CN212491156U - Skin stem cell growth stimulation film patch - Google Patents

Abstract

The utility model discloses a skin stem cell growth stimulation film paster, bear the lower surface of insulating layer perhaps be provided with electromagnetic field generating structure in bearing the insulating layer, electromagnetic field generating structure is connected with power module's positive pole and negative pole electricity respectively be provided with positive electrode piece and negative electrode piece around the electromagnetic field generating structure, its respectively with power module's positive pole and negative pole electricity are connected. The lower surface of the bearing insulating layer or the electromagnetic field generating structure capable of generating a magnetic field is arranged in the lower surface of the bearing insulating layer, and meanwhile, the positive electrode plate and the negative electrode plate are arranged at the periphery of the bearing insulating layer, so that weak current can be generated along the surface of the skin, and the growth of skin stem cells can be stimulated under the dual stimulation of the magnetic field and the current, so that the wound can be effectively and easily healed and/or skin wrinkles can be reduced.

Description

Skin stem cell growth stimulation film patch

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to skin stem cell growth stimulation film paster.

Background

Clinically, wounds are not easy to heal after being formed on the skin surface of many patients, and then various skin problems are caused, such as diabetes patients, which are easy to rise due to blood fat indexes, so that blood vessels are hardened and blocked, blood flowing to the whole body is insufficient, blood circulation dysfunction is caused, and finally, blood at the position of the skin, which is farthest from the heart, is not easy to reach, and the wounds are difficult to heal. In contrast, the conventional band-aid has a certain therapeutic effect on wounds or wounds, but the promoting effect on wound healing is not good enough_。For another example, with age, the number of new cells in the human body is gradually reduced, the activity of cells in the human body is also reduced, the skin aging is prominent, and the symptoms of dry, rough, loose, elastic reduction, increase and deepening of wrinkles and the like are shown. Therefore, in order to solve the above problems, people generally take various highly targeted drugs or use a skin-stimulating method or device, but the existing methods and devices such as the above methods and devices cannot easily and conveniently achieve the healing of skin wounds and/or skin wrinkles.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a skin stem cell growth stimulation film paster, it is including bearing the insulating layer, bear the lower surface of insulating layer perhaps be provided with electromagnetic field generating structure in bearing the insulating layer, electromagnetic field generating structure is connected with power module's positive pole and negative pole electricity respectively be provided with positive electrode piece and negative electrode piece around electromagnetic field generating structure, its respectively with power module's positive pole and negative pole electricity are connected.

Further, the electromagnetic field generating structure further comprises a protective layer, wherein the protective layer is arranged below the positive electrode sheet, the negative electrode sheet and the electromagnetic field generating structure.

Further, the protective layer comprises a drug layer, wherein the drug layer is arranged below the protective layer or dispersed in the protective layer or part of the protective layer.

Furthermore, a first bonding layer is formed on the lower surface of the bearing insulating layer.

Further, the power module is a solar thin film battery and is arranged on the upper surface of the bearing insulating layer.

The power supply module further comprises a voltage stabilizing circuit module electrically connected with the power supply module, wherein the voltage stabilizing circuit module comprises a current limiting resistor arranged on a lead connected with the anode or the cathode of the solar thin film battery and a voltage stabilizing diode arranged between the leads connected with the anode and the cathode of the solar thin film battery; and the output positive electrode and the output negative electrode of the voltage stabilizing circuit module are respectively and electrically connected with the electromagnetic field generating structure and the positive electrode plate and the negative electrode plate.

Further, a light-transmitting layer is arranged above the solar thin film battery.

Further, the solar thin film battery and the voltage stabilizing circuit module are arranged between the bearing insulating layer and the euphotic layer; and the output positive electrode and the output negative electrode of the voltage stabilizing circuit module penetrate through the bearing insulating layer to be respectively and electrically connected with the electromagnetic field generating structure and the positive electrode plate and the negative electrode plate.

Further, a second bonding layer is arranged between the euphotic layer and the bearing insulating layer.

Further, the thickness between the upper surface of the euphotic layer and the lower surface of the bearing insulating layer is smaller than 1 mm.

The utility model also discloses an application of above-mentioned skin stem cell growth stimulation film paster, it can adhere to and on human skin, produce electric current and magnetic field at human epidermis, come the stimulation skin stem cell growth appreciation and differentiation.

Compared with the prior art, the technical scheme of the utility model have following advantage:

(1) the utility model discloses a skin stem cell growth stimulation film paster, bear the lower surface of insulating layer perhaps be provided with electromagnetic field generating structure in bearing the insulating layer, electromagnetic field generating structure is connected with power module's positive pole and negative pole electricity respectively be provided with positive electrode piece and negative electrode piece around the electromagnetic field generating structure, its respectively with power module's positive pole and negative pole electricity are connected. The lower surface of the bearing insulating layer or the electromagnetic field generating structure capable of generating a magnetic field is arranged in the lower surface of the bearing insulating layer, and meanwhile, the positive electrode plate and the negative electrode plate are arranged at the periphery of the bearing insulating layer, so that weak current can be generated along the surface of the skin, and the skin stem cell growth can be stimulated under the double stimulation of the magnetic field and the current, so that the wound can be effectively and easily healed and/or the skin wrinkles can be reduced.

(2) The utility model discloses a skin stem cell growth stimulation film paster, through being provided with the protective layer, the protective layer sets up positive electrode piece and negative electrode piece and the structure's below is taken place to the electromagnetic field, can avoid positive negative electrode piece like this with structure direct contact skin takes place to the electromagnetic field, reduces the amazing or burn of transition to skin.

(3) The utility model discloses a skin stem cell growth stimulation film paster, through protective layer below perhaps be provided with the medicine layer among the protective layer, the medicine layer includes the stem cell extract product at least, under the effect of above-mentioned extract product, can make wound healing and reduce skin wrinkle, and then under the stimulation of electric current and magnetic field to the medicine layer, make wound healing better and further reduce skin wrinkle faster, under three's synergism, can reach the best effect.

(4) The utility model discloses a skin stem cell growth stimulation film paster, it is provided with first tie coat to bear the insulating layer lower surface, can make whole paster integration, and easier attached to skin surface is difficult to drop and the tympanic bulla, makes the effect best.

(5) The utility model discloses a skin stem cell growth stimulating film paster, power module is solar energy film battery, and its thickness is thin to make paster whole thickness not too thick, when the paster adheres to the skin surface, can not make the patient produce oppression sense or bearing sense, the process is comfortable; furthermore, the voltage stabilizing circuit module is arranged to enable the whole power supply module to output stable output voltage and output current, so that the growth of stem cells can be stably stimulated in the process of stimulating the skin, and the effect is optimal; meanwhile, the voltage stabilizing circuit module only uses a current limiting resistor and a voltage stabilizing diode, and the structure is simple; meanwhile, the solar thin-film battery is used, an external power supply is avoided, the patch is completely integrated, energy in the process can be reduced through irradiation of solar energy, energy consumption resources such as batteries are avoided, and the solar thin-film battery is economical and environment-friendly.

(6) The skin stem cell growth stimulation thin film patch of the utility model has the advantages that the upper part of the solar thin film battery is provided with the euphotic layer, so that the damage of foreign objects to the solar thin film battery is reduced; meanwhile, medical staff can operate the solar thin-film battery more easily, and damage to the solar thin-film battery during operation is reduced; furthermore, a second bonding layer is arranged between the euphotic layer and the bearing insulating layer, so that the euphotic layer and the bearing insulating layer are bonded more tightly, and the risks of cracking and bulging are reduced; further, the thickness between the upper surface of the euphotic layer and the lower surface of the bearing insulating layer is controlled to be smaller than 1mm, so that the thickness of the whole patch is as thin as possible, and the comfort degree of the skin surface of a human body is the highest when the patch is attached to the skin surface.

(7) The utility model discloses a skin stem cell growth stimulation film paster, at the wound healing in-process, the growth factor that skin stem cell excreted plays important role, and proper electromagnetic stimulation can assist growth factor's regulatory action, promotes skin stem cell's hyperplasia and differentiation, and the biological effect of performance to promote the healing of wound.

(8) The skin stem cell growth stimulating film paster of the utility model can activate the skin stem cells, and can generate collagen to resist the wrinkles of the skin through differentiation; the skin stem cells secrete abundant cytokines to promote cell regeneration, improve local microenvironment, repair, activate, replace and supplement aging-deficient cells, so that the effects of resisting skin wrinkles and reducing the problems of dry, rough, loose and reduced elasticity of the skin are achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a layered structure of a skin stem cell growth stimulating thin film patch according to the present invention;

FIG. 2 is a schematic structural diagram of a layered structure of a skin stem cell growth stimulating thin film patch according to the present invention;

FIG. 3 is a schematic top view of the thin film patch for stimulating the growth of skin stem cells according to the present invention;

the reference numbers in the figures denote: 1-skin; 3-a drug layer; 4-a carrier insulation layer; 5-thin wire; 6-voltage stabilizing circuit module; 7-solar thin film cells; 8-a light-transmitting layer; 9-an electromagnetic field generating structure; 21-positive electrode sheet; 22-a negative electrode sheet; 61-current limiting resistor; 62-a zener diode.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. The embodiments in the present invention, other embodiments obtained by a person of ordinary skill in the art without creative work, all belong to the protection scope of the present invention.

Example 1

As shown in fig. 1, the present embodiment discloses a skin stem cell growth stimulation thin film patch, which includes a supporting insulating layer 4, a sheet-like body, preferably a flexible structure, of the supporting insulating layer 4, and an electromagnetic field generating structure 9 disposed in the lower surface of the supporting insulating layer or the supporting insulating layer 4, where the structure of the electromagnetic field generating structure 9 is not particularly limited, such as a coil, or a structure capable of generating a magnetic field when energized, or a magnetic substance, such as powder, particles, and a mixture containing the above substances, and the specific structure is a flat layer structure containing the above substances, which can be attached to the lower surface of the supporting insulating layer 4 or the structure thereof, and in the present embodiment, the electromagnetic field generating structure 9 is preferably a coil; the electromagnetic field generating structure 9 is electrically connected with the positive electrode and the negative electrode of the power module respectively, a positive electrode sheet 21 and a negative electrode sheet 22 are arranged around the electromagnetic field generating structure 9 and are electrically connected with the positive electrode and the negative electrode of the power module respectively, the power module is preferably a device capable of generating current and voltage which can be borne and treated by human skin, and the specific structure is not limited specifically; the positive electrode sheet 21 and the negative electrode sheet 22 are preferably symmetrically arranged around the electromagnetic field generating structure 9, and the positive electrode sheet 21 and the negative electrode sheet 22 can generate current on the skin surface under the condition of electrifying; the positive electrode sheet 21 and the negative electrode sheet 22 are metal sheets, such as copper sheets.

As a deformation mode, in order to protect the skin, the medical device further includes a protection layer (not shown in the figure), the protection layer is disposed below the positive electrode sheet, the negative electrode sheet and the electromagnetic field generating structure, and the protection layer may be disposed in a whole piece or in a piece for the above structure, and of course, the material of the protection layer is preferably a relatively soft material, such as a flexible film, for example, an absorption pad material in a band-aid.

As a deformation mode, in order to achieve the optimal effect of the stimulation patch, a drug layer 3 is disposed below the protective layer, and more preferably, below the electromagnetic field generating structure 9, the drug layer is disposed at an intermediate position between the positive electrode sheet 21 and the negative electrode sheet 22; or, the medicine layer is dispersed in the protective layer or a part of the protective layer, if the protective layer is an absorbent pad, the protective layer can easily absorb the medicine layer, and at this time, the protective layer can be separated according to whether the medicine is contained or not, so that the absorbent pad containing the medicine is better placed at the corresponding position; the drug layer 3 at least comprises drugs capable of stimulating the growth and/or proliferation of skin stem cells, preferably stem cell extracts, or embryonic stem cell extracts, and the structure of the drug layer 3 is not particularly limited, preferably a flat layer structure, or a flat layer structure formed under pressure, and can be a mixture containing the above drugs; alternatively, it may be in the form of a drug pack, in which case the drug layer 3 is disposed below the protective layer.

As a further modification, a first adhesive layer (not shown) is formed on the lower surface of the insulating carrier layer 4, and the first adhesive layer can fix both the positive and negative electrode plates and the external electromagnetic field generating structure 9, the protective layer and the drug layer, and more importantly, the stimulation patch can be more easily attached to the skin 1, so as to reduce the auxiliary fixation of foreign objects. The structure of the first adhesive layer is not particularly limited, and if the first adhesive layer is spread over the lower surface of the insulating carrier layer 4, the first adhesive layer may be divided into different structures according to the needs.

In this example, the selection of the carrier insulation layer 4 can be selected according to specific situations, such as a flexible silicone sheet, and further such as a medical adhesive tape, and preferably a medical adhesive tape.

Example 2

As shown in fig. 2 and 3, the present embodiment discloses a skin stem cell growth stimulation thin film patch, which includes a supporting insulating layer 4, wherein the supporting insulating layer 4 is a sheet-shaped body, preferably a flexible structure, and has an electrical insulating function, and an electromagnetic field generating structure 9 is disposed on a lower surface of the supporting insulating layer 4 or in the supporting insulating layer 4, the structure of the electromagnetic field generating structure 9 is not particularly limited, such as a coil or a structure capable of generating a magnetic field under a power-on condition or a magnetic substance, such as powder, particles and a mixture containing the above substances, which can generate a magnetic field under a power-on condition, and a specific structure, such as a flat layer structure containing the above substances, which can be attached to the lower surface of the supporting insulating layer 4 or in the structure thereof, in this embodiment, the electromagnetic field generating; the electromagnetic field generating structure 9 is electrically connected with the positive electrode and the negative electrode of the power module respectively, a positive electrode sheet 21 and a negative electrode sheet 22 are arranged around the electromagnetic field generating structure 9 and are electrically connected with the positive electrode and the negative electrode of the power module respectively, and the positive electrode sheet 21 and the negative electrode sheet 22 can generate current on the surface of the skin under the condition of electrifying; the positive electrode sheet 21 and the negative electrode sheet 22 are metal sheets, such as copper sheets; the upper surface of the bearing insulating layer 4 is provided with a power module, the power module preferably selects a thin power supply, the bearing insulating layer 4 at least needs to isolate the thin power supply from the electromagnetic field generating structure 9, in this embodiment, the power module 4 at least comprises a solar thin film battery 7, further, the power module further comprises a voltage stabilizing circuit module 6 connected with the solar thin film battery 7, the structure of the voltage stabilizing circuit module 6 is not particularly limited, and the preferred structure is simple and effective, for example, the voltage stabilizing circuit module 6 comprises a current limiting resistor 61 arranged on a lead connected with the anode or the cathode of the solar thin film battery 7 and a voltage stabilizing diode 62 arranged between leads connected with the anode and the cathode of the solar thin film battery 7; the output positive electrode and the output negative electrode of the voltage stabilizing circuit module 6 are respectively and electrically connected with the electromagnetic field generating structure 9, and are respectively and electrically connected with the positive electrode plate 21 and the negative electrode plate 22, and as for the wires in the circuit, thin wires 5, such as thin enameled wires, are selected. The power supply module is preferably a device capable of generating current and voltage which can be borne and treated by human skin, and the specific structure is not particularly limited; the positive electrode sheet 21 and the negative electrode sheet 22 are preferably symmetrically disposed around the electromagnetic field generating structure 9.

As a deformation mode, in order to protect the skin, the medical device further includes a protection layer (not shown in the figure), the protection layer is disposed below the positive electrode sheet, the negative electrode sheet and the electromagnetic field generating structure, and the protection layer may be disposed in a whole piece or in a piece for the above structure, and of course, the material of the protection layer is preferably a relatively soft material, such as a flexible film, for example, an absorption pad material in a band-aid.

As a deformation mode, in order to achieve the optimal effect of the stimulation patch, a drug layer 3 is disposed below the protective layer, and more preferably, below the electromagnetic field generating structure 9, the drug layer is disposed at an intermediate position between the positive electrode sheet 21 and the negative electrode sheet 22; or, the medicine layer is dispersed in the protective layer or a part of the protective layer, if the protective layer is an absorbent pad, the protective layer can easily absorb the medicine layer, and at this time, the protective layer can be separated according to whether the medicine is contained or not, so that the absorbent pad containing the medicine is better placed at the corresponding position; the drug layer 3 at least comprises drugs capable of stimulating the growth and/or proliferation of skin stem cells, preferably stem cell extracts, or embryonic stem cell extracts, and the structure of the drug layer 3 is not particularly limited, preferably a flat layer structure, or a flat layer structure formed under pressure, and can be a mixture containing the above drugs; alternatively, it may be in the form of a drug pack, in which case the drug layer 3 is disposed below the protective layer.

As a further modification, a first adhesive layer (not shown) is formed on the lower surface of the insulating carrier layer 4, and the first adhesive layer can fix both the positive and negative electrode plates and the external electromagnetic field generating structure 9, the protective layer and the drug layer, and more importantly, the stimulation patch can be more easily attached to the skin 1, so as to reduce the auxiliary fixation of foreign objects. The structure of the first adhesive layer is not particularly limited, and if the first adhesive layer is spread over the lower surface of the insulating carrier layer 4, the first adhesive layer may be divided into different structures according to the needs.

In this example, the selection of the carrier insulation layer 4 can be selected according to specific situations, such as a flexible silicone sheet, and further such as a medical adhesive tape, and preferably a medical adhesive tape.

As a further deformation mode, a light-transmitting layer 8 is arranged above the solar thin film cell 7, and the light-transmitting layer 8 is preferably a flexible thin film; further, the solar thin film battery 7 and the voltage stabilizing circuit module 6 are arranged between the bearing insulating layer 4 and the euphotic layer 8; the output positive electrode and the output negative electrode of the voltage stabilizing circuit module 6 penetrate through the bearing insulating layer 4 to be respectively and electrically connected with the electromagnetic field generating structure 9, and are respectively and electrically connected with the positive electrode sheet 21 and the negative electrode sheet 22; more preferably, the area of the insulating support layer 4 is larger than the area of the light-transmitting layer 8, and at this time, the periphery of the insulating support layer 4 exceeds the periphery of the light-transmitting layer 8; further preferably, a second adhesive layer (not shown in the figure) is disposed between the light-transmitting layer 8 and the insulating support layer 4, the second adhesive layer may be disposed on the lower surface of the light-transmitting layer 8, and may be disposed on the upper surface of the insulating support layer 4, and the area of the second adhesive layer is preferably the same as that of the light-transmitting layer 8, in this case, the structure between the two layers can be further fixed, and the thickness of the patch can be reduced; the structure of the second adhesive layer is not particularly limited,

preferably, the thickness between the upper surface of the light-transmitting layer 8 and the lower surface of the insulating carrier layer 4 is less than 1 mm.

It should be noted that the area of the skin stem cell growth stimulating film patch of the present invention is designed differently according to the use position, wherein the position design of the positive and negative electrode plates and the coil is adjusted according to the specific use position. For example, when the size of the photovoltaic film is 75mm × 20mm, the output power of the photovoltaic film is about 8mW when outdoor light is included at an angle of 30 ° with respect to the normal line of the film, and the open circuit voltage of the photovoltaic film is not higher than 3.5V, wherein the maximum current generated in the current mode will not be higher than 2 mA. The magnetic induction intensity of the static magnetic field at the skin position of the human body in the magnetic field mode is about 10^-7T。

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (9)

1. The skin stem cell growth stimulation thin film patch is characterized by comprising a bearing insulating layer, wherein an electromagnetic field generating structure is arranged on the lower surface of the bearing insulating layer or in the bearing insulating layer and is electrically connected with the positive pole and the negative pole of a power module, and a positive electrode plate and a negative electrode plate are arranged around the electromagnetic field generating structure and are respectively electrically connected with the positive pole and the negative pole of the power module.

2. The skin stem cell growth stimulating thin film patch of claim 1, further comprising a protective layer disposed under the positive and negative electrode sheets and the electromagnetic field generating structure.

3. The skin stem cell growth stimulating film patch of claim 2, further comprising a drug layer disposed below the protective layer or dispersed within or a portion of the protective layer.

4. The skin stem cell growth stimulating membrane patch as claimed in any one of claims 1 to 3, wherein the lower surface of the carrier insulating layer is further formed with a first adhesive layer.

5. The skin stem cell growth stimulating thin film patch of claim 4, wherein the power module is a solar thin film battery disposed on the upper surface of the carrier insulating layer.

6. The skin stem cell growth stimulation thin film patch according to claim 5, wherein the power supply module further comprises a voltage stabilizing circuit module electrically connected thereto, the voltage stabilizing circuit module comprises a current limiting resistor disposed on a lead connected to the positive electrode or the negative electrode of the solar thin film battery and a voltage stabilizing diode disposed between leads connected to the positive electrode and the negative electrode of the solar thin film battery; and the output positive electrode and the output negative electrode of the voltage stabilizing circuit module are respectively and electrically connected with the electromagnetic field generating structure and the positive electrode plate and the negative electrode plate.

7. The skin stem cell growth stimulating thin film patch as claimed in claim 6, wherein a light transmitting layer is disposed above the solar thin film cell.

8. The skin stem cell growth stimulating thin film patch of claim 7, wherein the solar thin film battery and the voltage regulator circuit module are disposed between the carrier insulating layer and the light transmissive layer; and the output positive electrode and the output negative electrode of the voltage stabilizing circuit module penetrate through the bearing insulating layer to be respectively and electrically connected with the electromagnetic field generating structure and the positive electrode plate and the negative electrode plate.

9. The skin stem cell growth stimulating thin film patch as claimed in claim 8, wherein a second adhesive layer is disposed between the light transmitting layer and the carrier insulating layer; the thickness between the upper surface of the euphotic layer and the lower surface of the bearing insulating layer is less than 1 mm.

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