A mattress having a three-dimensional, air-permeable side structure

By adopting a three-dimensional breathable side structure on the sides of the mattress, a three-dimensional breathable channel is formed, which solves the problem of poor circulation of moisture and heat inside the mattress, improves the breathability and comfort of the mattress, avoids the growth of bacteria and mold, and enhances edge support.

CN224320452UActive Publication Date: 2026-06-05JASON FURNITURE(HANGZHOU) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JASON FURNITURE(HANGZHOU) CO LTD
Filing Date
2025-05-15
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing mattresses have poor side ventilation, resulting in poor internal heat and moisture circulation, which easily breeds bacteria and mold, affecting the user's health. Furthermore, high-end mattresses face difficulties in balancing comfort and breathability.

Method used

It adopts a three-dimensional breathable side structure, including a combination of gradient support layer and three-dimensional breathable layer, to form a three-dimensional breathable channel around the mattress. Combined with the breathable structure of the mattress body, it realizes internal air circulation and avoids the survival and reproduction of bacteria and mold.

Benefits of technology

It improves the breathability of the mattress, regulates internal temperature and humidity, prevents the growth of bacteria and mold, enhances edge support, and improves user comfort and health.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224320452U_ABST
    Figure CN224320452U_ABST
Patent Text Reader

Abstract

The utility model discloses a mattress with three -dimensional ventilative side edge structure, include: mattress body has ventilative structure, three -dimensional ventilative composite side edge includes three -dimensional ventilative layer and gradient support layer, the section of gradient support layer is trapezoidal structure, set up in the four around of mattress body, three -dimensional ventilative layer is located gradient support layer outside, the cooperation of mattress body, three -dimensional ventilative layer and gradient support layer forms ventilative channel, realize the ventilative performance of mattress, and the effect of improvement mattress internal temperature and humidity is improved in tow, thereby make the environmental factor of mattress effectively avoid the survival and propagation of bacteria, fungi and mould.
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Description

Technical Field

[0001] This utility model relates to the field of home furnishing technology, specifically to a mattress with a three-dimensional breathable side structure. Background Technology

[0002] Current mattress technology typically uses a foam-lined edge design, which results in poor side breathability. Furthermore, the mattress bottom board further obstructs airflow, while the foam used on the front for comfort is generally thick, leading to overall poor breathability. The interior of the mattress is prone to dampness and heat due to poor air circulation, causing the internal materials to age and rust, and easily breeding bacteria, mold, and other microorganisms, further endangering the user's health. This presents a technological dilemma where "tactile comfort" and "breathability and health" are difficult to achieve simultaneously, a problem particularly prominent in the high-end mattress market. Utility Model Content

[0003] To solve the above technical problems, this utility model provides a mattress with a three-dimensional breathable side structure, which improves the breathability of the mattress and improves the internal temperature and humidity, thereby effectively avoiding the environmental factors that allow bacteria, fungi and mold to survive and reproduce.

[0004] The present invention adopts the following technical solution:

[0005] A mattress with a three-dimensional breathable side structure includes: a mattress body with a breathable structure; a three-dimensional breathable composite side, including a three-dimensional breathable layer and a gradient support layer; the gradient support layer has a trapezoidal cross-section and is disposed around the mattress body, with the three-dimensional breathable layer located outside the gradient support layer; the mattress body, the three-dimensional breathable layer, and the gradient support layer work together to form a breathable channel; the combination of the trapezoidal cross-section of the gradient support layer and the three-dimensional breathable layer forms a three-dimensional breathable channel surrounding the mattress, realizing air circulation between the sides, the mattress body, and the outside environment, improving the breathability of the mattress, and consequently improving the internal temperature and humidity of the mattress, thereby effectively preventing the survival and reproduction of bacteria, fungi, and mold.

[0006] Preferably, the gradient support layer includes an insulating skeleton and a buffer interface layer. The insulating skeleton provides rigid support, and the buffer interface layer disperses pressure. The combination of the two ensures lateral pressure resistance while reducing local pressure concentration, and balances breathability and comfort when sitting or lying down.

[0007] Preferably, the thickness of the gradient support layer is greater than or equal to 10mm to ensure that the sides have sufficient support strength and are not easily deformed during long-term use.

[0008] Preferably, the insulating skeleton is made of densely distributed fiber material with high hardness. Through the dense distribution of fine filaments, a strong three-dimensional support structure is formed, which has efficient ventilation and good support performance.

[0009] Preferably, the buffer interface layer is a mesh structure disposed on the front and rear sides of the isolation frame. The mesh buffer interface layer absorbs impact energy through elastic deformation, and its open structure allows air to pass through, achieving a dynamic balance between support and breathability.

[0010] Preferably, the insulating skeleton is a skeleton fiber structure that is independently suspended between the two buffer interface layers.

[0011] Preferably, the three-dimensional breathable layer is a breathable mesh fabric, which has a certain degree of breathability and tear resistance.

[0012] Preferably, the three-dimensional breathable layer and the gradient support layer are connected by quilting, dotting, or adhesive.

[0013] Preferably, the mattress body has a top layer fabric and a bottom layer fabric on the upper and lower sides, and the three-dimensional breathable composite side is sewn and fixed to the top layer fabric and the bottom layer fabric respectively by the edge band, so as to connect the mattress body to the three-dimensional breathable composite side.

[0014] Preferably, the breathable structure of the mattress body includes a front quilted layer, a latex layer, a sponge layer, a needle-punched cotton layer, and a support layer, forming a vertical breathable path. The complementary nature of the pore structures of different materials is utilized to achieve full-layer breathability of the mattress body.

[0015] Preferably, the front quilted layer, latex layer, sponge layer, needle-punched cotton layer, and support layer all have breathable holes to achieve a breathable effect.

[0016] Preferably, the front quilted layer, latex layer, sponge layer, needle-punched cotton layer, and support layer are fixedly connected by multi-needle quilting.

[0017] Compared with the prior art, the present invention has the following advantages:

[0018] 1. The mattress body, three-dimensional breathable layer, and gradient support layer of this utility model work together to form a breathable channel. The combination of the trapezoidal cross-section of the gradient support layer and the three-dimensional breathable layer creates a three-dimensional breathable channel surrounding the mattress, enabling air circulation between the sides, the mattress body, and the outside environment. This improves the mattress's breathability and, consequently, enhances the internal temperature and humidity, effectively preventing the survival and reproduction of bacteria, fungi, and mold. Simultaneously, the gradient support structure strengthens edge support and prevents sagging.

[0019] 2. Traditional frameless mattresses have noticeable springs on the sides, causing a noticeable foreign body sensation when sitting on the edge. This application significantly improves the situation where the spring wires are clearly felt on the sides of the mattress through a three-dimensional breathable composite side design. This better protects the human body and the mattress structure. Attached Figure Description

[0020] Figure 1 This is a cross-sectional view of a mattress with a three-dimensional breathable side structure.

[0021] Figure 2 This is a schematic diagram of the cross-section of the gradient support layer.

[0022] In the diagram, the mattress body is 1, the front pleated layer is 1-1, the latex layer is 1-2, the sponge layer is 1-3, the needle-punched cotton layer is 1-4, the support layer is 1-5, the three-dimensional breathable composite side is 2, the three-dimensional breathable layer is 2-1, the gradient support layer is 2-2, the isolation frame is 2-2-1, and the cushioning interface layer is 2-2-2. Detailed Implementation

[0023] To facilitate understanding of the technical solution of this utility model, the following detailed description is provided in conjunction with the accompanying drawings and specific embodiments.

[0024] Example 1

[0025] like Figure 1-2 As shown, a mattress with a three-dimensional breathable side structure includes:

[0026] Mattress body 1 has a breathable structure;

[0027] The three-dimensional breathable composite side 2 includes a three-dimensional breathable layer 2-1 and a gradient support layer 2-2; the gradient support layer 2-2 has a trapezoidal cross-section and is set around the mattress body 1, while the three-dimensional breathable layer 2-1 is located outside the gradient support layer 2-2.

[0028] The mattress body 1, the three-dimensional breathable layer 2-1, and the gradient support layer 2-2 work together to form a breathable channel. Through the combination of the trapezoidal cross section of the gradient support layer and the three-dimensional breathable layer, a three-dimensional breathable channel is formed around the mattress, realizing the circulation of air between the sides, the mattress body, and the outside world, thereby improving the breathability of the mattress and improving the internal temperature and humidity of the mattress. This effectively prevents the survival and reproduction of bacteria, fungi, and mold.

[0029] The gradient support layer 2-2 includes an insulating skeleton 2-2-1 and a buffer interface layer 2-2-2. The insulating skeleton provides rigid support, and the buffer interface layer disperses pressure. The combination of the two ensures lateral pressure resistance while reducing local pressure concentration, and balances breathability and comfort when sitting or lying down.

[0030] The thickness of the gradient support layer 2-2 is greater than or equal to 10mm to ensure that the sides have sufficient support strength and are not easily deformed during long-term use.

[0031] The insulating skeleton 2-2-1 is made of densely distributed fiber material with high rigidity. Through the dense distribution of fine filaments, a strong three-dimensional support structure is formed, which has efficient ventilation and good support performance.

[0032] The buffer interface layer 2-2-2 is a mesh structure set on the front and back sides of the isolation frame 2-2-1. The mesh buffer interface layer absorbs impact energy through elastic deformation, and its open structure allows air to pass through, achieving a dynamic balance between support and breathability.

[0033] The isolation skeleton 2-2-1 is an independent skeleton fiber structure suspended between the two buffer interface layers 2-2-2.

[0034] The three-dimensional breathable layer 2-1 is a breathable mesh fabric with certain breathability and tear resistance.

[0035] In other words, air can freely pass through the three-dimensional breathable composite side layer 2 of the mattress. Because the three-dimensional breathable layer 2-1 is a breathable mesh fabric with large openings, it does not obstruct air exchange. Furthermore, the insulating frame 2-2-1 has a three-dimensional structure, with each frame fiber independently suspended between the two buffer interface layers 2-2-2. Therefore, air can also freely permeate within this three-dimensional space. This ensures that the temperature and humidity inside the mattress are in constant balance with the external environment, preventing condensation on the mattress surface.

[0036] The three-dimensional breathable layer 2-1 and the gradient support layer 2-2 are connected by quilting, dotting, or adhesive.

[0037] The mattress body 1 has a top layer fabric and a bottom layer fabric on the upper and lower sides. The three-dimensional breathable composite side 2 is sewn and fixed to the top layer fabric and the bottom layer fabric respectively by the edge band, connecting the mattress body 1 to the three-dimensional breathable composite side 2.

[0038] The breathable structure of the mattress body 1 includes a front pleated layer 1-1, a latex layer 1-2, a sponge layer 1-3, a needle-punched cotton layer 1-4, and a support layer 1-5, forming a vertical breathable path. The complementary nature of the pore structures of different materials is used to achieve full-layer breathability of the mattress body.

[0039] The front pleated layer 1-1, latex layer 1-2, sponge layer 1-3, needle-punched cotton layer 1-4, and support layer 1-5 all have breathable holes to achieve a breathable effect.

[0040] The front pleated layer 1-1, latex layer 1-2, sponge layer 1-3, needle-punched cotton layer 1-4, and support layer 1-5 are fixedly connected by multi-needle quilting.

[0041] The above are merely preferred embodiments of this utility model. The scope of protection of this utility model is defined by the scope of the claims. Any improvements and modifications made by those skilled in the art without departing from the spirit and scope of this utility model should also be considered as protection within the scope of this utility model.

Claims

1. A mattress with a three-dimensional breathable side structure, characterized in that, include: The mattress body (1) has a breathable structure; The three-dimensional breathable composite side (2) includes a three-dimensional breathable layer (2-1) and a gradient support layer (2-2); the gradient support layer (2-2) has a trapezoidal cross-section and is located around the mattress body (1), while the three-dimensional breathable layer (2-1) is located outside the gradient support layer (2-2). The mattress body (1), the three-dimensional breathable layer (2-1), and the gradient support layer (2-2) work together to form a breathable channel.

2. The mattress with a three-dimensional breathable side structure according to claim 1, characterized in that, The gradient support layer (2-2) includes an isolation skeleton (2-2-1) and a buffer interface layer (2-2-2).

3. The mattress with a three-dimensional breathable side structure according to claim 1, characterized in that, The thickness of the gradient support layer (2-2) is greater than or equal to 10 mm.

4. The mattress with a three-dimensional breathable side structure according to claim 2, characterized in that, The insulating skeleton (2-2-1) is made of densely distributed fiber material.

5. The mattress with a three-dimensional breathable side structure according to claim 2, characterized in that, The buffer interface layer (2-2-2) is a mesh structure disposed on the front and back sides of the isolation skeleton (2-2-1).

6. The mattress with a three-dimensional breathable side structure according to claim 5, characterized in that, The isolation skeleton (2-2-1) is an independent skeleton fiber structure suspended between the two buffer interface layers (2-2-2).

7. The mattress with a three-dimensional breathable side structure according to claim 1, characterized in that, The three-dimensional breathable layer (2-1) is a breathable mesh fabric.

8. The mattress with a three-dimensional breathable side structure according to claim 1, characterized in that, The three-dimensional breathable layer (2-1) and the gradient support layer (2-2) are connected by quilting, dotting, or adhesive.

9. The mattress with a three-dimensional breathable side structure according to claim 1, characterized in that, The mattress body (1) has a top layer fabric and a bottom layer fabric on the upper and lower sides. The three-dimensional breathable composite side (2) is sewn and fixed to the top layer fabric and the bottom layer fabric respectively by the edge band.

10. The mattress with a three-dimensional breathable side structure according to claim 1, characterized in that, The breathable structure of the mattress body (1) includes a front quilted layer (1-1), a latex layer (1-2), a sponge layer (1-3), a needle-punched cotton layer (1-4), and a support layer (1-5).

11. The mattress with a three-dimensional breathable side structure according to claim 10, characterized in that, The front pleated layer (1-1), latex layer (1-2), sponge layer (1-3), needle-punched cotton layer (1-4), and support layer (1-5) all have breathable holes.

12. The mattress with a three-dimensional breathable side structure according to claim 10, characterized in that, The front quilted layer (1-1), latex layer (1-2), sponge layer (1-3), needle-punched cotton layer (1-4), and support layer (1-5) are fixedly connected by multi-needle quilting.