Ice feeling towel based on double spun fabric

By using a twin-woven fabric matrix structure and a waterproof membrane design, the problem of insufficient water absorption and retention capacity of towels is solved, achieving uniform distribution and stability of the cooling liquid and improving the performance of the cooling towels.

CN224483830UActive Publication Date: 2026-07-14YIXIANG PERSONAL HOME CARE HEALTH RESEARCH (HENAN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YIXIANG PERSONAL HOME CARE HEALTH RESEARCH (HENAN) CO LTD
Filing Date
2025-07-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing towels have insufficient water absorption and retention capacity, causing the medicine to seep down, affecting the cooling experience, and the medicine content of the upper towel is reduced when multiple layers are stacked.

Method used

The structure adopts a twin-spun fabric matrix structure, including first and second meltblown fiber webs and wood pulp fiber layers, and sets up a cooling liquid cavity. The structural stability and liquid leakage are improved by connectors and waterproof membranes. Polypropylene fiber rings and waterproof membranes are used to enhance water absorption, water retention and liquid capacity.

Benefits of technology

It improves the water absorption and retention capacity of towels, ensuring that the cooling liquid does not seep through, enhancing the icy sensation, and the top towel can still retain a sufficient amount of liquid when multiple layers are stacked.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an ice sense towel based on twin spun fabric, it includes: twin spun fabric basebody and cool feeling medicinal liquid, twin spun fabric basebody includes first meltblown fiber web, second meltblown fiber web and wood pulp fiber layer, first meltblown fiber web, wood pulp fiber layer and second meltblown fiber web are added according to the order from top to bottom, and form twin spun fabric basebody after hot pressing, the wood pulp fiber layer middle interval has cool feeling medicinal liquid cavity, cool feeling medicinal liquid is at least set in cool feeling medicinal liquid cavity. The ice sense towel based on twin spun fabric of the utility model, especially adopt twin spun fabric basebody and carry out the impregnation of cool feeling medicinal liquid, and the ability of water absorption and water retention is strong, and the capacity of cool feeling medicinal liquid is increased by utilizing cool feeling medicinal liquid cavity, and ice sense experience is promoted, also can utilize waterproof membrane and block the percolation of cool feeling medicinal liquid in cool feeling medicinal liquid cavity, when superimposed packing, can ensure the content of cool feeling medicinal liquid in the cool feeling medicinal liquid cavity of upper ice sense towel.
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Description

Technical Field

[0001] This utility model relates to the field of towel technology, and in particular to a cooling towel based on twin-spun fabric. Background Technology

[0002] To enhance the cooling sensation of towels, you can soak them in an aqueous solution or other wet wipe solution. When using the towel to wipe your body or hanging it around your neck or wrists, the aqueous solution or wet wipe solution will come into contact with your skin, enhancing the cooling sensation and accelerating cooling during exercise.

[0003] Ordinary disposable towels typically use regular non-woven fabric as the base, which has limited absorbency and retention, making it unable to hold a large amount of medication and thus providing a limited cooling sensation. Furthermore, when multiple towels are stacked, the medication can seep down, resulting in less medication on the upper towels and affecting the cooling experience during normal use. These issues require improvement. Utility Model Content

[0004] The purpose of this invention is to provide a cooling towel based on twin-spun fabric, which improves water absorption and retention capabilities and reduces the problem of medicine seepage.

[0005] To achieve this objective, the present invention adopts the following technical solution:

[0006] A cooling towel based on twin-spun fabric includes: a twin-spun fabric matrix and a cooling liquid. The twin-spun fabric matrix includes a first meltblown fiber web, a second meltblown fiber web, and a wood pulp fiber layer. The first meltblown fiber web, the wood pulp fiber layer, and the second meltblown fiber web are stacked in a top-to-bottom order and hot-pressed to form the twin-spun fabric matrix. The wood pulp fiber layer has a cooling liquid cavity in between, and the cooling liquid is at least disposed in the cooling liquid cavity.

[0007] The first meltblown fiber mesh and the second meltblown fiber mesh are respectively made of polypropylene meltblown fiber mesh.

[0008] The wood pulp fiber layer is provided with a connector that connects the first meltblown fiber mesh and the second meltblown fiber mesh.

[0009] The connector is made of polypropylene fiber ring.

[0010] The connector is concentrically positioned at the edge of the cooling liquid cavity.

[0011] The bottom of the cooling liquid cavity is provided with a waterproof membrane.

[0012] The beneficial effects of this utility model are as follows: A cooling towel based on twin-spun fabric is specially made by impregnating the cooling liquid with twin-spun fabric matrix, which has strong water absorption and retention capacity. The cooling liquid cavity is used to increase the volume of cooling liquid, thereby enhancing the cooling experience. A waterproof membrane can also be used to prevent the cooling liquid from seeping into the cooling liquid cavity. When multiple cooling towels are stacked and packaged, the cooling liquid content in the cooling liquid cavity of the upper cooling towel can be ensured. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of this utility model;

[0014] Figure 2 yes Figure 1 Top view of the medium wood pulp fiber layer;

[0015] Figure 3 This is a schematic diagram of another embodiment of the present invention. Detailed Implementation

[0016] The following is combined with Figures 1-3 The technical solution of this utility model will be further illustrated through specific embodiments.

[0017] like Figure 1 The cooling towel based on twin-spun fabric shown includes: a twin-spun fabric matrix and a cooling liquid. The twin-spun fabric matrix includes a first meltblown fiber web 1, a second meltblown fiber web 2, and a wood pulp fiber layer 3. The first meltblown fiber web 1, the wood pulp fiber layer 3, and the second meltblown fiber web 2 are stacked in a top-to-bottom order and then hot-pressed to form the twin-spun fabric matrix, which has a stable structure.

[0018] In this embodiment, the first meltblown fiber mesh 1 and the second meltblown fiber mesh 2 are respectively made of polypropylene meltblown fiber mesh. The polypropylene meltblown fiber mesh is generated by meltblowing process. It has many pores and strong water absorption and retention capacity. In addition, the wood pulp fiber in the wood pulp fiber layer 3 further enhances the water absorption and retention capacity, and can carry more cooling liquid, thus improving the cooling experience during use.

[0019] The wood pulp fiber layer 3 is interspersed with a cooling liquid cavity 4, such as Figure 2 As shown, the cooling liquid cavities 4 are arrayed within the wood pulp fiber layer 3. The cooling liquid is at least contained within the cooling liquid cavities 4, which increase the volume of the cooling liquid and further enhance the cooling sensation.

[0020] Of course, in this embodiment, the first meltblown fiber mesh 1, the second meltblown fiber mesh 2, and the wood pulp fiber layer 3 are also impregnated with a cooling liquid. The cooling liquid can be obtained by compounding menthol, mentholamide, and menthyl lactate, which brings a cooling sensation when in contact with the human body, and the temperature can be reduced by 2 to 3.5°C.

[0021] To improve structural stability and prevent delamination of the first meltblown fiber mesh 1, the second meltblown fiber mesh 2, and the wood pulp fiber layer 3, a connector is provided in the wood pulp fiber layer 3 to connect the first meltblown fiber mesh 1 and the second meltblown fiber mesh 2. In this embodiment, the connector 5 is a polypropylene fiber ring. During hot pressing, the polypropylene fiber ring can form multiple connection points between the first meltblown fiber mesh 1 and the second meltblown fiber mesh 2, improving the connection stability between the first meltblown fiber mesh 1 and the second meltblown fiber mesh 2. Furthermore, the first meltblown fiber mesh 1 and the second meltblown fiber mesh 2 clamp the wood pulp fiber layer 3, ensuring overall structural stability.

[0022] like Figure 2 As shown, the connector 5 is concentrically arranged at the edge of the cooling liquid cavity 4, which can lock the edge of the cooling liquid cavity 4 and reduce the problem of cooling liquid in the cooling liquid cavity 4 seeping out from the connector 5 to the surrounding area.

[0023] In addition, such as Figure 3 As shown, in this embodiment, a waterproof membrane 6 is provided at the bottom of the cooling liquid cavity 4. The edge of the waterproof membrane 6 contacts the connector 5 during hot pressing, thereby waterproofing the bottom of the cooling liquid cavity 4. The waterproof membrane 6 prevents the cooling liquid in the cooling liquid cavity 4 from seeping down. When multiple cooling towels are stacked and packaged, the content of cooling liquid in the cooling liquid cavity of the upper cooling towel can be ensured, thus ensuring the cooling experience during use.

[0024] The above description is only a preferred embodiment of this utility model. For those skilled in the art, there will be changes in the specific implementation method and application scope based on the idea of ​​this utility model. The content of this specification should not be construed as a limitation of this utility model.

Claims

1. A cooling towel based on twin-spun fabric, characterized in that, include: The twin-spun fabric matrix and the cooling liquid are provided. The twin-spun fabric matrix includes a first meltblown fiber web, a second meltblown fiber web, and a wood pulp fiber layer. The first meltblown fiber web, the wood pulp fiber layer, and the second meltblown fiber web are stacked in a top-to-bottom order and hot-pressed to form the twin-spun fabric matrix. The wood pulp fiber layer has a cooling liquid cavity in between, and the cooling liquid is at least disposed in the cooling liquid cavity.

2. The cooling towel based on twin-woven fabric according to claim 1, characterized in that, The first meltblown fiber mesh and the second meltblown fiber mesh are both made of polypropylene meltblown fiber mesh.

3. The cooling towel based on twin-woven fabric according to claim 1, characterized in that, The wood pulp fiber layer is provided with a connector that connects the first meltblown fiber mesh and the second meltblown fiber mesh.

4. The cooling towel based on twin-spun fabric according to claim 3, characterized in that, The connector is made of polypropylene fiber rings.

5. The cooling towel based on twin-spun fabric according to claim 4, characterized in that, The connectors are concentrically positioned at the edge of the cooling liquid cavity.

6. The cooling towel based on twin-spun fabric according to claim 1, characterized in that, A waterproof membrane is provided at the bottom of the cooling liquid container.