CN105747293A - Microcurrent breast pad - Google Patents

Abstract

The invention relates to a microcurrent breast pad.The microcurrent breast pad comprises a breast pad body capable of conducting electricity and at least one microcurrent power source arranged on the breast pad body.The microcurrent power sources are arranged on the breast pad body; when the breast pad is in use, the microcurrent power sources and the human breasts form microcurrent; under the effect of the microcurrent, blood circulation of the breasts is improved, the effect of preventing hyperplasia of mammary glands is achieved, related acupuncture points of the breasts can be massaged, and the effect of health care of the breasts or breast enlarging is achieved; furthermore, positive and negative electrodes of the microcurrent power sources are led out of bus bars, uniform distribution of electric potential on the breast pad body is achieved, and then uniform distribution of the microcurrent covering the breasts is achieved, so that blood circulation and acupuncture points of the breasts are uniformly stimulated, and the effect of comprehensive health care of the breasts is achieved.

Description

Micro-current chest pad

Technical Field

The invention belongs to the field of clothes design, particularly relates to a micro-current chest pad, and particularly relates to a chest pad capable of generating micro-current, wherein the chest pad can be fixed or designed on underwear as required, so that a wearer can achieve the effects of massaging, breast enlarging, breast agglomeration prevention and the like.

Background

The udder is an important organ in the female mammal's offspring. Hyperplasia of mammary glands refers to hyperplasia of mammary epithelium and fibrous tissue, degenerative changes of mammary tissue ducts and mammary lobules in structure, and progressive growth of connective tissue.

The prior art has a breast beautifying device capable of releasing micro-current, or called breast collateral comb, can stimulate the blood circulation of breasts through micro-current to achieve the effects of breast enlargement and health care, but cannot be carried about, and has short use time and inconvenience.

CN101648052 and CN101732794 disclose massage breast pads with micro-current, which have controllers with positive and negative electrodes, the positive and negative electrodes of the controller are respectively connected to the two breast pads or the unified body breast pad, but the current distribution is very uneven, which affects the use effect.

There is a need in the art to develop a breast pad using micro-current, which can make full use of the action of micro-current, so that the breast can be completely cleaned and the absorption of nutrients can be completely performed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the micro-current chest pad, which can uniformly distribute micro-current on the covered chest, increase the blood circulation of the chest, promote the acupuncture point massage, prevent the increase of the number of the mammary glands and relieve the mild hyperplasia of the mammary glands.

The invention aims to be realized by the following technical scheme:

the micro-current chest pad comprises a conductive chest pad body and at least one micro-current power supply arranged on the chest pad body.

The micro-current power supply arranged on the chest pad body can be understood as being internally arranged or externally connected.

Preferably, the micro-current power supply comprises any 1 or at least 2 combinations of paper batteries, lithium batteries and external power supplies; the micro-current power supply voltage is not higher than 36V, such as 1.5V, 3V, 3.7V, 4.5V, 6V, 7.4V, 12V, 24V, 36V and the like, and preferably the micro-current power supply voltage is not higher than 12V, such as 1.5V, 3V, 3.7V, 4.5V, 6V, 7.4V, 12V and the like; and the micro-current formed is < 10mA, preferably < 5 mA.

The output voltage of the external power supply (similar to the charging plug of various chargers) is not higher than 36V, such as 1.5V, 3V, 4.5V, 6V, 12V, 24V, 36V, and the like, and the output voltage of the preferred external power supply is not higher than 12V, such as 1.5V, 3V, 4.5V, 6V, 12V, and the like; and the micro-current formed is < 10mA, preferably < 5 mA.

The micro-current chest pad can be a combination of at least 2 micro-current power supplies, for example, an external power supply is arranged on the premise of arranging a paper battery or a lithium battery, and the micro-current chest pad can be directly plugged for use on the premise of arranging an external power supply socket.

Preferably, the micro-current power supply is a micro-current power supply having a switch.

Preferably, the micro-current power source is a paper battery.

It will be appreciated by those skilled in the art that before the micro-current chest pad is used, the positive and negative poles of the micro-current power supply should be open-circuited to avoid discharging current, for example when the micro-current power supply is a paper battery, the positive and/or negative pole of the paper battery is provided with a detachable isolating layer for isolating the positive and/or negative pole of the paper battery from the chest pad body before the micro-current chest pad is used.

Preferably, when the micro-current power supply is a built-in power supply, the chest pad is provided with a detachable protective sleeve for fixing, replacing or detaching the micro-current power supply when needed.

Preferably, the removable sheath comprises a self-adhesive cloth.

Preferably, the chest pad body is further provided with a positive conductive strip and/or a negative conductive strip; one end of the positive conductive bar is connected with the positive electrode of the micro-current power supply, and the other end of the positive conductive bar is suspended; one end of the negative conductive bar is connected with the negative electrode of the micro-current power supply, and the other end of the negative conductive bar is suspended.

In the invention, the positive conductive strip and the negative conductive strip can be understood as a positive extension line and a negative extension line, the conductive strips are selected from conductors with very small resistance, the resistance is far smaller than the internal resistance of the battery and almost negligible, and is equal to the positive electrode and the negative electrode of the battery, and the conductive strips play a role of uniformly distributing the potential of the micro-current power supply on the chest pad body.

Preferably, the positive conductive strips and the negative conductive strips are arranged at intervals.

Preferably, the spacing distance between the positive conductive strips and the negative conductive strips is the same.

Preferably, the positive conductive strips are sequentially arranged around the periphery of a first set point in sequence; the negative conductive strips are sequentially arranged around a second set point around the periphery of the second set point; and the positive conductive strips and the negative conductive strips are arranged side by side so as to enable the positive and negative strips to be arranged at intervals.

Preferably, each of the positive conductive strip and the negative conductive strip is independently selected from any 1 of a square spiral line, a circular spiral line, a triangular spiral line or a diamond spiral line.

Preferably, at least 2 micro-current power supplies are arranged on the chest pad body, each micro-current power supply is optionally connected with a positive conductive strip and/or a negative conductive strip, and the positive conductive strips and the negative conductive strips are arranged at intervals.

Preferably, the adjacent positive conductive strips and the adjacent negative conductive strips are distributed in a centrosymmetric manner or in an axisymmetric manner.

Preferably, at least 2 micro-current power supplies are arranged on the breast pad body, each micro-current power supply is optionally connected with a positive conductive strip and/or a negative conductive strip, the suspension ends of the positive conductive strips and the negative conductive strips are arranged at intervals, and the included angles between the suspension ends of the adjacent positive conductive strips and the suspension ends of the negative conductive strips and the connecting line of the circle center of the breast pad body are not less than 60 degrees.

Preferably, the positive electrode of the micro-current power supply is arranged at the center of the chest pad body, and the negative electrode of the micro-current power supply is connected with the negative electrode conductive strip and is distributed on the edge of the chest pad body in a circular shape; or,

the negative pole of little current power supply sets up in the center of chest pad body, anodal conducting strip is connected to little current power supply's positive pole, distributes in chest pad body edge in a ring form.

Preferably, the shape of anodal busbar and negative pole busbar is the comb shape, and the broach of anodal busbar is placed in the broach clearance of negative pole busbar.

Preferably, a sensor and a chip are further arranged on the chest pad body and used for collecting skin information.

The sensor can be connected with a mobile phone APP to monitor skin and body conditions.

Preferably, the body of the chest pad is also impregnated or coated with a chest pad nutrient.

Preferably, the distance between the positive electrode of the micro-current battery, the distance between the negative electrode of the micro-current battery, the positive electrode conductive strip and the negative electrode conductive strip and the edge of the chest pad are respectively and independently selected from 0.5-5 cm.

Preferably, the body of the breast pad contains flexible conductive fibers.

Preferably, the flexible conductive fibers are selected from any 1 or a combination of at least 2 of silver fibers, graphene composite fibers or carbon fibers.

Further preferably, the chest pad body is formed by blending graphene composite fibers and carbon fibers.

Preferably, each of the positive conductive strip and the negative conductive strip is independently selected from any 1 or at least 2 combinations of conductive fibers, conductive metal wires, conductive metal sheets, conductive metal strips or conductive paste.

Preferably, the conductive fiber is any 1 or a combination of at least 2 of carbon fiber, graphene fiber and graphene composite fiber.

When the conductive fiber is a biomass graphene oxide composite fiber or the chest pad body is compounded with biomass graphene, the microcurrent chest pad has a far infrared function.

Preferably, the positive conductive strip and the negative conductive strip are printed or brushed independently by conductive paste.

The preparation method of the micro-current chest pad provided by the invention typically but not limitatively comprises the following steps:

(1) preparing a sheet material of the chest pad body;

(2) cutting the material of the breast pad body obtained in the step (1) according to a set shape to obtain a breast pad body;

(3) and attaching a micro-current power supply or the anode and the cathode of the micro-current power supply to the chest pad body to obtain the micro-current chest pad.

The micro-current chest pad prepared at this time has no positive conductive strip and no negative conductive strip.

Optionally, step (3') is performed before step (3) to form the positive conductive strip and/or the negative conductive strip on the breast pad body. After step (3'), the resulting microcurrent breast pad has a positive conducting strip and/or a negative conducting strip.

One of the preparation methods of the material of the sheet layer of the chest pad body can be as follows: and mixing the graphene with the fiber master batch, and performing electrostatic spinning to obtain the graphene fiber.

Or,

the second preparation method of the sheet material of the chest pad body comprises the following steps: the method comprises the steps of mixing graphene and fiber master batches, carrying out melt spinning to obtain graphene composite fibers, and then blending the graphene composite fibers with fibers which are not compounded with graphene and can be obtained in any of the prior art.

Or,

the third preparation method of the material of the sheet layer of the chest pad body comprises the following steps: the method comprises the steps of mixing graphene with a cellulose spinning solution, spinning to obtain graphene composite fibers, and then blending the graphene composite fibers with fibers which are not compounded with graphene and can be obtained in any of the prior art.

The main body of the breast pad is made of fiber by spinning, or made of fiber into non-woven fabric, actually, the main body of the breast pad is often made of non-woven fabric.

Or,

the fourth preparation method of the sheet material of the chest pad body comprises the following steps: the polyurethane material is foamed and pressed into the required shape of the chest pad, and then the side of the chest pad close to the skin is coated with a conductive layer.

Or,

the fifth preparation method of the sheet material of the chest pad body comprises the following steps: the latex material is foamed and pressed into a required shape of the chest pad, and then the side, close to the skin, of the chest pad is coated with a conductive layer.

In the fourth and fifth preparation methods, the conductive layer is coated to form the conductive breast pad body, and the material and form of the coated conductive layer are not limited, but any raw material used should meet the national requirements.

The method for attaching the micro-current power supply or the anode and the cathode of the micro-current power supply to the chest pad body is attachment through a binder or attachment in other fixing modes in the prior art. When little current power supply is paper battery or lithium cell, its volume ratio is less, can be directly with the power laminating on the chest pad body. When the micro-current power supply is an external power supply, the micro-current power supply can be directly attached to only the anode and the cathode of the power supply, and the external power supply is inserted in the using process.

Preferably, the conductive paste is conductive silver paste.

The invention also provides a garment containing the micro-current chest pad.

Preferably, the garment is a body-worn garment, preferably any 1 of a body-worn sling, vest, tights, pajamas, bra or corsage.

Preferably, the breast pad is arranged at least at a position of the garment corresponding to a breast, preferably at least at a lower part of the breast.

Optionally, in the clothing, the chest pad is detachably arranged on the clothing or fixedly arranged on the clothing in an integrated manner.

As will be appreciated by those skilled in the art, for garments containing the micro-current breast pad of the present invention, the micro-current breast pad of the present invention may be sewn/bonded as a unit to the skin-proximal side of the garment during the garment manufacturing process; the micro-current power supply can be attached to the formed clothes in an attaching mode and/or the conductive strips can be arranged in an attaching and printing mode; a chest pad holding pocket may also be provided on the garment for securing the chest pad of the present invention in a particular position.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the micro-current power supply is arranged on the chest pad base body, when the chest pad is used, the micro-current power supply and the chest of a human body form micro-current to form micro-current, under the action of the micro-current, the blood circulation of the chest is increased, the effect of preventing hyperplasia of mammary glands is achieved, the effect of massaging relevant acupuncture points of the chest is achieved, and the effect of protecting the chest or enlarging the chest is achieved;

furthermore, the invention realizes the uniform distribution of the electric potential on the chest pad body by leading out the conductive strips from the positive electrode and the negative electrode of the micro-current power supply, thereby realizing the uniform distribution of the micro-current on the covered chest, and further achieving the effects of uniformly stimulating the blood circulation and acupuncture points of the chest and comprehensively protecting the chest.

Furthermore, the chest pad is also impregnated or coated with the nutrient substances of the chest pad, and the distribution of micro-current not only can uniformly stimulate the blood circulation of the chest and the acupuncture points, but also can enlarge pores and promote the nutrient substances to move into the body, thereby promoting the absorption of the nutrient substances and playing a role of skin care.

Drawings

FIG. 1 shows a schematic diagram of an embodiment with a microcurrent power supply;

FIG. 2 is a cross-sectional view of the internal structure of circle B1 of FIG. 1;

FIG. 3 shows a schematic structural view of an embodiment with a removable sheath;

FIG. 4 is a cross-sectional view of the internal structure of circle B2 of FIG. 3;

fig. 5 is a schematic structural diagram of positive conductive strip 300 and negative conductive strip 400 in embodiment 1, which are circular spirals;

fig. 6 is a schematic structural diagram of positive conductive strip 300 and negative conductive strip 400 in the embodiment 1, which are square spirals;

fig. 7 is a schematic structural diagram of the positive electrode conductive strip 300 and the negative electrode conductive strip 400 in embodiment 2, which are long strips;

fig. 8 is a schematic structural diagram of the positive conductive strip 300 and the negative conductive strip 400 in the embodiment 2 with arc shapes;

fig. 9 is a schematic structural diagram of the positive conductive strip 300 and the negative conductive strip 400 in a wavy shape in embodiment 2;

FIG. 10 is a schematic view showing the structure of a wig cap according to example 3;

FIG. 11 is a schematic view showing the structure of the wig cap of example 4;

FIG. 12 is a schematic view showing the structure of the wig cap of example 5.

Wherein, 100-the chest pad body, 200-the micro-current battery, 300-the positive conductive strip, 400-the negative conductive strip, 500 can dismantle the sheath.

Detailed Description

For the purpose of facilitating an understanding of the present invention, the present invention will now be described by way of examples. It should be understood by those skilled in the art that the examples are only for the understanding of the present invention and should not be construed as the specific limitations of the present invention.

The invention provides a micro-current chest pad, which comprises a chest pad body 100 capable of conducting electricity and at least one micro-current power supply 200 arranged on the chest pad body 100. (fig. 1 is a schematic structural view showing an embodiment having a micro-current power supply, fig. 1 is a schematic front view, and fig. 2 is a cross-sectional view showing an internal structure of a circle B1 in fig. 1).

The micro-current power supply 200 has a positive electrode and a negative electrode, and the positive electrode and the negative electrode of the micro-current power supply 200 can be arranged on the same side of the chest pad body 100, such as on the side of the chest pad body 100 away from the skin, or on the side of the chest pad body 100 close to the skin; or, the positive electrode and the negative electrode of the micro-current power supply 200 are disposed on different sides of the chest pad body 100, for example, the positive electrode of the micro-current power supply 200 is disposed on one side of the chest pad body 100 close to the skin, and the negative electrode is disposed on one side of the chest pad body 100 far from the skin, or the positive electrode of the micro-current power supply 200 is disposed on one side of the chest pad body 100 far from the skin, and the negative electrode is disposed on one side of the chest pad body close to the skin.

Preferably, the micro current power supply 200 includes any 1 or at least 2 combinations of paper batteries, lithium batteries, and external power sources.

Preferably, the micro-current power supply is a micro-current power supply having a switch.

Preferably, the micro-current power supply 100 is a paper battery.

The paper battery is a battery using paper as a carrier, or a battery made by making each part of the battery into a paper form, and can be folded. When selecting the paper battery as little current power, it can be crooked together with the chest pad body, and does not influence the current transport when using. Any paper battery available to those skilled in the art can be used in the present invention.

It will be understood by those skilled in the art that before the micro-current chest pad is used, the positive and negative electrodes of the micro-current power supply 200 should be disconnected to avoid discharging current, for example, when the micro-current power supply 200 is a paper battery, the positive and negative electrodes of the paper battery are provided with isolating layers for isolating the positive and/or negative electrodes of the paper battery from the chest pad body 100.

Preferably, when the micro-current power supply 200 is a paper battery, the positive electrode and the negative electrode of the paper battery are provided with detachable isolation layers for isolating the positive electrode and/or the negative electrode of the paper battery from the chest pad body before the micro-current chest pad is used.

Preferably, when the micro-current power supply 200 is a built-in power supply, the breast pad is provided with a detachable protective sleeve 500 for fixing, replacing or detaching the micro-current power supply 200 when necessary.

Preferably, the removable sheath 500 comprises a self-adhesive cloth.

(FIG. 3 shows a schematic structural view of an embodiment with a detachable sheath, and FIG. 4 is a sectional view of the internal structure of circle B2 in FIG. 3).

As a specific embodiment, the chest pad body 100 is further provided with a positive conductive strip 300 and/or a negative conductive strip 400; one end of the positive conductive bar 300 is connected with the positive electrode of the micro-current power supply 200, and the other end is suspended; one end of the negative conductive strip 400 is connected to the negative electrode of the micro-current power supply 200, and the other end is suspended.

It should also be apparent to those skilled in the art that any raw material used in the micro-current breast pad of the present invention should meet the national requirements.

Preferably, the positive conductive strips 300 and the negative conductive strips 400 are arranged at intervals.

It should be understood by those skilled in the art that the micro-current chest pad of the present invention should not be too large in current and should be within the safe current of the human body, preferably within 10 mA. The size of the micro-current can be adjusted by adjusting the resistance of the chest pad body and/or the voltage of the micro-current power supply by a person skilled in the art, specifically by an equation of I ═ U/R, where I is the current size, U is the voltage size, and R is the resistance size.

The materials of the positive conductive strip 300 and the negative conductive strip 400 of the micro-current power supply are selected from conductors which are far smaller than other resistors in a current loop formed by a chest pad body, human skin and the like, enough to enable the potentials on the positive conductive strip 300 and the negative conductive strip 400 to be basically the same, the positive conductive strip can be equivalent to a power supply extension line of the micro-current power supply 200, and the negative conductive strip can be equivalent to a negative extension line of the micro-current power supply 200.

It should be understood by anyone skilled in the art that the breast pad can be configured in different structures, such as a circle, a circular ring, a semicircle, a semi-circle, a crescent, etc., all the drawings of the present invention are schematic structural diagrams, wherein the exposed areas of the difference of the shapes are not shown, and those skilled in the art can modify the conductive strips on the body of the breast pad into any arrangement suitable for the shapes according to actual situations, and need to ensure that the positive conductive strips 300 and the negative conductive strips 400 are not cut off.

The invention also provides a garment containing the micro-current chest pad.

Preferably, the garment is a body-worn garment, preferably any 1 of a body-worn sling, vest, tights, pajamas, bra or corsage.

Preferably, the breast pad is arranged at least at a position of the garment corresponding to a breast, preferably at least at a lower part of the breast.

In the clothes with the micro-current chest pad provided by the invention, the fixing mode of the micro-current chest pad is not limited.

Optionally, in the clothing, the chest pad is detachably arranged on the clothing or fixedly arranged on the clothing in an integrated manner.

The micro-current chest pad can be detachably fixed on clothes through self-adhesive cloth, and even a user can fix the micro-current chest pad at any position according to the body condition of the user.

In the clothes with the micro-current chest pads, the number of the micro-current chest pads is not particularly limited, and only 1, 2, 3 or 4 micro-current chest pads can be arranged according to requirements.

Example 1

A micro-current chest pad comprises a chest pad body 100, a micro-current power supply 200 arranged on the chest pad body 100, a positive conductive strip 300 connected with the positive electrode of the micro-current power supply 200 and a negative conductive strip 400 connected with the negative electrode of the micro-current power supply 200; the positive conductive strips 300 are sequentially arranged around the first set point around the periphery of the first set point; the negative conductive strips 400 are sequentially arranged around a second set point around the periphery of the second set point; and the positive conductive strip 300 and the negative conductive strip 400 are arranged side by side so that the positive and negative electrodes are arranged at intervals.

In embodiment 1, the positive conductive strip 300 and the negative conductive strip 400 may be two circular spirals arranged side by side (as shown in fig. 5), or two square spirals arranged side by side (as shown in fig. 6), or two triangular spirals or diamonds arranged side by side. It should be understood by those skilled in the art that the specific shape of the spiral line is not limited to the illustrated embodiments of the present invention, and any wiring capable of realizing the spaced arrangement of the positive electrode and the negative electrode can be used in the present invention, and the rotation directions of the spiral lines of the positive electrode conductive strip 300 and the negative electrode conductive strip 400 can be the same or different, that is, the positive electrode conductive strip 300 and the negative electrode conductive strip 400 can be spiral in the same direction or spiral in opposite directions.

In embodiment 1, the positive and negative spacing distances of the positive conductive strip 300 and the negative conductive strip 400 are the same.

In embodiment 1, the first set point and the second set point may be the same or different.

In embodiment 1, the positive electrode of the micro-current power supply 200 can be connected to any end of the positive conductive strip 300, and the negative electrode of the micro-current power supply 200 can be connected to any end of the negative conductive strip 400.

It should be understood by those skilled in the art that fig. 5 and 6 are only schematic structures, and the specific shapes of the spiral lines of the positive conductive strip 300 and the negative conductive strip 400 may not be regular circles, squares, triangles or crescent shapes, and may be any shapes suitable for the shape of the breast pad.

Example 2

A micro-current chest pad comprises a chest pad body 100, a first micro-current power supply 201 and a second micro-current power supply 202 which are arranged on the chest pad body 100, a first positive conducting strip 301 connected with the positive electrode of the first micro-current power supply 201, a first negative conducting strip 401 connected with the negative electrode of the first micro-current power supply 201, a second positive conducting strip 302 connected with the positive electrode of the second micro-current power supply 202, and a second negative conducting strip 402 connected with the negative electrode of the second micro-current power supply 202; the conductive strips are arranged at intervals, such as a first positive conductive strip 301, a first negative conductive strip 401, a second positive conductive strip 302 and a second negative conductive strip 402 from left to right.

In embodiment 2, the shapes of first positive conductive strip 301, first negative conductive strip 401, second positive conductive strip 302, and second negative conductive strip 402 are not particularly limited, and may be a long strip (as shown in fig. 7), an arc (as shown in fig. 8), or a wave (as shown in fig. 9).

In embodiment 2, the adjacent positive conductive strips and the adjacent negative conductive strips are distributed in an axisymmetric or point-symmetric manner.

In embodiment 2, only one micro-current power supply may be provided, and at least 2 conductive strips are led out from the positive electrode and the negative electrode, respectively, and the conductive strips need positive and negative intervals.

In embodiment 1, the positive and negative spacing distances of the positive conductive strip 300 and the negative conductive strip 400 are the same.

It should be understood by those skilled in the art that fig. 7, 8 and 9 are only schematic structures, and the specific shapes of the positive conductive strip 300 and the negative conductive strip 400 may not be regular stripes, arcs or waves, and may be any shapes suitable for the shape of the breast pad.

Example 3

A micro-current chest pad comprises a chest pad body 100, a first micro-current power supply 201 and a second micro-current power supply 202 which are arranged on the chest pad body 100, a first positive conducting strip 301 connected with the positive electrode of the first micro-current power supply 201, a first negative conducting strip 401 connected with the negative electrode of the first micro-current power supply 201, a second positive conducting strip 302 connected with the positive electrode of the second micro-current power supply 202, and a second negative conducting strip 402 connected with the negative electrode of the second micro-current power supply 202; the suspension ends of the conductive strips are arranged at positive and negative intervals, and the included angles between the suspension ends of the conductive strips and the connecting line of the circle center of the breast pad body are all larger than or equal to 60 degrees, such as 65 degrees, 70 degrees, 75 degrees, 80 degrees, 85 degrees, 90 degrees, 98 degrees, 110 degrees, 130 degrees, 150 degrees, 180 degrees and the like (as shown in fig. 10).

Example 4

The utility model provides a little current chest pad, includes chest pad body 100, sets up little current power supply 200 on chest pad body 100, little current power supply 200's positive pole sets up the central point at chest pad body 100 and puts, little current power supply 200's negative pole passes through wire 403 and connects negative pole electric conductor 400, negative pole electric conductor 400 is a ring form (as shown in fig. 11) along the edge of chest pad body 100, it is insulating between wire 403 and the chest pad body 100, if can set up the insulating layer in wire 403 outer layer.

In embodiment 4, the positive electrode and the negative electrode can be exchanged with each other, that is, the negative electrode of the micro-current power supply 200 is disposed at the center of the breast pad body 100, and the positive electrode of the micro-current power supply 200 is connected to the lead 403 and is in a circular shape along the edge of the breast pad body 100.

Example 5

A micro-current chest pad comprises a chest pad body 100, a micro-current power supply 200 arranged on the chest pad body 100, a positive conductive strip 300 connected with the positive electrode of the micro-current power supply 200 and a negative conductive strip 400 connected with the negative electrode of the micro-current power supply 200; the positive conductive strip 300 and the negative conductive strip 400 are both comb-shaped, and the comb teeth of the positive conductive strip 300 are placed in the comb tooth gaps of the negative conductive strip 400.

In the micro-current chest pad, the distances between the positive electrode of the micro-current battery, the negative electrode of the micro-current battery, the positive conductive strip and the negative conductive strip and the edge of the chest pad are respectively and independently selected from 0.5-5 cm, such as 0.6cm, 0.7cm, 0.8cm, 1.1cm, 1.6cm, 1.9cm, 2.3cm, 2.8cm, 3.5cm, 4,3cm, 4.8cm and the like.

In the micro-current chest pad, the chest pad body contains flexible conductive fibers; the flexible conductive fiber is preferably selected from any 1 or a combination of at least 2 of silver fiber, graphene composite fiber or carbon fiber. In a preferred embodiment, the breast pad body is formed by blending graphene composite fibers and carbon fibers.

In the micro-current chest pad, the positive conductive strip and the negative conductive strip are respectively and independently selected from any 1 or at least 2 combinations of conductive fibers, conductive metal wires, conductive metal sheets, conductive metal strips or conductive paste; the conductive fiber is preferably any 1 or a combination of at least 2 of carbon fiber, graphene fiber and graphene composite fiber; the positive conductive strip and the negative conductive strip are respectively and independently formed by printing or brushing conductive paste; the conductive paste is preferably conductive silver paste. The metal elements of the conductive metal wires, the conductive metal sheets and the conductive metal strips are preferably conductive metals such as metallic silver or copper.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The micro-current chest pad is characterized by comprising a conductive chest pad body and at least one micro-current power supply arranged on the chest pad body.

2. The micro-current chest pad according to claim 1 wherein said micro-current power source comprises any 1 or a combination of at least 2 of paper batteries, lithium batteries, external power sources;

preferably, the micro-current power supply is a micro-current power supply with a switch;

preferably, the micro-current power supply is a paper battery;

preferably, when the micro-current power supply is a paper battery, the positive electrode and/or the negative electrode of the paper battery is/are provided with a detachable isolating layer for isolating the positive electrode and/or the negative electrode of the paper battery from the breast pad body;

preferably, when the micro-current power supply is a built-in power supply, the chest pad is provided with a detachable protective sleeve for fixing, replacing or detaching the micro-current power supply when needed;

preferably, the removable sheath comprises a self-adhesive cloth;

preferably, the chest pad body is further provided with a positive conductive strip and/or a negative conductive strip; one end of the positive conductive bar is connected with the positive electrode of the micro-current power supply, and the other end of the positive conductive bar is suspended; one end of the negative conductive bar is connected with the negative electrode of the micro-current power supply, and the other end of the negative conductive bar is suspended.

3. The micro-current chest pad according to claim 2 wherein said positive conductive strips and said negative conductive strips are spaced apart;

preferably, the spacing distance between the positive conductive strips and the negative conductive strips is the same.

4. The micro-current chest pad of claim 3 wherein said positive conductive strips are sequentially arranged circumferentially around a first set point; the negative conductive strips are sequentially arranged around a second set point around the periphery of the second set point; the positive conductive strips and the negative conductive strips are arranged side by side so as to enable the positive conductive strips and the negative conductive strips to be arranged at intervals;

preferably, each of the positive conductive strip and the negative conductive strip is independently selected from any 1 of a square spiral line, a circular spiral line, a triangular spiral line or a diamond spiral line.

5. The micro-current chest pad according to claim 1, wherein at least 2 micro-current power supplies are arranged on the chest pad body, each micro-current power supply is optionally connected with a positive conductive strip and/or a negative conductive strip, and the positive conductive strips and the negative conductive strips are arranged at intervals;

preferably, the adjacent positive conductive strips and the adjacent negative conductive strips are distributed in a centrosymmetric manner or in an axisymmetric manner.

6. The micro-current breast pad as claimed in claim 1, wherein at least 2 micro-current power supplies are arranged on the breast pad body, each micro-current power supply is optionally connected with a positive conductive strip and/or a negative conductive strip, the suspension ends of the positive conductive strips and the negative conductive strips are arranged at intervals, and the included angles between the suspension ends of the adjacent positive conductive strips and the suspension ends of the negative conductive strips and the connecting line of the center of the breast pad body are both greater than or equal to 60 °.

7. The micro-current chest pad according to claim 1, wherein the positive electrode of the micro-current power supply is arranged at the center of the chest pad body, and the negative electrode of the micro-current power supply is connected with the negative conductive strip and is distributed on the edge of the chest pad body in a circular shape; or,

the negative electrode of the micro-current power supply is arranged at the center of the chest pad body, and the positive electrode of the micro-current power supply is connected with the positive conductive strip and is distributed on the edge of the chest pad body in a circular ring shape;

or, the shape of anodal busbar and negative pole busbar is the comb shape, and the broach of anodal busbar is placed in the broach clearance of negative pole busbar.

8. The micro-current chest pad according to any one of claims 1 to 7, wherein the chest pad body is further provided with a sensor and a chip for collecting skin information;

preferably, the body of the chest pad is also impregnated or coated with a chest pad nutrient.

9. The micro-current chest pad according to any one of claims 1 to 7, wherein the distance between the positive electrode of the micro-current battery, the negative electrode of the micro-current battery, the positive conductive strip and the negative conductive strip and the edge of the chest pad is independently selected from 0.5 to 5 cm;

preferably, the chest pad body contains flexible conductive fibers, or the surface of the chest pad body is coated with a conductive layer;

preferably, the flexible conductive fibers are selected from any 1 or a combination of at least 2 of silver fibers, graphene composite fibers or carbon fibers;

further preferably, the chest pad body is formed by blending graphene composite fibers and carbon fibers;

the positive conductive strip and the negative conductive strip are respectively and independently selected from any 1 or at least 2 combinations of conductive fibers, conductive metal wires, conductive metal sheets, conductive metal strips or conductive paste;

preferably, the conductive fiber is any 1 or a combination of at least 2 of carbon fiber, graphene fiber and graphene composite fiber;

preferably, the positive conductive strip and the negative conductive strip are printed or brushed independently by conductive paste;

preferably, the conductive paste is conductive silver adhesive;

preferably, the chest pad is any 1 of circular, semicircular or crescent-shaped.

10. A garment comprising the micro-current chest pad of any one of claims 1 to 9;

preferably, the garment is a close-fitting garment, preferably any 1 of a close-fitting sling, vest, tights, pajamas, bra or corsage;

preferably, the breast pad is arranged at least at a position of the garment corresponding to a breast, preferably at least at a lower part of the breast;

optionally, in the clothing, the chest pad is detachably arranged on the clothing or fixedly arranged on the clothing in an integrated manner.