CN220142130U - Electric moxibustion instrument with wearable wireless control device - Google Patents

Abstract

The utility model relates to an electro-moxibustion device (100) with a wearable wireless control device, comprising a host (10) and an electrode assembly (20) connected to the host, the host being configured to generate a pulsed current to be supplied to the electrode assembly, characterized in that the electrode assembly comprises a pair of electrode gloves configured in the form of gloves that can be worn by a user and a pair of electrode plates configured in the form of patches, the electro-moxibustion device further comprising a wireless control device (30) in wireless communication with the host, the wireless control device being configured as a wearable mobile terminal, the wireless control device comprising a terminal input means (32) comprising a remote input button (321) provided or displayed on the wireless control device adapted to adjust a pulse current parameter, the remote input button comprising a first remote adjustment button adapted to adjust a voltage/current level of the pulsed current supplied to the electrode assembly and a second remote adjustment button adapted to change a pulse mode of the pulsed current supplied to the electrode assembly.

Description

Electric moxibustion instrument with wearable wireless control device

Technical Field

The utility model relates to an electric moxibustion instrument with a wearable wireless control device.

Background

The electric moxibustion therapy is an emerging technology in recent years at home and abroad, and is widely applied clinically. The electric moxibustion therapy uses the heat, magnetic force and penetrating power of electricity to replace the heat and permeability of moxa, and uses specific charged glove of hands to input electric current to perform moxibustion on meridians, collaterals, acupoints, tissues and disease sites according to the principle of acupuncture and moxibustion meridian science.

The electro-moxibustion therapy is performed by means of an electro-moxibustion device. The electric moxibustion instrument generally comprises a main machine and an electrode electrically connected with the main machine, wherein the main machine converts 220V alternating current into pulse current with a plurality of gears and modes which are generally below 36V, and the electrode can be attached to a human body, so that electric stimulation is applied to different parts of the human body, the effects of promoting qi circulation and activating blood, removing obstruction in collaterals and removing blood stasis are achieved, and compared with single acupuncture, massage and moxibustion, the electric moxibustion instrument has better curative effects.

In the prior art, control buttons for adjusting different voltage gears and pulse modes in the electro-moxibustion instrument are arranged on a host machine. When the operator needs to adjust the voltage gear and the pulse mode according to the treatment part and the condition of the patient during the treatment of the patient, the operator always needs to move to the host computer to operate the control button, which is very inconvenient.

Therefore, there is a need to improve the convenience of adjustment of the electrocautery apparatus.

Disclosure of Invention

The object of the utility model is achieved by providing an electro-moxibustion instrument with a wearable wireless control device. By providing a wearable wireless control device in wireless communication with the electrocautery instrument, the adjustment knob for manipulating the electrocautery instrument is physically decoupled from the host computer of the electrocautery instrument, so that parameters of the electrocautery instrument, such as voltage/current level, pulse pattern and/or duration of the pulse current, can be conveniently adjusted wherever the operator is in the treatment of the patient, without moving to the host computer of the electrocautery instrument.

According to an embodiment of the present utility model, there is provided an electro-moxibustion device having a wearable wireless control device, comprising a main body configured to generate a pulse current to be supplied to the electrode assembly and an electrode assembly connected to the main body, the electrode assembly comprising a pair of electrode gloves configured in the form of gloves that can be worn by a user and a pair of electrode plates configured in the form of patches, one of the electrode gloves and the electrode plates being a positive electrode and the other being a negative electrode, the electro-moxibustion device further comprising a wireless control device connected in wireless communication to the main body, the wireless control device being configured as a wearable mobile terminal, the wireless control device comprising a terminal input device comprising at least one remote input button provided or displayed on the wireless control device adapted to adjust the pulse current parameter above, the at least one remote input button comprising at least one first remote adjustment button adapted to adjust the voltage/current level of the pulse current supplied to the electrode assembly and at least one second remote adjustment button adapted to change the pulse pattern of the pulse current supplied to the electrode assembly.

According to an alternative embodiment of the utility model, the wearable mobile terminal is configured as a wearable smart watch or bracelet, or as a card-type operation panel.

According to an alternative embodiment of the utility model, the at least one remote input button further comprises at least one third remote control button adapted to set the duration of operation.

According to an alternative embodiment of the utility model, the electrocautery instrument further comprises heating means integrated in the electrode assembly, said at least one remote input button comprising at least one remote temperature adjustment button adapted to adjust the thermal power of the heating means.

According to an alternative embodiment of the utility model, the at least one remote input button comprises at least one remote on/off button adapted to generate a signal to switch on or off the power of the host.

According to an alternative embodiment of the utility model, the wireless control device comprises a terminal display means comprising a touch-sensitive display screen provided on the wireless control device, the interactive user interface being displayed on the display screen, at least one of the remote input buttons being comprised in the interactive user interface in the form of an operable icon.

According to an alternative embodiment of the utility model, at least one of the remote input buttons is configured as a physical button.

According to an alternative embodiment of the utility model, the wireless control device further comprises indicating means adapted to indicate device information or alarm information to a user, the indicating means comprising at least one of an indicator light, a loudspeaker and a buzzer.

According to an alternative embodiment of the utility model, the indication means comprises tremor means adapted to cause the wireless control device to vibrate.

According to an alternative embodiment of the utility model, the electrode glove comprises a conductive layer electrically connected with the host and an insulating layer, wherein the conductive layer is arranged on the outer side of the insulating layer, which is opposite to the user.

By the utility model, the following steps are realized: the adjusting button for controlling the electric moxibustion device is arranged on the wearable wireless control device in wireless communication connection with the main machine of the electric moxibustion device, so that the adjusting button is physically decoupled from the main machine of the electric moxibustion device, thereby conveniently adjusting parameters of the electric moxibustion device, such as the voltage/current level, the pulse mode and/or the duration of the pulse current, without moving towards the main machine of the electric moxibustion device, no matter where an operator is in the treatment of a patient. This significantly improves the ease of adjustment of the electrocautery instrument

Other advantages and advantageous embodiments of the inventive subject matter will be apparent from the description, drawings and claims.

Drawings

Further features and advantages of the utility model are further elucidated by the following detailed description of specific embodiments with reference to the accompanying drawings. The drawings are as follows:

fig. 1 shows a schematic block diagram of an electro-moxibustion device according to an exemplary embodiment of the present utility model;

FIG. 2 shows a schematic structure of a host according to an exemplary embodiment of the present utility model; and is also provided with

Fig. 3 shows a schematic structural diagram of a wireless control apparatus according to an exemplary embodiment of the present utility model.

Detailed Description

In order to make the technical problems, technical solutions and advantageous technical effects to be solved by the present utility model more apparent, the present utility model will be further described in detail with reference to the accompanying drawings and a plurality of exemplary embodiments. It should be understood that the detailed description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the utility model. In the drawings, the same or similar reference numerals refer to the same or equivalent parts.

Fig. 1 shows a schematic block diagram of an electro-moxibustion apparatus 100 according to an exemplary embodiment of the present utility model. As shown in fig. 1, the electro-moxibustion apparatus 100 includes a main body 10 and an electrode assembly 20 electrically connected to the main body 10. The host 10 is configured to generate a pulse current to be input to the electrode assembly 20.

According to an exemplary embodiment, the electrode assembly 20 includes a pair of electrode gloves 21 configured in the form of gloves and a pair of electrode plates 22 configured in the form of patches. One of the electrode glove 21 and the electrode plate 22 is configured as a positive electrode, and the other is configured as a negative electrode. Electrode glove 21 may be worn by a user and electrode pad 22 may be attached to the human body. In the physiotherapy process, the electrode plate 22 is attached to a human body, for example, a point jump, the electrode glove 21 is worn by a user, the user touches the surface of the patient by touching, massaging, pressing, acupoint pressing, etc., and an electrical circuit can be formed between the electrode glove 21 and the electrode plate 22 due to the conductivity of the human body, so that pulse current is injected into the focus parts of the patient to be treated and regulated, and then flows back from the electrode plate 22 to the host 10.

Illustratively, electrode glove 21 may include a conductive layer 21a and an insulating layer 21b electrically connected to host 10 to receive pulsed current from host 10. The conductive layer 21a is provided on the outside of the insulating layer 21b facing away from the user. The insulating layer 21b is configured to electrically isolate the conductive layer 21a from the user when the electrode glove 21 is worn by the user.

Although the insulating layer 21b is configured as a glove body and the conductive layer 21a covers the palm portion outside the glove body in the illustrated embodiment, the present utility model is not particularly limited thereto, and any other possible manner obvious to those skilled in the art is covered in the scope of the present utility model.

According to an exemplary embodiment, the electrode assembly 20 is electrically connected with the host 10 by means of the electric wire 30. The connection between the electrode assembly 20 and the wires 30 and/or between the wires 30 and the host 10 is detachable, for example, by means of a mating plug-and-socket configuration or the like.

Fig. 2 shows a schematic structure of a host 10 according to an exemplary embodiment of the present utility model. As shown in fig. 2, the host 10 includes a central processor 11, an inverter device 12, a pulse modulation device 13, an input device 14, a display device 15, and a communication device 16. The inverter device 12 is configured to convert 220 volt mains input to the host 10 into low voltage dc power. The pulse modulation device 13 is configured to modulate the direct current output from the inverter device 12 into a pulse current having a specific voltage/current level and a specific pulse pattern in response to a regulation signal from the central processor 11.

The input device 14 includes at least one input button 141 provided or displayed on the host 10. The at least one input knob, in turn, includes at least one first knob configured to generate a signal for increasing and decreasing a voltage/current level of the pulse current supplied to the electrode assembly 20 when operated, and at least one second knob configured to generate a signal for changing a pulse pattern of the pulse current supplied to the electrode assembly 20 when operated.

Optionally, the at least one input button 141 further includes at least one third operation button for setting an operation duration. The central processing unit 11 counts the output period of the pulse current, and interrupts the output of the pulse current to the electrode assembly 20 once the period corresponding to the input value of the third operation knob is reached.

Optionally, the at least one input button 141 further includes at least one on/off button adapted to generate a signal to turn on or off the power of the host 10.

Optionally, the apparatus 100 further comprises heating means. Illustratively, the heating device is integrated into the electrode assembly 20, for example, as a heating resistor. Alternatively, the heating device may be configured as a separate component from the electrode assembly 20, which component may be separately attached to the human body. When the electrode assembly 20 or the heating device is in contact with the human body, heat generated by the heating device may be applied to the human body. Like electrode assembly 20, the heating device is also powered by host 10. In this case, it is preferable that the at least one input button 141 further includes at least one temperature adjusting button configured to generate a signal for changing the thermal power of the heating device when operated by the user.

According to an exemplary embodiment of the present utility model, the display device 15 includes a display screen 151 provided on the host 10, and a user interface including display contents showing a voltage/current level of the present pulse current, a present pulse mode may be displayed to a user by means of the display screen 151. In one example, the display screen is configured as a touch screen. In this case, the user interface is configured as an interactive user interface, and at least one of the input buttons 141 is included in the interactive user interface as a virtual operation button.

The communication means 16 may be used to send signals to a wireless control device 30 or to receive signals from a wireless control device 30, which will be described in detail below.

In accordance with the present utility model, the electro-moxibustion apparatus 100 further comprises a wireless control device 30 connected in wireless communication with the host computer 10. The wireless control device 30 is configured as a wearable mobile terminal. The wireless control device 30 can be moved with the user when worn by the user, so that the user can conveniently operate the electro-moxibustion apparatus 100 without moving to the host computer 10.

In an example, wireless control device 30 is configured as a wearable smart watch or wristband 30a. Additionally or alternatively, the wireless control device 30 is configured as a card-type operating panel 30b, the overall size of which does not maximally exceed the size of a normal smart phone, in order to be carried by a user, e.g. to be attached to or suspended from the user's clothing, waist band, neck, arm, wrist, waist like a tablet.

Fig. 3 shows a schematic structural diagram of a wireless control device 30 according to an exemplary embodiment of the present utility model. As shown in fig. 3, the wireless control apparatus 30 includes a terminal processor 31 and a terminal input device 32, a terminal display device 33, and a communication interface 34 connected to the terminal processor 31.

The terminal input means 32 comprise at least one remote input button 321 provided or displayed on the wireless control device 30 adapted to adjust the pulse current parameters. The at least one remote input button 321 in turn comprises at least one first remote adjustment button for adjusting the voltage/current level of the pulsed current supplied to the electrode assembly 20 and at least one second remote adjustment button for changing the pulse pattern of the pulsed current supplied to the electrode assembly 20.

Optionally, the at least one remote input button 321 further includes at least one third remote operation button for setting an operation duration. The central processor 11 counts the output period of the pulse current, and interrupts the output of the pulse current to the electrode assembly 20 once the period corresponding to the input value of the third remote operation button is reached.

Optionally, the at least one remote input button 321 further comprises at least one remote temperature adjustment button configured to generate a signal for changing the thermal power of the heating device when operated by the user.

Optionally, the at least one remote input button 321 further comprises at least one remote on/off button adapted to generate a signal to turn on or off the power to the host 10.

The terminal display means 33 comprise a display 39 provided on the wireless control device 30 by means of which a user interface can be displayed to the user, the user interface containing a display showing the voltage/current level of the current pulse current, the current pulse mode. In one example, the display screen is configured as a touch screen. In this case, the user interface is configured as an interactive user interface, and at least one of the input buttons 321 is included in the interactive user interface as a virtual operation button.

The communication interface 34 is configured to exchange data with the communication device 16 of the host 10, and in particular to transmit to the host 10 at least one of the following control signals: the voltage/current level adjustment signal inputted by the user by means of the first remote adjusting knob, the pulse mode adjustment signal inputted by the user by means of the second remote adjusting knob, the operation duration adjustment signal inputted by the user by means of the third remote adjusting knob, the temperature adjustment signal inputted by the user by means of the remote temperature adjusting knob, and the on/off signal inputted by the user by means of the remote on/off knob to turn on or off the power of the host 10. The central processor 11 operates the pulse modulation apparatus 13 or other apparatus in response to these signals from the wireless control device 30 to generate a pulse current in conformity with the user's selection or to perform switching on and off.

Optionally, the wireless control device 30 further comprises indicating means for indicating device information or alarm information to a user. In an example, the indication means comprises an indicator light configured for indicating device information such as a state of charge, and/or alarm information such as an overrun in operation time, a temperature or a voltage overload to a user.

Optionally, the indication means comprises a speaker and/or a buzzer for outputting a voice message and/or an alarm sound.

Alternatively, the indication means comprises trembling means capable of vibrating the wireless control device 30. When the wireless control device 30 is worn by a user, the mode of vibrating the wireless control device 30 can enable the user to more directly and strongly perceive the indication information or the warning information.

Any one of the input buttons 141, any one of the remote input buttons 321 herein may be any form, such as configured as a physical button (e.g., knob, button, etc.) or a virtual operation button in a user interface, unless the context indicates otherwise, as the utility model is not limited in this regard.

In alternative embodiments, by providing wireless control device 30, some or all of the input buttons 141 and/or display means on host 10 may be omitted.

Although some embodiments have been described, these embodiments are presented by way of example only and are not intended to limit the scope of the utility model. The appended claims and their equivalents are intended to cover all modifications, substitutions and changes which fall within the scope and spirit of the utility model.

Claims (10)

1. An electrocautery instrument (100) with a wearable wireless control device, comprising a host (10) and an electrode assembly (20) connected to the host (10), the host (10) being configured to generate a pulsed current to be delivered to the electrode assembly (20), characterized in that the electrode assembly (20) comprises a pair of electrode gloves (21) configured in the form of gloves that can be worn by a user and a pair of electrode plates (22) configured in the form of patches, one of the electrode gloves (21) and the electrode plates (22) being a positive electrode and the other being a negative electrode, the electrocautery instrument (100) further comprising a wireless control device (30) in wireless communication with the host (10), the wireless control device (30) being configured as a wearable mobile terminal, the wireless control device (30) comprising a terminal input means (32), the terminal input means (32) comprising at least one remote input button (321) arranged or displayed on the wireless control device (30) adapted to adjust a pulse current parameter, said at least one remote input button (321) comprising at least one first remote adjustment button adapted to adjust a voltage/current level of the pulsed current to be delivered to the electrode assembly (20) and at least one remote adjustment button adapted to change the pulse current mode of the electrode assembly.

2. The apparatus (100) with wearable wireless control device according to claim 1, characterized in that,

the wearable mobile terminal is configured as a wearable smart watch or bracelet (30 a), or as a card-type operating panel (30 b).

3. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

the at least one remote input button (321) further comprises at least one third remote control button adapted to set an operation duration.

4. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

the electrocautery instrument (100) further comprises heating means integrated in the electrode assembly (20), said at least one remote input button (321) comprising at least one remote temperature adjustment button adapted to adjust the thermal power of the heating means.

5. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

the at least one remote input button (321) comprises at least one remote on/off button adapted to generate a signal to turn on or off the power to the host (10).

6. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

the wireless control device (30) comprises a terminal display means (33), the terminal display means (33) comprising a touch-sensitive display screen (39) provided on the wireless control device (30), the interactive user interface being displayed on the display screen (39), at least one of the remote input buttons being included in the interactive user interface in the form of an operable icon.

7. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

at least one of the remote input buttons (321) is configured as a physical button.

8. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

the wireless control device (30) further comprises indication means adapted to indicate device information or alarm information to a user, the indication means comprising at least one of an indicator light, a speaker and a buzzer.

9. The apparatus (100) with wearable wireless control device according to claim 8, characterized in that,

the indication means comprises trembling means adapted to cause the wireless control device (30) to vibrate.

10. An electro-moxibustion apparatus (100) with wearable wireless control device according to claim 1 or 2, characterized in that,

the electrode glove (21) comprises a conductive layer (21 a) and an insulating layer (21 b), wherein the conductive layer (21 a) is electrically connected with the host (10), and the conductive layer (21 a) is arranged on the outer side, facing away from a user, of the insulating layer (21 b).