Comfortable non-slip mattress
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SIMMONS BEDDING&FURNITURE (SUZHOU) LTD
- Filing Date
- 2025-07-01
- Publication Date
- 2026-07-03
AI Technical Summary
The sheets on existing Simmons mattresses have a high slippage rate, causing continuous displacement when users turn over or get up, which reduces the user experience.
An anti-slip component is installed on the top layer of the mattress, including an array of anti-slip ridges composed of diamond-shaped protrusions and connecting parts, which increases the roughness of the outer layer to prevent the sheet from slipping.
It effectively prevents the bed sheet from shifting continuously during use due to turning over or getting up, thus improving comfort.
Smart Images

Figure CN224440849U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a mattress, and more specifically, to a comfortable, non-slip 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] However, this characteristic causes the sheets placed on top of the mattress (especially those made of high-slip materials such as pure cotton and silk) to shift continuously when the user turns over or gets up, requiring repeated adjustments and significantly reducing the user experience.
[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 comfortable and non-slip Simmons mattress.
[0006] The technical solution of this utility model is:
[0007] A comfortable, non-slip Simmons mattress comprises, from the inside out, a bottom layer, an elastic layer, a breathable layer, a top layer, and an outer covering layer. The surface of the top layer facing away from the breathable layer has an anti-slip component that lifts up the outer covering layer. The anti-slip component includes a plurality of anti-slip protrusions arranged in an array, with a gap between adjacent anti-slip protrusions. Each anti-slip protrusion includes a plurality of diamond-shaped protrusions arranged in an array along its length and a connecting portion for connecting two adjacent diamond-shaped protrusions.
[0008] The present invention is further configured such that the top layer includes an integrally formed inner and outer fabric, wherein the inner fabric is formed by warp knitting of comb GB1 and comb GB2 to form a warp velvet fabric.
[0009] The present invention is further configured such that the comb GB1 is a warp-pile weave with a weave structure of 23 / 10∥full weave, and the comb GB2 is a warp-plain weave with a weave structure of 21 / 23∥full weave.
[0010] The present invention is further configured such that the fabric structure includes comb GB3 and comb GB4, wherein the fabric structure of comb GB3 is 23 / 10 / 23 / 32 / / two threads and five openings, and the fabric structure of comb GB4 is 54 / 56 / 54 / 45 / / two threads and five openings.
[0011] The present invention is further configured such that the comb GB1 and comb GB2 are made of elastic yarn, which is formed by twisting several polyester hollow fibers, and the comb GB3 and GB4 are made of anti-slip yarn, which is formed by twisting polyester and flax fibers.
[0012] The present invention is further configured such that the outer layer and the bottom layer are both formed by warp and weft weaving of a plurality of first composite yarns to form a plain weave structure, wherein the first composite yarns are formed by twisting nylon, cotton fiber and viscose fiber.
[0013] The beneficial technical effects of this utility model are:
[0014] By installing anti-slip components on the top layer, the anti-slip components lift up the outer layer. When the sheet is laid on top of the mattress, the anti-slip components lift up the outer layer, increasing the roughness of the outer layer surface and thus providing a good anti-slip effect. This prevents the sheet from shifting continuously when the user turns over or gets up, making it more convenient for the user. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the structure of this utility model;
[0016] Figure 2 This is a diagram showing the movement of the yarn padding in the comb bar GB1 of this utility model;
[0017] Figure 3 This is a diagram showing the movement of the yarn padding in the comb bar GB2 of this utility model;
[0018] Figure 4 This is a diagram showing the movement of the yarn padding in the comb bar GB3 of this utility model;
[0019] Figure 5 This is a motion diagram of the yarn padding of the comb GB4 of this utility model.
[0020] In the diagram, 1 is the bottom layer; 2 is the elastic layer; 3 is the breathable layer; 4 is the top layer; 5 is the outer layer; and 6 is the anti-slip ridge. Detailed Implementation
[0021] 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.
[0022] A comfortable, non-slip Simmons mattress, such as Figures 1-5As shown, from the inside out, it includes a bottom layer 1, an elastic layer 2, a breathable layer 3, a top layer 4, and an outer covering layer 5. The surface of the top layer 4 facing away from the breathable layer 3 has an anti-slip component. The anti-slip component lifts up the outer covering layer 5. The anti-slip component includes a plurality of anti-slip protrusions 6 arranged in an array. There is a gap between adjacent anti-slip protrusions 6. The anti-slip protrusions 6 include a plurality of rhomboid protrusions arranged in an array along their length direction and a connecting part for connecting two adjacent rhomboid protrusions. By using the anti-slip component, the outer covering layer 5 is lifted up, making the outer covering layer 5 protrude, increasing the surface roughness, thereby having a good anti-slip effect.
[0023] The elastic layer 2 is composed of several independent pocket springs. The breathable layer 3 is bonded to one side of the elastic layer 2. The breathable layer 3 is made of sponge. The sponge has good elasticity, which ensures the elasticity of the entire mattress. The sponge is also densely covered with micropores, which have a good moisture absorption and breathability effect.
[0024] Molten polyester is fed into a spinneret equipped with a hollow spinneret to obtain hollow polyester fibers. Several hollow polyester fibers are then fed into a twisting machine to form an elastic yarn. Polyester has excellent elasticity, and its hollow cross-section provides a more fluffy feel, further ensuring elasticity. Polyester and linen fibers are fed into a twisting machine to form an anti-slip yarn. Linen fibers have excellent anti-slip properties and excellent moisture absorption and quick-drying properties, ensuring both the surface roughness of the anti-slip yarn and the overall breathability of the yarn.
[0025] Several prepared elastic yarns are used as guide bars GB1 and GB2, and several anti-slip yarns are used as guide bars GB3 and GB4. These are then placed together in a warp knitting machine to form the top layer 4. Guide bars GB1 and GB2 are used as the inner layer in a warp-pile weave. Guide bar GB1 is a warp-pile weave with a weave structure of 23 / 10∥full thread, and guide bar GB2 is a warp-pile weave with a weave structure of 21 / 23∥full thread. The warp-pile weave has a smooth surface and a soft hand feel, ensuring the flatness of the inner layer. Guide bars GB3 and GB4 are used as the outer layer. Guide bar GB3 has a weave structure of 23 / 10 / 23 / 32 / / two thread five open, and guide bar GB4 has a weave structure of 54 / 5. 6 / 54 / 45 / / Two through five gaps; Through the gaps in the comb GB3 and comb GB4 in the top layer structure, the yarn thickness of comb GB3 and comb GB4 makes several anti-slip ridges 6 integrally formed on the surface of the top layer 4. The same anti-slip ridge 6 is composed of several diamond-shaped protrusions and connecting parts for connecting adjacent diamond-shaped protrusions, ensuring the integrity of the top layer 4. Due to the setting of the gaps, there is a gap between the connecting parts on adjacent anti-slip ridges 6, thus forming a depression. The setting of diamond-shaped protrusions and connecting parts makes each anti-slip ridge 6 composed of different shapes, further ensuring the complexity of the protruding pattern, ensuring the roughness, and ensuring the anti-slip effect of the overall top layer 4.
[0026] Nylon, cotton, and viscose fibers are twisted in a twisting machine to form a first composite yarn. Several of the first composite yarns are then placed in a loom and woven in a plain weave pattern to form an outer layer 5 and a bottom layer 1. Viscose and cotton have excellent moisture absorption and quick-drying properties, are relatively soft, and are all natural fibers. The surface morphology and roughness of natural fibers vary, resulting in different surface roughness of the first composite yarn. Nylon has excellent strength and elasticity, ensuring the strength of the first composite yarn. This allows the outer layer 5 and the bottom layer 1 to have both anti-slip properties and good comfort.
[0027] The top layer 4 without anti-slip components is sewn to the breathable layer 3 on the side away from the elastic layer 2. The bottom layer 1 is sewn to the elastic layer 2 on the side away from the breathable layer 3. The outer layer 5 is sewn to the top layer 4 on the side with anti-slip components. The anti-slip components lift up the outer layer 5 to form the entire mattress. The sheet is then placed on top of the mattress. Due to the anti-slip components, the outer layer 5 is lifted up, increasing the roughness of the surface of the outer layer 5, thus providing a good anti-slip effect. This prevents the sheet from continuously shifting when the user turns over or gets up, making it more convenient for the user.
[0028] 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 comfort slip sheet mattress characterized by: From the inside out, it includes a bottom layer (1), an elastic layer (2), a breathable layer (3), a top layer (4), and an outer covering layer (5). The surface of the top layer (4) facing away from the breathable layer (3) has an anti-slip component. The anti-slip component lifts up the outer covering layer (5). The anti-slip component includes a plurality of anti-slip protrusions (6) arranged in an array. There is a gap between adjacent anti-slip protrusions (6). The anti-slip protrusions (6) include a plurality of rhomboid protrusions arranged in an array along their length direction and a connecting part for connecting two adjacent rhomboid protrusions.
2. The comfort and slip-resistant mattress pad of claim 1, wherein: The top layer (4) includes an integrally formed inner and outer fabric, wherein the inner fabric is formed by warp knitting of comb GB1 and comb GB2 to form a warp velvet fabric.
3. The comfort and slip-resistant mattress pad of claim 2, wherein: The comb GB1 is a warp-knitted weave with a weave structure of 23 / 10∥full weave, and the comb GB2 is a warp-plain weave with a weave structure of 21 / 23∥full weave.
4. The comfort and slip-resistant mattress pad of claim 3, wherein: The fabric structure includes comb GB3 and comb GB4. The fabric structure of comb GB3 is 23 / 10 / 23 / 32 / / two threads and five openings, and the fabric structure of comb GB4 is 54 / 56 / 54 / 45 / / two threads and five openings.
5. The comfort and slip-resistant mattress pad of claim 4, wherein: The combs GB1 and GB2 are made of elastic yarn, which is formed by twisting several polyester hollow fibers. The combs GB3 and GB4 are made of anti-slip yarn, which is formed by twisting polyester and flax fibers.
6. The comfort and slip-resistant mattress pad of claim 1, wherein: Both the outer layer (5) and the bottom layer (1) are formed by weaving a number of first composite yarns to form a plain weave structure. The first composite yarns are made by twisting nylon, cotton fiber and viscose fiber.