CN215080710U - Heating treatment assembly - Google Patents

Abstract

The utility model discloses a heating treatment component, which belongs to the field of medical care. The fever treatment assembly includes: the heating piece is provided with a heating surface; and the medicine sticks, one side lateral wall of medicine subsides thickness direction connect in the face of generating heat, the opposite side lateral wall is connected with human skin, just the medicine sticks to have the medicine sandwich layer, the medicine sandwich layer has at least one and follows the extension of medicine sticking thickness direction just runs through the first through-hole of medicine sandwich layer. The utility model can accelerate the absorption of the medicine in the medicine patch by the skin of the human body.

Description

Heating treatment assembly

Technical Field

The utility model relates to a medical care field, in particular to treatment of generating heat subassembly.

Background

In the related art, a patch such as a plaster patch or a moxibustion patch promotes the opening of skin pores by heat generated by a heating member such as a heating layer, and accelerates and enhances the transdermal absorption capacity of the skin to medicinal components.

However, such patches have a problem of slow absorption of the drug.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a heating treatment component, aiming at solving the technical problem of slow drug absorption in the prior art.

In order to achieve the above object, the present invention provides a heating treatment assembly, including:

the side wall of one side of the medicine patch in the thickness direction is connected with the heating surface, the side wall of the other side of the medicine patch in the thickness direction is connected with the skin of a human body, the medicine patch is provided with a medicine core layer, and the medicine core layer is provided with at least one first through hole which extends in the thickness direction of the medicine patch and penetrates through the medicine core layer.

Optionally, the heating member is detachably engaged with the patch.

Optionally, the patch further comprises:

the paste layer is arranged on one side of the medicine core layer facing the heating element, a second through hole penetrating through the paste layer is formed in the middle of the paste layer, and the orthographic projection of the heating surface on the paste layer is positioned in the second through hole;

wherein the heating member is detachably matched with the medicinal patch through the adhesive layer.

Optionally, the heating member is a heating sheet, and the heating sheet is fixedly connected with the medicinal patch.

Optionally, the heating element is any one of a graphene heating sheet, a carbon fiber heating sheet or a tourmaline heating sheet.

Optionally, the patch further comprises:

the base material layer is arranged on the surface of one side, facing the heating part, of the medicine core layer;

the base material layer is provided with at least one third through hole which extends along the thickness direction of the patch and penetrates through the base material layer, and each third through hole is communicated with the corresponding first through hole.

Optionally, the patch further comprises:

at least one anti-seepage paper layer arranged on one side surface of the medicine core layer;

wherein, the anti-seepage paper layer is provided with fourth through holes which extend along the thickness direction of the medicine patch and penetrate through the anti-seepage paper layer, and each fourth through hole is communicated with the corresponding first through hole.

Optionally, the method further includes:

the heat conducting sheet is arranged on the heating surface and is provided with at least one fifth through hole which extends along the thickness direction of the medicine patch and penetrates through the heat conducting sheet;

wherein each fifth through hole is communicated with the corresponding first through hole.

Optionally, the side wall of the heat conducting sheet facing the patch is provided with at least one positioning bulge;

the side wall of the medicine patch facing to the heat conducting sheet is provided with at least one positioning hole, and the positioning bulge is detachably matched with the positioning hole.

Optionally, the patch is configured as a moxibustion patch or a plaster patch.

The utility model discloses technical scheme sets up at least one through-hole that extends and run through the medicine sandwich layer along medicine subsides thickness direction through the medicine sandwich layer that pastes at the medicine sandwich layer of medicine subsides to when medicine subsides laminating on human affected part skin, the far-infrared light that the piece that generates heat sent or heat pass the first through-hole direct action on the medicine sandwich layer human skin, perhaps the heat that the piece that generates heat gived off does not obstruct and directly transmits to human skin through the air in the first through-hole through the medicine sandwich layer, promote the blood circulation in human affected part, strengthen the metabolic capability, thereby accelerate the absorption of human skin to the medicine in the medicine sandwich layer.

Drawings

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

Fig. 1 is a schematic structural view of an embodiment of the heat-generating treatment assembly of the present invention;

fig. 2 is a schematic structural view of another embodiment of the heat-generating treatment assembly of the present invention;

fig. 3 is a schematic structural view of another embodiment of the heat-generating treatment assembly of the present invention;

FIG. 4 is a schematic structural view of an embodiment of the present invention when the patch is a plaster patch;

FIG. 5 is a schematic structural view of an embodiment of the moxibustion patch of the present invention;

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

In the related art, a patch such as a plaster patch or a moxibustion patch promotes the opening of skin pores by heat generated by a heating layer or a heating member, and accelerates and enhances the transdermal absorption capacity of the skin to medicinal components. But the piece that generates heat sets up in the subsides one side of keeping away from human epidermis, and the piece that generates heat need be used in on the medicine sandwich layer of subsides at first, and comparatively closely knit medicine sandwich layer can hinder the far-infrared light that the piece that generates heat produced or delay the heat that the piece that generates heat produced and use on skin for human epidermis can not receive in time the heat that the piece that generates heat and promote the pore and open.

Therefore, the embodiment of the utility model provides a generate heat treatment subassembly. The medicine core layer of the medicine patch of the heating treatment component is provided with at least one first through hole which extends along the thickness direction of the medicine patch and penetrates through the medicine patch, so that when the medicine patch is pasted on the epidermis of a human body, heat or far infrared light generated by a heating part can directly act on the epidermis of the human body through the first through hole, the blood circulation below the epidermis of the human body is promoted, pores are fully opened after the epidermis of the human body is heated, and the absorption capacity of medicines on the medicine core layer is enhanced.

The heating treatment assembly according to the embodiments of the present invention will be further described with reference to the accompanying drawings and some specific embodiments.

Referring to fig. 1, an embodiment of the present invention provides a heat treatment assembly.

In this embodiment, the heat-generating treatment assembly includes a heat-generating member 100 and a patch 200.

A heat generating member 100, the heat generating member 100 having a heat generating surface; and

the patch 200 has a core layer 210, and the core layer 210 has at least one first through hole 211 extending in the thickness direction of the patch 200 and penetrating through the core layer 210, and one side wall of the patch 200 in the thickness direction is connected to the heating surface and the other side wall is connected to the skin of the human body.

The medicine patch 200 is applied to the skin of an affected part of a human body, and the heating member 100 is located outside the medicine patch 200 to heat the medicine patch 200. Wherein, the medicine core layer 210 of the medicine plaster 200 contains medicine components with medicine effect, and can be a plaster prepared by mixing and refining gel and a plurality of medicinal materials. At this time, the heat-generating treatment component is a self-heating plaster. Or, the medicine core layer 210 may also be a moxa powder bag, in which case, the heating treatment component is a moxibustion patch. It is worth mentioning that the heating member 100 may be any one of a graphene heating sheet, a carbon fiber heating sheet or a tourmaline heating sheet. The heating member 100 may be any one of a graphene heating film, a carbon fiber heating film, or a tourmaline heating film. The heating member 100 may also be a separate far infrared heating device.

Specifically, the heating member 100 of the heating treatment assembly is matched with the medicine patch 200. When the medicine patch 200 is attached to the skin of an affected part of a human body, far infrared light or heat emitted by the heating member 100 passes through the first through hole 211 to directly act on the skin of the human body, or the heat emitted by the heating member 100 is not blocked by the medicine core layer 210 and is directly transmitted to the skin of the human body through the air in the first through hole 211, so that the blood circulation of the affected part of the human body is promoted, and the metabolic capacity is enhanced. Thereby accelerating the absorption of the medicine in the patch 200 by the human skin.

In this embodiment, the first through hole 211 includes one, and the first through hole 211 is disposed at a geometric center of the drug core layer 2010. That is, the first through hole 211 is disposed at the center of the heating surface, which is beneficial for the user to align the first through hole 211 with the affected part when using the heating treatment assembly, so as to align the patch 200 with the skin of the affected part, thereby obtaining a better treatment effect.

In some embodiments, referring to fig. 1, the first through holes 211 include a plurality of first through holes 211, and the plurality of first through holes 211 are arranged in an array. The plurality of first through holes 211 are uniformly arranged in an array on the patch 200 so that the plurality of first through holes 211 uniformly transfer heat directly to the skin of the human body and also allow the patch 200 to uniformly absorb heat as a whole, thereby promoting the better absorption of the medicinal components in the patch 200 on the entire skin surface of the affected part of the human body. It is understood that the first through holes 211 may be distributed on the drug core layer 210. The present embodiment does not limit this.

In some embodiments, the heat generating member 100 is detachably coupled to the patch 200. That is, the two may be connected together when in use and separated when not in use. Or where the patches 200 are replaceable components that can be discarded by hand on one patch and a new patch 200 mated to the heat generating member 100. It is easily understood that the detachable engagement of the heat generating member 100 and the medicine patch 200 may be by a snap connection, a hook and loop connection or the like.

As an alternative to this embodiment, with reference to FIG. 3, the patch further comprises:

and the pasting layer 240 is arranged on one side of the medicine core layer 210 facing the heating element 100, the middle part of the pasting layer 240 is provided with a second through hole 241 penetrating through the pasting layer, and the orthographic projection of the heating surface on the pasting layer 240 is positioned in the second through hole 241.

Wherein the heat generating member 100 is detachably coupled to the medicine patch 200 through the adhesive layer 240.

For example, the heating member is a hemispherical far infrared heating device, and the heating surface of the far infrared heating device is constructed as a metal mesh. At this time, the adhesive layer 240 of the patch 200 may further be covered with a release paper, and when the heating member 100 is required to be connected and matched with the patch 200, the release paper on the adhesive layer 240 is removed, and the heating surface of the metal mesh of the heating member 100 is connected with the adhesive layer, so that the heating member 100 is connected and matched with the patch 200. After the use of the medicine patch 200 is completed, the medicine patch 200 can be torn off from the heat generating member 100.

As another alternative of the embodiment, referring to FIGS. 1 and 2, the heat generating member 100 is configured as a heat generating sheet, and the heat generating sheet is fixedly connected with the medicine patch 200. I.e. both are of integral construction. It is not separable during use, and can be discarded together after use.

At this time, the heating sheet is a layered structure, i.e. the heating sheet can also be a heating film or a heating layer fixedly connected with the medicinal patch. The heating member 100 may be any one of a graphene heating sheet, a carbon fiber heating sheet, or a tourmaline heating sheet.

In this embodiment, the shape of the heating member 100 is the same as that of the patch 200, and the shapes of the heating member and the patch can be circular, triangular, rectangular or polygonal, which is not limited by the embodiment of the present invention.

In some embodiments, the outer contours of the heating member 100 and the patch 200 are both configured to be circular. And the diameter of the heating member 100 is identical to that of the core layer 210 of the patch 200.

In some embodiments, the patch further comprises: and the base material layer 220, the base material layer 220 is disposed on one side surface of the medicine core layer 210 facing the heat generating member 100.

The substrate layer 220 is a substrate layer of the patch and is used for bearing the medicine core layer. The material of the substrate layer can comprise any one or the combination of more than two of TPE (thermoplastic elastomer), non-woven fabric and TPU (thermoplastic polyurethane elastomer rubber). In this embodiment, the substrate layer 220 has at least one third through hole 221 extending in the thickness direction of the patch and penetrating through the substrate layer, and each third through hole 221 communicates with a corresponding first through hole 211. At this time, far infrared light or heat emitted by the heating member 100 sequentially passes through the third through hole and the first through hole 211 to directly act on the skin of the human body, or the heat emitted by the heating member 100 is not blocked by the medicine core layer 210 and directly sequentially passes through the third through hole and the air in the first through hole 211 to be transmitted to the skin of the human body, so that the blood circulation of the affected part of the human body is promoted, and the metabolic capacity is enhanced. Thereby accelerating the absorption of the medicine in the patch 200 by the human skin.

The third through holes 221 and the first through holes 211 can be opposite and communicated, and each third through hole 221 is coaxially arranged with the corresponding first through hole 211.

The core layer of the patch may not be provided with a barrier paper layer, or in some embodiments, referring to fig. 3, to better protect the core layer from failure of the core layer 210 during storage, the patch 200 further comprises:

at least one impermeable paper layer 230, wherein the impermeable paper layer 230 is arranged on one side surface of the medicine core layer 210;

wherein the impermeable paper layer 230 has fourth through holes 231 extending in the thickness direction of the patch 200 and penetrating through the impermeable paper layer, and each fourth through hole 231 communicates with a corresponding first through hole 211.

In this embodiment, a side surface of the medicine core layer 210 facing the heat-generating member 100 may have the impermeable paper layer 230, or a side surface of the medicine core layer 210 facing away from the heat-generating member 100 may have the impermeable paper layer 230, or both surfaces may have the impermeable paper layer 230.

In this embodiment, the barrier paper layer 230 has at least one fourth through-hole 231 extending in the thickness direction of the patch and penetrating the barrier paper layer, and each fourth through-hole 231 communicates with a corresponding first through-hole 211. At this time, far infrared light or heat emitted by the heating member 100 sequentially passes through the fourth through hole and the first through hole 211 to directly act on the skin of the human body, or the heat emitted by the heating member 100 is not blocked by the medicine core layer 210 and directly sequentially passes through the fourth through hole and the air in the first through hole 211 to be transferred to the skin of the human body, so that the blood circulation of the affected part of the human body is promoted, and the metabolic capacity is enhanced. Thereby accelerating the absorption of the medicine in the patch 200 by the human skin.

In some embodiments, referring to fig. 4 and 5, the heat-generating treatment assembly further includes a thermally conductive sheet 300. The heat conductive sheet 300 is disposed on the heat generating surface, and the heat conductive sheet 300 has at least one fifth through hole 310 extending in the thickness direction of the heat generating member 100 and penetrating through the heat conductive sheet 300. The first through hole 211 and the fifth through hole 310 are disposed correspondingly.

Namely, between the heating member 100 and the patch 200. The heat conducting sheet 300 may be a sheet made of a material with good heat conductivity, such as a copper material and an aluminum material, for example, a circular copper sheet, and at least one second through hole 131 is formed in the copper sheet. Alternatively, the heat conductive sheet 300 may also be provided as a heat conductive mesh.

Specifically, a part of the far infrared light emitted from the heating member 100 directly and sequentially passes through the second through hole 131 of the heat conducting sheet 300 and the first through hole 211 of the medicine core layer 10 and then directly acts on the skin of the affected part of the human body, and another part of the far infrared light emitted from the heating member 100 directly acts on the heat conducting sheet 300, and after the heat conducting sheet 300 absorbs the far infrared light, the heat is rapidly transferred on the heat conducting sheet 300, so that the heat conducting sheet 300 is uniformly heated, and then the heat conducting sheet 300 uniformly transfers the heat to the medicine patch 200.

It is easy to understand that, in the related art, the heating of the heating element 100 such as the tourmaline heating treatment assembly or the graphene heating sheet is not uniform, and generally, a partial region of the heating element 100 starts to heat first. In the present embodiment, the heat generated from the heat generating member 100 is uniformly transferred to the patch 200 through the heat conductive sheet 300 between the heat generating member 100 and the patch 200, thereby improving the drug absorption effect of the patch 200.

Further, referring to fig. 4 and 5, in the present embodiment, the outer contour of the thermal conductive sheet 300 is consistent with the outer contour of the heat-generating treatment component, such that the thermal conductive sheet 300 completely covers the heat-generating member 100, and further, the heat generated by the heat-generating member 100 is better and uniformly transferred to the medicine patch 200, thereby improving the medicine absorption effect of the medicine patch 200. .

In some embodiments, in order to prevent the second through-holes 131 of the thermal conductive sheet 300 and the first through-holes 211 of the patch 200 from being misaligned, the side wall of the thermal conductive sheet 300 facing the patch 200 has at least one positioning protrusion.

The side wall of the patch 200 facing the heat conductive sheet 300 has at least one positioning hole, and the positioning protrusion is detachably engaged with the positioning hole.

In this embodiment, the positioning between the thermal conductive sheet 300 and the patch 200 is accomplished by the positioning projections 132 and the positioning holes (not shown), which facilitates the assembly and manufacture between the thermal conductive sheet 300 and the patch 200.

It is worth mentioning that the patch in the heat-generating treatment component of the present embodiment may be a plaster patch. In this case, the patch further includes a peeling layer 400, wherein the peeling layer 200 of the patch may be a release paper or an easily tearable sticker for protecting the patch 200 before use and peeling it off from the patch when the patch is used. When the plaster patch provided by the embodiment is attached to the skin of an affected part of a human body, far infrared light emitted by the heating member 100 passes through the first through hole 211 and directly acts on the skin of the human body, or heat emitted by the heating member 100 is not blocked by the plaster patch 200 and directly transmitted to the skin of the human body through air in the first through hole 211, so that the blood circulation of the affected part of the human body is promoted, the metabolic capacity is enhanced, and the absorption of the medicine in the plaster patch 200 by the skin of the human body is accelerated.

Alternatively, referring to fig. 5, the heat-generating treatment assembly of the present embodiment may be a moxibustion patch, in which case, the two wings of the substrate layer include adhesive portions 222, and the adhesive portions 222 are used to adhere to the skin of the human body. For example, the core layer may be disposed in the middle of the substrate layer 400 in an island shape, and two sides of the substrate layer extend to form two wings, which are the pasting parts. The moxibustion patch is adhered to the skin of human body via the adhering part 222 when in use. When the moxibustion patch provided by the embodiment is attached to the skin of an affected part of a human body, far infrared light emitted by the heating member 100 passes through the first through hole 211 and directly acts on the skin of the human body, or heat emitted by the heating member 100 is not blocked by the patch 200 and directly transmitted to the skin of the human body through air in the first through hole 211, so that the blood circulation of the affected part of the human body is promoted, the metabolic capacity is enhanced, and the absorption of the skin of the human body to medicines in the patch 200 is accelerated.

The above is only the optional embodiment of the present invention, and not the scope of the present invention is limited thereby, all the equivalent structure changes made by the contents of the specification and the drawings are utilized under the inventive concept of the present invention, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (10)

1. A heat-generating treatment assembly, comprising:

the heating piece is provided with a heating surface; and

the subsides, one side lateral wall of subsides thickness direction connect in the face that generates heat, the opposite side lateral wall is connected with human skin, just the subsides have the medicine sandwich layer, the medicine sandwich layer has at least one and follows the extension of subsides thickness direction just runs through the first through-hole of medicine sandwich layer.

2. The heat-generating treatment assembly of claim 1 wherein the heat-generating member is detachably engaged with the patch.

3. The fever treatment assembly of claim 2, wherein the patch further comprises:

the paste layer is arranged on one side, facing the heating element, of the medicine core layer, a second through hole penetrating through the paste layer is formed in the middle of the paste layer, and the orthographic projection of the heating surface on the paste layer is located in the second through hole;

wherein, the heating piece is detachably matched with the medicinal patch through the adhesive layer.

4. The heating treatment assembly of claim 1, wherein the heating member is a heating sheet, and the heating sheet is fixedly connected with the patch.

5. The fever treatment assembly of claim 4, wherein the heating member is configured as any one of a graphene heating sheet, a carbon fiber heating sheet or a tourmaline heating sheet.

6. The fever treatment assembly of claim 1, wherein the patch further comprises:

the base material layer is arranged on the surface of one side, facing the heating piece, of the medicine core layer;

the base material layer is provided with at least one third through hole which extends along the thickness direction of the patch and penetrates through the base material layer, and each third through hole is communicated with the corresponding first through hole.

7. The fever treatment assembly of claim 1, wherein the patch further comprises:

the anti-seepage paper layer is arranged on one side surface of the medicine core layer;

the anti-seepage paper layer is provided with fourth through holes which extend along the thickness direction of the patch and penetrate through the anti-seepage paper layer, and each fourth through hole is communicated with the corresponding first through hole.

8. The exothermic therapy assembly of claim 1, further comprising:

the heat conducting sheet is arranged on the heating surface and is provided with at least one fifth through hole which extends along the thickness direction of the medicine patch and penetrates through the heat conducting sheet;

wherein each of the fifth through holes communicates with the corresponding first through hole.

9. The heat-generating treatment assembly of claim 8, wherein the side wall of the heat-conducting sheet facing the patch has at least one positioning protrusion;

the side wall of the medicine patch facing to the heat conducting sheet is provided with at least one positioning hole, and the positioning bulge is detachably matched with the positioning hole.

10. A fever treatment kit as claimed in any of claims 1 to 9, wherein the patch is provided as a moxibustion patch or a plaster patch.

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