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CN-224220313-U - Thermal efficiency conduction warm compress device based on alternate strip structure

CN224220313UCN 224220313 UCN224220313 UCN 224220313UCN-224220313-U

Abstract

The utility model discloses a thermal-effect conduction warm compress device based on a penetrating strip-shaped structure, which relates to the technical field of medical appliances and comprises a bag body, wherein the bag body is provided with two layers of fabrics, three continuous side walls of the bag body are sewn to form a closed side edge, the remaining side is of an opening structure, a storage cavity is arranged in the bag body, one layer of fabrics is a thermal coating layer, the other layer of fabrics is a back layer, a plurality of medicine strips are arranged on the surface wall of the thermal coating layer, a plurality of middle dislocation holes are formed in the surface wall of the thermal coating layer fabric, a covering layer for covering medicine strips is formed, penetrating gaps are formed between transverse bending deformation of the covering layer and the thermal coating layer for penetrating and fixing the medicine strips, and a heating sheet is arranged in the storage cavity and is tightly attached to the thermal coating layer fabrics to provide heat for releasing medicine effects of the medicine strips. The utility model relates to a heat-efficiency conduction warm compress device based on a penetrating strip structure, which has the advantages that heat conduction between a heating sheet and a medicine strip is faster, the medicine strip can be in seamless contact with the skin, the device is more fit and breathable, drug effect penetration is improved, the taking is more convenient, and meanwhile, the device is easy to curl and saves storage space.

Inventors

  • PENG HAN
  • XU HAOCHEN
  • PENG QINGYAO

Assignees

  • 上海栋见健康科技有限公司

Dates

Publication Date
20260512
Application Date
20250402

Claims (8)

  1. 1. The utility model provides a heat-effect conduction warm compress device based on interlude formula strip structure which characterized in that includes: The bag body is provided with two layers of fabrics, three continuous side walls of the bag body are sewn to form a closed side edge, the remaining side is of an opening structure, a storage cavity is arranged in the bag body, one layer of fabrics is a thermal coating (2), and the other layer of fabrics is a back layer (1); The medicine strips (3), the medicine strips (3) are provided with a plurality of middle dislocation holes, the surface wall of the fabric of the thermal coating (2) is provided with a wrapping layer (11) for wrapping the medicine strips, and a penetration gap is formed between the lateral bending deformation of the wrapping layer (11) and the thermal coating (2) for penetration fixation of the medicine strips (3); The heating sheet (4) is arranged in the storage cavity and is clung to the fabric of the thermal coating (2), so that heat is provided for releasing the drug effect of the drug strip (3).
  2. 2. The heat-efficiency conduction warm compress device based on the interpenetration type strip structure according to claim 1, wherein both ends of the back layer (1) are provided with detachable tightening belts.
  3. 3. The heat-efficiency conduction warm compress device based on the interpenetration strip structure according to claim 1, further comprising a heat insulation sheet (5), wherein the heat insulation sheet (5) is embedded in the storage cavity, one side wall is clung to the heating sheet (4), and the other side wall is clung to the fabric of the back layer (1).
  4. 4. The heat-efficiency conduction warm compress device based on the interpenetration strip structure of claim 1, wherein the middle misplacement holes are divided into a plurality of rows, and the misplacement holes in the same row are multiple or single from top to bottom.
  5. 5. The heat-efficiency conduction warm compress device based on the interpenetration type strip structure according to claim 1, wherein the middle dislocation hole is positioned at the outer side of the thermal coating (2), and the medicine strips (3) are longitudinally interpenetrated and fixed in the middle dislocation hole and are positioned outside the package body.
  6. 6. The heat-efficiency conduction warm compress device based on the interpenetration type strip structure according to claim 1, wherein the middle dislocation hole is positioned on the inner side of the heat coating layer (2), and the medicine strips (3) are longitudinally interpenetrated and fixed in the middle dislocation hole and are positioned in the storage cavity of the bag body.
  7. 7. The heat-efficiency conduction warm compress device based on the interpenetration type strip structure according to claim 1, wherein the heat coating layer (2) of the bag body is solid cloth or mesh cloth.
  8. 8. The heat-efficiency conduction warm compress device based on the interpenetration type strip structure according to claim 1, wherein the medicine strip (3) is of a whole root structure or a shrinking part (31) is arranged on the medicine strip (3).

Description

Thermal efficiency conduction warm compress device based on alternate strip structure Technical Field The utility model relates to the technical field of medical appliances, in particular to a thermal-effect conduction warm compress device based on a penetrating strip structure. Background The heat treatment bag, also called traditional Chinese medicine heat treatment bag or sea salt heat treatment bag, is an in vitro therapy which is applied to a specific part of a human body after being heated and achieves the aim of treatment by utilizing the warm effect and the drug effect. Clinically, generally, sterile canvas is adopted to attach the heating body to the surface of the dressing, and meanwhile, the medicine strips and the heating body are wrapped in a wrapping body with a containing cavity and are applied to an affected part for hot compress operation. The problem that prior art exists is, adopts the mode of inclusion parcel, and the dressing is difficult for changing, and heat conduction efficiency is lower, and when the drug effect released, the permeability that the drug effect acted on the affected part is not good, and the hot compress curative effect needs further promotion, so design and produce a heat-effect conduction warm compress device based on alternate formula structure here to solve above-mentioned problem. Disclosure of utility model The utility model aims to provide a thermal-effect conduction warm compress device based on a penetrating strip structure, so as to solve the problems in the background technology. In order to solve the technical problems, the utility model provides a thermal-effect conduction warm compress device based on a penetrating strip structure, which comprises a bag body, wherein the bag body is provided with two layers of fabrics, three continuous side walls are sewed to form a closed side edge, the remaining side is of an opening structure, a storage cavity is arranged in the bag body, one layer of fabrics is a thermal coating, and the other layer of fabrics is a back layer; The hot-coating fabric comprises a plurality of medicinal strips, wherein a plurality of middle dislocation holes are formed in the surface wall of the hot-coating fabric, and the middle dislocation holes are used for the penetration and fixation of the medicinal strips; The heating sheet is arranged in the storage cavity and is clung to the thermal coating fabric, so that heat is provided for releasing the drug effect of the drug strip. In a further embodiment, both ends of the backing layer are provided with detachable tightening bands. In a further embodiment, the heat-insulating plate is embedded in the storage cavity, wherein one side wall is clung to the heating plate, and the other side wall is clung to the back layer fabric. In a further embodiment, the intermediate offset holes are equally divided into a plurality of rows, and the intermediate offset holes in the same row are multiple or single from top to bottom. In a further embodiment, the intermediate dislocation holes are located outside the thermal blanket, and the strips are longitudinally interspersed and fixed within the intermediate dislocation holes and located outside the package. In a further embodiment, the intermediate dislocation holes are positioned inside the thermal coating, and the drug strips are longitudinally inserted and fixed in the intermediate dislocation holes and positioned in the storage cavity of the bag body. In a further embodiment, the thermal coating of the bag body is a solid cloth or a mesh cloth. In a further embodiment, the strip is of unitary construction or a constriction is provided on the strip. Compared with the prior art, the utility model has the beneficial effects that: The utility model relates to a heat-efficiency conduction warm compress device based on a penetrating strip structure, which has the advantages that heat conduction between a heating sheet and a medicine strip is faster, the medicine strip can be in seamless contact with the skin, the device is more fit and breathable, drug effect penetration is improved, the device is more convenient to take, and is easy to curl, saves storage space, and is simple and practical. Drawings FIG. 1 is a schematic diagram of an embodiment of the present utility model; FIG. 2 is a schematic diagram of a bag body structure according to an embodiment of the present utility model; FIG. 3 is a schematic diagram of another modification of the drug strip according to the embodiment of the present utility model; FIG. 4 is a schematic diagram of a drug strip according to an embodiment of the present utility model disposed within a bag body; FIG. 5 is a schematic diagram of another modified structure of a bag according to an embodiment of the present utility model. In the figure, 1, a back layer, 11, a sheath layer, 2, a thermal coating layer, 3, a medicine strip, 31, a reduced part, 4, a heating sheet, 5 and a heat insulation sheet. Detailed Descriptio