CN220025892U - Electrical stimulation system and electrode group and electrical stimulation device used for same - Google Patents

Abstract

The utility model discloses an electric stimulation system, an electrode group and an electric stimulation device used for the same, wherein the electric stimulation system comprises: at least one electrode group provided with an identification module for identifying the electrode type of the electrode group; an electro-stimulation device comprising: a power module that powers the electrical stimulation system; the electric stimulation output module is connected with any electrode group; the electrode identification module is used for sending a detection signal to the electric stimulation output module and receiving an electrode feedback signal of the electric stimulation output module; the main control module is used for acquiring an electric stimulation scheme corresponding to the electrode feedback signal and adjusting output parameters of the electric stimulation output module according to the electric stimulation scheme. The utility model discloses a but multichannel electrical stimulation equipment and electrode group of setting automatic identification electrode type, according to the electrode group automatic matching electrical stimulation scheme of every passageway connection, adopt universal interface connection, simplify equipment structure, improve the convenience of use.

Description

Electrical stimulation system and electrode group and electrical stimulation device used for same

Technical Field

The utility model relates to the technical field of electric stimulation, in particular to an electric stimulation system, an electrode group used for the electric stimulation system and electric stimulation equipment.

Background

Electrical stimulation is a medical means of applying stimulation to the body based on a reasonable electrical signal. Different therapeutic effects can be produced by applying different electrical stimulation signals to different body parts. For example, the electric stimulation treatment is used at joints and muscles, and has the effects of relieving muscle fatigue, easing pain, diminishing inflammation and the like; the electric stimulation therapy is used at the forehead and mastoid positions, so that the Chinese medicinal composition has the effects of treating insomnia, relieving headache and the like; the electric stimulation treatment is used at the pelvic floor, so that the effects of exercising pelvic floor muscles, promoting postpartum recovery and the like are achieved; the abdomen is treated by electric stimulation, and has the effects of treating rectus abdominis separation, shaping and the like.

In the electro-stimulation diagnosis and treatment technology, different electrodes or electrode plates are required to be used for different diagnosis and treatment positions, and different treatment effects are realized by matching different treatment schemes.

The existing electrical stimulation equipment can be configured with a plurality of different types of electrodes or electrode plates to realize different diagnosis and treatment schemes. In the prior art, the interface of the electrodes or electrode plates of different types is usually designed in a foolproof manner, that is, the interfaces of the electrodes or electrode plates of different types are designed into different structures, which has the following problems: for equipment manufacturers, the types of equipment connectors are too many, so that the material management difficulty of production enterprises can be increased, and the specific plug-in structure is not beneficial to the expansion of the functions of the equipment; for the user side, too many kinds of equipment connectors can increase user study cost, and use very easy misplug interface under the condition that light is not good, destroy the connector, appear dangerous situations such as interface short circuit, influence the use experience.

Disclosure of Invention

The utility model provides an electric stimulation system, an electrode group used for the same and electric stimulation equipment, which are used for solving the problems of multiple connector types and poor equipment compatibility caused by different electrode interfaces in the existing electric stimulation equipment, simplifying the equipment structure and being convenient to use.

According to an aspect of the present utility model, there is provided an electrical stimulation system comprising: at least one electrode group, wherein the electrode group is provided with an identification module, and the identification module is used for identifying the electrode type of the electrode group; the electric stimulation equipment is provided with a main control module, an electrode identification module, a power supply module and at least one electric stimulation output module; the power supply module is used for supplying power to the electric stimulation system; the electric stimulation output module is used for being connected with any electrode group; the electrode identification module is used for sending a detection signal to the electric stimulation output module and receiving an electrode feedback signal of the electric stimulation output module, wherein the electrode feedback signal is a signal generated based on an electrode connection state and a detection result of the electrode type; the main control module is used for acquiring an electrical stimulation scheme corresponding to the electrode feedback signal and adjusting output parameters of the electrical stimulation output module according to the electrical stimulation scheme; wherein, the electric stimulation scheme corresponds to the electric stimulation output modules one by one.

Optionally, the electrical stimulation device further comprises a communication module, and the communication module is in communication connection with the intelligent terminal; the communication module is used for sending the electrode feedback signal to the intelligent terminal, receiving the electric stimulation scheme sent by the intelligent terminal and transmitting the electric stimulation scheme to the main control module.

Optionally, the intelligent terminal is integrated with the electrical stimulation device; or the intelligent terminal is a mobile terminal which is independently arranged.

Optionally, when the electrical stimulation device is provided with a plurality of electrical stimulation output modules, the plurality of electrical stimulation output modules adopt channel interfaces with the same structure.

Optionally, when the electrical stimulation system is provided with a plurality of the electrode sets, the plurality of electrode sets comprises a first electrode set and a second electrode set having different electrode types; the first electrode group is connected with any one of the at least one electric stimulation output module, the second electrode group is connected with any one of the at least one electric stimulation output module, and the first electrode group and the second electrode group are not connected with the same electric stimulation output module at the same time.

Optionally, the first electrode group is an open electrode group; the open electrode group comprises a first electrode plate, a second electrode plate, a first electrode group connecting wire, a first electrode interface and a first identification module; the first end of the first electrode group connecting wire is electrically connected with the first electrode plate, the second end of the first electrode group connecting wire is electrically connected with the second electrode plate, the third end of the first electrode group connecting wire is electrically connected with the first electrode interface, and the first electrode plate and the second electrode plate are used for contacting a first body to be stimulated; the first electrode interface is connected with any one of the electric stimulation output modules, so that the first electrode plate and the second electrode plate provide first output parameters for the first body to be stimulated.

Optionally, the second electrode group is a closed electrode group; the closed electrode group comprises an annular electrode plate, a second electrode group connecting wire, a second electrode interface and a second identification module, wherein the annular electrode plate is provided with a first conductive plate and a second conductive plate, and the first conductive plate and the second conductive plate are used for contacting a second body to be stimulated; the first end of the second electrode group connecting wire is electrically connected with the annular electrode plate, and the second end of the second electrode group connecting wire is electrically connected with the second electrode interface; the second electrode interface is connected with any one of the electric stimulation output modules, so that the first conducting strip and the second conducting strip provide second output parameters for the second body to be stimulated.

Optionally, the identification module is any one of the following: an electronic tag, a resistor-capacitor element, or an infrared receiving module.

Optionally, the electrical stimulation system further comprises: the indication module is connected with the main control module; the indication module is used for indicating the electrode feedback signal and/or the electrical stimulation scheme.

According to another aspect of the present utility model, there is provided an electrode set for an electro-stimulation system provided with at least one channel interface; the electrode group includes: electrode plate and electrode interface; the electrode interface is connected with any one of the at least one channel interface; an identification module is arranged in the electrode interface and used for identifying the type of the electrode sheet.

According to another aspect of the present utility model, there is provided an electro-stimulation device for an electro-stimulation system having the above-described electrode group, the electro-stimulation apparatus comprising: the power supply module is used for supplying power to the electric stimulation system; the electric stimulation output module is used for being connected with any electrode group; the electrode identification module is used for sending a detection signal to the electric stimulation output module and receiving an electrode feedback signal of the electric stimulation output module, wherein the electrode feedback signal is a signal generated based on an electrode connection state and a detection result of the electrode type; the main control module is used for acquiring an electrical stimulation scheme corresponding to the electrode feedback signal and adjusting output parameters of the electrical stimulation output module according to the electrical stimulation scheme; wherein, the electric stimulation scheme corresponds to the electric stimulation output modules one by one.

According to the technical scheme, the electric stimulation equipment and at least one electrode group are arranged, the electrode group is provided with an identification module, and the identification module is used for identifying the electrode type of the electrode group; the electric stimulation equipment is provided with a main control module, an electrode identification module, a power supply module and at least one electric stimulation output module, wherein the power supply module is used for supplying power to the electric stimulation system; the electric stimulation output module is used for being connected with any electrode group; the electrode identification module is used for sending detection signals to the electric stimulation output module and receiving electrode feedback signals of the electric stimulation output module, wherein the electrode feedback signals are signals generated based on detection results of electrode connection states and electrode types; the main control module is used for acquiring an electric stimulation scheme corresponding to the electrode feedback signal and adjusting output parameters of the electric stimulation output module according to the electric stimulation scheme; wherein, the electric stimulation scheme corresponds to the electric stimulation output modules one by one. By arranging the electrode group capable of automatically identifying the electrode type and the electric stimulation equipment, the problems of multiple connector types and poor equipment compatibility caused by the differential design of different electrode interfaces in the existing electric stimulation equipment are solved, and the universal interface is adopted to connect the electrode and the electric stimulation equipment, so that the structure of the equipment is simplified, and the use convenience is improved.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the utility model or to delineate the scope of the utility model. Other features of the present utility model will become apparent from the description that follows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an electrical stimulation system according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of another electrical stimulation system according to the first embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of yet another electrical stimulation system according to the first embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of yet another electrical stimulation system according to the first embodiment of the present utility model.

Fig. 5 is a schematic structural diagram of an electrode assembly according to a second embodiment of the present utility model.

Fig. 6 is a schematic structural diagram of an electrical stimulation device according to a third embodiment of the present utility model.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Fig. 1 is a schematic structural diagram of an electrical stimulation system according to a first embodiment of the present utility model, which is applicable to an application scenario of applying electrical stimulation therapy based on two or more different types of electrodes and electrical stimulation channels.

As shown in fig. 1, the electrical stimulation system includes: at least one electrode set 100, the electrode set 100 being provided with an identification module 100P, the identification module 100P being used for identifying the electrode type of the electrode set.

Wherein the different types of electrode sets have electrode pads or electrodes of different shapes, which are adapted to the treatment of different body parts, for example, the electrode set 100 may be configured as an electrode pad or as a vaginal electrode. When the same electro-stimulation system is connected to a plurality of electrode groups 100, the same type of electrode sheet may be used, or a combination of different types of electrode sheets may be used. The utility model does not limit the type of the electrode group and the structure of the electrode group, and the identifiable range of the electrode group type can be continuously expanded. Each type of electrode set 100 is provided with a set of uniquely corresponding identification modules 100P.

In one embodiment, the identification module 100P may be any of the following: an electronic tag, a resistor-capacitor element, or an infrared receiving module.

In the embodiment of the present utility model, taking the identification module 100P as an example of a resistor-capacitor element, a corresponding relationship between a resistor-capacitor value and an electrode type is pre-established, an identification resistor is built in each electrode group, and the electrode type corresponding to the resistance value is determined by checking the resistance values of the identification resistors in different electrode groups 100 and looking up a table.

As shown in fig. 1, the electrical stimulation system further includes: the electric stimulation device 200 is provided with a main control module 201, an electrode identification module 202, a power supply module 203 and at least one electric stimulation output module 204. Each electrical stimulation output module 204 corresponds to one output channel, and the main control module 201, the electrode identification module 202, and the power supply module 203 of different output channels may be independently or commonly set, which is not limited.

The power module 203 is configured to supply power to the electrical stimulation system, and the electrical energy output by the power module 203 is transmitted to the corresponding electrode set 100 through the electrical stimulation output module 204. In the present utility model, the power module 203 may be a dc power supply or an ac-dc voltage conversion unit.

As shown in fig. 1, the electrical stimulation output module 204 is configured to connect to any of the electrode sets 100. The electrode set 100 may be connected to the corresponding electrical stimulation output module 204 in a plugging manner via a channel line.

In an embodiment, when the electro-stimulation device is provided with a plurality of electro-stimulation output modules 204, the plurality of electro-stimulation output modules 204 use channel interfaces with the same structure. Specifically, the channel interface of the electrical stimulation output module 204 connects different types of electrode sets via channel lines. The channel line is provided with a plurality of universal interfaces, each universal interface can be mixed and inserted, when the electrode group 100 is connected with the universal interfaces of the channel line, the electrode groups 100 of different types can be connected with any universal interface, and a user can connect the electrode groups 100 according to actual needs without fixing or distinguishing output channels.

As shown in fig. 1, the electrode identification module 202 is configured to send a detection signal to the electrical stimulation output module 204 and receive an electrode feedback signal from the electrical stimulation output module 204. The electrode feedback signal is a signal generated based on the detection result of the electrode connection state and the electrode type. Specifically, the detection signal may be used to detect the connection states and electrode types of the electrostimulation output modules 204 and the electrode group 100 of all the output channels, and different electrode connection states and electrode types correspond to different electrode feedback signals.

As shown in fig. 1, the main control module 201 is respectively connected with the electrode identification module 202, the power supply module 203 and each electrical stimulation output module 204, and the main control module 201 is configured to receive the electrode feedback signal, obtain an electrical stimulation scheme corresponding to the electrode feedback signal, and adjust output parameters of the electrical stimulation output modules 204 according to the electrical stimulation scheme. The electrical stimulation schemes are in one-to-one correspondence with the electrical stimulation output modules 204, that is, the corresponding electrical stimulation schemes can be matched according to the electrode feedback signals corresponding to the electrical stimulation output modules 204. In the utility model, matching the corresponding electrical stimulation scheme according to the electrode feedback signal comprises: the user selects the electrical stimulation scheme needed for treatment from the corresponding scheme list based on the remote control technology, or the local database lookup table is used for determining the electrical stimulation scheme needed for treatment from the corresponding scheme list based on the local database lookup table.

In an embodiment, when the main control module 201 controls the multi-channel electrical stimulation system to apply electrical stimulation therapy, each channel may output a corresponding electrical stimulation scheme independently, or multiple channels may output corresponding electrical stimulation schemes simultaneously.

In one embodiment, the electrical stimulation protocol includes, but is not limited to: the mode of the electrical stimulation, the amplitude and frequency of the output current, the carrier frequency, the carrier pulse width, the modulation frequency, the modulation pulse width, the running time, etc.

The technical scheme of the utility model is described in detail by taking a two-channel electric stimulation system (a channel and B channel) as an example. In the dual-channel electrical stimulation system, the electrical stimulation apparatus 200 is provided with an a channel and a B channel, and each channel is provided with an electrical stimulation output module.

When connecting the electrode set 100 and the electro-stimulation device 200, the user does not need to distinguish between the a channel and the B channel, and only needs to paste or place the electrode set 100 at a corresponding treatment position according to the electrode type, and then connect either one or both channels. The electrode identification module 202 sends a detection signal to the electrical stimulation output module 204, the detection signal is transmitted to the electrode group 100 connected with each channel interface through the channel line, and a corresponding electrode feedback signal is generated according to the electrode connection state and the connected electrode type of each channel interface. If the electric stimulation output module 204 is not connected with the electrode group 100, the detection signal sent by the electrode identification module 202 correspondingly generates a first electrode feedback signal, when the main control module 201 receives the first electrode feedback signal, the electrode connection is judged to be abnormal, and the system can prompt error reporting; if the electric stimulation output module 204 is connected with the first electrode set 100A, the detection signal sent by the electrode identification module 202 correspondingly generates a second electrode feedback signal, and when the main control module 201 receives the second electrode feedback signal, the electric stimulation scheme which can be operated by the first electrode set 100A is matched; if the electrical stimulation output module 204 is connected to the second electrode set 100B, the detection signal sent by the electrode identification module 202 correspondingly generates a third electrode feedback signal, and when the main control module 201 receives the third electrode feedback signal, the electrical stimulation scheme that the second electrode set 100B can operate is matched. Through setting up general interface connection different grade type electrode and multichannel electrical stimulation equipment, set up identification module at the electrode group end, set up electrode identification module at electrical stimulation equipment, the electrode type of automatic identification different passageway to intelligent matching corresponds the electrical stimulation scheme, solved different grade type electrode interface differential design in the current electrical stimulation equipment, lead to the problem that the connector type is many, the equipment compatibility is poor, be favorable to simplifying equipment structure, improve convenient to use.

Optionally, fig. 2 is a schematic structural diagram of another electrical stimulation system provided in the first embodiment of the present utility model, which schematically illustrates a specific implementation of a connection structure between a plurality of electrode groups and a multi-channel electrical stimulation device.

As shown in fig. 2, the electro-stimulation system is provided with a plurality of electrode sets 100 and a multi-channel electro-stimulation device 200. Wherein the multi-channel electro-stimulation device 200 is provided with an A-channel electro-stimulation output module 204-A and a B-channel electro-stimulation output module 204-B. The plurality of electrode sets 100 includes a first electrode set 100A and a second electrode set 100B having different electrode types. The first electrode set 100A is connected to any one of the at least one electrical stimulation output module 204, the second electrode set 100B is connected to any one of the at least one electrical stimulation output module 204, and the first electrode set 100A and the second electrode set 100B are not simultaneously connected to the same electrical stimulation output module 204.

Specifically, the first electrode set 100A and the second electrode set 100B are electrically connected to the corresponding electrical stimulation output module 204 through a channel line, for example, the first electrode set 100A may be plug-connected to the a-channel electrical stimulation output module 204-a, and the second electrode set 100B may be plug-connected to the B-channel electrical stimulation output module 204-B; alternatively, the first electrode set 100A is plug-connected to the B-channel electrical stimulation output module 204-B, and the second electrode set 100B is plug-connected to the A-channel electrical stimulation output module 204-A. After the equipment is connected, the electrode identification module 202 sends detection signals to each electric stimulation output module 204, identifies the connection state and the electrode type of each electric stimulation output module 204 and the electrode group 100, and matches corresponding electric stimulation schemes according to the electrode connection state and the electrode type of different channels.

For example, if it is defined that the first electrode set 100A can run an X-group electrical stimulation protocol and the second electrode set 100B can run a Y-group electrical stimulation protocol, then the electrical stimulation protocol matching conditions shown in table 1 can be established.

Referring to table 1, when the channel a is connected to the first electrode group 100a and the channel B is connected without electrodes, the main control module 201 controls the channel a electro-stimulation output module 204-a to output the electro-stimulation scheme of group X, and the channel B electro-stimulation output module 204-B is not output; when the A channel is connected without electrodes and the B channel is connected with the first electrode group 100A, the main control module 201 controls the A channel electric stimulation output module 204-A to output no electricity, and the B channel electric stimulation output module 204-B outputs an X group electric stimulation scheme; similarly, the electrical stimulation schemes for different electrode connection states and electrode type matching can be determined by looking up a table.

It should be noted that the electrode set and the electrical stimulation scheme of the present utility model may be extended, for example, a third electrode set and a Z-set electrical stimulation scheme matched with the third electrode set are added. The different channels adopt interfaces with the same structure, the type of the electrode group is identified through the electrode group built-in module, and the electric stimulation scheme and the output channel of the scheme are intelligently matched. The electrode group can be connected with any channel for treatment, so that interface mixed insertion errors are fundamentally solved, the use difficulty of a user is reduced, and the risk caused by the interface mixed insertion errors is avoided. In addition, the utility model provides an electrode group and an electric stimulation scheme expansion mode, thereby providing convenience for the subsequent new and upgrade of the treatment scheme.

As shown in fig. 2, the first electrode group 100A may employ an open electrode structure. The open electrode structure comprises a first electrode plate 101, a second electrode plate 102, a first electrode group connecting wire 103, a first electrode interface 104 and a first identification module 100P-1#; a first end of the first electrode group connecting wire 103 is electrically connected with the first electrode plate 101, a second end of the first electrode group connecting wire 103 is electrically connected with the second electrode plate 102, a third end of the first electrode group connecting wire 103 is electrically connected with the first electrode interface 104, and the first electrode plate 101 and the second electrode plate 102 are used for contacting a first body to be stimulated; the first electrode interface 104 is connected with a channel interface of any electric stimulation output module 204 in a pluggable manner, so that the first electrode slice 101 and the second electrode slice 102 provide a first output parameter for a first body to be stimulated.

The first identification module 100P-1# may be disposed in the housing of the first electrode interface 104 or integrated with the wire harness of the first electrode group connection wire 103, which is not limited to a specific position in the present utility model.

Specifically, the user may bond or place the first electrode sheet 101 and the second electrode sheet 102 on the first body to be stimulated according to actual needs. The first electrode group connecting wire 103 can integrate an anode cable and a cathode cable, a first end of the anode cable is connected with the first electrode plate 101, a first end of the cathode cable is connected with the second electrode plate 102, and a second end of the anode cable and the cathode cable are integrated by an insert of the first electrode interface 104 and can be connected with a channel interface of any electrical stimulation output module 204 in a pluggable manner. After the equipment connection is completed, the electrode identification module 202 identifies the electrode type of the current channel connection based on the resistance value of the first identification module 100P-1#, converts the electrical stimulation scheme corresponding to the electrode type into a first output parameter, provides positive output for the first to-be-stimulated organism via the first electrode slice 101, and provides negative output for the first to-be-stimulated organism via the second electrode slice 102.

As shown in fig. 2, the second electrode set 100B may employ a closed electrode structure, such as a vaginal electrode. The closed electrode structure comprises an annular electrode plate 110, a second electrode group connecting wire 113, a second electrode interface 114 and a second identification module 100P-2#, wherein the annular electrode plate 110 is provided with a first conductive plate 111 and a second conductive plate 112, and the first conductive plate 111 and the second conductive plate 112 are used for contacting a second body to be stimulated; a first end of the second electrode group connecting wire 113 is electrically connected with the annular electrode sheet 110, and a second end of the second electrode group connecting wire 113 is electrically connected with the second electrode interface 114; the second electrode interface 114 is connected with the channel interface of any electrical stimulation output module 204 in a pluggable manner, so that the first conductive sheet and the second conductive sheet provide second output parameters for a second body to be stimulated.

The second identification module 100P-2# may be disposed in the housing of the second electrode interface 114 or integrated with the wire harness of the second electrode group connection wire 113, which is not limited to a specific location in the present utility model.

Specifically, the user may adhere or place the ring electrode sheet 110 to the second body to be stimulated according to actual needs. The second electrode group connecting wire 113 can integrate a positive electrode cable and a negative electrode cable, a first end of the positive electrode cable is connected with the first conductive sheet 111, a first end of the negative electrode cable is connected with the second conductive sheet 112, and a second end of the positive electrode cable and the negative electrode cable is integrated by an insert of the second electrode interface 114 and can be connected with a channel interface of any electrical stimulation output module 204 in a pluggable manner. After the device connection is completed, the electrode identification module 202 identifies the electrode type of the current channel connection based on the resistance value of the second identification module 100P-2#, converts the electrical stimulation scheme corresponding to the electrode type into a second output parameter, provides positive output for the second body to be stimulated via the first conductive sheet 111, and provides negative output for the second body to be stimulated via the second conductive sheet 112.

As shown in fig. 2, the present utility model employs a channel line L to connect a multi-channel electro-stimulation device 200 with a plurality of electrode groups 100, the channel line L having one host channel line interface L200 and at least two channel interfaces (e.g., a first channel interface L100a and a second channel interface L100 b) that are structurally common. The host channel line interface L200 is used for connecting the electrical stimulation device 200, and the channel interface is used for connecting the electrode group 100. The plurality of electrode groups 100 are connected at will to the channel interface without distinguishing the channels. Through setting up general interface connection electrode and electric stimulation equipment, carry out intelligent recognition to electrode type through electrode group 100 built-in identification module, be favorable to simplifying equipment structure, improve the convenience of use.

Optionally, fig. 3 is a schematic structural diagram of yet another electrical stimulation system according to the first embodiment of the present utility model.

As shown in fig. 3, the electrical stimulation apparatus 200 further includes a communication module 205, where the communication module 205 is communicatively connected to the intelligent terminal 300; the communication module 205 is configured to send an electrode feedback signal to the intelligent terminal 300, receive the electrical stimulation scheme sent by the intelligent terminal 300, and transmit the electrical stimulation scheme to the main control module 201.

The intelligent terminal 300 is provided with an electric stimulation scheme selection system and a corresponding manual interaction interface.

In some embodiments, the smart terminal 300 may be provided integrally with the electro-stimulation device 200. Typically, the intelligent terminal 300 may be a touch display screen.

In other embodiments, the intelligent terminal 300 may be a separately provided mobile terminal. Typically, mobile terminals include, but are not limited to: smart phones, smart watches, and other wearable devices, and notebook computers.

Specifically, the communication module 205 may be connected to the main control module 201, and the communication module 205 receives electrode feedback signals obtained by the main control module 201, where the electrode feedback signals may be used to identify electrode connection states and connected electrode types of different channels. The communication module 205 sends electrode feedback signals corresponding to different channels or electrode connection states and connected electrode types matched with the electrode feedback signals to the intelligent terminal 300. After the intelligent terminal 300 displays the treatment scheme list matched with the electrode feedback signal, the user can select the treatment scheme at the interactive interface of the intelligent terminal 300, the intelligent terminal 300 converts the corresponding treatment scheme into an electrical stimulation scheme, and transmits the electrical stimulation scheme to the main control module 201, so that the main control module 201 outputs the corresponding electrical stimulation scheme at the channel connected with the electrode group 100. Through integrating communication function at the electric stimulation equipment, realize the remote configuration and the manual work interaction of electric stimulation scheme, improve electric stimulation system intelligent level, operate more boundary, be favorable to promoting user experience.

Optionally, fig. 4 is a schematic structural diagram of still another electrical stimulation system according to the first embodiment of the present utility model.

As shown in fig. 4, the electrical stimulation system further includes: the indication module 206, the indication module 206 is connected with the main control module 201; the indication module 206 is used to indicate electrode feedback signals and/or electrical stimulation protocols.

The indication module 206 may display indication information by using an acousto-optic or display screen structure.

Specifically, the indication module 206 may provide a plurality of channel indication units, one channel indication unit corresponding to each channel. And indicating the electrode connection state and the electrode type corresponding to the electrode feedback signal by setting different acousto-optic signals. For example, if the electrode connection state corresponding to the electrode feedback signal is no electrode connection, the main control module 201 controls the indication module 206 to indicate that the corresponding channel connection is abnormal. Through setting up indicating module, the electrode connection condition of each passageway is instructed simply directly perceivedly, simple structure, it is convenient to use.

Based on the same application concept, the embodiment of the present utility model further provides an electrode set 100, where the electrode set 100 is used in an electrical stimulation system, and the electrical stimulation system has the system structure provided in any one of the above embodiments. Wherein the electrical stimulation system is provided with at least one channel interface.

Fig. 5 is a schematic structural diagram of an electrode assembly 100 according to a second embodiment of the present utility model.

As shown in fig. 5, the electrode group 100 includes: electrode pad 150 and electrode interface 160; the electrode interface 160 is connected with any channel interface of the electrical stimulation system in a pluggable manner; an identification module 100P is disposed in the electrode interface 160, and the identification module 100P is used for identifying the type of the electrode plate.

As shown in connection with fig. 2, the electrode assembly 100 may employ an open electrode structure. The open electrode structure comprises a first electrode plate, a second electrode plate, a first electrode group connecting wire, a first electrode interface and a first identification module. The first end of the first electrode group connecting wire is electrically connected with the first electrode plate, the second end of the first electrode group connecting wire is electrically connected with the second electrode plate, the third end of the first electrode group connecting wire is electrically connected with the first electrode interface, and the first electrode plate and the second electrode plate are used for contacting a first body to be stimulated; the first electrode interface is connected with any one of the electric stimulation output modules so that the first electrode plate and the second electrode plate provide first output parameters for a first body to be stimulated.

As shown in connection with fig. 2, the electrode assembly 100 may employ a closed electrode structure. The closed electrode structure comprises an annular electrode plate, a second electrode group connecting wire, a second electrode interface and a second identification module, wherein the annular electrode plate is provided with a first conductive plate and a second conductive plate which are used for contacting a second body to be stimulated; the first end of the second electrode group connecting wire is electrically connected with the annular electrode plate, and the second end of the second electrode group connecting wire is electrically connected with the second electrode interface; the second electrode interface is connected with any one of the electric stimulation output modules so that the first conducting strip and the second conducting strip provide second output parameters for a second body to be stimulated.

In one embodiment, the identification module is any one of the following: an electronic tag, a resistor-capacitor element, or an infrared receiving module.

According to the technical scheme, the universality of the electrode set is improved by arranging the identification module and the universal interface, and the use is convenient.

Based on the same application conception, the embodiment of the utility model also provides an electric stimulation device, wherein the electrode group is used for an electric stimulation system, and the electric stimulation system has the system structure provided by any embodiment. Wherein the electro-stimulation system has an electrode set as provided in the second embodiment described above.

Fig. 6 is a schematic structural diagram of an electrical stimulation device according to a third embodiment of the present utility model.

As shown in fig. 6, the electro-stimulation device 200 includes: a power module 203 for powering the electrical stimulation system; at least one electrical stimulation output module 204 for connecting to either electrode set; the electrode identification module 202 is configured to send a detection signal to the electrical stimulation output module 204, and receive an electrode feedback signal of the electrical stimulation output module 204, where the electrode feedback signal is a signal generated based on a detection result of an electrode connection state and an electrode type; the main control module 201 is configured to obtain an electrical stimulation scheme corresponding to the electrode feedback signal, and adjust output parameters of the electrical stimulation output module 204 according to the electrical stimulation scheme; wherein the electrical stimulation schemes are in one-to-one correspondence with the electrical stimulation output modules 204.

In one embodiment, the electrical stimulation device further comprises a communication module, and the communication module is in communication connection with the intelligent terminal; the communication module is used for sending electrode feedback signals to the intelligent terminal, receiving the electric stimulation scheme sent by the intelligent terminal and transmitting the electric stimulation scheme to the main control module.

In one embodiment, the intelligent terminal is integrated with the electrical stimulation device; or the intelligent terminal is a mobile terminal which is independently arranged.

In an embodiment, when the electrical stimulation apparatus is provided with a plurality of electrical stimulation output modules, the plurality of electrical stimulation output modules adopt channel interfaces with the same structure.

In one embodiment, the electrical stimulation apparatus further comprises: the indication module is connected with the main control module; the indication module is used for indicating the electrode feedback signal and/or the electrical stimulation scheme.

The above embodiments do not limit the scope of the present utility model. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives are possible, depending on design requirements and other factors. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included in the scope of the present utility model.

Claims (11)

1. An electrical stimulation system, comprising:

at least one electrode group, wherein the electrode group is provided with an identification module, and the identification module is used for identifying the electrode type of the electrode group;

the electric stimulation equipment is provided with a main control module, an electrode identification module, a power supply module and at least one electric stimulation output module;

the power supply module is used for supplying power to the electric stimulation system;

the electric stimulation output module is used for being connected with any electrode group;

the electrode identification module is used for sending a detection signal to the electric stimulation output module and receiving an electrode feedback signal of the electric stimulation output module, wherein the electrode feedback signal is a signal generated based on an electrode connection state and a detection result of the electrode type;

the main control module is used for acquiring an electrical stimulation scheme corresponding to the electrode feedback signal and adjusting output parameters of the electrical stimulation output module according to the electrical stimulation scheme;

wherein, the electric stimulation scheme corresponds to the electric stimulation output modules one by one.

2. The electrical stimulation system of claim 1, wherein the electrical stimulation device further comprises a communication module, the communication module being communicatively coupled to the intelligent terminal;

the communication module is used for sending the electrode feedback signal to the intelligent terminal, receiving the electric stimulation scheme sent by the intelligent terminal and transmitting the electric stimulation scheme to the main control module.

3. The electrical stimulation system of claim 2, wherein the intelligent terminal is integrally provided with the electrical stimulation device; or,

the intelligent terminal is an independently arranged mobile terminal.

4. The electro-stimulation system of claim 1, wherein when the electro-stimulation device is provided with a plurality of the electro-stimulation output modules, the plurality of the electro-stimulation output modules employ channel interfaces having the same structure.

5. The electrical stimulation system of claim 1, wherein when the electrical stimulation system is provided with a plurality of the electrode sets, the plurality of electrode sets comprises a first electrode set and a second electrode set having different electrode types;

the first electrode group is connected with any one of the electric stimulation output modules, the second electrode group is connected with any one of the electric stimulation output modules, and the first electrode group and the second electrode group are not connected with the same electric stimulation output module at the same time.

6. The electrical stimulation system of claim 5, wherein the first electrode set is an open electrode set;

the open electrode group comprises a first electrode plate, a second electrode plate, a first electrode group connecting wire, a first electrode interface and a first identification module;

the first end of the first electrode group connecting wire is electrically connected with the first electrode plate, the second end of the first electrode group connecting wire is electrically connected with the second electrode plate, the third end of the first electrode group connecting wire is electrically connected with the first electrode interface, and the first electrode plate and the second electrode plate are used for contacting a first body to be stimulated;

the first electrode interface is connected with any one of the electric stimulation output modules, so that the first electrode plate and the second electrode plate provide first output parameters for the first body to be stimulated.

7. The electrical stimulation system of claim 5, wherein the second electrode set is a closed electrode set;

the closed electrode group comprises an annular electrode plate, a second electrode group connecting wire, a second electrode interface and a second identification module, wherein the annular electrode plate is provided with a first conductive plate and a second conductive plate, and the first conductive plate and the second conductive plate are used for contacting a second body to be stimulated;

the first end of the second electrode group connecting wire is electrically connected with the annular electrode plate, and the second end of the second electrode group connecting wire is electrically connected with the second electrode interface;

the second electrode interface is connected with any one of the electric stimulation output modules, so that the first conducting strip and the second conducting strip provide second output parameters for the second body to be stimulated.

8. The electrical stimulation system of any of claims 1-7, wherein the identification module is any of the following: an electronic tag, a resistor-capacitor element, or an infrared receiving module.

9. The electrical stimulation system of any of claims 1-7, further comprising:

the indication module is connected with the main control module;

the indication module is used for indicating the electrode feedback signal and/or the electrical stimulation scheme.

10. An electrode set for an electro-stimulation system, characterized in that the electro-stimulation system has a structure according to any of claims 1-9, which electro-stimulation system is provided with at least one channel interface; the electrode group includes:

electrode plate and electrode interface;

the electrode interface is connected with any one of the at least one channel interface;

an identification module is arranged in the electrode interface and used for identifying the type of the electrode sheet.

11. An electro-stimulation device for an electro-stimulation system having an electrode set as claimed in claim 10, the electro-stimulation apparatus comprising:

the power supply module is used for supplying power to the electric stimulation system;

the electric stimulation output module is used for being connected with any electrode group;

the electrode identification module is used for sending a detection signal to the electric stimulation output module and receiving an electrode feedback signal of the electric stimulation output module, wherein the electrode feedback signal is a signal generated based on an electrode connection state and a detection result of the electrode type;

the main control module is used for acquiring an electrical stimulation scheme corresponding to the electrode feedback signal and adjusting output parameters of the electrical stimulation output module according to the electrical stimulation scheme;

wherein, the electric stimulation scheme corresponds to the electric stimulation output modules one by one.