Moisture-absorbing quick-drying dream bed mattress
By incorporating ventilation holes and protrusions in the outer and top layers of the Simmons mattress, combined with specific fiber materials and structural design, the problem of poor breathability has been solved, achieving the effects of moisture absorption, quick drying, and improved comfort.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SIMMONS BEDDING&FURNITURE (SUZHOU) LTD
- Filing Date
- 2025-07-03
- Publication Date
- 2026-07-07
AI Technical Summary
Existing Simmons mattresses have poor breathability, which makes it easy for body moisture to remain, affecting comfort.
A moisture-wicking and quick-drying Simmons mattress was designed, which enhances breathability by setting ventilation holes and ventilation protrusions in the outer and top layers, combined with the use of linen and hollow fibers to form a mesh structure, and uses individually pocketed springs and foam layers in the filling layer to improve comfort and stability.
It achieves breathability and quick-drying properties for the mattress, improves user comfort, prevents moisture residue, and maintains the overall structural stability and breathability of the mattress.
Smart Images

Figure CN224461384U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a Simmons mattress, and more specifically, to a moisture-wicking and quick-drying Simmons mattress. Background Technology
[0002] Simmons mattresses, as the core sleep carrier in modern homes, typically use smooth knitted or jacquard fabrics on their surfaces to enhance tactile comfort.
[0003] While existing Simmons mattresses utilize individually pocketed springs and offer excellent sleep quality, the fabric covering them has poor breathability. During normal use, moisture from the body is absorbed by the mattress, and due to the poor breathability, this moisture tends to remain, affecting comfort.
[0004] Therefore, a new solution is needed to address this problem. Utility Model Content
[0005] To solve the above-mentioned technical problems, this utility model provides a moisture-wicking and quick-drying Simmons mattress. Through the structural design, the overall Simmons mattress has a better breathability.
[0006] The technical solution of this utility model is:
[0007] A moisture-wicking and quick-drying Simmons mattress includes an outer layer and a filling portion disposed inside the outer layer. The filling portion includes, from bottom to top, an anti-slip layer, an elastic layer, a breathable layer, and a top layer. The outer layer is densely covered with breathable holes communicating with the filling portion. The top layer covers the elastic layer and the breathable layer. The anti-slip layer is covered with the elastic layer around its perimeter and sewn to the perimeter of the top layer. The breathable layer has a plurality of breathable protrusions arranged in an array around its perimeter, with a gap between adjacent breathable protrusions.
[0008] The present invention is further configured such that the top layer includes a covering portion disposed in the middle at the top of the breathable layer and a surrounding portion integrally disposed around the covering portion to cover the elastic layer and the breathable layer, the surrounding portion being mesh-shaped.
[0009] The present invention is further configured such that the covering part is woven in warp and weft to form a plain weave, and the surrounding part is woven in warp and weft to form a gauze weave.
[0010] The present invention is further configured such that the top layer is woven from breathable yarns.
[0011] The present invention is further configured such that the breathable yarn is formed by twisting several flax yarns.
[0012] The present invention is further configured such that the outer sheath is formed by weaving a plurality of first composite yarns to form a perforated structure, the first composite yarns including a core layer and a covering layer covering the outside of the core layer, the core layer being formed by twisting a plurality of hollow fibers, and the covering layer being formed by winding a plurality of viscose fibers and cotton fibers around the outside of the core layer.
[0013] The present invention is further configured such that the perforated structure is a 10-page heddle with the warp float being floating and the weft float being sinking, and the perforated structure cycle from left to right and from bottom to top is: sinking and floating ...
[0014] The beneficial technical effects of this utility model are:
[0015] By incorporating a breathable layer with several breathable protrusions arranged in an array around its perimeter, the top and outer layers are supported by these protrusions, preventing them from completely adhering to the breathable layer. This ensures breathability around the breathable layer and guarantees the overall moisture-wicking and quick-drying properties of the Simmons mattress. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the structure of this utility model;
[0017] Figure 2 This is a diagram of the microstructure of the porous structure of this utility model.
[0018] In the diagram, 1 is the outer layer; 11 is the ventilation hole; 2 is the anti-slip layer; 3 is the elastic layer; 4 is the breathable layer; 41 is the breathable protrusion; 5 is the top layer; 51 is the covering part; and 52 is the surrounding part. Detailed Implementation
[0019] In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, the specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit the scope of this utility model.
[0020] A moisture-wicking and quick-drying Simmons mattress, such as Figure 1 and Figure 2As shown, it includes an outer layer 1 and a filling part disposed inside the outer layer 1. The filling part includes, from bottom to top, an anti-slip layer 2, an elastic layer 3, a breathable layer 4 and a top layer 5. The outer layer 1 is densely covered with breathable holes 11 that communicate with the filling part. The top layer 5 covers the elastic layer 3 and the breathable layer 4. The anti-slip layer 2 is covered with the elastic layer 3 around its perimeter and is sewn to the perimeter of the top layer 5. The breathable layer 4 has a plurality of breathable protrusions 41 arranged in an array around its perimeter, with a gap between adjacent breathable protrusions 41.
[0021] By densely distributing vents 11 on the outer layer 1, the breathability of the outer layer 1 is ensured. The top layer 5 covers the elastic layer 3 and the breathable layer 4. Several breathable protrusions 41 are arrayed around the breathable layer 4. There is a gap between two adjacent breathable protrusions 41, which lifts the top layer 5 so that a breathable cavity is formed between the top layer 5 and the two adjacent breathable protrusions 41, further ensuring the breathability.
[0022] Several flax fibers are placed into a twisting machine and twisted to form a breathable yarn. Flax fibers have excellent breathability and moisture absorption and quick-drying properties, resulting in a breathable yarn with excellent overall breathability. Several breathable yarns are placed into a loom and woven in plain weave to form a covering part 51. Similarly, a leno weave is used to weave a surrounding part 52 around the covering part 51, thus obtaining the entire top layer 5. The leno weave forms a mesh shape due to the intertwining of the warp yarns. When placed around the breathable layer 4, the breathable protrusions 41 support the mesh-shaped surrounding part 52, preventing the surrounding part 52 from completely adhering to the breathable layer 4 and ensuring breathability.
[0023] Several hollow fibers are twisted to form a core layer. The prepared core layer, along with several viscose fibers and cotton fibers, are placed into a spinning machine, where the viscose fibers and cotton fibers are wound around the outer periphery of the core layer in a spinning manner to form the entire first composite yarn. Several first composite yarns are placed into a loom and woven in a perforated weave pattern to form the outer sheath 1. The perforated weave has 10 heddles with the warp floats being floats and the weft floats being sinks. The perforated weave pattern from left to right and from bottom to top is: sink-float sink-float-float-float-float-float-float-float, float-float-float-float-float-float-float-float-float, sink-float-float-float-float-float-float-float-float, float-float-float-float-float-float-float-float-float, sink-float-float-float-float-float-float-float-float, float-float-float-float-float-float-float-float-float-float, sink-float ... The surface of the perforated structure is densely covered with several perforations, forming air vents 11. This makes the air vents 11 and the outer layer 1 an integrally formed structure, ensuring the integrity of the outer layer 1. The setting of air vents 11 enhances the breathability of the outer layer 1. Furthermore, the first composite yarn uses viscose fiber and cotton fiber. Viscose fiber is relatively soft and smooth, with good breathability, ensuring the overall comfort of the mattress. Cotton fiber has a good moisture absorption and quick-drying effect, ensuring the overall breathability of the mattress.
[0024] The elastic layer 3 is made of individually pocketed springs, and the breathable layer 4 is made of sponge. By cutting the sponge, breathable protrusions 41 are distributed in an array around its perimeter. The sponge has a porous structure and has excellent breathability. The anti-slip layer 2 is also made of flax fiber yarn woven in warp and weft, ensuring the anti-slip effect of the anti-slip layer 2. The breathable layer 4 is laid on top of the elastic layer 3, and then the top layer 5 is laid on the side of the breathable layer 4 away from the elastic layer 3. The surrounding layer of the top layer 5 covers the breathable layer 4 and the elastic layer 3. The anti-slip layer 2 is laid at the bottom of the elastic layer 3, which has a good anti-slip effect and ensures the structural stability of the entire mattress. When covering, due to the setting of the breathable protrusions 41 and the mesh-like surrounding part 52, the breathable protrusions 41 support the mesh-like surrounding part 52, preventing the surrounding part 52 from completely sticking to the breathable layer 4, thus ensuring the overall breathability of the Simmons mattress.
[0025] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A moisture-wicking and quick-drying Simmons mattress, characterized in that: It includes an outer layer (1) and a filling part disposed inside the outer layer (1). The filling part includes, from bottom to top, an anti-slip layer (2), an elastic layer (3), a breathable layer (4) and a top layer (5). The outer layer (1) is densely covered with breathable holes (11) communicating with the filling part. The top layer (5) covers the elastic layer (3) and the breathable layer (4). The anti-slip layer (2) is covered with the elastic layer (3) and sewn to the top layer (5). The breathable layer (4) has several breathable protrusions (41) arranged in an array around its perimeter, and there is a gap between two adjacent breathable protrusions (41).
2. The moisture-wicking and quick-drying Simmons mattress according to claim 1, characterized in that: The top layer (5) includes a cover (51) located in the middle on top of the breathable layer (4) and a surrounding part (52) integrally disposed around the cover (51) to cover the elastic layer (3) and the breathable layer (4), the surrounding part (52) being mesh-shaped.
3. The moisture-wicking and quick-drying Simmons mattress according to claim 2, characterized in that: The covering part (51) is woven with warp and weft to form a plain weave, and the surrounding part (52) is woven with warp and weft to form a gauze weave.
4. The moisture-wicking and quick-drying Simmons mattress according to claim 1, characterized in that: The top layer (5) is woven from breathable yarns.
5. The moisture-wicking and quick-drying Simmons mattress according to claim 4, characterized in that: The breathable yarn is made by twisting several flax yarns together.
6. The moisture-wicking and quick-drying Simmons mattress according to claim 1, characterized in that: The outer sheath (1) is formed by weaving a number of first composite yarns to form a perforated structure. The first composite yarn includes a core layer and a covering layer covering the outside of the core layer. The core layer is formed by twisting a number of hollow fibers. The covering layer is wrapped around the outside of the core layer by a number of viscose fibers and cotton fibers.
7. The moisture-wicking and quick-drying Simmons mattress according to claim 6, characterized in that: The perforated structure consists of 10 hexagonal pages with the warp float being "float" and the weft float being "sink". The perforated structure cycle from left to right and from bottom to top is: sink-float-sink-float-sink-float-sink-float-sink-float, float-float-float-float-sink-sink-sink-sink-sink-sink-sink, sink-float-float-sink-float-sink-float-sink-float, sink-float-float-sink-float-sink-float-sink-float, sink-float-float-float-sink ...