CN217091802U - Micro-current muscle stimulation instrument - Google Patents

Abstract

The utility model provides a little electric current muscle stimulation appearance, includes the body and sets up main control unit, frequency generator, little pulse signal generator, operating condition instruction and warning circuit, power, user input button, little pulse signal regulator and little electric current conduction band that connect gradually in this body, its characterized in that: the micro-current conductive band comprises an A conductive band and a B conductive band in a bandage structure; the conductive belts A and B are formed by bonding carbon fiber cloth with exposed fluff surfaces, a butadiene styrene rubber layer and a silver fiber conductive layer provided with an upper and a lower independent groups of positive and negative electrodes; the conductive band A and the conductive band B are respectively provided with a silver fiber conductive layer connecting jack for receiving micro-pulse signals. The two groups of silver fiber conducting layers on the micro-current conducting band are mutually and independently operated on the human epidermis at the binding part of the A conducting band and the B conducting band, so that the muscle movement of the corresponding part of the human body is effectively stimulated, and the effects of tightening the skin, promoting the capillary microcirculation and recovering the muscle fatigue are achieved.

Description

Micro-current muscle stimulation instrument

Technical Field

The utility model relates to a physical therapy apparatus, in particular to a micro-current muscle stimulation instrument.

Background

Modern people usually have a small amount of exercise and fat accumulates in various parts of the body. Therefore, a micro-current massager capable of stimulating each part of the human body and promoting muscle movement is available on the market, and the micro-current massager can be attached to each part of the epidermis of the human body through the silica gel conductive paste, so that the use is convenient. However, in practical use, the silica gel conductive patch is attached to the epidermis of the human body through the viscosity of the silica gel conductive patch, so that the silica gel conductive patch is poor in adhesion and easy to fall off, the direct adhesion of the silica gel conductive patch and the epidermis of the human body causes discomfort and anaphylactic reaction of users, and the cleaning of the silica gel conductive patch is difficult. And the silica gel conductive paste easily influences the use effect.

Disclosure of Invention

The utility model aims to solve the technical problem of remedying the defects of the prior art and providing a micro-current muscle stimulator.

The technical problem of the utility model is solved through following technical scheme.

The micro-current muscle stimulator comprises a body, a main controller, a frequency generator, a micro-pulse signal generator, a working state indicating and reminding circuit, a user interaction part and a power supply, wherein the main controller, the frequency generator, the micro-pulse signal generator and the working state indicating and reminding circuit are sequentially connected in the body, and the user interaction part comprises a user input button connected with the main controller, a micro-pulse signal regulator respectively connected with the micro-pulse signal generator and a micro-current conductive band applied to the surface of the skin of a human body.

The micro-current muscle stimulator is characterized in that:

the micro-current conductive band comprises an A conductive band and an B conductive band;

the conductive belts A and B are formed by bonding carbon fiber cloth with exposed fluff surfaces, a butadiene styrene rubber layer and a silver fiber conductive layer provided with an upper and a lower independent groups of positive and negative electrodes;

the conductive tape A and the conductive tape B are respectively provided with a silver fiber conductive layer connecting jack for receiving a micro-pulse signal;

the conducting belt structure of A conducting belt and B conducting belt is the same and is the bandage structure that can be used to each position of human body to bind, and conducting belt end A and B all is equipped with the magic subsides rather than the adhesion of carbon cloth pile face. The first conductive band and the second conductive band loaded with the micro-pulse signal are matched to effectively stimulate the muscle movement of corresponding parts of a human body, and the micro-pulse stimulation device has the effects of tightening the skin, promoting capillary microcirculation and promoting the muscle relaxation of the stimulated parts.

The technical problem of the utility model is solved through following further technical scheme.

The micro-pulse signal generated by the micro-pulse signal generator is a micro-pulse signal with the amplitude of 60Vpp, the frequency of 45 Hz-120 Hz and the duration of 60 ms-140 ms.

The power supply includes a DC 3.7V rechargeable battery and a charging circuit.

The working state indicating and reminding circuit comprises an indicator light.

The working state indicating and reminding circuit further comprises a buzzer.

Compared with the prior art, the utility model beneficial effect be:

the utility model discloses a little electric current muscle stimulation appearance divide into the silver fibre conducting layer that micro-pulse signal was loaded in two sets of positive negative pole output with the conductive circuit design of little electric current conduction band, rely on the silver fibre conducting layer of a set of positive negative pole about being equipped with independently, realize that two sets of silver fibre conducting layers bind the human epidermis of position and function independently of each other at first conduction band and second conduction band, the muscle motion of effective amazing human corresponding part has the effect of tightening up the skin, promoting capillary microcirculation, recovering muscle fatigue. Because first conductive band and second conductive band are bound on needing amazing the limbs through magic subsides and the adhesion of carbon fiber cloth pile face, the silver fibre conducting layer is pasted and is covered on the skin surface, can not like the easy skin that adheres to of silica gel paster produces anaphylactic reaction, can be more comfortable to the user.

Drawings

FIG. 1 is a diagram of an embodiment of a micro-current muscle stimulator;

FIG. 2 is a schematic diagram of the conductive band structure of the micro-current muscle stimulator shown in FIG. 1;

fig. 3 is a schematic front view of the first conductive band of the micro-current muscle stimulator shown in fig. 1;

fig. 4 is a schematic diagram of the back structure of the conduction band of the micro-current muscle stimulator in fig. 1.

Detailed Description

The present invention will be described with reference to the accompanying drawings in conjunction with the following embodiments.

Example (b): a micro-current muscle stimulator as shown in figure 1 comprises a stimulator body, and a main controller 1, a frequency generator 2, a micro-pulse signal generator 3 and a working state indicating and reminding circuit 4 which are arranged in the stimulator body and are connected in sequence. The micro-pulse signal generated by the micro-pulse signal generator 3 is a micro-pulse signal with an amplitude of 60Vpp, a frequency of 45Hz to 120Hz, and a duration of 60ms to 140 ms.

This embodiment also includes user interaction components and a power supply 5 including a DC 3.7V rechargeable battery and charging circuitry.

The user interaction unit includes user input buttons 6 connected to the main controller 1, micro-pulse signal conditioners 7 respectively connected to the micro-pulse signal generators 3, and micro-current conductive strips 8 in contact with the surface of the skin of the human body.

The micro-current conducting strip 8 comprises an A conducting strip 81 and an B conducting strip 82.

As shown in fig. 2, the first conductive tape 81 and the second conductive tape 82 are formed by bonding a carbon fiber cloth 801 with exposed fluff surfaces, a styrene-butadiene rubber layer 802, and a silver fiber conductive layer 803 with an upper positive electrode and a lower positive electrode which are independent.

As shown in fig. 3 and 4, the first conductive band 81 and the second conductive band 82 have the same structure and are both binding band structures capable of being used for binding various parts of a human body, and magic tapes 84 adhered to the fluff surfaces of the carbon fiber cloth 801 on the front surfaces of the first conductive band 81 and the second conductive band 82 are arranged on the back surfaces of the first conductive band 81 and the second conductive band 82. The carbon fiber cloth 801 on the front surfaces of the A conductive belt 81 and the B conductive belt 82 are respectively provided with a silver fiber conductive layer connection jack 83 for receiving micro-pulse signals. By utilizing the adhesive matching of the magic tapes 84 at the ends of the A conductive belt 81 and the B conductive belt 82 and the fluff surface of the carbon fiber cloth 801, the A conductive belt 81 and the B conductive belt 82 can be conveniently bound at the part to be stimulated according to the thickness of the limb of the part to be used.

The silver fiber conducting layer 803 has good conducting performance, is convenient to use, better controls the use position, and can be used at different positions in various aspects. Such as arms, thighs, feet, calves, waists, backs, etc.

The working state indicating and reminding circuit 4 comprises an indicator light and a buzzer.

The power supply 5 includes a DC 3.7V rechargeable battery and a charging circuit.

The specific implementation mode is simple and safe to use. A user binds a micro-current conductive band 8 on a corresponding part of a human body to be stimulated through a wide binding band 9, a user input button 6 is started, a main controller 1 works, a frequency generator 2, a micro-pulse signal generator 3 and a working state indicating and reminding circuit 4 are controlled to enter a working state, the micro-pulse signal generator 3 generates a micro-pulse signal, and the micro-pulse signal with the amplitude of 60Vpp, the frequency of 45Hz to 120Hz and the duration of 60ms to 140ms is output under the regulation of a micro-pulse signal regulator 7.

The micro-pulse signal output by the micro-pulse signal generator 3 is loaded on the silver fiber conductive layers 803 of the first conductive tape 81 and the second conductive tape 82 respectively. The two groups of silver fiber conducting layers can work independently on human epidermis at the binding part of the first conductive belt and the second conductive belt, effectively stimulate muscle movement of corresponding parts of a human body, and have the effects of tightening skin, promoting capillary microcirculation and recovering muscle fatigue. The first conductive belt and the second conductive belt are bonded on limbs needing stimulation through magic tapes and carbon fiber cloth fluff surface adhesion, the silver fiber conductive layers are covered on the surface of skin in a sticking mode, and the first conductive belt and the second conductive belt cannot be easily adhered to the skin like a silica gel patch to generate anaphylactic reaction, so that the user can feel more comfortable.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. For those skilled in the art to which the invention pertains, numerous equivalent substitutions or obvious variations may be made without departing from the spirit of the invention, and the same properties or uses are deemed to fall within the scope of the invention as defined by the claims appended hereto.

Claims (5)

1. A micro-current muscle stimulator comprises a body, a main controller, a frequency generator, a micro-pulse signal generator, a working state indicating and reminding circuit, a user interaction component and a power supply, wherein the main controller, the frequency generator, the micro-pulse signal generator and the working state indicating and reminding circuit are sequentially connected in the body, the user interaction component comprises a user input button connected with the main controller, a micro-pulse signal regulator respectively connected with the micro-pulse signal generator and a micro-current conductive band applied to the surface of the skin of a human body, and the micro-current muscle stimulator is characterized in that:

the micro-current conductive band comprises an A conductive band and an B conductive band;

the conductive belts A and B are formed by bonding carbon fiber cloth with exposed fluff surfaces, a butadiene styrene rubber layer and a silver fiber conductive layer provided with an upper and a lower independent groups of positive and negative electrodes;

the conductive tape A and the conductive tape B are respectively provided with a silver fiber conductive layer connecting jack for receiving a micro-pulse signal;

the conducting belt A and the conducting belt B are the same in structure and are of binding belt structures capable of being used for binding all parts of a human body, and the conducting belt A and the conducting belt B are provided with magic tapes adhered to the surfaces of the carbon fiber cloth and the fluff surfaces of the carbon fiber cloth.

2. The micro-current muscle stimulator of claim 1, wherein:

the micro-pulse signal generated by the micro-pulse signal generator is a micro-pulse signal with the amplitude of 60Vpp, the frequency of 45 Hz-120 Hz and the duration of 60 ms-140 ms.

3. The micro-current muscle stimulator of claim 1, wherein:

the power supply includes a DC 3.7V rechargeable battery and a charging circuit.

4. The micro-current muscle stimulator of claim 1, wherein:

the working state indicating and reminding circuit comprises an indicator light.

5. The micro-current muscle stimulator of claim 1, wherein:

the working state indicating and reminding circuit further comprises a buzzer.

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