阅读说明：本技术 一种用于治疗仪输出处方检查验证的方法和系统 (Method and system for checking and verifying output prescription of therapeutic apparatus ) 是由 王兴 李开生 陈媛 于 2021-08-18 设计创作，主要内容包括：本申请公开了一种用于治疗仪输出处方检查验证的方法和系统,该方法包括：接收处方信号的信息,其中,处方信号的信息是治疗仪生成处方信号的根据,处方信号是治疗仪生成的物理信号,处方信号的信息用于指示处方信号的物理属性；通过测试装置获取治疗仪根据处方信号的信息输出的处方信号,其中,测试装置通过治疗仪的处方信号输出接口获取处方信号,对治疗仪输出的处方信号是否与预先接收到的处方信号的信息相符进行验证；在相符的情况下,确定对治疗仪的输出处方信号的验证通过。通过本申请解决了解决靠人体感知来对治疗仪进行感知的方式无法客观的对治疗仪的输出进行验证的问题,提高了治疗仪测试的准确性和客观性。(The application discloses a method and a system for checking and verifying an output prescription of a therapeutic apparatus, wherein the method comprises the following steps: receiving information of a prescription signal, wherein the information of the prescription signal is a basis for the therapeutic apparatus to generate the prescription signal, the prescription signal is a physical signal generated by the therapeutic apparatus, and the information of the prescription signal is used for indicating a physical property of the prescription signal; acquiring a prescription signal output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus and verifies whether the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal received in advance; in case of a match, a verification of the output prescription signal of the apparatus is determined. Through the application, the problem that the output of the therapeutic apparatus cannot be objectively verified by the way of sensing the therapeutic apparatus by human body sensing is solved, and the accuracy and the objectivity of the test of the therapeutic apparatus are improved.)

1. A method for verification of an output prescription check of a therapeutic apparatus, comprising:

receiving information of a prescription signal, wherein the information of the prescription signal is a basis for a therapeutic apparatus to generate the prescription signal, the prescription signal is a physical signal generated by the therapeutic apparatus, and the information of the prescription signal is used for indicating a physical property of the prescription signal;

acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus,

verifying whether the prescription signal output by the therapeutic apparatus is consistent with the information of the prescription signal received in advance;

in the event of a match, a verification of the output prescription signal of the apparatus is determined.

2. The method of claim 1, wherein verifying that the prescription signal output by the treatment apparatus matches the information of the prescription signal received in advance comprises:

acquiring range values corresponding to various physical attributes of the prescription signals in the information of the prescription signals;

comparing the values of various physical attributes of the prescription signal output by the therapeutic apparatus with the corresponding range values;

and when the values of various physical attributes of the prescription signal output by the therapeutic apparatus all fall into the corresponding range values, the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal.

3. The method of claim 2, further comprising:

displaying a value of a physical property in the prescription signal that does not fall within a corresponding range value, and a difference between the value of the physical property and the corresponding range value.

4. The method of any one of claims 1 to 3, wherein determining that the output prescription signal of the apparatus is validated in the event of a match comprises:

receiving prescription signals generated by the therapeutic apparatus for multiple times according to the information of the prescription signals;

and determining that the output prescription signal of the therapeutic apparatus passes verification under the condition that the prescription signal output by the therapeutic apparatus every time is consistent with the information of the prescription signal.

5. The method of any of claims 1 to 3, wherein the prescription signal comprises at least one of: a vibration prescription signal, a current prescription signal.

6. A system for verification of an output prescription check of a therapeutic apparatus, comprising:

the testing device is used for acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus;

software for performing the method of any one of the preceding claims 1 to 4.

7. An apparatus for verification of an output prescription check of a therapeutic device, comprising:

the prescription signal processing device comprises a receiving module, a processing module and a processing module, wherein the receiving module is used for receiving information of a prescription signal, the information of the prescription signal is a basis for generating the prescription signal by a therapeutic apparatus, the prescription signal is a physical signal generated by the therapeutic apparatus, and the information of the prescription signal is used for indicating physical properties of the prescription signal;

an obtaining module, configured to obtain, by a testing device, the prescription signal output by the therapeutic apparatus according to the information of the prescription signal, where the testing device obtains the prescription signal through a prescription signal output interface of the therapeutic apparatus,

the verification module is used for verifying whether the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal received in advance;

and the determining module is used for determining that the output prescription signal of the therapeutic apparatus passes verification under the condition of matching.

8. The apparatus of claim 7, wherein the verification module is configured to:

acquiring range values corresponding to various physical attributes of the prescription signals in the information of the prescription signals;

comparing the values of various physical attributes of the prescription signal output by the therapeutic apparatus with the corresponding range values;

and when the values of various physical attributes of the prescription signal output by the therapeutic apparatus all fall into the corresponding range values, the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal.

9. The apparatus of claim 8, further comprising:

and the display module is used for displaying the value of the physical attribute which does not fall into the corresponding range value in the prescription signal and the difference between the value of the physical attribute and the corresponding range value.

10. The apparatus of any of claims 6 to 9, wherein the verification module is to:

receiving prescription signals generated by the therapeutic apparatus for multiple times according to the information of the prescription signals;

and determining that the output prescription signal of the therapeutic apparatus passes verification under the condition that the prescription signal output by the therapeutic apparatus every time is consistent with the information of the prescription signal.

Technical Field

The application relates to the field of medical equipment, in particular to a method and a system for checking and verifying an output prescription of a therapeutic apparatus.

Background

In the prior art, the energy output by the therapeutic apparatus is generally judged in a human perception mode, for example, when the current is output through an electrode plate, the electrode plate is directly attached to the body of a tester, the grade of the output current is gradually increased, and whether the current grade is adjusted is determined by inquiring the pricking feeling of the tester to the test current.

The way of sensing the therapeutic apparatus by human body sensing cannot objectively verify the output of the therapeutic apparatus.

Disclosure of Invention

The embodiment of the application provides a method and a system for checking and verifying an output prescription of a therapeutic apparatus, so that the problem that the output of the therapeutic apparatus cannot be verified objectively in a way of sensing the therapeutic apparatus by human body sensing is solved at least, and the accuracy and the objectivity of testing the therapeutic apparatus are improved.

According to one aspect of the present application, there is provided a method for output of a prescription check verification by a therapeutic apparatus, comprising: receiving information of a prescription signal, wherein the information of the prescription signal is a basis for a therapeutic apparatus to generate the prescription signal, the prescription signal is a physical signal generated by the therapeutic apparatus, and the information of the prescription signal is used for indicating a physical property of the prescription signal; acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus and verifies whether the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal received in advance; in the event of a match, a verification of the output prescription signal of the apparatus is determined.

Further, the verifying whether the prescription signal output by the therapeutic apparatus matches the information of the prescription signal received in advance comprises: acquiring range values corresponding to various physical attributes of the prescription signals in the information of the prescription signals; comparing the values of various physical attributes of the prescription signal output by the therapeutic apparatus with the corresponding range values; and when the values of various physical attributes of the prescription signal output by the therapeutic apparatus all fall into the corresponding range values, the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal.

Further, still include: displaying a value of a physical property in the prescription signal that does not fall within a corresponding range value, and a difference between the value of the physical property and the corresponding range value.

Further, in the event of a match, determining that the output prescription signal of the apparatus is validated comprises: receiving prescription signals generated by the therapeutic apparatus for multiple times according to the information of the prescription signals; and determining that the output prescription signal of the therapeutic apparatus passes verification under the condition that the prescription signal output by the therapeutic apparatus every time is consistent with the information of the prescription signal.

Further, the prescription signal includes at least one of: a vibration prescription signal, a current prescription signal.

According to another aspect of the present application, there is also provided a system for output prescription verification of a therapeutic apparatus, comprising: the testing device is used for acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus; software for performing the above method.

According to another aspect of the present application, there is also provided an apparatus for output of a prescription verification by a therapeutic apparatus, comprising: the prescription signal processing device comprises a receiving module, a processing module and a processing module, wherein the receiving module is used for receiving information of a prescription signal, the information of the prescription signal is a basis for generating the prescription signal by a therapeutic apparatus, the prescription signal is a physical signal generated by the therapeutic apparatus, and the information of the prescription signal is used for indicating physical properties of the prescription signal; the acquisition module is used for acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus, and the verification module is used for verifying whether the prescription signal output by the therapeutic apparatus is consistent with the information of the prescription signal received in advance; and the determining module is used for determining that the output prescription signal of the therapeutic apparatus passes verification under the condition of matching.

Further, the verification module is to: acquiring range values corresponding to various physical attributes of the prescription signals in the information of the prescription signals; comparing the values of various physical attributes of the prescription signal output by the therapeutic apparatus with the corresponding range values; and when the values of various physical attributes of the prescription signal output by the therapeutic apparatus all fall into the corresponding range values, the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal.

Further, still include: and the display module is used for displaying the value of the physical attribute which does not fall into the corresponding range value in the prescription signal and the difference between the value of the physical attribute and the corresponding range value.

Further, the verification module is to: receiving prescription signals generated by the therapeutic apparatus for multiple times according to the information of the prescription signals; and determining that the output prescription signal of the therapeutic apparatus passes verification under the condition that the prescription signal output by the therapeutic apparatus every time is consistent with the information of the prescription signal.

In an embodiment of the application, information is used for receiving prescription signals, wherein the information of the prescription signals is a basis for generating the prescription signals by a therapeutic apparatus, the prescription signals are physical signals generated by the therapeutic apparatus, and the information of the prescription signals is used for indicating physical properties of the prescription signals; acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus and verifies whether the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal received in advance; in the event of a match, a verification of the output prescription signal of the apparatus is determined. Through the application, the problem that the output of the therapeutic apparatus cannot be objectively verified by the way of sensing the therapeutic apparatus by human body sensing is solved, and the accuracy and the objectivity of the test of the therapeutic apparatus are improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:

fig. 1 is a flow chart of a method for verification of an output prescription check of a therapeutic apparatus according to an embodiment of the present application.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer-executable instructions and that, although a logical order is illustrated in the flowcharts, in some cases, the steps illustrated or described may be performed in an order different than presented herein.

The embodiment of the application can be applied to various treatment devices, for example, as a typical tool, the treatment device can comprise a treatment pen and a treatment host (the treatment host can also be called a treatment instrument).

The host computer includes: the vibration prescription control system comprises a case, a touch display screen and a Central Processing Unit (CPU) main control board, wherein the case is arranged on the surface of the case, the CPU main control board is arranged in the case and electrically connected with the touch display screen, the CPU main control board is used for supplying power to a vibrator and outputting a vibration prescription signal, the touch display screen is used for a user to select a vibration prescription, and the vibration prescription signal is output to a treatment pen. The characteristic parameters of the vibration prescription signal include: continuous vibration of the vibrator and vibration frequency and amplitude of the continuous vibration; or the intermittent vibration of the vibrator and the duty ratio, vibration frequency and amplitude of the intermittent vibration. The vibration prescription includes: default fixed parameters for each treatment site that have been stored and individual vibration intensity levels that are manually adjusted for the same treatment site; the touch display screen is used for selecting a corresponding vibration prescription for a treatment part by a user, generating a target characteristic parameter according to a default fixed parameter included in the selected vibration prescription and an individual vibration intensity level manually adjusted by the user on the same treatment part, and sending the target characteristic parameter generated according to the vibration prescription selected by the user to the CPU main control board; and the CPU main control board is used for generating a corresponding vibration prescription signal according to the target characteristic parameter.

Optionally, the method further comprises: at least one intermediate frequency output interface arranged on the surface of the case; the limb pain therapeutic apparatus further comprises at least one group of electrode plates which are respectively and electrically connected with the at least one intermediate frequency output interface through cables, and the CPU main control board is also electrically connected with the at least one intermediate frequency output interface and used for outputting current prescription signals to the at least one group of electrode plates.

The treatment pen comprises: penholder and detachable are connected the cap for brush of penholder distal end, the penholder can be under the dismantlement install the treatment syringe needle behind the cap for brush, just the penholder surface is provided with shift knob, the needle tubing of treatment syringe needle stretches out the distal end of cap for brush, the penholder is inside to be provided with can by shift knob control opens the vibrator that stops, the vibrator is used for when opening, will transmit to intervention focus position with the corresponding physical kinetic energy of vibration prescription signal the treatment syringe needle. The therapeutic pen satisfies at least one of the following characteristics: (a) the track of the output vibration of the vibrator is in a plane perpendicular to or parallel to the axis of the penholder, and the track of the vibration comprises: the pen holder is characterized by comprising a track which does reciprocating motion along a single direction and/or a track which does reciprocating motion circularly along a plurality of angle directions by taking the axis of the pen holder as a center; (b) the vibration amplitude of the vibrator is designed to be between 2 and 500 mu m, and the vibration frequency of the vibrator is designed to be between 5 and 500 Hz; (c) the treatment needle is a special treatment needle or a disposable syringe needle and is used for intervening in a focus part formed by the damage of soft tissues for diagnosis and/or treatment.

Optionally, the vibrator comprises a rotary centrifugal vibrator. The pen-holder is inside to be provided with can by under the condition of the rotatory centrifugal vibrator that shift knob control stopped, the treatment pen still includes: and the PCB control board is electrically connected with the rotary centrifugal vibrator and used for outputting vibration prescription signals to the rotary centrifugal vibrator, and a common mode filter is further integrated on the PCB control board.

Therefore, in the above-mentioned therapeutic apparatus, the therapeutic pen or other external devices (e.g., electrode pads, etc.) is based on the prescription signal (e.g., vibration prescription signal or current prescription signal) outputted from the therapeutic apparatus, and whether the prescription signal outputted from the therapeutic apparatus has an error or matches with an expected prescription or not affects the final therapeutic effect, so the prescription needs to be verified in this implementation.

In the present embodiment, a method for verifying an output prescription check of a therapeutic apparatus is provided, and fig. 1 is a flowchart of a method for verifying an output prescription check of a therapeutic apparatus according to an embodiment of the present application, as shown in fig. 1, the method includes the following steps:

step S102, receiving information of prescription signals, wherein the information of the prescription signals is a basis for generating the prescription signals by a therapeutic apparatus, the prescription signals are physical signals generated by the therapeutic apparatus, and the information of the prescription signals is used for indicating physical properties of the prescription signals;

step S104, obtaining the prescription signal (for example, current prescription signal and/or vibration prescription signal) output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device obtains the prescription signal through a prescription signal output interface of the therapeutic apparatus,

step S106, verifying whether the prescription signal output by the therapeutic apparatus is consistent with the information of the prescription signal received in advance;

and step S108, determining that the output prescription signal of the therapeutic apparatus passes verification under the condition of matching.

Through the application, the problem that the output of the therapeutic apparatus cannot be objectively verified by the way of sensing the therapeutic apparatus by human body sensing is solved, and the accuracy and the objectivity of the test of the therapeutic apparatus are improved.

In an alternative mode, if there are multiple physical attributes of the prescription signal, a range value corresponding to each physical attribute of the prescription signal in the information of the prescription signal can be obtained; comparing the values of various physical attributes of the prescription signal output by the therapeutic apparatus with the corresponding range values; and when the values of various physical attributes of the prescription signal output by the therapeutic apparatus all fall into the corresponding range values, the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal.

In order to be able to visually see the case of a mismatch, it is also preferable to display the value of the physical property in the prescription signal that does not fall within the corresponding range value, and the difference between the value of the physical property and the corresponding range value.

In order to make the verification result more accurate, the prescription signal generated by the therapeutic apparatus for a plurality of times according to the information of the prescription signal can be received; and determining that the output prescription signal of the therapeutic apparatus passes verification under the condition that the prescription signal output by the therapeutic apparatus every time is consistent with the information of the prescription signal. The number of times may be preconfigured.

As an alternative embodiment, the above-described multiple generation and verification of the prescription signal may be distributed to occur at different times. That is, a verification plan may be prepared in advance, and a verification script may be configured in the verification technique, where the verification script instructs the therapeutic apparatus to generate a prescribed number of prescription signals at a predetermined time and whether other operations (e.g., restarting, etc.) are performed between the two tests. Through the execution of the verification script, the automatic verification of the prescription signal generated by the therapeutic apparatus can be realized.

Alternatively, the information of a plurality of prescription signals can be acquired, and then the therapeutic apparatus is controlled to generate and verify the prescription signal corresponding to the information of each prescription signal according to the verification times of the information of each prescription signal and the time for generating the prescription signal. After the verification plan is successfully verified, the information of the prescription signals is used, the times and time for generating the prescription signals according to the information of each prescription signal are adjusted, the generated prescription signals are verified again, and if the verification of the prescription signals by using a plurality of different verification plans is successful, the verification of the prescription signals generated by the information of the prescription signals is determined to be passed.

As another alternative, all prescription signals that the therapeutic apparatus can generate can be obtained, then information of the prescription signals corresponding to all prescription signals is obtained, and a verification plan is made, wherein the verification plan is used for controlling the therapeutic apparatus to generate all prescription signals according to the information of the prescription signals in sequence according to a preset sequence, and after all prescription signals are verified, the therapeutic apparatus is determined to be verified.

Or after the first time of verification of the therapeutic apparatus, adjusting the sequence of generating the prescription signals by the therapeutic apparatus in the verification plan, and then executing the adjusted verification plan again, wherein if the adjusted verification technology also passes the verification, the therapeutic apparatus passes the verification.

If a certain attribute value of the prescription signal is a range value, each range can be divided into a plurality of sections to be tested, a value is selected for verification in each section to be tested, and if verification is performed for the second time, the value selected in the test section is also replaced on the basis of replacing the sequence for generating the prescription signal.

There is also provided in this embodiment a system for verification of prescription output from a therapeutic apparatus, comprising: the testing device is used for acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus; software for performing the above method. The software may also be referred to as a computer program.

In this embodiment, an electronic device is provided, comprising a memory in which a computer program is stored and a processor configured to run the computer program to perform the method in the above embodiments.

The programs described above may be run on a processor or may also be stored in memory (or referred to as computer-readable media), which includes both non-transitory and non-transitory, removable and non-removable media, that implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.

These computer programs may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks, and corresponding steps may be implemented by different modules. This embodiment provides a device, referred to as a device for verification of an output prescription of a therapeutic apparatus, comprising: the prescription signal processing device comprises a receiving module, a processing module and a processing module, wherein the receiving module is used for receiving information of a prescription signal, the information of the prescription signal is a basis for generating the prescription signal by a therapeutic apparatus, the prescription signal is a physical signal generated by the therapeutic apparatus, and the information of the prescription signal is used for indicating physical properties of the prescription signal; the acquisition module is used for acquiring the prescription signal output by the therapeutic apparatus according to the information of the prescription signal through a testing device, wherein the testing device acquires the prescription signal through a prescription signal output interface of the therapeutic apparatus, and the verification module is used for verifying whether the prescription signal output by the therapeutic apparatus is consistent with the information of the prescription signal received in advance; and the determining module is used for determining that the output prescription signal of the therapeutic apparatus passes verification under the condition of matching.

The device corresponds to the method, and the modules in the device correspond to the steps in the method, which have already been described in the method and are not described herein again.

For example, the verification module is to: acquiring range values corresponding to various physical attributes of the prescription signals in the information of the prescription signals; comparing the values of various physical attributes of the prescription signal output by the therapeutic apparatus with the corresponding range values; and when the values of various physical attributes of the prescription signal output by the therapeutic apparatus all fall into the corresponding range values, the prescription signal output by the therapeutic apparatus conforms to the information of the prescription signal. Optionally, the verification module is configured to: receiving prescription signals generated by the therapeutic apparatus for multiple times according to the information of the prescription signals; and determining that the output prescription signal of the therapeutic apparatus passes verification under the condition that the prescription signal output by the therapeutic apparatus every time is consistent with the information of the prescription signal.

For another example, the apparatus may further include: and the display module is used for displaying the value of the physical attribute which does not fall into the corresponding range value in the prescription signal and the difference between the value of the physical attribute and the corresponding range value.

The problem that the mode of sensing the therapeutic instrument by human body sensing cannot be objectively verified on the output of the therapeutic instrument is solved, and the accuracy and the objectivity of the test of the therapeutic instrument are improved.

The above are merely examples of the present application and are not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.