CN212038605U

CN212038605U - Wearable arm electric stimulation therapeutic instrument

Info

Publication number: CN212038605U
Application number: CN201922209379.8U
Authority: CN
Inventors: 王玉龙; 龙建军; 吕星; 朱晓龙; 尚鹏; 张笑千; 侯增涛; 张奇奇; 王博; 付威廉; 张琴丽; 刘世贤
Original assignee: Shenzhen Shangruide Technology Co ltd
Current assignee: Guangxi Zhongke Medical Research Co.,Ltd.
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-12-01
Anticipated expiration: 2029-12-10

Abstract

The utility model relates to a wearable arm electrical stimulation therapeutic apparatus, which comprises an electrical stimulation pulse signal controller, an electrical stimulation pulse generator, a power supply, an electrode plate and a touch screen; the electric stimulation pulse signal controller is powered by a power supply, receives stimulation modes and intensity signals input by a user through the touch screen, sends pulse signals to the electric stimulation pulse generator, and the electric stimulation pulse generator amplifies the signals and sends the amplified signals to the electrode plates for electric stimulation treatment.

Description

Wearable arm electric stimulation therapeutic instrument

Technical Field

The utility model relates to a wearable medical technology field, in particular to wearable arm electricity stimulation therapeutic instrument.

Background

The neuromuscular electrical stimulation is to stimulate one or more groups of muscles by using low-frequency pulse current with certain intensity through a preset program to induce muscle movement or simulate normal autonomous movement so as to achieve the purpose of improving or recovering the functions of the stimulated muscles or muscle groups. The arm electrical stimulation instrument using the scheme is of an alternating current power supply type at present, is large in size, and cannot achieve the purpose of planned rehabilitation training by being carried at any time and any place. Because no intelligent system is added, the intelligent device (such as a mobile phone and the like) can not be interconnected, data monitoring and management functions are carried out, and the rehabilitation effect is poor.

At present, the medical rehabilitation apparatus gradually develops towards the trend of integration and miniaturization, so that the medical instrument is small and intelligent. On the wearable arm electro photoluminescence therapeutic instrument of module application that will highly integrate, the user can formulate more nimble training scheme as required, no longer receives service environment's restriction.

The current physiotherapy instrument for stimulating the arms is too large in size, cannot be carried, is single in function, cannot manage health data through intelligent equipment, and achieves real-time monitoring and feedback.

The existing arm electrical stimulation therapeutic apparatus has the use scene that a fixed place (such as a family, a hospital and the like) for providing an alternating current power supply is provided, the training mode is single, and the data uploading function is absent. However, in practice, planned diversified training is required for the arm electrical stimulation rehabilitation, and the conventional arm electrical stimulation therapeutic apparatus cannot achieve the purpose of planned training anytime and anywhere due to the requirements of places and power supplies, so that the rehabilitation effect is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an integrate electrical stimulation pulse emission module, intelligent control module and data wireless transmission module simultaneously on hardware, have multiple stimulation mode simultaneously, every mode has different stimulation intensity to select, and the user can select mode and intensity through touch-sensitive screen operation, and data can pass through the bluetooth and upload user terminal's wearable arm electrical stimulation therapeutic instrument. The utility model aims at providing an on the basis of electro photoluminescence treatment principle, have pertinence to know the amazing muscle position of arm target to design dedicated electrode position of arm and shape in view of the above, reach better amazing treatment. Meanwhile, the wearable arm electrical stimulation therapeutic apparatus can adapt to more people and at the training stage due to various training modes and strengths.

The technical solution of the utility model is that the control circuit of the wearable arm electrical stimulation therapeutic apparatus is characterized in that the control circuit comprises an electrical stimulation pulse signal controller, an electrical stimulation pulse generator, a power module, an electrode plate and a touch screen; the electric stimulation pulse signal controller is powered by the power supply module, receives stimulation modes and intensity signals input by a user through the touch screen, sends pulse signals to the electric stimulation pulse generator, and the electric stimulation pulse generator amplifies the signals and sends the amplified signals to the electrode plate for electric stimulation treatment.

Preferably, the method comprises the following steps: the electric stimulation therapeutic apparatus also comprises a Bluetooth transmitting module, and the Bluetooth transmitting module transmits the related data to other terminals.

Preferably, the method comprises the following steps: the electric stimulation pulse signal controller is an Arduino control board; the electrical stimulation pulse generator adopts an electrical stimulation signal boosting module, and the power supply module comprises a battery and a stimulation mode adjusting button; the Arduino control panel simultaneously receives signals transmitted back by the stimulation mode adjusting button and the touch screen so as to adjust and send out the electrical stimulation signals of a strong and weak mode and a long and short mode, and the signals are provided with stimulation voltage by the electrical stimulation signal boosting module; meanwhile, the Arduino control panel prints current stimulation intensity mode data to the touch screen and the Bluetooth module, and the Bluetooth module transmits the data to the connected user mobile terminal; the electrical stimulation signal is a PWM pulse signal.

Preferably, the method comprises the following steps: the stimulation pattern includes, alternatively or in combination: acupuncture, hammering, massage, cupping, massage, scraping, kneading and massage are circulated; the vertical coordinate of the oscilloscope is voltage, 50V/grid, the horizontal coordinate is time, the output voltage is 4.0V, 8 modes, each mode is provided with 15 kinds of intensity, signal diagrams with different measuring ranges are respectively selected according to the measuring range of the oscilloscope for comparison, firstly, the measuring time is adjusted to be 1S/grid, overall observation is carried out, then, the adjustment is gradually carried out, and the adjustment is carried out to 50 ms/grid for detail observation.

Another technical solution of the utility model is wearable arm electricity stimulation therapeutic instrument, its special character lies in, by the installation space that top shell and drain pan constitute, the power that sets up on Arduino control panel and the Arduino control panel that the installation space bottom plane set firmly, cover and establish touch-sensitive screen on the top shell, press from both sides the first cushion of establishing between touch-sensitive screen and the power, drain pan outer surface cover the second cushion of establishing, pack into second cushion gomphosis groove and inlay through fixed component and establish the electrode on the drain pan panel and constitute.

Preferably, the method comprises the following steps: the electrode is composed of a sheet-shaped body with a trapezoidal bottom and a micro-arc top, and the sheet-shaped body is composed of side walls and bottom side walls which vertically protrude along each edge and barbs which symmetrically protrude on the micro-arc end walls; after the electrode is embedded into the bottom shell, the barb is bent and fixed on the bottom shell and is connected with the Arduino control board through a welding wire at the barb; the electrodes are tightly attached to the skin of the arm and are positioned at the flexor carpi radialis, the flexor carpi ulnaris and the longissimus palmaris so as to increase the conductive effect and reduce the skin prickling caused by poor contact.

Preferably, the method comprises the following steps: the end edge of the bottom shell of the electrical stimulation therapeutic apparatus is connected with a wrist strap.

The utility model discloses a further technical solution is wearable arm electric stimulation therapeutic instrument's electric stimulation pulse method, its special character lies in, including following step:

firstly, a user penetrates a wrist of a therapeutic apparatus wrist strap and fixes the wrist strap at a proper position, and therapeutic apparatus electrodes are tightly attached to skin and conducted with a machine;

secondly, the instrument is operated to start and a proper strength and a preset mode are selected to send an electric pulse signal to the electrode, so that arm muscles are stimulated, and the effect of stimulating rehabilitation is achieved;

and thirdly, the user is connected with the intelligent terminal through the Bluetooth on the operation interface, and the rehabilitation data are uploaded so as to be convenient to manage and check.

Compared with the prior art, the beneficial effects of the utility model are that:

the rechargeable integrated design can be used for treating at any time and any place.

The device is small in size and convenient to carry and use.

And multiple modes can be selected, so that the rehabilitation effect is better.

And the rehabilitation therapy data are displayed and uploaded, so that the management is facilitated.

The electrode is tightly attached to the skin of the arm, so that the electric conduction effect is improved, the skin pricking feeling caused by poor contact is reduced, and the electric stimulation effect is kept.

Drawings

Fig. 1 is a block diagram of an example of a control circuit of the wearable arm electrical stimulation treatment instrument of the present invention;

FIG. 2 is a block diagram of another embodiment of the control circuit of the wearable electrical arm stimulation treatment apparatus of the present invention;

FIG. 3 is a schematic structural view of the wearable arm electrical stimulation treatment apparatus of the present invention;

FIG. 4 is a sectional view of the assembly structure of the wearable arm electrical stimulation treatment apparatus of the present invention;

FIG. 5 is a schematic view of the three-dimensional structure of the wearable electric arm stimulation therapeutic apparatus electrode of the present invention;

fig. 6 is a schematic view of the wearable arm electrical stimulation treatment instrument of the present invention with electrodes attached to the arm.

Description of the main component symbols:

top case 11 bottom case 12 mainboard 13 power supply 14

First cushion 31 and second cushion 32 fitting groove 321 of touch screen 2

The side wall 42 of the sheet-like body 41 of the electrode 4 is provided with an barb 43

Wrist band 5

Detailed Description

The utility model discloses the following will make further detail with the accompanying drawing:

referring to fig. 1, the control circuit of the wearable arm electrical stimulation therapeutic apparatus includes an electrical stimulation pulse signal controller, an electrical stimulation pulse generator, a power module, an electrode plate, and a touch screen; the electric stimulation pulse signal controller is powered by the power supply module, receives a stimulation mode and an intensity signal input by a user through the touch screen, sends a pulse signal to the electric stimulation pulse generator, and the electric stimulation pulse generator amplifies the signal and sends the amplified signal to the electrode plate for electric stimulation treatment; the electric stimulation therapeutic apparatus also comprises a Bluetooth transmitting module, and the Bluetooth transmitting module transmits related data to other terminals; the electric stimulation therapeutic apparatus also comprises a Bluetooth transmitting module, and the Bluetooth transmitting module transmits the related data to other terminals.

Referring to fig. 2, in another embodiment, the electrical stimulation pulse signal controller is an Arduino control board; the electrical stimulation pulse generator adopts an electrical stimulation signal boosting module, and the power supply module comprises a battery and a stimulation mode adjusting button; the Arduino control panel simultaneously receives signals returned by the stimulation mode adjusting button and the touch screen so as to adjust and send out different electrical stimulation signals in a strong and weak mode and a long and short mode, and the electrical stimulation signals are provided with stimulation voltage by the electrical stimulation signal boosting module; meanwhile, the Arduino control panel prints relevant data of the current stimulation intensity and mode to the touch screen and the Bluetooth module, and the Bluetooth module transmits the data to the connected user mobile terminal; the electrical stimulation signal is a PWM pulse signal.

In this embodiment, the stimulation mode includes one or a combination of: acupuncture, hammering, massage, cupping, massage, scraping, kneading and massage are circulated; the vertical coordinate of the oscilloscope is voltage, 50V/grid, the horizontal coordinate is time, the output voltage is 4.0V, 8 modes, each mode is provided with 15 kinds of intensity, signal diagrams with different measuring ranges are respectively selected according to the measuring range of the oscilloscope for comparison, firstly, the measuring time is adjusted to be 1S/grid, overall observation is carried out, then, the adjustment is gradually carried out, and the adjustment is carried out to 50 ms/grid for detail observation.

Referring to fig. 3 and 4, the wearable electrical arm stimulation treatment apparatus comprises an installation space formed by a top shell 11 and a bottom shell 12, an Arduino control board 13 fixed on a bottom plane of the installation space, a power supply 14 arranged on the Arduino control board 13, a touch screen 2 covered on the top shell 11, a first cushion 31 sandwiched between the touch screen 2 and the power supply 14, a second cushion 32 covered on an outer shell surface of the bottom shell 12, and an electrode 4 arranged in a second cushion embedding groove 321 and embedded on a panel of the bottom shell 12 through a screw.

Referring to fig. 5, the electrode 4 is composed of a bottom trapezoidal and top slightly arc sheet-shaped body 41, a side wall 42 vertically protruding along each edge of the sheet-shaped body 41, a bottom side wall, and barbs 43 symmetrically protruding on the slightly arc end wall; after the electrode 4 is embedded into the bottom case 12, the barb 43 is bent and fixed on the bottom case 12, and is connected to the Arduino control board 13 through a bonding wire at the barb 43.

Referring to fig. 6, the electrodes 4 are tightly attached to the skin of the arm and located at the flexor carpi radialis, flexor carpi ulnaris and the longissimus palmaris to increase the conductive effect and reduce the skin prickling caused by poor contact.

In this embodiment, the end edge of the bottom shell 12 of the electrical stimulation therapeutic apparatus is connected with a wrist strap 5.

Referring to fig. 1 to 3, the electrical stimulation pulse method of the wearable arm electrical stimulation therapy apparatus includes the following steps:

firstly, a user penetrates a wrist of a therapeutic apparatus wrist strap 5 and fixes the wrist strap at a proper position, and therapeutic apparatus electrodes 4 are tightly attached to skin and conducted with a machine;

secondly, the instrument is operated to start and a proper strength and a preset mode are selected to send an electric pulse signal to the electrode 4, so that arm muscles are stimulated, and the effect of stimulating rehabilitation is achieved;

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made according to the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims

1. A control circuit of a wearable arm electrical stimulation therapeutic apparatus is characterized by comprising an electrical stimulation pulse signal controller, an electrical stimulation pulse generator, a power module, an electrode plate and a touch screen; the electric stimulation pulse signal controller is powered by the power supply module, receives stimulation modes and intensity signals input by a user through the touch screen, sends pulse signals to the electric stimulation pulse generator, and the electric stimulation pulse generator amplifies the signals and sends the amplified signals to the electrode plate for electric stimulation treatment.

2. The control circuit of the wearable arm electric stimulation treatment instrument as recited in claim 1, wherein the electric stimulation treatment instrument further comprises a Bluetooth transmission module, and the Bluetooth transmission module transmits the related data to other terminals.

3. The control circuit of the wearable arm electric stimulation treatment instrument as recited in claim 1, wherein the electric stimulation pulse signal controller is an Arduino control board; the electrical stimulation pulse generator adopts an electrical stimulation signal boosting module, and the power supply module comprises a battery and a stimulation mode adjusting button; the Arduino control panel simultaneously receives signals transmitted back by the stimulation mode adjusting button and the touch screen so as to adjust and send out the electrical stimulation signals of a strong and weak mode and a long and short mode, and the signals are provided with stimulation voltage by the electrical stimulation signal boosting module; meanwhile, the Arduino control panel prints current stimulation intensity mode data to the touch screen and the Bluetooth module, and the Bluetooth module transmits the data to the connected user mobile terminal; the electrical stimulation signal is a PWM pulse signal.

4. The control circuit of the wearable electric arm stimulation treatment instrument of claim 1, wherein the stimulation mode comprises one or a combination of: acupuncture, hammering, massage, cupping, massage, scraping, kneading and massage are circulated; the vertical coordinate of the oscilloscope is voltage, 50V/grid, the horizontal coordinate is time, the output voltage is 4.0V, 8 modes, each mode is provided with 15 kinds of intensity, signal diagrams with different measuring ranges are respectively selected according to the measuring range of the oscilloscope for comparison, firstly, the measuring time is adjusted to be 1S/grid, overall observation is carried out, then, the adjustment is gradually carried out, and the adjustment is carried out to 50 ms/grid for detail observation.

5. The utility model provides a wearable arm electro photoluminescence therapeutic instrument which characterized in that, by the installation space that top shell and drain pan constitute, the power that sets up on the Arduino control panel that the installation space baseplane set firmly and the Arduino control panel, cover the touch-sensitive screen of establishing on the top shell, the first cushion of establishing presss from both sides between touch-sensitive screen and the power, the second cushion of establishing is covered to the drain pan surface of housing, pack into second cushion gomphosis groove and inlay through fixed element and establish the electrode constitution on the drain pan panel.

6. The wearable electrical stimulation arm treatment apparatus of claim 5, wherein the electrode comprises a bottom trapezoidal and top micro-arc shaped sheet, the sheet comprising a side wall vertically protruding along each edge, a bottom side wall and symmetrically protruding barbs located on the micro-arc shaped end wall; after the electrode is embedded into the bottom shell, the barb is bent and fixed on the bottom shell and is connected with the Arduino control board through a welding wire at the barb; the electrodes are tightly attached to the skin of the arm and are positioned at the flexor carpi radialis, the flexor carpi ulnaris and the longissimus palmaris so as to increase the conductive effect and reduce the skin prickling caused by poor contact.

7. The wearable arm electrical stimulation treatment instrument of claim 5, wherein a wrist strap is connected to the end edge of the bottom shell of the electrical stimulation treatment instrument.