阅读说明：本技术 一种治疗仪使用后维护处理系统和方法 (Treatment instrument after-use maintenance treatment system and method ) 是由 王兴 李开生 陈媛 于 2021-08-18 设计创作，主要内容包括：本申请公开了一种治疗仪使用后维护处理系统和方法,该系统包括：治疗仪和维护装置,其中,治疗仪包括：输入部,用于接收用户向治疗仪输入的操作信息,操作系统部,用于接收用户的操作信息并根据操作信息生成控制命令将操作转换为对治疗仪进行控制的命令；能量输出部,用于根据操作系统部发出的命令输出物理能量；诊断部,用于在治疗仪运行的过程中获取与诊断部连接的各个部分的参数并进行保存；接口,用于与维护装置连接；维护装置,用于与接口连接,并通过接口从诊断部获取诊断信息。通过本申请解决了治疗仪的故障如何进行准确的定位并没有给出相关的解决方案所导致的问题,从而能够准确定位治疗仪的故障。(The application discloses a therapeutic instrument after-use maintenance processing system and method, the system comprises: therapeutic instrument and maintenance device, wherein, the therapeutic instrument includes: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user; an energy output part for outputting physical energy according to the command sent by the operating system part; the diagnosis part is used for acquiring and storing parameters of each part connected with the diagnosis part in the operation process of the therapeutic apparatus; an interface for connecting with a maintenance device; and the maintenance device is connected with the interface and used for acquiring the diagnosis information from the diagnosis part through the interface. Through the application, the problem that how to accurately position the fault of the therapeutic apparatus and a related solution is not provided is solved, so that the fault of the therapeutic apparatus can be accurately positioned.)

1. A system for performing maintenance treatment after use of a therapeutic apparatus, comprising: a therapeutic apparatus and a maintenance device, wherein,

the therapeutic apparatus comprises: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user, and the operating system part is used for receiving the operation information of the user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; the energy output part is used for outputting physical energy according to a command sent by the operating system part; wherein the physical energy acts to treat a lesion site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part and is used for acquiring and storing parameters of each part connected with the diagnosis part in the operation process of the therapeutic apparatus; an interface for connecting with the maintenance device;

and the maintenance device is connected with the interface and used for acquiring the diagnosis information from the diagnosis part through the interface.

2. The system of claim 1,

the diagnosis part is also used for diagnosing the fault of the therapeutic instrument in the operation process according to the stored parameters of each part and storing fault information;

the maintenance device is configured to acquire the fault information from the diagnosis unit through the interface.

3. The system of claim 2,

the diagnosis part is also used for determining a fault code according to the type of the fault after the fault is diagnosed, and storing the fault code as fault information.

4. The system of claim 1,

and the maintenance device is used for acquiring the parameters of each part from the diagnosis part through the interface and diagnosing the faults of the therapeutic apparatus in the operation process according to the acquired parameters of each part.

5. The system of claim 4,

and the maintenance device is used for determining and displaying a fault code corresponding to the type of the fault according to the type of the fault after the fault of the therapeutic apparatus in the operation process is diagnosed according to the acquired parameters of each part.

6. A method for maintaining and treating a therapeutic apparatus after use is characterized by comprising the following steps:

a diagnosis part in the therapeutic apparatus collects parameters of each part of the therapeutic apparatus acquired in the operation process of the therapeutic apparatus;

the diagnosis part stores parameters of each part of the therapeutic apparatus, wherein the therapeutic apparatus comprises the following parts: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user, and the operating system part is used for receiving the operation information of the user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; and an energy output part for outputting physical energy according to the command issued by the operating system part; wherein the physical energy is used to treat a focal site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part;

the maintenance device is connected with an interface of the therapeutic apparatus and acquires diagnosis information from the diagnosis part through the interface.

7. The method of claim 6,

the diagnosis part diagnoses the faults of the therapeutic instrument in the operation process according to the stored parameters of each part, and stores fault information;

the maintenance device acquires the failure information from the diagnosis unit through the interface.

8. The method of claim 7,

the diagnosis unit determines a fault code according to the type of the fault after the fault is diagnosed, and stores the fault code as fault information.

9. The method of claim 6,

the maintenance device obtains the parameters of each part from the diagnosis part through the interface, and diagnoses the faults of the therapeutic instrument in the operation process according to the obtained parameters of each part.

10. The method of claim 9,

and after the maintenance device diagnoses the faults of the therapeutic instrument in the operation process according to the acquired parameters of all parts, determining and displaying fault codes corresponding to the types of the faults according to the types of the faults.

Technical Field

The application relates to the field of medical equipment, in particular to a system and a method for maintaining and processing a therapeutic apparatus after use.

Background

At present, medical equipment generally used in the existing medical institution has complex design, high technical content and strong software and hardware protection capability, particularly aiming at the design and protection of the host system software of the medical equipment, the use requirement is met, the random damage and modification are prevented, and general non-professional technicians cannot enter the system level maintenance and modification.

During the use process of the medical equipment, faults can occur, the faults need to be accurately positioned during maintenance, and no relevant solution is provided for accurately positioning the faults of the medical equipment at present.

Disclosure of Invention

The embodiment of the application provides a system and a method for maintaining and processing after the therapeutic apparatus is used, so as to at least solve the problems caused by how to accurately position the fault of the medical equipment and no relevant solution is provided.

According to one aspect of the application, there is provided a system for performing maintenance treatment after use of a therapeutic apparatus, comprising: therapeutic instrument and maintenance device, wherein, the therapeutic instrument includes: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user, and the operating system part is used for receiving the operation information of the user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; the energy output part is used for outputting physical energy according to a command sent by the operating system part; wherein the physical energy acts to treat a lesion site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part and is used for acquiring and storing parameters of each part connected with the diagnosis part in the operation process of the therapeutic apparatus; an interface for connecting with the maintenance device; and the maintenance device is connected with the interface and used for acquiring the diagnosis information from the diagnosis part through the interface.

Furthermore, the diagnosis part is also used for diagnosing the fault of the therapeutic apparatus in the operation process according to the stored parameters of each part and storing fault information; the maintenance device is configured to acquire the fault information from the diagnosis unit through the interface.

Further, the diagnosis part is also used for determining a fault code according to the type of the fault after the fault is diagnosed, and storing the fault code as fault information.

Further, the maintenance device is configured to obtain parameters of each part from the diagnosis unit through the interface, and diagnose a fault occurring in the operation process of the therapeutic apparatus according to the obtained parameters of each part.

Further, the maintenance device is used for determining and displaying a fault code corresponding to the type of the fault according to the type of the fault after the fault occurring in the operation process of the therapeutic apparatus is diagnosed according to the acquired parameters of each part.

According to another aspect of the application, there is also provided a method for performing maintenance treatment after use of an apparatus, comprising: a diagnosis part in the therapeutic apparatus collects parameters of each part of the therapeutic apparatus acquired in the operation process of the therapeutic apparatus; the diagnosis part stores parameters of each part of the therapeutic apparatus, wherein the therapeutic apparatus comprises the following parts: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user, and the operating system part is used for receiving the operation information of the user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; and an energy output part for outputting physical energy according to the command issued by the operating system part; wherein the physical energy is used to treat a focal site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part; the maintenance device is connected with an interface of the therapeutic apparatus and acquires diagnosis information from the diagnosis part through the interface.

Further, the diagnosis part diagnoses the faults of the therapeutic instrument in the operation process according to the stored parameters of all parts, and stores fault information; the maintenance device acquires the failure information from the diagnosis unit through the interface.

Further, the diagnosis unit determines a fault code according to the type of the fault after the fault is diagnosed, and stores the fault code as fault information.

Further, the maintenance device acquires the parameters of each part from the diagnosis part through the interface, and diagnoses the fault of the therapeutic apparatus in the operation process according to the acquired parameters of each part.

Further, after the maintenance device diagnoses the fault of the therapeutic apparatus in the operation process according to the acquired parameters of each part, the maintenance device determines and displays a fault code corresponding to the type of the fault according to the type of the fault.

In an embodiment of the application, a treatment apparatus and a maintenance device are used, wherein the treatment apparatus comprises: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user, and the operating system part is used for receiving the operation information of the user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; the energy output part is used for outputting physical energy according to a command sent by the operating system part; wherein the physical energy acts to treat a lesion site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part and is used for acquiring and storing parameters of each part connected with the diagnosis part in the operation process of the therapeutic apparatus; an interface for connecting with the maintenance device; and the maintenance device is connected with the interface and used for acquiring the diagnosis information from the diagnosis part through the interface. The method and the device solve the problem that how to accurately position the fault of the medical equipment does not provide a relevant solution, so that the fault of the medical equipment can be accurately positioned.

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 block diagram of a system for performing maintenance after use of an apparatus according to an embodiment of the present application;

fig. 2 is a flow chart of a method for performing a maintenance treatment after use of the 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.

In this embodiment, a system for performing maintenance after use of an apparatus is provided, and fig. 1 is a block diagram of a system for performing maintenance after use of an apparatus according to an embodiment of the present application, as shown in fig. 1, the system includes: a therapeutic apparatus and a maintenance device, wherein,

the therapeutic apparatus comprises: the input part is used for receiving operation information input to the therapeutic apparatus by a user; the operation system part is used for receiving operation information of a user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; the energy output part is used for outputting physical energy according to a command sent by the operating system part; wherein the physical energy acts to treat a lesion site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part and is used for acquiring and storing parameters of each part connected with the diagnosis part in the operation process of the therapeutic apparatus; an interface for connecting with the maintenance device;

and the maintenance device is connected with the interface and used for acquiring the diagnosis information from the diagnosis part through the interface.

The system solves the problem that how to accurately position the fault of the medical equipment and a relevant solution is not provided, so that the fault of the medical equipment can be accurately positioned.

The diagnosis part may obtain the abnormal information reported by the operating system part, and then determine the fault of the operating system according to the abnormal information, for example, a memory read error occurs when the operating system executes the a operation, at this time, the diagnosis part may capture the abnormal information and store the abnormal information.

The parameters or fault information stored by the diagnosis part in this embodiment may include two types, where the first type of fault affects the operation of the therapeutic apparatus, and the diagnosis part stores the corresponding parameters; after the second fault occurs, the operation of the therapeutic apparatus is not affected, and the diagnosis part also stores corresponding parameters. The diagnostic section may also identify the type of these two faults. After the first type of failure occurs, it is generally necessary to connect a maintenance device to diagnose the failure, and in this case, the diagnostic unit transmits both the parameter information stored when the first type of failure occurs and the parameter information of the second type of failure occurring before the first type of failure occurs to the maintenance device, and the maintenance device determines whether or not the occurrence of the second type of failure is related to the occurrence of the first type of failure according to the order of occurrence of the second type of failure.

After the diagnostic unit stores the relevant parameters, the diagnostic unit may perform the failure diagnosis operation, or the maintenance device may perform the failure diagnosis operation. These two alternative embodiments are described separately below.

The first mode is as follows: the diagnosis part is also used for diagnosing the fault of the therapeutic instrument in the operation process according to the stored parameters of each part and storing fault information; the maintenance device is configured to acquire the fault information from the diagnosis unit through the interface.

The second mode is as follows: and the maintenance device is used for acquiring the parameters of each part from the diagnosis part through the interface and diagnosing the faults of the therapeutic apparatus in the operation process according to the acquired parameters of each part.

In both of the above-described modes, the fault code may be used to indicate the fault, and for example, the diagnosis unit may be configured to determine the fault code according to the type of the fault after the fault is diagnosed, and store the fault code as the fault information. For another example, the maintenance device is configured to determine and display a fault code corresponding to the type of the fault according to the type of the fault after diagnosing the fault occurring during the operation of the therapeutic apparatus according to the acquired parameters of each part.

The energy output part of the above therapeutic apparatus may output the vibration prescription signal, and the characteristic parameter of the vibration prescription signal may 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, and generating a target characteristic parameter together according to default fixed parameters included in the selected vibration prescription and the individual vibration intensity level manually adjusted by the user on the same treatment part; the therapeutic apparatus is used for generating a corresponding vibration prescription signal according to the target characteristic parameter.

The energy output portion may include: a microcomputer chip and a power module; the microcomputer chip is used for receiving the target characteristic parameters and determining a target duty ratio according to the amplitude and the frequency in the target characteristic parameters and the corresponding relation among the prestored amplitude, the prestored frequency and the target duty ratio; generating the vibration prescription signal according to the target duty cycle and the amplitude and the frequency in the target characteristic parameter, and sending the vibration prescription signal to a power module; and the power module is used for converting and outputting the vibration prescription signal to the treatment pen and controlling the vibration prescription signal to drive the vibrator.

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, at least one of the treatment needle, the pen cap and the pen holder has terahertz energy with a frequency of 0.1-10 THz.

As an alternative embodiment, 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.

In this embodiment, a method for performing maintenance after using the therapeutic apparatus is further provided, and fig. 2 is a flowchart of a method for performing maintenance after using the therapeutic apparatus according to an embodiment of the present application, as shown in fig. 2, the flowchart includes the following steps:

step S102, a diagnosis part in the therapeutic apparatus collects parameters of each part of the therapeutic apparatus acquired in the operation process of the therapeutic apparatus;

step S104, the diagnosis part stores parameters of each part of the therapeutic apparatus, wherein the therapeutic apparatus comprises the following parts: the therapeutic apparatus comprises an input part, an operating system part and a control system part, wherein the input part is used for receiving operation information input to the therapeutic apparatus by a user, and the operating system part is used for receiving the operation information of the user and generating a control command according to the operation information to convert the operation into a command for controlling the therapeutic apparatus; and an energy output part for outputting physical energy according to the command issued by the operating system part; wherein the physical energy is used to treat a focal site of the patient; the diagnosis part is connected with at least one of the input part, the operating system part and the energy output part;

and step S106, connecting the maintenance device with an interface of the therapeutic apparatus, and acquiring diagnosis information from the diagnosis part through the interface.

The method solves the problem that how to accurately position the fault of the medical equipment and a relevant solution is not provided, so that the fault of the medical equipment can be accurately positioned.

Corresponding to the two above-mentioned methods for diagnosing faults, in the above-mentioned method, the diagnosis unit may diagnose faults occurring during the operation of the therapeutic apparatus according to the stored parameters of each part, and store fault information; the maintenance device acquires the failure information from the diagnosis unit through the interface. Or the maintenance device acquires the parameters of each part from the diagnosis part through the interface and diagnoses the fault of the therapeutic apparatus in the operation process according to the acquired parameters of each part.

The failure may be represented by a failure code, for example, the diagnosing section determines a failure code according to the type of the failure after diagnosing the failure, and stores the failure code as failure information. Or the maintenance device determines and displays a fault code corresponding to the type of the fault according to the type of the fault after diagnosing the fault of the therapeutic apparatus in the operation process according to the acquired parameters of each part.

In an optional added embodiment, in order to ensure the safety of the interface data, the information sent by the therapeutic apparatus to the maintenance device through the port is encrypted, wherein the encrypted password is pre-configured in the therapeutic apparatus and the maintenance device, and the maintenance device decrypts the encrypted information by using the locally stored password. If the device is an illegal maintenance device, the illegal maintenance device does not have a decryption key, and even if relevant information from the therapeutic apparatus is received, the information of the therapeutic apparatus cannot be decrypted.

As another alternative embodiment, the therapeutic apparatus may further perform a health care of the maintenance device before transmitting information to the maintenance device, the maintenance device transmits its own unique identification information to the therapeutic apparatus through the interface, the therapeutic apparatus transmits the unique identification information to the server after receiving the unique identification information of the maintenance device, the server stores unique identification information of all legitimate maintenance devices, the server determines whether the unique identification information transmitted by the therapeutic apparatus is legitimate and then transmits a determination result to the therapeutic apparatus, the therapeutic apparatus transmits information to the maintenance device when receiving the determination result and if the determination result is that the maintenance device is legitimate, and disconnects the maintenance device when the determination result is illegitimate.

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.

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.