CN219558480U - Wireless transcranial electric stimulation equipment - Google Patents

Abstract

The utility model discloses wireless transcranial electrical stimulation equipment, which comprises a shell (1), wherein an electrode (2) is arranged outside the shell (1); a control circuit board (3) is arranged in the shell (1), and a battery (4) and a wireless module (5) are integrated on the control circuit board (3); the wireless module (5) is connected with the terminal mobile equipment (6) through a wireless connection mode. The utility model has the characteristics of wide application range, convenient and comfortable wearing and small volume.

Description

Wireless transcranial electric stimulation equipment

Technical Field

The utility model relates to transcranial electrical stimulation equipment, in particular to wireless transcranial electrical stimulation equipment.

Background

The structure of the traditional transcranial electric stimulation device is shown in fig. 1, when the device is worn, the electrodes are firstly fixed on two sides of the stimulation device, then the stimulation device is worn on the head of a human body, then the hardware support at the top of the stimulation device is adjusted to enable the electrodes to be closely attached to the skin so that the device cannot fall off, and finally the stimulation mode is adjusted on the transcranial electric stimulation head-mounted device for treatment. However, the structure of the product is limited, the head shape of the people group is required, the product is only suitable for part of people, and the application range is narrow; moreover, the device has a squeezing feel when worn, and has poor comfort. Meanwhile, the traditional transcranial electrical stimulation equipment is large in size and inconvenient to store, carry and operate. Therefore, the prior art has the problems of narrow application range, poor wearing comfort and large occupied space.

Disclosure of Invention

The utility model aims to provide a wireless transcranial electrical stimulation device. The utility model has the characteristics of wide application range, convenient and comfortable wearing and small volume.

The technical scheme of the utility model is as follows: a wireless transcranial electrical stimulation device comprises a shell, wherein an electrode is arranged outside the shell; a control circuit board is arranged in the shell, and a battery and a wireless module are integrated on the control circuit board; the wireless module is connected with the terminal mobile equipment in a wireless connection mode.

In the above-mentioned wireless transcranial electrical stimulation device, the control circuit board is integrated with a USB port.

In the above-mentioned wireless transcranial electric stimulation device, the control circuit board is connected with a switch key.

In the wireless transcranial electrical stimulation device, the control circuit board is a PCB.

In the wireless transcranial electrical stimulation device, the shell comprises an inner shell and an outer shell which are buckled with each other; the shell is inside to be equipped with fixed buckle, is equipped with on the inner shell with fixed buckle matched with first draw-in groove.

In the wireless transcranial electric stimulation device, a round hole is further formed in the middle of the surface of the inner shell.

In the wireless transcranial electrical stimulation device, two circuit board buckles which are symmetrically distributed are arranged in the shell, and two ends of the control circuit board are provided with the matched second clamping grooves.

In the above-mentioned wireless transcranial electric stimulation device, the bottom surface of the housing is further provided with a button opening and a USB opening.

In the wireless transcranial electrical stimulation device, gel is adhered outside the electrode.

In the wireless transcranial electrical stimulation device, the electrode is a metal electrode.

Compared with the prior art, the utility model is composed of a shell, electrodes, a control circuit board arranged in the shell, a battery and a wireless module, wherein the wireless module is connected with a terminal mobile device in a wireless mode, a bracket structure of the traditional stimulation device is canceled, only an electrode assembly is reserved, the stimulation position is not limited, the volume is small, the wearing is flexible and convenient, and the head weight cannot be felt after the wearing; solves the problem that the traditional transcranial electric stimulation is uncomfortable to use, enhances the experience of patients, is more comfortable to use, is more convenient to carry, is suitable for adults and children, and is wider in use population. Secondly, the device is connected with the mobile phone through the wireless module, and the stimulation current is regulated and controlled through a small program of the mobile phone, so that the operation is more convenient; then the electrode is changed into stainless steel material and gel, physiological saline is not needed, the impedance is low, the conduction is better, the contact with the skin is good, and the gel is replaced each time, so that the method is simple and convenient; finally, the whole model is more fashionable and attractive and is convenient to carry. In conclusion, the utility model has the characteristics of wide application range, convenient and comfortable wearing and small volume.

In addition, the electrode is a metal electrode, so that the conduction effect is good; the gel is tightly attached to the skin, the replacement is convenient, and physiological saline is not required to be injected.

Drawings

FIG. 1 is a structural view of a conventional wireless transcranial electrical stimulation device;

FIG. 2 is a flow chart of the use between the present utility model and a terminal mobile device;

FIG. 3 is a rear view of the present utility model;

FIG. 4 is an exploded view of the present utility model;

fig. 5 is a cross-sectional view of the present utility model.

The marks in the drawings are: 1-casing, 2-electrode, 3-control circuit board, 4-battery, 5-wireless module, 6-terminal mobile device, 7-USB port, 8-switch button, 9-second draw-in groove, 10-gel, 101-inner shell, 102-shell, 103-fixed buckle, 104-first draw-in groove, 105-round hole, 106-circuit board buckle, 107-button opening, 108-USB opening.

Detailed Description

The utility model is further illustrated by the following figures and examples, which are not intended to be limiting.

Examples. A wireless transcranial electrical stimulation device is shown in figures 1 to 5, and comprises a shell 1, wherein an electrode 2 is arranged outside the shell 1; a control circuit board 3 is arranged in the shell 1, and a battery 4 and a wireless module 5 are integrated on the control circuit board 3; the wireless module 5 is connected to the terminal mobile device 6 via a wireless connection.

The control circuit board 3 is integrated with a USB port 7.

The control circuit board 3 is connected with a switch button 8.

The control circuit board 3 is a PCB board.

The shell 1 comprises an inner shell 101 and an outer shell 102 which are buckled with each other; the inside of the outer shell 102 is provided with a fixed buckle 103, and the inner shell 101 is provided with a first clamping groove 104 matched with the fixed buckle 103.

A circular hole 105 is also provided in the middle of the surface of the inner shell 101.

Two symmetrical circuit board buckles 106 are arranged in the shell 102, and two ends of the control circuit board 3 are provided with matched second clamping grooves 9.

The bottom surface of the housing 102 is also provided with a key opening 107 and a USB opening 108.

The gel 10 is adhered to the outside of the electrode 2.

The electrode 2 is a metal electrode.

The using process comprises the following steps: the method comprises the steps of firstly fixing a PCB board in transcranial electric stimulation equipment, wherein a battery, a USB port, a wireless module and a switch button are arranged on the PCB board. After the transcranial electric stimulation equipment is started, the wireless module is connected with an applet of the mobile phone, and the stimulation current and the stimulation mode are controlled through the applet. The electrodes of the transcranial electrical stimulation device are provided with gel which can be stuck on the surface of the skin. After the connection is completed, the transcranial electric stimulation equipment is stuck at the position needing stimulation, and then the required treatment mode and stimulation current are selected through a small program of a mobile phone.

The metal electrode is made of metal plates, and the two surfaces of the gel are sticky; the whole machine mainly comprises an upper shell, a lower shell, a PCB, a switch key, a battery, a wireless module, a USB port, an electrode and gel. The electrodes are fixed in the inner shell through pins, the outer shell and the inner shell are fixed through buckles, and the gel is bonded on the metal electrodes. Then PCB passes through the circuit board buckle to be fixed on the shell, and wireless module, battery and USB port integrate in PCB, and the USB port exposes outside through the USB opening of shell for charge for equipment. The battery is used for storing electric energy obtained by charging the USB port, and the wireless module can be used for being connected with a mobile phone applet. The switch key is fixed in the key opening of the shell. The gel is directly stuck on the electrode, so that the gel can be conveniently replaced;

the gel is used, so that normal saline does not need to be injected in use, the gel and the electrode are easy to replace, and the experience is improved by reducing the steps.

Claims (7)

1. A wireless transcranial electrical stimulation apparatus, characterized by: comprises a shell (1), wherein an electrode (2) is arranged outside the shell (1); a control circuit board (3) is arranged in the shell (1), and a battery (4) and a wireless module (5) are integrated on the control circuit board (3); the wireless module (5) is connected with the terminal mobile equipment (6) in a wireless connection mode;

the shell (1) comprises an inner shell (101) and an outer shell (102) which are buckled with each other; a fixed buckle (103) is arranged in the outer shell (102), and a first clamping groove (104) matched with the fixed buckle (103) is formed in the inner shell (101);

a round hole (105) is also arranged in the middle of the surface of the inner shell (101); two symmetrically distributed circuit board buckles (106) are arranged in the shell (102), and two ends of the control circuit board (3) are provided with matched second clamping grooves (9);

the electrodes are fixed in the inner shell through pins.

2. A wireless transcranial electrical stimulation device according to claim 1, wherein: the control circuit board (3) is integrated with a USB port (7).

3. A wireless transcranial electrical stimulation device according to claim 1, wherein: the control circuit board (3) is connected with a switch button (8).

4. A wireless transcranial electrical stimulation device according to claim 1, wherein: the control circuit board (3) is a PCB.

5. A wireless transcranial electrical stimulation device according to claim 1, wherein: the bottom surface of the shell (102) is also provided with a button opening (107) and a USB opening (108).

6. A wireless transcranial electrical stimulation device according to claim 1, wherein: and gel (10) is adhered outside the electrode (2).

7. A wireless transcranial electrical stimulation device according to claim 1, wherein: the electrode (2) is a metal electrode.