnectivity with other systems of the therapeutic apparatus, and are helpful for improving the quality, individuation and convenience of treatment.

The implementation of the invention has the beneficial effects that:

the therapeutic apparatus can configure the multi-channel electrode according to the user's demand, each channel can select different pulse voltage, waveform and frequency, realize the simultaneous treatment of many people and use.

Multiple pulse channels of the relay controller allow treatment of multiple channels simultaneously, meaning that different patients or treatment needs can be met at the same time. The design of the electrode interfaces enables the electrode interfaces to be connected with various treatment electrodes so as to output different low-frequency electromagnetic waves to meet different treatment requirements and targets. This increases the efficiency of the therapeutic device, particularly in medical institutions. The cooperation of the pulse controller and the MOS control circuit enables the formation of pulse signals to be more accurate, so that accurate acupoint therapy is realized.

Drawings

Fig. 1 is a block diagram of a control system of a midnight-noon ebb-flow low frequency therapeutic apparatus according to an embodiment of the present invention;

fig. 2 is a block diagram II of a control system of a midnight-noon ebb-flow low frequency therapeutic apparatus according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, 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.

Referring to fig. 1 and 2, a control system of a midday low-frequency therapeutic apparatus comprises a main controller, a touch screen, a power supply module, a relay controller, a pulse controller, a MOS control circuit, a transformer control circuit and an electrode interface. The main controller can be a singlechip, an ARM chip or an FPGA and the like; the relay controller and the pulse controller can be a single chip microcomputer or a controller with special control function.

The touch screen is electrically connected with the main controller and used for displaying working information and states, receiving interaction instructions through touch operation and feeding back the interaction instructions to the main controller, the power supply module is electrically connected with the main controller and used for supplying power to the main controller, the relay controller is electrically connected with the main controller and used for receiving control instructions of the main controller and carrying out relay distribution, the pulse controllers are electrically connected with the relay controller and used for receiving the control instructions distributed by the relay controller and outputting high-low level signals, the MOS control circuit is electrically connected with the pulse controllers and used for receiving the high-low level signals and then forming pulse signals, and the transformer control circuit is electrically connected with the MOS control circuit and used for receiving the pulse signals, isolating, shaping and amplifying the pulse signals and then outputting pulse voltages (pulse waves); the pulse frequency is 1.25 Hz-1000 Hz, the 1-15 gears are adjustable, the error is +/-15 percent, and the specific reference is shown in the table 1:

TABLE 1 frequency parameter table

Gear position	1	2	3	4	5	6	7	8
									Frequency (Hz)	1.25	2.5	5	10	20	40	80	113
Gear position	9	10	11	12	13	14	15
									Frequency (Hz)	160	226	320	453	640	801	1000

a) Single frequency function: optionally one of the 15 pulse frequencies.

b) Combining frequency functions: 2 or more of the above 15 frequencies are selected according to the requirement, and are combined into a frequency sequence for cyclic output.

The pulse width should be no greater than 0.8ms;

output amplitude:

a) The maximum output voltage effective value is not more than 20V (rated load 500 omega);

b) The peak voltage of the output at the time of open circuit measurement is not more than 500V.

When the output amplitude of the therapeutic apparatus is maximum, the electric quantity of each pulse is larger than 7 mu C, and the maximum output energy of a single pulse of the therapeutic apparatus is not more than 300mJ.

Each transformer control circuit is electrically connected with a connector, preferably an FPC connector, and a plurality of groups of electrode interfaces can be connected through the FPC connector to realize multi-electrode output, pulse voltage is output to the treatment electrode through the electrode interfaces, and the electrode interfaces are used for connecting the treatment electrode and outputting low-frequency electromagnetic waves to achieve the treatment purpose.

When the power is interrupted and then restored, the therapeutic apparatus cannot output unless the output amplitude is preset at the minimum position.

Treatment time:

a) The therapeutic apparatus can automatically stop working when working and output, or can manually control to stop working, and the electrode indicator lamp is turned off when the output is stopped;

b) Single treatment time: the step is 10min, the error is not more than +/-10%;

c) And stopping outputting the current after timing is finished, and making a prompt sound by the equipment to finish treatment.

Further, a level conversion chip is also arranged between the relay controller and the main controller.

The level shifting chip helps to process control instructions from the master controller, converting them into level signals suitable for processing by the relay controller, which ensures signal compatibility between the master controller and the relay controller, regardless of whether they use different signal level criteria.

The level shifting chip can prevent unmatched signal levels from entering the relay controller, thereby improving the stability of the system, which helps to avoid errors or system faults due to signal mismatching.

By means of the level shifting chip, the system can be more easily connected to other devices or modules, whatever signal level criteria they use. This improves the scalability and interoperability of the system.

The use of the level shifting chip can reduce interference and distortion in signal transmission, thereby improving reliability of communication, which is very important for ensuring normal operation of the therapeutic apparatus and effectiveness of treatment.

Through the level conversion chip, the therapeutic apparatus can be more easily compatible with different versions of the main controller and the relay controller, so as to realize the compatibility of communication levels, and can also be more easily upgraded to adapt to future technical and standard changes.

Further, the relay controller and the pulse controller are respectively connected with an independent DOG chip, and the pulse controller is connected with an indicator lamp group.

The independent DOG chip may provide precise control of the relay controller and the pulse controller. This means that the therapeutic apparatus can generate and deliver therapeutic signals more accurately, ensuring the effectiveness and safety of the treatment.

By having separate DOG chips, the relay controller and the pulse controller can perform different functions without interfering with each other. This increases the versatility of the therapeutic apparatus, allowing it to perform multiple treatments or operations simultaneously.

The indicating lamp group is connected to the pulse controller, so that the state and the working mode of the therapeutic apparatus can be displayed in real time. This helps the user or operator to understand the progress of the treatment, ensuring that everything is normal.

The indicator light set provides a user-friendly interface, and a user can easily recognize the state and operation mode of the therapeutic apparatus without having to go deep into technical details.

The separate DOG chip and indicator light set may also help identify and eliminate potential faults or problems, thereby improving the maintainability and reliability of the therapeutic apparatus.

For a multi-channel therapeutic apparatus, the independent DOG chip and the indicator light set can ensure that each channel can be independently operated and monitored, thereby supporting simultaneous treatment of multiple persons or simultaneous execution of different treatment modes.

Further, the power supply module is connected with the voltage transformation control circuit through the two-stage voltage reduction module.

The arrangement of the two-stage voltage reduction module is helpful for stabilizing the output voltage of the power supply module. This ensures that the therapeutic apparatus obtains a reliable and stable power supply, helping to provide consistent therapeutic results.

The two-stage voltage reduction module can adapt to different input voltage ranges and large-differential-voltage power supply, so that the therapeutic apparatus can work under different power supply conditions. This is particularly useful for mobile therapeutic devices or for use in areas where voltage fluctuations are large.

Through the two-stage voltage reduction module, the therapeutic apparatus can more efficiently utilize the electric energy provided by the power supply module, and the electric energy waste is reduced.

The stabilized supply voltage helps ensure proper operation of the various components of the therapeutic apparatus, including the controller, pulse controller, and sensors, among others. This helps to provide reliable treatment and operation.

A charging management chip is connected in series between the power supply module and the transformer control circuit and used for charging the power supply module, and a voltage reduction chip is used for reducing the output voltage of the power supply module and then outputting the reduced output voltage to the transformer control circuit; the main controller is also electrically connected with an encryption chip for encrypting the communication information of the main controller, so that the information safety is ensured; the main controller is also electrically connected with a gyroscope and is used for sensing the posture and the deflection angle of the therapeutic instrument; the main controller is also electrically connected with a GPS antenna for GPS positioning; the main controller is also electrically connected with a WIFI antenna for realizing short-distance wireless communication; the main controller is also electrically connected with an LTE antenna for realizing wireless mobile communication, the LTE antenna comprises an LTE main antenna and an LTE diversity antenna, the LTE main antenna is mainly used for data transmission, coverage and capacity, the LTE diversity antenna is used for processing multipath signals, improving signal quality and anti-interference performance, and the LTE diversity antenna work cooperatively in an LTE system to ensure reliable wireless communication; the main controller is also electrically connected with an audio power amplifier chip and a loudspeaker and is used for realizing voice broadcasting.

The presence of the encryption chip ensures the security of the communication information of the main controller, by means of which unauthorized access and data leakage can be effectively prevented, which is crucial for protecting the personal data and the treatment information of the user, especially in the case of sensitive medical data.

The encryption chip helps to maintain confidentiality of the communication, and the therapeutic apparatus may need to communicate with other devices or servers, for example, to transmit therapeutic data to a doctor or cloud storage, and the encrypted communication may ensure that the data is not stolen or tampered with during transmission.

The presence of the gyroscope enables the therapeutic apparatus to perceive its attitude and yaw angle, which is important to ensure that the therapeutic apparatus remains in the correct position and orientation during use. For example, during a particular treatment session, the therapeutic device may need to be positioned at a particular location or angle to provide effective treatment, and the gyroscope may detect the position and orientation of the therapeutic device to ensure accuracy and consistency of treatment.

Through the gyroscope, the therapeutic apparatus can be adjusted according to the current posture and deflection angle of the therapeutic apparatus so as to provide more personalized and comfortable therapeutic experience. This can ensure a better therapeutic effect while reducing discomfort.

The main controller is also electrically connected with a spiral encoder, and the strength of the output pulse voltage signal can be adjusted by rotating the spiral encoder, so that the treatment effect of different gears is realized;

through adjusting the intensity of the pulse voltage signals, a user can select different treatment intensities according to own requirements and comfort level, personalized treatment experience is provided, each user is ensured to be treated according to own conditions, and therefore treatment effect is improved.

Different treatment situations may require different treatment intensities, some users may require stronger stimulation to obtain the best effect, others may require gentle treatment, and the therapeutic apparatus can adapt to different treatment requirements through the spiral encoder, thereby ensuring adaptability and flexibility of treatment.

Spiral encoders and rotary spiral encoders provide fine control that a user can precisely adjust the intensity of treatment to meet their particular needs, such fine control helping to ensure the accuracy and effectiveness of the treatment.

Different symptoms and diseases may require different treatment strengths to achieve optimal results. By adjusting the intensity of treatment, the user can optimize the therapeutic effect, accelerate the healing process or alleviate symptoms.

Some users may be less adaptable to higher intensity treatments, while the presence of a spiral encoder may allow them to choose a milder treatment to increase comfort, especially for users who are treated for a long period of time.

The main controller is also electrically connected with a switch key for starting and stopping the therapeutic apparatus; the main controller is also electrically connected with a silicon microphone chip for storing and processing data.

The presence of the switch key enables the user to easily start and stop the operation of the therapeutic apparatus. This convenience helps the user to start the treatment quickly when needed or to stop easily after the treatment is over.

Through the on-off key, the user can effectively turn off the therapeutic apparatus to save energy. This is particularly useful in cases where the therapeutic apparatus is not used for a long period of time or where temporary interruption of the therapy is required, contributing to reduction in energy consumption and reduction in electric charge expenditure.

The presence of the silicon chip allows the master controller to store and process data of the therapeutic apparatus, which is important for recording and tracking the progress of the treatment, storing personalized treatment protocols, and generating treatment reports, which users can access and view at any time in order to better understand the effect of the treatment.

The data storage and processing functions of the silicon chip can be used for creating and adjusting personalized treatment schemes, and the treatment instrument can automatically adjust treatment parameters according to the needs and feedback of users so as to provide optimal treatment effects.

The data stored by the silicon chip can be used to track the history of the treatment, including frequency, intensity and duration of the treatment, helping the user and medical professional to know the progress of the treatment in order to make the necessary adjustments.

The main controller is also electrically connected with a USB communication change-over switch, the USB communication change-over switch is respectively connected with a burning port and an expansion module, the USB communication change-over switch is used for switching the burning port or the expansion module, and the burning port is used for software burning and iterative updating of the main controller; the expansion module comprises a USB expansion chip and an FPC connector, a USB interface and an SIM card holder are connected through the FPC connector, the SIM card holder can be used for inserting an SIM card, and wireless mobile communication is realized through an LTE antenna.

The USB communication change-over switch allows a user to easily switch the burning port and the expansion module, so that the flexibility of the therapeutic apparatus is enhanced. The user may select different communication modes as desired, for example, a burn mode for equipment maintenance or an expansion module for wireless communication.

The presence of the burn port allows for device maintenance and software updates, critical to repair problems, improve performance, or add new functionality, keeping the device in an up-to-date state.

The arrangement of the expansion module allows the therapeutic apparatus to have more functions and expansibility, and the USB expansion chip and the SIM card seat provide additional communication modes for the therapeutic apparatus, such as wireless mobile communication (through the SIM card) and external equipment connection (through a USB interface), and the functions can be used for data transmission, remote monitoring or other expansion applications.

The user can select different communication modes as required, for example, mobile communication is performed by using a SIM card, or data transmission is performed by connecting an external device. This flexibility of communication helps to meet the needs of different users, whether in the medical field, research or other application areas.

The SIM card seat can enhance data security, and particularly provides an encrypted and safe communication channel compared with WIFI communication under the condition that sensitive data needs to be protected or communication security is ensured.

And a USB boosting module and a USB load switch are also connected in series between the power supply module and the FPC connector, and are used for boosting the voltage of the power supply module and outputting the boosted voltage to the USB interface.

The presence of the USB boost module allows the power supply module to provide a higher voltage output, which is critical for some applications, because it ensures a sufficient voltage supply to support external devices connected to the USB interface or to perform certain high power tasks.

By providing sufficient voltage, the USB interface becomes more compatible with a variety of external devices, regardless of their power requirements, which helps ensure that the therapeutic apparatus can be used with a variety of different types of peripherals, thereby expanding its functionality.

The presence of the USB load switch enables the therapeutic apparatus to control the output of current, which is important for saving electrical energy. By controlling the load, the therapeutic apparatus can more effectively manage the power resources.

The therapeutic apparatus is not limited to dual-channel output, a plurality of channel electrodes can be arranged according to application scenes, and simultaneous therapeutic use of multiple persons is realized.

The main controller is embedded with system software, the running environment is an android system, the main controller has a homepage item list function, a user can click different items to enter a sub-list to realize different operations, different choices are met, diseases can be selected to be treated, the main controller has a disease list function, basic prescriptions can be entered through disease typing by inquiring the diseases, each basic prescription corresponds to different acupoints, acupoints can be opened for treatment, acupoints can be modified on the basis of the basic prescriptions, and new prescriptions can be formed for self-defining storage. The user can also generate a custom prescription according to own habit, physical condition custom symptoms and corresponding prescriptions through the function of a newly built prescription, the custom prescription comprises custom acupuncture points, custom pulse voltage, waveform, frequency, intensity, treatment time and the like, generate a proprietary prescription belonging to the user, perform marking and naming, store the proprietary prescription, and also can read the prescriptions stored before and realize a one-key opening treatment function.

The user can input keywords (body information, disease information, treatment habit and the like) through the touch screen, intelligently generate one or more prescriptions through the software system and present the prescriptions to the user for reference selection by the user, after clicking a certain intelligent recommended prescription, the user can also carry out self-defined modification on the prescriptions to generate self-defined prescriptions, wherein the self-defined prescriptions comprise self-defined acupuncture points, self-defined pulse voltage, waveform, frequency, intensity, treatment time and the like, generate and store own proprietary prescriptions, can also read prescriptions stored before, and realize a one-key starting treatment function.

The system has the function of inquiring the main points, can inquire the corresponding points in a database according to the names of the points, the functions of the points or the main symptoms of the points, displays the main diseases of the names of the points, the functions of the points or the points on a screen after inquiring, displays the corresponding positions on a meridian point map of a human body, and can store the currently appointed points as prescriptions. The system has a treatment history recording function and a query function of a user, and records treatment and acupoint selection history information of the user in a certain time period.

When the therapy is started, the frequency and the intensity of the output pulse wave can be adjusted, for example, the pulse wave can be adjusted through a knob, or the pulse wave can be adjusted through a single step of a touch key of a physiotherapy interface, or the pulse wave can be adjusted through sliding of an intensity progress bar of a setting page of a single electrode or the adjustment of clicking an add-drop key.

The control device has one-key control function, including electrode modification, complete clearing and complete closing functions.

The device has the function of opening the acupoints, can perform the calculation of opening the acupoints by a meridian flow method, a tortoise plastron eight method and the like, performs the calculation of opening the acupoints by converting the geographical position and time of the points, has the function of timing display of opening the acupoints, has the function of reserving the treatment of opening the acupoints, and performs the treatment of timing treatment of opening the acupoints and reminding the points.

Has a help center comprising a data center, a system setting and a system about three parts.

The noon streamer low frequency therapeutic apparatus control system provided by the invention has the beneficial effects that:

the implementation of the invention has the beneficial effects that:

the therapeutic apparatus can configure the multi-channel electrode according to the user's demand, each channel can select different pulse voltage, waveform and frequency, realize the simultaneous treatment of many people and use.

Multiple pulse channels of the relay controller allow treatment of multiple channels simultaneously, meaning that different patients or treatment needs can be met at the same time. The design of the electrode interfaces enables the electrode interfaces to be connected with various treatment electrodes so as to output different low-frequency electromagnetic waves to meet different treatment requirements and targets. This increases the efficiency of the therapeutic device, particularly in medical institutions. The cooperation of the pulse controller and the MOS control circuit enables the formation of pulse signals to be more accurate, so that accurate acupoint therapy is realized.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The noon streamer low frequency therapeutic apparatus control system comprises a main controller, a touch screen and a power supply module, wherein the touch screen is electrically connected with the main controller and is used for displaying working information and states and receiving interaction instructions through touch operation and feeding back the interaction instructions to the main controller; the power supply module is electrically connected with the main controller and is used for supplying power; the relay control system is characterized by being provided with a relay controller electrically connected with a main controller and used for receiving control instructions of the main controller and carrying out relay distribution, wherein a rear stage of the relay controller is connected with a plurality of pulse channels, each pulse channel comprises a pulse controller, a MOS control circuit, a transformer control circuit, a connector and an electrode interface, and the pulse controller is electrically connected with the relay controller and used for receiving the control instructions distributed by the relay controller and outputting high-low level signals; the MOS control circuit is electrically connected with the pulse controller and is used for receiving the high-low level signals to form pulse signals; the transformer control circuit is electrically connected with the MOS control circuit and is used for receiving the pulse signal, isolating, shaping and amplifying the pulse signal and then outputting pulse voltage; the front stage of the connector is electrically connected with the transformer control circuit, the rear stage of the connector is connected with a plurality of electrode interfaces, and the electrode interfaces are used for connecting treatment electrodes and outputting low-frequency electromagnetic waves.

2. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that a level conversion chip is further arranged between said relay controller and said main controller.

3. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that said relay controller and pulse controller are respectively connected with an independent DOG chip, and said pulse controller is connected with an indicator lamp set.

4. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that said power supply module is connected with a voltage transformation control circuit through a two-stage voltage reduction module.

5. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that said controller is electrically connected with a USB communication switch, said USB communication switch is respectively connected with a burning port and an expansion module, and said USB communication switch is used for switching said burning port or said expansion module; the expansion module comprises a USB expansion chip and an FPC connector, and a USB interface and a SIM card holder are connected through the FPC connector.

6. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 5, wherein a USB boost module and a USB load switch are further connected in series between the power supply module and the FPC connector, and are configured to boost the voltage of the power supply module and output the boosted voltage to the USB interface.

7. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that the main controller is further electrically connected with a spiral encoder for adjusting the intensity of the output pulse voltage signal.

8. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that said main controller is further electrically connected with a silicon chip for storing and processing data.

9. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, wherein said main controller is further electrically connected with an encryption chip for encrypting the communication information of the main controller to ensure the information security; the main controller is also electrically connected with a gyroscope for sensing the posture and deflection angle of the therapeutic apparatus.

10. The control system of the midnight-noon ebb-flow low frequency therapeutic apparatus according to claim 1, characterized in that said main controller is further electrically connected with a positioning GPS antenna, and said main controller is further electrically connected with a communication antenna.