CN111282153A - Electrical stimulation device and electrical stimulation system - Google Patents

Abstract

The invention provides an electrical stimulation device and an electrical stimulation system. The electrical stimulation system comprises an unlocking device and an electrical stimulation device. The unlocking device stores operation settings. The electrical stimulation device comprises an input interface, a memory and a controller. The input interface receives operation settings from the unlocking device or user input. The memory is coupled to the input interface and stores the operation setting. The operation setting is different from the preset setting of the electrical stimulation device, and the controller is coupled with the memory and the input interface. And in response to the unlocking behavior of the unlocking device meeting the unlocking condition, the controller provides a stimulation signal according to the operation setting. In response to the unlocking behavior not meeting the unlocking condition, the provision of the stimulus signal will be blocked. Therefore, the appropriate intensity, frequency and time can be provided, and over-stimulation or over-use can be avoided.

Description

Electrical stimulation device and electrical stimulation system

Technical Field

The present invention relates to electrical stimulation (electrostimulation), and more particularly, to an electrical stimulation apparatus and an electrical stimulation system.

Background

An electrical stimulator is a medical device that generates a sequence of voltage or current pulses and is used for therapeutic rehabilitation. Electrical stimulators are commonly used in various medical institutions and homes. According to different requirements, the conventional electrical stimulator can be roughly divided into a low frequency, a medium frequency and a high frequency according to the current pulse frequency. Among them, the medium frequency electric stimulator has better tissue penetration than the low frequency electric stimulator, so the medium frequency electric stimulator is often used for deep site pain relief, muscle stimulation, and the like. In the use of the electric stimulator, after the electrode slice is installed, the instrument is opened for use.

However, the general public is lack of professional training and cannot adjust to the setting meeting the self requirements, so that the condition of excessive stimulation often occurs; or, the public may not follow the medical advice or be used by others, which may lead to erroneous stimulation. Thus, further improvements are needed in the conventional electrostimulators.

Disclosure of Invention

Accordingly, the present invention provides an electrical stimulation apparatus and an electrical stimulation system, which enable the electrical stimulation apparatus to operate with the suggested operating settings.

The invention relates to an electrical stimulation device, which comprises an input interface, a memory and a controller. The input interface receives operation settings. The memory is coupled with the input interface and stores the operation setting, and the operation setting is different from the preset setting of the electrical stimulation device. The controller is coupled to the memory and the input interface. And in response to the unlocking behavior meeting the unlocking condition, the controller provides a stimulation signal according to the operation setting. In response to the unlocking behavior not meeting the unlocking condition, the provision of the stimulus signal is blocked.

In an embodiment of the invention, the unlocking action is that the input interface receives a connection from the unlocking device, and the unlocking condition is the connection of the unlocking device. And the controller obtains the operation setting in response to the connection of the unlocking device.

In an embodiment of the invention, the unlocking behavior is that the input interface receives unlocking information from the unlocking device, and the unlocking condition is a verification condition. And the controller obtains the operation setting in response to the unlocking information meeting the verification condition.

In an embodiment of the invention, the input interface receives the operation setting through a network.

In an embodiment of the invention, the controller operates according to a preset setting. The input interface receives unlocking information, and the controller releases the limit of the preset setting according to the unlocking information.

In one embodiment of the present invention, the unlocking device may be installed at any position on the connection path of the electrical stimulation device and the patch (e.g., on a lead, an electrode pad or other interface contacting the human body) to block the transmission of the stimulation signal.

In an embodiment of the present invention, the unlocking device may be installed in a power supply or a power transmission path to block power supply to the electrical stimulation device.

In an embodiment of the invention, the operation setting includes an electrical stimulation intensity, an electrical stimulation frequency, an electrical stimulation time, an electrical stimulation frequency, a usage frequency, a setting of at least one of the foregoing in multiple stages, or a combination thereof.

In an embodiment of the present invention, the apparatus further includes an output interface coupled to the controller. The controller stores the operation history of the stimulation signal to the storage carrier through the output interface.

The electrical stimulation system comprises an unlocking device and an electrical stimulation device. The unlocking device stores an operation setting which is different from the preset setting of the electrical stimulation device. And the electrical stimulation device is configured to perform the following steps. An operation setting from an unlocking device or an input operation is received. And providing a stimulation signal according to the operation setting in response to the unlocking behavior of the unlocking device meeting the unlocking condition. In response to the unlocking behavior not meeting the unlocking condition, the provision of the stimulus signal is blocked.

In an embodiment of the invention, the unlocking device is used for an external device to access the operation setting.

Based on the above, the electrical stimulation device and the electrical stimulation system of the present invention can unlock the preset limits through an external unlocking device (e.g., a usb flash drive, a smart card, etc.), so as to input the operation settings suggested by the professional through the unlocking device or the user. The electrical stimulation device receives the operation setting, and then provides a stimulation signal, so that the actual requirements of a user are met, and injury caused by over stimulation can be avoided.

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

FIG. 1 is a block diagram of the components of an electrical stimulation system according to an embodiment of the present invention;

fig. 2 is a flowchart of a control method of an electrical stimulation apparatus according to an embodiment of the invention.

Description of the reference numerals

1: electrical stimulation system

30: unlocking device

50: storage carrier

100: electrical stimulation device

110: output interface

120: input interface

130: memory device

150: controller

S210 to S250: step (ii) of

Detailed Description

Fig. 1 is a block diagram of an electrical stimulation system 1 according to an embodiment of the present invention. Referring to fig. 1, the electrical stimulation system 1 at least includes, but is not limited to, an unlocking device 30, a storage carrier 50, and an electrical stimulation device 100.

The unlocking device 30 may be various types of physical keys, smart cards, objects with bar codes, portable memories (e.g., a usb disk, a mobile hard disk, a memory card, etc.), smart phones, computer hosts, tablet computers, and the like. In some embodiments, the unlocking device 30 may record data (e.g., operational settings, unlocking information, etc.) as an electronic key. In other embodiments, the unlocking device 30 can also have a blocking mechanism (e.g., a switch, an automatic shutter, a clothing guard, etc.), or provide an electrical signal, to block or interfere with the provision of the stimulation signal.

The storage carrier 50 may be a storage medium or a device having a storage medium that can store data, such as a usb disk, a smart card (or Integrated Circuit (IC) card), a Radio Frequency Identification (RFID) carrier, a mobile hard disk, a memory card, a computer host, a server, a smart phone, and a tablet computer. In the present embodiment, the storage carrier 50 is used for storing the operation history of the electrical stimulation apparatus, and the details thereof will be described in the following embodiments. In some embodiments, the unlocking device 30 is the same object as the storage vehicle 50.

The electrical stimulation apparatus 100 includes at least, but not limited to, an output interface 110, an input interface 120, a memory 130, and a controller 150. The electrical stimulation apparatus 100 may be an electrical stimulator providing low frequency, medium frequency, high frequency, or a combination thereof.

The output interface 110 may be any type of wired interface (e.g., Universal Serial Bus (USB), Universal Asynchronous Receiver/Transmitter (UART), Thunderbolt (Thunderbolt), etc.), or wireless interface (e.g., Wi-Fi, Bluetooth (Bluetooth), RFID, 4 th generation (4G) or higher mobile communication, etc.). The output interface 110 in this embodiment can output data to an external device.

The input interface 120 may be various types of physical locks, wired interfaces (e.g., USB, UART, Thunderbolt, etc.), wireless interfaces (e.g., Wi-Fi, Bluetooth, RFID, 4G or higher mobile communications, etc.), input devices (e.g., keyboard, mouse, touch panel, scanner, knobs, buttons, etc.), or combinations thereof. In one embodiment, the input interface 120 (wireless or wired interface) can be directly wired (pluggable) or wirelessly connected to the unlocking device 30 to access the operation settings stored in the unlocking device 30. In another embodiment, the input interface 120 may be connected to a network (e.g., the Internet, a private network, etc.) and connected to the unlocking device 30 via the network to receive the operation settings stored in the unlocking device 30.

The Memory 130 may be any type of fixed or removable Random Access Memory (RAM), Read-Only Memory (ROM), Flash Memory (Flash Memory), Hard Disk Drive (HDD), Solid State Disk (SSD), or the like, or any combination thereof. In the present embodiment, the memory 130 is used for storing buffered or permanent data, operation settings, operation history and other data or files, and the details thereof will be described in the following embodiments.

The controller 150 is coupled to the output interface 110, the input interface 120 and the memory 130, and may be a Central Processing Unit (CPU), or other programmable general purpose or special purpose Microprocessor (Microprocessor), Digital Signal Processor (DSP), programmable controller, Application-Specific Integrated Circuit (ASIC), or other similar components or combinations thereof. In the embodiment of the present invention, the controller 150 is used for executing all operations of the electrical stimulation apparatus 100, and can load and execute the operation settings, files and data recorded in the memory 130.

In order to facilitate understanding of the operation flow of the embodiment of the present invention, the control flow of the electrical stimulation apparatus 100 according to the embodiment of the present invention will be described in detail below with reference to a plurality of embodiments. Hereinafter, the method according to the embodiment of the present invention will be described with reference to various components and modules of the electrical stimulation apparatus 100. The various processes of the method may be adapted according to the implementation, and are not limited thereto.

Fig. 2 is a flowchart illustrating a control method of the electrical stimulation apparatus 100 according to an embodiment of the present invention. Referring to fig. 2, the input interface 120 is directly connected to the unlocking device 30, or connected to the unlocking device 30 via a network, or receives an operation directly input by a user, so as to receive an operation setting from the external unlocking device 30 or input the operation (step S210).

In one embodiment, the input interface 120 receives a connection (e.g., insertion, contact pin position, etc.) from the unlocking device 30; in response to the connection of the unlocking device 30, the controller 150 obtains the operation setting from the unlocking device 30 or obtains the corresponding operation setting through the user input operation. For example, the input interface 120 is a USB interface, and the unlocking device 30 is an SD card; the SD card is inserted into the USB interface, and the controller 150 can access the operation settings stored in the SD card and record the operation settings in the memory 130. The input interface 120 is a mobile network card, and the unlocking device 30 is a server; the controller 150 is connected to the server by the mobile network card to obtain the operation settings recorded by the server, or the server sets the controller 150 remotely. For another example, the input interface 120 is a lock, and the unlocking device 30 is a physical key: the physical key is inserted into the lock and can confirm unlocking, and the controller 150 can present a user interface for the user to operate and input the operation settings. It is also possible that the input interface 120 is a touch screen or a user input interface combining keys and buttons, the unlocking device 30 is a gate or a safe installed in, closing or protecting the input interface 120, and the user can operate the input interface 120 only after the unlocking device 30 is opened, so that the controller 150 can obtain the operation setting.

In another embodiment, the input interface 120 receives unlocking information (e.g., a password, a barcode, etc.) from the unlocking device 30. In response to the unlocking information meeting the verification condition (e.g., a specific password, a serial number, etc.), the controller 150 obtains the operation setting from the unlocking device 30 or obtains the corresponding operation setting through a user input operation. For example, the input interface 120 is a scanner, and the unlocking device 30 is a business card printed with a bar code; the controller 150 compares the unlocking information (i.e., the bar code) obtained by the scanner, and after the determination of the correspondence, the user can input the operation setting by operating the button thereon. Or, the input interface 120 is a Thunderbolt interface, and the unlocking device 30 is a smart phone; the application program loaded on the smart phone determines whether the unlocking information is correct, and if so, provides the operation setting to the controller 150.

In some embodiments, the controller 150 operates according to a preset setting (e.g., factory setting, or previous setting, etc.). The input interface 120 receives unlocking information (e.g., a password, a barcode, etc.), and the controller 150 releases the preset restriction according to the unlocking information. For example, if the unlocking information meets the verification condition, the controller 150 starts a preset function of originally hiding/disabling the setting, limits a numerical range of the operation setting, or enables signal output, etc.

Then, in response to the unlocking behavior meeting the unlocking condition, the controller 150 provides a stimulation signal according to the operation setting (step S230). Specifically, the controller 150 can obtain the operation setting directly input by the unlocking device 30 or a professional such as a manufacturer or a medical staff, because the unlocking behavior meets the unlocking condition. In other words, the operation setting of the embodiment of the present invention has different setting contents with respect to the preset setting, and the operation setting can be obtained only through the unlocking action. In one embodiment, the unlocking action is the input interface 120 receiving a connection from the unlocking device 30 (e.g., the aforementioned actions of inserting the SD card, connecting to a server, inserting a key into a lock head, etc.), and the unlocking condition is the connection of the unlocking device 30 (e.g., the SD card can be read, a connection can be established, the key can be unlocked, etc.). In another embodiment, the unlocking behavior is that the input interface 120 receives unlocking information (e.g., a password, a barcode, etc.) from the unlocking device, and the unlocking condition is a verification condition (e.g., a specific password, a serial number, etc.). In another embodiment, the unlocking device 30 operates on the unlocking device 30, and the unlocking device 30 determines whether the received unlocking behavior meets the unlocking condition (e.g., the unlocking device 30 determines whether the user inputs a password or a fingerprint is in a white list). When the unlocking behavior meets the unlocking condition, the protection or blocking mechanism of the unlocking device 30 may be turned on (if the mechanism is designed, it may be omitted if the mechanism is not designed), so that the input interface 120 may directly obtain or input the operation setting by the user. If the operation setting is obtained, the controller 150 starts to provide the stimulation signal according to the operation setting. The operation setting may be at least one of the intensity of electrical stimulation, the frequency of electrical stimulation, the time of electrical stimulation, the number of electrical stimulation, the frequency of use, and the setting of multiple stages of the above, or a combination thereof. That is, the controller 150 can set the intensity, frequency, providing time and number of stimulation signals according to the operation setting, and also can provide multi-stage stimulation procedures (each stage is set with specific intensity, frequency, time and number, and a pause or low power interval can be set between two stages). The operational setting is different from the preset setting of the electrical stimulation device 100 (e.g., different range, different adjustable content, different disabled or enabled content, etc.).

On the other hand, in response to the unlocking behavior not meeting the unlocking condition (e.g., the unlocking device 30 is not connected, or the unlocking information does not meet the verification condition), the provision of the stimulus signal will be blocked (step S250). The controller 150 may disable or stop providing the stimulation signal. The unlocking means 30 may be installed anywhere on the connection path of the electrostimulation device 100 to the patch (e.g., on a wire, electrode pad, or other interface with the body) to block the transmission of the stimulation signal. Alternatively, the unlocking means 30 may be provided in the power supply or power transmission path of the electrostimulation device 100 to block the supply of power to the electrostimulation device 100. Even more, the unlocking device 30 can also close, disable or protect the input interface 120, so that the user cannot input the operation setting or start the electrical stimulation device 100, and thus cannot provide the stimulation signal. That is, the electrical stimulation device 100 of the present invention needs to start the stimulation operation through the unlocking device 30 or the operation settings directly input by professionals such as manufacturers and medical staff, so as to limit the progress of the stimulation operation (e.g. limit the numerical range) based on the operation settings recorded by the unlocking device 30, thereby preventing the user from being injured due to the random operation. For example, if the electrostimulation device 100 is operated beyond a certain intensity, duration or number of uses, the controller 150 or the unlocking device 30 controls the electrostimulation device 100 to stop or block the output of the stimulation signal (e.g., turn off the power supply, turn off the signal, block the object, etc.). Alternatively, the number of uses or intensity of the electrostimulation device 100 is limited via a network.

In one embodiment, the unlocking device 30 and/or the storage carrier 50 can also provide an external device (e.g., a computer, a mobile phone, a tablet computer, etc.) to access (e.g., read or write, etc.) the recorded operation settings. For example, a professional writes the operation settings into the unlocking device 30 through a computer; the user reads the operation settings through the mobile phone to know the details.

On the other hand, during the process of providing the stimulation signal by the electrical stimulation apparatus 100, the controller 150 not only records (stores) the stimulation signal locally, but also stores or uploads the operation history of providing the stimulation signal to the storage carrier 50 through the output interface 110. The operation history may be, for example, an electrical stimulation intensity, an electrical stimulation time, an electrical stimulation number, and/or a multi-stage setting for a specific time (e.g., a day, a week, an hour, etc.). Thus, the hospital or the dealer can know the usage of the electrical stimulation device 100 by reading the operation history recorded by the storage carrier 50.

In summary, the electrical stimulation apparatus and the electrical stimulation system of the present invention are activated by the operation setting from the outside, and perform or limit the stimulation operation according to the operation setting. Therefore, a general user can easily operate the electrical stimulation device according to professional suggestions, and injury caused by over stimulation is avoided. The operation process of the user operating the electrical stimulation device can be recorded in the storage carrier, so that the hospital or the dealer can judge the use condition.

Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications can be made therein by those skilled in the art without departing from the spirit and scope of the invention.

Claims (13)

1. An electrical stimulation apparatus comprising:

an input interface for receiving an operation setting, wherein the operation setting is different from a preset setting of the electrical stimulation device;

the memory is coupled with the input interface and stores the operation setting; and

a controller coupled to the memory and the input interface,

responding to the unlocking behavior to accord with the unlocking condition, and providing a stimulation signal by the electrical stimulation device according to the operation setting; and

in response to the unlocking behavior not meeting the unlocking condition, the provision of the stimulus signal is blocked.

2. The electrical stimulation device as claimed in claim 1, wherein the unlocking behavior is that the input interface receives a connection of an unlocking device, and the unlocking condition is the connection of the unlocking device, and the controller obtains the operation setting in response to the connection of the unlocking device.

3. The electrical stimulation device as claimed in claim 1, wherein the unlocking behavior is that the input interface receives unlocking information from an unlocking device, and the unlocking condition is a verification condition, and the controller obtains the operation setting in response to the unlocking information meeting the verification condition.

4. The electrical stimulation apparatus of claim 1 wherein the input interface receives the operational settings via a network.

5. The electrical stimulation apparatus of claim 1 wherein the controller operates according to the preset setting and the input interface receives unlocking information, the controller releasing the limit on the preset setting according to the unlocking information.

6. The electrical stimulation device of claim 1 wherein the operational settings comprise electrical stimulation intensity, electrical stimulation frequency, electrical stimulation time, number of electrical stimulations, frequency of use, settings of at least one of the foregoing in multiple stages, or combinations thereof.

7. The electrical stimulation apparatus of claim 1, further comprising:

and the output interface is coupled with the controller, wherein the controller stores the operation history of providing the stimulation signal to the storage carrier through the output interface.

8. An electrical stimulation system comprising:

an unlocking device storing operation settings; and

an electrical stimulation device configured to:

receiving the operational setting from the unlocking device or an input operation, wherein the operational setting is different from a preset setting of the electrical stimulation device;

providing a stimulation signal according to the operation setting in response to the unlocking behavior of the unlocking device meeting the unlocking condition; and

in response to the unlocking behavior not meeting the unlocking condition, the provision of the stimulus signal is blocked.

9. The electrical stimulation system of claim 8, wherein the unlocking behavior is the electrical stimulation device receiving a connection of the unlocking device, and the unlocking condition is the connection of the unlocking device, and in response to the connection of the unlocking device, the electrical stimulation device obtains the operational setting from the unlocking device; or the unlocking behavior is that the electrical stimulation device receives unlocking information from the unlocking device, the unlocking condition is a verification condition, and in response to the unlocking information meeting the verification condition, the electrical stimulation device obtains the operation setting from the unlocking device.

10. The electrical stimulation system of claim 8, wherein the unlocking device is further configured to block transmission of stimulation signals, block power, block operation of input interfaces, or provide a blocking mechanism.

11. The electrical stimulation system of claim 8 wherein the electrical stimulation device operates in accordance with the preset setting and the electrical stimulation device receives unlock information, the electrical stimulation device releasing the limit on the preset setting in accordance with the unlock information.

12. The electrical stimulation system of claim 8, further comprising:

and the electrical stimulation device stores the operation history of the stimulation signal to the storage carrier.

13. The electrical stimulation system of claim 8, wherein the unlocking device is configured to allow an external device to access the operational settings.

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