CN114558253A

CN114558253A - Control method, device and equipment of ultrasonic conductivity therapeutic apparatus and storage medium

Info

Publication number: CN114558253A
Application number: CN202210212214.XA
Authority: CN
Inventors: 孙久平
Original assignee: Nanjing Zaochun Medical Device Co ltd
Current assignee: Nanjing Zaochun Medical Device Co ltd
Priority date: 2022-03-04
Filing date: 2022-03-04
Publication date: 2022-05-31
Anticipated expiration: 2042-03-04
Also published as: CN114558253B

Abstract

The application relates to a control method, a device, equipment and a storage medium of an ultrasonic conductivity therapeutic apparatus, which are applied to the field of prostate treatment, wherein the method comprises the following steps: detecting the actual electric quantity of the storage battery when the therapeutic apparatus is started; acquiring standard power consumption corresponding to different treatment modes preset in a standard power consumption database; marking the treatment mode with standard power consumption less than the actual power consumption as an available mode, and marking the treatment mode with standard power consumption not less than the actual power consumption as a to-be-charged mode; displaying an available mode and a to-be-charged mode in a distinguishing manner; acquiring a treatment mode selected by a user; if the treatment mode selected by the user is the available mode, starting the therapeutic apparatus according to the treatment mode selected by the user; and if the treatment mode selected by the user is the mode to be charged, the treatment mode selected by the user is not responded, and prompt information related to charging is output. The application has the technical effects that: the use effect of ultrasonic conductivity therapeutic instrument when utilizing the battery to supply power has been promoted.

Description

Control method, device and equipment of ultrasonic conductivity therapeutic apparatus and storage medium

Technical Field

The present application relates to the field of medical equipment, and in particular, to a method, an apparatus, a device and a storage medium for controlling an ultrasonic conductivity therapeutic apparatus.

Background

The ultrasonic conductivity therapeutic instrument is a product for treating prostate diseases; the ultrasonic conductance therapeutic apparatus is designed and converted into nano sound waves by using a digital technology, and pushes sound energy to guide the sound waves into a tissue focus under a controlled state, so that accurate treatment is implemented, and disease rehabilitation is promoted; the photon information can be guided into meridian points by adopting a modulatable light wave transmission mechanism, and the effects of dredging meridians, regulating viscera, promoting qi and blood circulation and treating diseases are achieved through photochemical, photothermal and photostimulation effects.

The ultrasonic conductivity therapeutic apparatus generally has two power supply modes, one mode is a mode of directly connecting commercial power to obtain electric energy, and the other mode is a mode of obtaining electric energy by utilizing a self-contained rechargeable storage battery in the therapeutic apparatus; compared with a power supply mode of directly connecting commercial power to obtain electric energy, the power supply mode by using the storage battery has the advantages of small size, convenience in use and the like.

In the process of implementing the present application, the inventor finds that the ultrasonic conductivity therapeutic apparatus at least has the following problems: ultrasonic conductivity therapeutic instrument is utilizing the battery to carry out the in-process of supplying power, only reminds the user to charge when the battery electric quantity is less than a certain critical value, the condition of outage in the treatment process can appear, and the result of use when leading to ultrasonic conductivity therapeutic instrument to utilize the battery to supply power is relatively poor.

Disclosure of Invention

In order to help to improve the using effect of the ultrasonic conductivity therapeutic apparatus, the application provides a control method, a device, equipment and a storage medium of the ultrasonic conductivity therapeutic apparatus.

In a first aspect, the present application provides a control method for an ultrasonic conductivity therapeutic apparatus, which adopts the following technical scheme: the method comprises the following steps: detecting the actual electric quantity of the storage battery when the therapeutic apparatus is started;

acquiring standard power consumption corresponding to different treatment modes preset in a standard power consumption database;

marking the treatment mode with standard power consumption less than the actual power consumption as an available mode, and marking the treatment mode with standard power consumption not less than the actual power consumption as a to-be-charged mode;

the treatment modes corresponding to the available mode and the mode to be charged are displayed in a distinguishing mode;

acquiring a treatment mode selected by a user; if the treatment mode selected by the user is the available mode, starting the therapeutic apparatus according to the treatment mode selected by the user; and if the treatment mode selected by the user is the mode to be charged, the treatment mode selected by the user is not responded, and prompt information related to charging is output.

According to the technical scheme, after a user turns on the therapeutic apparatus, the therapeutic apparatus can automatically mark all treatment modes according to the current electric quantity of the storage battery, and when the user selects the treatment mode with the standard electric quantity not less than the actual electric quantity, the therapeutic apparatus does not respond and outputs prompt information related to charging to remind the user to charge the therapeutic apparatus; when a user selects a treatment mode with standard power consumption less than actual power consumption, the user normally responds and starts a therapeutic apparatus to treat; the possibility of interruption of the treatment process caused by the exhaustion of the electric quantity of the storage battery of the therapeutic apparatus in the treatment process is reduced, so that the use effect of the ultrasonic conductivity therapeutic apparatus when the storage battery is used for supplying power is improved.

In a specific embodiment, said marking of a therapy mode with a standard power consumption less than said actual power consumption as a usable mode comprises:

determining a pending treatment pattern for which the standard power consumption is less than the actual power consumption;

calculating a first electric quantity difference value between the standard electric quantity corresponding to the undetermined treatment mode and the actual electric quantity;

and marking the treatment mode with the first electric quantity difference value larger than a preset safety value as an available mode, and marking the treatment mode with the first electric quantity difference value not larger than the preset safety value as a to-be-charged mode.

Through the technical scheme, the setting of the safety value reduces the possibility that the treatment process is interrupted due to the fact that the electric quantity is exhausted in the treatment process of the treatment mode marked as the available mode because the actual electric consumption of the treatment mode selected by the user is larger than the standard electric consumption corresponding to the treatment mode in the treatment process, and further improves the using effect of the ultrasonic conductance therapeutic apparatus.

In a specific embodiment, after the activating the therapeutic apparatus according to the therapy mode selected by the user, the method further comprises:

recording the power consumption of the treatment mode selected by the user and outputting the latest power consumption corresponding to the treatment mode selected by the user when the operation of the treatment mode is finished;

comparing the latest power consumption with a standard power consumption corresponding to a treatment mode selected by a user;

if the latest power consumption is larger than the standard power consumption, adding the latest power consumption and a preset reserved value to obtain an adjustment amount, and replacing the standard power consumption with the adjustment amount;

if the latest power consumption is not greater than the standard power consumption, calculating a second power difference between the latest power consumption and the standard power consumption;

and if the second electric quantity difference value is smaller than a preset critical value, adding the latest electric quantity to a preset reserved value to obtain an adjustment quantity, and replacing the standard electric quantity with the adjustment quantity.

Through the technical scheme, after the operation of the treatment mode selected by the user is finished, the therapeutic apparatus can adjust the standard power consumption of the treatment mode according to the recorded latest power consumption of the treatment mode, so that the standard power consumption of the treatment mode can be always kept in a state that the standard power consumption is larger than the actual power consumption and the difference between the standard power consumption and the actual power consumption is not smaller than the reserved value; thereby reached and carried out dynamic adjustment's effect to the standard power consumption of treatment mode according to the actual use condition is automatic, reduced because the ageing actual power consumption that leads to the treatment mode of equipment is greater than standard power consumption after the therapeutic instrument is used for a long time, and then made the therapeutic instrument in the treatment process because of the possibility that battery power exhausts and interrupt the treatment to ultrasonic conductance therapeutic instrument's result of use has further been promoted.

detecting the residual electric quantity of the storage battery when the operation of the treatment mode selected by the user is finished;

and if the standard power consumption which is larger than the residual power exists in the standard power consumption corresponding to different treatment modes, outputting prompt information related to charging.

Through the technical scheme, after the operation of the treatment mode selected by the user is finished, if the standard power consumption with the largest value in different treatment modes is larger than the residual power of the storage battery, the fact that the residual power is insufficient to support the complete operation of the treatment apparatus according to the treatment mode corresponding to the standard power consumption with the largest value when the user starts the machine next time is shown, the prompt message related to charging is sent to remind the user to charge the treatment apparatus in time, so that the possibility that the treatment apparatus cannot normally operate due to the fact that the electric quantity of the treatment apparatus is insufficient when the user starts the machine again is reduced, and convenience of the user in using the treatment apparatus is improved.

In a specific possible embodiment, the method further comprises:

detecting the full-rated electric quantity of the storage battery when the charging of the storage battery is finished;

determining a standard power consumption amount having a largest power consumption amount among the standard power consumption amounts corresponding to the different treatment modes;

calculating a third power difference between the full power and the standard power consumption with the maximum power consumption; and if the third electric quantity difference value is smaller than a preset warning value, outputting prompt information related to the storage battery needing to be replaced.

Through the technical scheme, after the storage battery is charged, if the full-scale electric quantity of battery is less than the biggest standard power consumption of power consumption in the standard power consumption, or the full-scale electric quantity of battery is greater than the biggest standard power consumption of power consumption, but be less than the alert value with the difference between the biggest standard power consumption of power consumption, then explain the lower condition of full-scale electric quantity appears in the condition of battery because of ageing or damage, remind the user in time to change the battery this moment, the possibility that leads to the treatment process to break down because of the battery full-scale electric quantity is lower has been reduced, thereby the result of use of ultrasonic conductance therapeutic instrument has further been promoted.

In a specific possible embodiment, the method further comprises:

when the storage battery of the therapeutic apparatus is detected to be replaced, the standard power consumption corresponding to the different treatment modes in the standard power consumption database is adjusted to the initial standard power consumption.

Through above-mentioned technical scheme, after the battery of change therapeutic instrument, the standard power consumption that corresponds with different treatment modes of therapeutic instrument according to former battery power consumption condition record, no longer be applicable to new battery, carry out the setting of resetting to the standard power consumption that corresponds with different treatment modes, reduced because the standard power consumption that new battery and different treatment modes correspond mismatches, and then lead to standard power consumption to be difficult to the possibility that automatic adjustment is newer, so that new battery can be fast and the standard power consumption looks adaptation between the different treatment modes.

In a specific possible embodiment, the method further comprises:

recording the shutdown time when the therapeutic apparatus is shut down;

and recording the starting time when the therapeutic apparatus is started again, calculating the time difference between the starting time and the shutdown time, and outputting prompt information related to overlong interval use time if the time difference is greater than a preset interval period.

Through the technical scheme, when the therapeutic apparatus is started, the time difference between the starting time and the last time of shutdown of the therapeutic apparatus is calculated, and when the difference is larger than the preset interval period, the prompt message related to the overlong interval service time is output to remind a user that the therapeutic apparatus needs to be started and maintained regularly when the therapeutic apparatus is not used for treatment at ordinary times, so that the possibility that the therapeutic apparatus is damaged due to long-time non-starting is reduced, and the service life of the therapeutic apparatus is prolonged.

In a second aspect, the present application provides an ultrasonic conductivity therapeutic apparatus control device, which adopts the following technical scheme: the device comprises: the actual electric quantity acquisition module is used for detecting the actual electric quantity of the storage battery when the therapeutic apparatus is started;

the standard power consumption acquisition module is used for acquiring standard power consumption corresponding to different treatment modes and preset in a standard power consumption database;

the treatment mode marking module is used for marking the treatment mode with standard power consumption smaller than the actual electric quantity as an available mode and marking the treatment mode with standard power consumption not smaller than the actual electric quantity as a to-be-charged mode;

the mode distinguishing display module is used for distinguishing and displaying the available mode and the mode to be charged;

the treatment mode execution module is used for acquiring a treatment mode selected by a user; if the treatment mode selected by the user is the available mode, starting the therapeutic apparatus according to the treatment mode selected by the user; and if the treatment mode selected by the user is the mode to be charged, not responding to the treatment mode selected by the user and outputting prompt information related to charging.

According to the technical scheme, after a user turns on the therapeutic apparatus, the therapeutic apparatus can automatically mark all treatment modes according to the current electric quantity of the storage battery, and when the user selects a treatment mode with standard electric quantity not less than the actual electric quantity, the therapeutic apparatus does not respond and outputs prompt information related to charging to remind the user to charge the therapeutic apparatus; when a user selects a treatment mode with standard power consumption less than actual power consumption, the user normally responds and starts a therapeutic apparatus to treat; the possibility of interruption of the treatment process caused by the exhaustion of the electric quantity of the storage battery of the therapeutic apparatus in the treatment process is reduced, so that the use effect of the ultrasonic conductance therapeutic apparatus when the storage battery is used for supplying power is improved.

In a third aspect, the present application provides a computer device, which adopts the following technical solution: comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the ultrasonic conductivity therapy apparatus control methods.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: a computer program is stored which can be loaded by a processor and which implements any of the methods for sonotrode control described above.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after a user turns on the therapeutic apparatus, the therapeutic apparatus can automatically mark all treatment modes according to the current electric quantity of the storage battery, and when the user selects the treatment mode with the standard electric quantity not less than the actual electric quantity, the therapeutic apparatus does not respond and outputs prompt information related to charging to remind the user to charge the therapeutic apparatus; when a user selects a treatment mode with standard power consumption less than actual power consumption, the user normally responds and starts a therapeutic apparatus to treat; the possibility of interruption of the treatment process caused by the electricity exhaustion of the storage battery of the ultrasonic conductivity treatment instrument in the treatment process is reduced, so that the use effect of the ultrasonic conductivity treatment instrument when the storage battery is used for supplying power is improved;

2. after the operation of the treatment mode selected by the user is finished, the therapeutic apparatus can adjust the standard power consumption of the treatment mode according to the recorded latest power consumption of the treatment mode, so that the standard power consumption of the treatment mode can be always kept in a state that the standard power consumption is larger than the actual power consumption, and the difference between the standard power consumption and the actual power consumption is not smaller than a reserved value; thereby reached and carried out dynamic adjustment's effect to the standard power consumption of treatment mode according to the actual use condition is automatic, reduced because the ageing actual power consumption that leads to the treatment mode of equipment is greater than standard power consumption after the therapeutic instrument is used for a long time, and then made the therapeutic instrument in the treatment process because of the possibility that battery power exhausts and interrupt the treatment to ultrasonic conductance therapeutic instrument's result of use has further been promoted.

Drawings

FIG. 1 is a flow chart of a method for controlling an ultrasonic conductivity therapy device according to an embodiment of the present application.

Fig. 2 is a schematic interface diagram for showing a display state of a treatment mode in one embodiment of the present application.

Fig. 3 is a block diagram of the structure of the control device of the ultrasonic conductometer in one embodiment of the present application.

Fig. 4 is a block diagram of a control apparatus of an ultrasonic conductometer according to another embodiment of the present application.

Reference numerals: 301. an actual electric quantity obtaining module; 302. a standard power consumption acquisition module; 303. a treatment mode labeling module; 304. a mode distinction display module; 305. a treatment mode execution module; 306. a battery power monitoring module; 307. a battery replacement monitoring module; 308. a life cycle monitoring module.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a control method of an ultrasonic conductivity therapeutic apparatus, which is applied to the ultrasonic conductivity therapeutic apparatus, the ultrasonic conductivity therapeutic apparatus is mainly used for carrying out physical therapy on prostate lesion tissues and can effectively solve the pain of a prostate patient, and the ultrasonic conductivity therapeutic apparatus mainly comprises a host, a touch screen connected with the host, an in-vivo therapeutic head, an in-vitro therapeutic head and a storage battery used for supplying power to the host; the ultrasonic conductivity therapeutic apparatus can be directly connected with the mains supply for use, and can also be normally used in a mode of independently depending on the power supply of a storage battery.

As shown in fig. 1, the method comprises the steps of:

and S10, detecting the actual electric quantity of the storage battery when the therapeutic apparatus is started.

Specifically, after the user starts the therapeutic apparatus, the therapeutic apparatus may first detect the actual electric quantity of the storage battery when the therapeutic apparatus is started, that is, the remaining electric quantity of the storage battery when the therapeutic apparatus is started.

And S20, acquiring standard power consumption corresponding to different treatment modes preset in the standard power consumption database.

Specifically, the therapeutic apparatus has different treatment modes, such as an automatic mode, a sport mode, a comfort mode and a gap mode, each treatment mode corresponds to a standard power consumption, and the standard power consumption is the power required for completely executing each treatment mode; the preset standard power consumption database is prestored with information of different treatment modes and standard power consumption corresponding to the different treatment modes; wherein, the standard power consumption corresponding to different treatment modes is obtained and preset by developers according to the actual detection before the delivery of the therapeutic apparatus; after the actual electric quantity of the storage battery is detected, the therapeutic apparatus can obtain standard electric consumption corresponding to different treatment modes in the standard electric consumption database.

And S30, marking the treatment mode with the standard power consumption less than the actual power as an available mode, and marking the treatment mode with the standard power consumption not less than the actual power as a to-be-charged mode.

Specifically, the therapeutic apparatus compares the acquired actual electric quantity of the storage battery with standard electric quantity corresponding to different treatment modes, and then marks the treatment mode with the standard electric quantity smaller than the actual electric quantity as an available mode, wherein the treatment mode corresponding to the available mode is a treatment mode in which the therapeutic apparatus can completely run by utilizing the residual electric quantity; marking the treatment mode with the standard power consumption not less than the actual power consumption as a to-be-charged mode, wherein the treatment mode corresponding to the to-be-charged mode is a treatment mode in which the therapeutic apparatus cannot completely run by using the residual power; based on the foregoing example, if the standard power consumption amounts corresponding to the automatic mode, the sport mode, the comfort mode and the clearance mode are a, b, c and d (a < b < c < d), respectively, the remaining power amount of the battery at the time of starting is e (c < e < d); the automatic mode, the sport mode, the comfort mode will be marked as the available mode and the gap mode will be marked as the to-be-charged mode.

And S40, distinguishing and displaying the treatment modes corresponding to the available mode and the to-be-charged mode.

Specifically, as shown in fig. 2, the therapeutic apparatus can display the available treatment modes in the available area in the upper half portion of the touch screen, and display the treatment mode corresponding to the to-be-charged mode in the to-be-charged area in the lower half portion of the touch screen; so that the user can quickly and intuitively know the current treatment mode which can be completely executed according to the display content of the touch screen of the treatment instrument.

And S50, acquiring the treatment mode selected by the user.

Specifically, a user can select a treatment mode which is expected to be executed by clicking a corresponding area of the touch screen, and the therapeutic apparatus can identify mark information corresponding to the treatment mode after receiving the treatment mode selected by the user; if the treatment mode selected by the user is the available mode, the therapeutic apparatus is started to operate normally according to the treatment mode selected by the user; if the treatment mode selected by the user is the mode to be charged, the therapeutic apparatus does not respond to the treatment mode selected by the user, and simultaneously outputs prompt information related to charging, wherein the prompt information can be output in a voice playing mode or a pop-up window display mode on a touch screen.

The therapeutic apparatus can only execute the treatment mode corresponding to the available mode, the treatment mode corresponding to the to-be-charged mode which cannot be completely operated by utilizing the residual electric quantity is not executed and the setting for use after charging is prompted to the user, the possibility of interruption of the treatment process caused by the exhaustion of the electric quantity of the storage battery of the therapeutic apparatus in the treatment process is reduced, and therefore the use effect of the ultrasonic conductance therapeutic apparatus when power is supplied by utilizing the storage battery is improved.

In one embodiment, it is considered that the actual power consumption of the treatment mode during specific execution may be slightly higher than the corresponding standard power consumption, which may cause the interruption of the treatment mode corresponding to the available mode due to insufficient remaining battery power; the step of marking the treatment pattern with a standard power consumption less than the actual power consumption as an available pattern may be specifically performed as:

the therapeutic apparatus firstly determines a pending treatment mode with the power consumption less than the actual power consumption of the storage battery, then calculates a first power difference between the pending treatment mode and the standard power consumption, compares the first power difference with a preset safety value, and marks a treatment mode with the first power difference larger than the preset safety value as an available mode; and marking the treatment mode with the first electric quantity difference value not greater than the preset safety value as a to-be-charged mode. The setting of the safety value enables only the standard power consumption to be smaller than the actual electric quantity of the storage battery, and the treatment mode with the difference value between the standard power consumption and the actual electric quantity of the storage battery larger than the safety value can be marked as an available mode, so that the possibility that the treatment mode corresponding to the available mode is interrupted due to insufficient residual electric quantity of the storage battery due to the fact that the actual power consumption of the treatment mode corresponding to the available mode in specific execution is slightly higher than the preset standard power consumption is reduced, and the stability and the treatment effect of the treatment instrument in the treatment process are improved.

In one embodiment, the situation that the actual power consumption corresponding to different treatment modes is continuously increased along with the increase of the aging degree of the therapeutic apparatus in the using process, so that the preset standard power consumption is difficult to adapt to different treatment modes is considered; after the step of acquiring the treatment mode selected by the user at S50, the following steps may also be performed:

when the therapeutic apparatus is normally started to operate according to the treatment mode selected by the user, recording the power consumption of the treatment mode selected by the user and outputting the latest power consumption corresponding to the treatment mode selected by the user when the operation of the treatment mode is finished; then comparing the obtained latest power consumption with the standard power consumption corresponding to the treatment mode selected by the user; if the latest power consumption is greater than the standard power consumption, adding the latest power consumption and a preset reserved value to obtain an adjustment amount, and replacing the standard power consumption with the adjustment amount; if the latest power consumption is not larger than the standard power consumption, calculating a second power difference between the latest power consumption and the standard power consumption, then comparing the second power difference with a preset critical value, if the second power difference is smaller than the preset critical value, adding the latest power consumption and a preset reserved value to obtain an adjustment amount, and replacing the standard power consumption with the adjustment amount; otherwise, no adjustment is made to the standard power consumption.

For example, assume that the therapy mode selected by the user is an automatic mode, the standard power consumption corresponding to the automatic mode is 0.5kwh, and the preset reserved value and the threshold value are both 0.2 kwh; after the operation of the treatment mode is finished, the latest power consumption h corresponding to the automatic mode is adjusted as follows:

if h is more than 0.5kwh, namely the latest power consumption is greater than the standard power consumption, obtaining an adjustment amount for h +0.2kwh, and replacing the standard power consumption with the adjustment amount;

if h is more than 0.3kwh and less than or equal to 0.5kwh, namely the latest power consumption is not more than the standard power consumption and the difference value of the second power consumption is less than a preset critical value, obtaining an adjustment amount for h +0.2kwh, and replacing the standard power consumption with the adjustment amount;

and if h is less than or equal to 0.3kwh, namely the latest power consumption is not greater than the standard power consumption and the difference value of the second power consumption is not less than the preset critical value, not adjusting the standard power consumption.

The standard power consumption that corresponds with treatment mode can be according to the setting of actual power consumption condition automatic adjustment, make treatment mode's standard power consumption value can remain throughout in the state that is greater than actual power consumption, it is greater than preset standard power consumption to have reduced because equipment ages and lead to the actual power consumption that a certain treatment mode corresponds, then make this treatment mode that should be marked as the mode of waiting to charge marked available mode, and then lead to the user in the in-process that uses this treatment mode to treat, the therapeutic instrument is because of the electric quantity disappearance treatment process interruption's possibility, thereby further promoted the stability and the treatment of therapeutic instrument.

In one embodiment, the situation that when a user finishes treatment by using the therapeutic apparatus, if a treatment mode with standard power consumption larger than the residual electric quantity of the storage battery exists, the treatment mode with the standard power consumption larger than the residual electric quantity of the storage battery is difficult to use normally when the user starts the therapeutic apparatus for the next time is considered, and inconvenience is brought to the user; after the step of activating the apparatus according to the treatment mode selected by the user, the following steps may be further performed:

when the operation of the treatment mode selected by the user is finished, detecting the residual electric quantity of the storage battery, then comparing the detected residual electric quantity with standard electric consumption corresponding to different treatment modes, and if the treatment mode with the standard electric consumption larger than the residual electric quantity of the storage battery exists, indicating that the situation that a to-be-charged mode exists in the treatment modes due to insufficient residual electric quantity exists when the user starts the machine for use next time; at the moment, the therapeutic apparatus reminds a user of charging the therapeutic apparatus in time by outputting prompt information related to charging, so that the possibility that the user has a treatment mode of a to-be-charged mode when the therapeutic apparatus is started for use is reduced, and convenience of the user when the therapeutic apparatus is used is improved.

It should be noted that the difference between the detection of the remaining battery capacity at the end of the treatment and the detection of the remaining battery capacity at the time of the user's power-on is: when the treatment is finished, the detection of the residual electric quantity of the storage battery can remind a user to charge the storage battery in advance when the electric quantity of the storage battery is insufficient, so that the next use of the user is not influenced; the purpose of detecting the electric quantity condition again when the machine is started is to confirm the treatment mode which can be supported by the current residual electric quantity; after the user is reminded to charge after the treatment is finished, the situation that the electric quantity of the storage battery is insufficient when the machine is started still exists due to the fact that the user may forget to charge or the natural loss of the electric quantity of the storage battery is caused because the treatment instrument is not used for a long time; therefore, the settings of detecting the residual capacity of the storage battery when the treatment is finished and detecting the residual capacity of the storage battery when a user starts the machine have different practical scene considerations and different objectives.

In one embodiment, in consideration of the fact that the storage battery of the therapeutic apparatus may be degraded due to aging or damage after a long time use, the control method of the ultrasonic conductivity therapeutic apparatus may further include the steps of:

when the charging of the storage battery is finished, detecting the full-rated electric quantity of the storage battery, namely the electric quantity of the storage battery when the storage battery is fully charged; then the therapeutic apparatus will inquire and confirm the standard power consumption with the largest power consumption in the standard power consumption corresponding to different treatment modes, then calculate the third power difference between the full power and the standard power consumption with the largest power consumption, if the third power difference is smaller than the preset warning value, it indicates that the power of the storage battery in the full state may not be enough to support the therapeutic apparatus to completely carry out the treatment mode corresponding to the standard power consumption with the largest power consumption, in order to ensure the therapeutic apparatus to work normally, the therapeutic apparatus will output the prompt information related to the need to replace the storage battery, so that the user can replace the aged or damaged storage battery in time, it reduces the full power reduction after the battery aging along with the increase of the service time, and the standard power consumption corresponding to different treatment modes is lower than the standard power consumption with the largest power consumption due to the aging of the equipment, resulting in the possibility that the treatment mode corresponding to the standard power consumption having the largest power consumption amount does not normally operate, so that the treatment apparatus can stably perform the treatment operation for a long time.

In one embodiment, considering the situation that after the storage battery of the therapeutic apparatus is replaced, the actual power consumption corresponding to different treatment modes is greatly different due to the replacement of the storage battery, and the automatically adjusted standard power consumption corresponding to the original storage battery may not be applicable any more; the control method of the ultrasonic conductivity therapeutic apparatus can also comprise the following steps:

when the storage battery of the therapeutic apparatus is detected to be replaced, the standard power consumption corresponding to different treatment modes in the standard power consumption database is respectively adjusted to be the initial standard power consumption; namely, when the storage battery is detected to be replaced, the standard power consumption is automatically reset to a numerical value which is obtained and preset by a developer according to actual detection before the delivery of the therapeutic apparatus; the mismatching of the standard power consumption of the new storage battery after replacement and the standard power consumption corresponding to different treatment modes is reduced, and the mismatching is more reflected in that the standard power consumption corresponding to the old storage battery is far larger than the actual power consumption corresponding to the new storage battery in consideration of the fact that the new storage battery does not have an aging condition; this in turn makes it difficult to automatically adjust the standard power consumption to an updated value, so that the new battery can be quickly adapted to the standard power consumption between the different treatment modes.

In one embodiment, considering the situation that the therapeutic apparatus may age or damage rapidly when not used for a long time, in order to prolong the service life of the therapeutic apparatus, the equipment is powered on and operated at intervals; the control method of the ultrasonic conductivity therapeutic apparatus can also comprise the following steps:

the method comprises the steps of recording the power-off time when the therapeutic apparatus is powered off, then recording the power-on time when the therapeutic apparatus is powered on again, calculating the time difference between the power-on time and the power-off time according to the recorded power-off time and the recorded power-on time, then comparing the time difference with a preset interval period, and if the time difference is larger than the preset interval period, indicating that the therapeutic apparatus is not powered on for a long time.

In one embodiment, in order to reduce the influence of charging voltage fluctuation on the storage battery in consideration of the fact that the storage battery may be damaged due to charging voltage abnormality during charging, the ultrasonic conductivity therapy apparatus control method may further include the steps of:

the therapeutic apparatus detects the input voltage when the storage battery is charged, namely when a user connects the storage battery of the therapeutic apparatus with mains supply to perform charging operation, the therapeutic apparatus detects the charging voltage of the storage battery and compares the input voltage obtained by detection with a standard voltage range, if the input voltage is out of the standard voltage range, the situation that the current mains supply voltage has larger fluctuation is not suitable for charging is shown, at the moment, the therapeutic apparatus automatically interrupts the charging process of the storage battery, and the charging process of the storage battery is started again after the preset time; the system also can automatically stop for a period of time when the fluctuation of the mains supply voltage is detected to be larger, so that the fluctuation period of the mains supply voltage is skipped, the influence of the fluctuation of the mains supply voltage on the storage battery is reduced, and the service life of the storage battery is further prolonged.

Fig. 1 is a schematic flow chart of a control method of the ultrasonic conductivity therapeutic apparatus according to an embodiment. It should be understood that, although the steps in the flowchart of fig. 1 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows; the steps are not limited to be performed in the exact order disclosed, and steps may be performed in other orders, unless explicitly stated otherwise; and at least some of the steps in fig. 1 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least some of the sub-steps or stages of other steps.

Based on the method, the embodiment of the application also discloses a control device of the ultrasonic conductivity therapeutic instrument.

As shown in fig. 3, the apparatus includes the following modules:

an actual electric quantity obtaining module 301, configured to detect an actual electric quantity of the storage battery when the therapeutic apparatus is powered on;

a standard power consumption obtaining module 302 for obtaining standard power consumption corresponding to different treatment modes preset in a standard power consumption database;

a treatment mode marking module 303, configured to mark a treatment mode with standard power consumption less than the actual power consumption as an available mode, and mark a treatment mode with standard power consumption not less than the actual power consumption as a to-be-charged mode;

a mode distinction display module 304 for distinguishing and displaying the available mode and the mode to be charged;

a treatment mode execution module 305 for acquiring a treatment mode selected by a user; if the treatment mode selected by the user is the available mode, starting the therapeutic apparatus according to the treatment mode selected by the user; and if the treatment mode selected by the user is the mode to be charged, the treatment mode selected by the user is not responded, and prompt information related to charging is output.

In one embodiment, the treatment mode marking module 303 is specifically configured to determine a treatment mode to be determined that the standard power consumption is less than the actual power consumption; calculating a first electric quantity difference value between the standard electric quantity corresponding to the undetermined treatment mode and the actual electric quantity; and marking the treatment mode with the first electric quantity difference value larger than a preset safety value as an available mode, and marking the treatment mode with the first electric quantity difference value not larger than the preset safety value as a to-be-charged mode.

In one embodiment, the treatment mode execution module 305 is further configured to record the power consumption of the treatment mode selected by the user and output the latest power consumption corresponding to the treatment mode selected by the user at the end of the operation of the treatment mode; comparing the latest power consumption with the standard power consumption corresponding to the treatment mode selected by the user; if the latest power consumption is greater than the standard power consumption, adding the latest power consumption and a preset reserved value to obtain an adjustment amount, and replacing the standard power consumption with the adjustment amount; if the latest power consumption is not greater than the standard power consumption, calculating a second power difference between the latest power consumption and the standard power consumption; and if the second electric quantity difference value is smaller than the preset critical value, adding the latest electric quantity to the preset reserved value to obtain an adjustment quantity, and replacing the standard electric quantity with the adjustment quantity.

In one embodiment, the treatment mode execution module 305 is further configured to detect a remaining amount of electricity of the battery when the user-selected treatment mode operation is ended; and if the standard power consumption corresponding to the different treatment modes is larger than the standard power consumption of the residual power, outputting prompt information related to charging.

In one embodiment, as shown in fig. 4, the ultrasound conductivity therapy device control apparatus further comprises a battery charge monitoring module 306 for detecting a full charge of the battery at the end of charging of the battery; determining a standard power consumption amount having a largest power consumption amount among the standard power consumption amounts corresponding to the different treatment modes; calculating a third power difference between the full power and the standard power consumption with the maximum power consumption; and if the third electric quantity difference value is smaller than the preset warning value, outputting prompt information related to the storage battery needing to be replaced.

In one embodiment, the control device of the ultrasonic conductivity therapy apparatus further comprises a battery replacement monitoring module 307, which is used to adjust the standard power consumption corresponding to different therapy modes in the standard power consumption database to the initial standard power consumption when the battery replacement of the therapy apparatus is detected.

In one embodiment, the ultrasound conductivity therapy machine control apparatus further comprises a usage period monitoring module 308 for recording a power-off time when the therapy machine is powered off; and recording the starting time when the therapeutic apparatus is started again, calculating the time difference between the starting time and the shutdown time, and outputting prompt information related to overlong interval use time if the time difference is greater than a preset interval period.

The embodiment of the application also discloses computer equipment.

Specifically, the computer device comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and executes the control method of the ultrasonic conductivity therapeutic apparatus.

The embodiment of the application also discloses a computer readable storage medium.

Specifically, the computer-readable storage medium stores a computer program that can be loaded by a processor and executes the control method of the ultrasonic conductometer described above, and includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications without inventive contribution to the present embodiment as required after reading the present specification, but all of them are protected by patent law within the scope of the present invention.

Claims

1. A method of controlling an ultrasonic conductivity therapy apparatus, the method comprising:

detecting the actual electric quantity of the storage battery when the therapeutic apparatus is started;

acquiring a treatment mode selected by a user; if the treatment mode selected by the user is the available mode, starting the therapeutic apparatus according to the treatment mode selected by the user; and if the treatment mode selected by the user is the mode to be charged, not responding to the treatment mode selected by the user and outputting prompt information related to charging.

2. The method of claim 1, wherein marking the therapy mode having the standard power consumption less than the actual power consumption as an available mode comprises:

calculating a first electric quantity difference value between the standard electric quantity corresponding to the pending treatment mode and the actual electric quantity;

3. The method of claim 1, further comprising, after the activating the treatment apparatus according to the user-selected treatment mode:

4. The method of claim 3, further comprising, after the activating the treatment apparatus according to the user-selected treatment mode:

5. The method of claim 3, further comprising:

6. The method of claim 3, further comprising:

7. The method of claim 1, further comprising:

recording the shutdown time when the therapeutic apparatus is shut down;

8. An ultrasonic conductivity therapy machine control apparatus, comprising:

the actual electric quantity acquisition module (301) is used for detecting the actual electric quantity of the storage battery when the therapeutic apparatus is started;

a standard power consumption acquisition module (302) for acquiring standard power consumption corresponding to different treatment modes preset in a standard power consumption database;

a treatment mode marking module (303) for marking the treatment mode with standard power consumption smaller than the actual power consumption as an available mode and marking the treatment mode with standard power consumption not smaller than the actual power consumption as a to-be-charged mode;

a mode distinction display module (304) for distinguishing and displaying the available mode and the mode to be charged;

a treatment mode execution module (305) for acquiring a treatment mode selected by a user; if the treatment mode selected by the user is the available mode, starting the therapeutic apparatus according to the treatment mode selected by the user; and if the treatment mode selected by the user is the mode to be charged, not responding to the treatment mode selected by the user and outputting prompt information related to charging.

9. A computer device comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.