Partitioned multi-sensory neck pillow

By designing a multi-sensory neck pillow with zones, combining support, adjustment, and comfort layers, the problem of insufficient support and coverage in existing pillows is solved, creating multiple sleeping zones and improving user comfort and neck coverage.

CN224344636UActive Publication Date: 2026-06-12GLORY HOME FURNISHING JIAXING

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GLORY HOME FURNISHING JIAXING
Filing Date
2025-07-04
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing pillows often fail to provide even support and adequate neck coverage, resulting in insufficient comfort for users during sleep.

Method used

A multi-sensory neck support pillow with zoned design is designed, including a support layer, an adjustment layer, and a comfort layer. The adjustment layer consists of low-firm and high-firm adjustment layers. The low-firm adjustment layer is located on one side of the support layer, and the high-firm adjustment layers are symmetrically located on both sides of the low-firm adjustment layer. The ventilation grooves are arranged in a certain pattern on the comfort layer to form multiple sleeping sensation zones, thereby improving the comfort and coverage of the pillow.

Benefits of technology

It features multiple sleeping zones to meet the needs of different users, enhancing the pillow's comfort and envelopment, and providing better neck support and breathability.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224344636U_ABST
    Figure CN224344636U_ABST
Patent Text Reader

Abstract

A multi-sensory neck support pillow includes a support layer, an adjustment layer disposed on one side of the support layer, and a comfort layer disposed on the side of the adjustment layer opposite to the support layer. The adjustment layer includes a low-firm adjustment layer disposed on the side of the support layer opposite to the comfort layer, and two high-firm adjustment layers symmetrically disposed on both sides of the low-firm adjustment layer. The firmness of the low-firm adjustment layer is less than that of the high-firm adjustment layers. The comfort layer includes a comfort layer body and multiple breathable grooves disposed on the comfort layer. The comfort layer body includes a high sleeping area and a low sleeping area disposed on one side of the high sleeping area. The low-firm adjustment layer and the high-firm adjustment layer extend sequentially through the high sleeping area and the low sleeping area, respectively. This multi-sensory neck support pillow provides multiple sleeping zones to meet different user needs and improves the comfort and support of the pillow during use.
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Description

Technical Field

[0001] This utility model belongs to the field of pillow technology, and in particular to a multi-sensory neck support pillow with partitions. Background Technology

[0002] Pillows are an indispensable sleep product in daily life, significantly impacting sleep quality and neck and shoulder health. During sleep, pillows primarily support the neck and head, helping to maintain the natural, healthy curvature of the cervical spine. As people's demands for sleep quality continue to increase, various pillows with different functions and designs have appeared on the market.

[0003] For example, a Chinese patent for a pillow with multiple sleeping zones (application number CN202420164921.0) provides different sleeping sensations by setting up upper and lower pillow bodies with different firmnesses. The pillow surfaces of the upper and lower pillow bodies are provided with ventilation grooves, and the depth of the ventilation grooves is arranged in a certain pattern to increase the difference in sleeping sensation between the upper and lower pillow bodies. Although this design can meet the different needs of users for pillow firmness to a certain extent, the gaps between the ventilation grooves make it easy for the neck to sink into the gaps when lying down, resulting in uneven support and failing to provide a good sense of coverage for the user's neck during use. Utility Model Content

[0004] In view of this, the present invention provides a multi-sensory neck support pillow with partitions that can enhance the user's neck support to meet industrial needs.

[0005] A multi-sensory neck support pillow includes a support layer, an adjustment layer disposed on one side of the support layer, and a comfort layer disposed on the side of the adjustment layer opposite to the support layer. The adjustment layer includes a low-firm adjustment layer disposed on the side of the support layer opposite to the comfort layer, and two high-firm adjustment layers symmetrically disposed on both sides of the low-firm adjustment layer. The firmness of the low-firm adjustment layer is less than that of the high-firm adjustment layers. The comfort layer includes a comfort layer body and multiple breathable grooves disposed on the comfort layer. The comfort layer body includes a high sleeping area and a low sleeping area disposed on one side of the high sleeping area. The low-firm adjustment layer and the high-firm adjustment layer extend sequentially through the high sleeping area and the low sleeping area, respectively.

[0006] Furthermore, the spacing between any two adjacent ventilation slots is equal.

[0007] Furthermore, the extension direction of the breathable groove is the same as the length direction of the comfort layer.

[0008] Furthermore, there is a smooth transition between the high sleep zone and the low sleep zone, and the height of the high sleep zone is greater than the height of the low sleep zone.

[0009] Furthermore, the outer contours of the high sleep zone and the low sleep zone are arc-shaped.

[0010] Furthermore, the outer contours of the support layer, the adjustment layer, and the comfort layer overlap.

[0011] Furthermore, the low-hardness adjustment layer is disposed at the center of the support layer and the comfort layer.

[0012] Compared with existing technologies, the multi-sensory neck pillow provided by this utility model enhances the comfort of the pillow through an adjustment layer disposed between the support layer and the comfort layer. The adjustment layer includes a low-firm adjustment layer disposed on one side of the support layer and two high-firm adjustment layers symmetrically disposed on both sides of the low-firm adjustment layer. The hardness of the low-firm adjustment layer is less than that of the high-firm adjustment layers. During use, the user can rest their head on either the low-firm or high-firm adjustment layer. When the user's neck is on the low-firm adjustment layer, the high-firm adjustment layers on both sides of the low-firm adjustment layer wrap around the user's neck. Furthermore, the extension directions of both the low-firm and high-firm adjustment layers sequentially pass through the high and low sleeping areas of the comfort layer. The combination of the low-firm and high-firm adjustment layers with the high and low sleeping areas forms four sleeping sensation zones. Therefore, this multi-sensory neck pillow achieves multiple sleeping sensation zones, meeting different user needs and improving the comfort and enveloping feel of the pillow during use. Attached Figure Description

[0013] Figure 1 A schematic diagram of the structure of the multi-sensory neck pillow provided by this utility model.

[0014] Figure 2 for Figure 1 A schematic diagram of the exploded structure of the multi-sensory neck support pillow. Detailed Implementation

[0015] The specific embodiments of this utility model are described in further detail below. It should be understood that the description of the embodiments of this utility model herein is not intended to limit the scope of protection of this utility model.

[0016] like Figures 1 to 2The diagram shown is a structural schematic of the multi-sensory neck support pillow provided by this utility model. The multi-sensory neck support pillow includes a support layer 10, an adjustment layer 20 disposed on one side of the support layer 10, and a comfort layer 30 disposed on the side of the adjustment layer 20 opposite to the support layer 10. The multi-sensory neck support pillow also includes other functional modules, such as assembly components, etc., which should be known to those skilled in the art and will not be described in detail here.

[0017] The support layer 10 supports the adjustment layer 20 and the comfort layer 30, and maintains the shape of the pillow to prevent it from collapsing or deforming excessively during use, ensuring its support and durability. The support layer 10 is made of high-hardness sponge. The support layer 10 is existing technology and will not be described in detail here. The connection structure between the support layer 10, the adjustment layer 20, and the comfort layer 30 is also existing technology. In this embodiment, the support layer 10, the adjustment layer 20, and the comfort layer 30 are bonded together with adhesive. The outer contours of the edges of the support layer 10, the adjustment layer 20, and the comfort layer 30 overlap, resulting in a smooth edge to the pillow when they are connected together.

[0018] The adjustment layer 20 includes a low-hardness adjustment layer 21 disposed on one side of the support layer 10, and two high-hardness adjustment layers 22 symmetrically disposed on both sides of the low-hardness adjustment layer 21.

[0019] The low-hardness adjustment layer 21 and the high-hardness adjustment layer 22 are combined together, and their outer contours are the same as the outer contours of the support layer 10, thereby facilitating the combination of the adjustment layer 20 and the support layer 10.

[0020] The low-hardness adjustment layer 21 is made of low-density sponge, which is relatively soft and has a low overall hardness. The high-hardness adjustment layer 22 is made of high-density sponge and has higher hardness. Therefore, the low-hardness adjustment layer 21 and the high-hardness adjustment layer 22 have different hardnesses, with the low-hardness adjustment layer 21 being less hard than the high-hardness adjustment layer 22. The low-density sponge gives the low-hardness adjustment layer 21 a softer feel and better cushioning performance, making it suitable for areas requiring high pressure relief. The high-density sponge, on the other hand, gives the high-hardness adjustment layer 22 stronger support, providing stable support for the human body. The combination of these two layers can meet diverse needs for softness and hardness in different scenarios, further enhancing the user experience and functionality of the product. When the user's head is on the low-hardness adjustment layer 21, the high-hardness adjustment layers 22 on both sides of the low-hardness adjustment layer 21 wrap around the user's head, improving user comfort during use.

[0021] The comfort layer 30 is used to support the user's neck in direct contact. The surface of the comfort layer 30 is the pillow surface of the pillow. The comfort layer 30 includes a comfort layer body 31 disposed on the adjustment layer 20, and a plurality of breathable grooves 32 disposed on the comfort layer body 31. The breathable grooves 32 are disposed on one side of the pillow surface of the comfort layer body 31. Moreover, the comfort layer 30 is made of low-density sponge, which gives the comfort layer 30 a soft touch and good cushioning performance, and also gives the comfort layer 30 a good pressure relief effect.

[0022] The comfort layer body 31 includes a high sleeping area 311 and a low sleeping area 312 disposed on one side of the high sleeping area 311. The height of the high sleeping area 311 is greater than the height of the low sleeping area 312, and the outer contours of both the high sleeping area 311 and the low sleeping area 312 are arc-shaped, allowing the user to choose to rest in either the high sleeping area 311 or the low sleeping area 312 as needed. The transition between the high sleeping area 311 and the low sleeping area 312 is smooth to ensure the user's comfort in the position between the two areas.

[0023] The ventilation grooves 32 extend in the same direction as the length of the comfort layer 30. Multiple ventilation grooves 32 enhance the breathability of the surface of the comfort layer 30, thereby ensuring breathability between the user and the pillow and improving the user's experience. The spacing between any two adjacent ventilation grooves 32 is equal to ensure uniform breathability of the pillow surface of the comfort layer 30.

[0024] The low-firmness adjustment layer 21 and the high-firmness adjustment layer 22 extend sequentially through the high sleeping area 311 and the low sleeping area 312. Two different sleeping sensation zones are formed between the low-firmness adjustment layer 21 and the high sleeping area 311 and the low sleeping area 312, and the same applies to the high-firmness adjustment layer 22. This results in four different sleeping sensation zones on the pillow. In this embodiment, the low-firmness adjustment layer 21 is positioned at the center of the support layer 10 and the comfort layer 30, making it convenient for the user to rest their head on it. When the user's neck is positioned where the low-firmness adjustment layer 21 overlaps with the high sleeping area 311 and the low sleeping area 312, the user's neck presses down on the low-firmness adjustment layer 21 because its firmness is less than that of the high-firmness adjustment layer 22. The high-firmness adjustment layers 22 on both sides of the low-firmness adjustment layer 21 then wrap around the user's neck, enhancing comfort and a sense of enclosure during use.

[0025] Compared with the prior art, the multi-sensory neck pillow provided by this utility model enhances the comfort of the pillow through the adjustment layer 20 disposed between the support layer 10 and the comfort layer 30. The adjustment layer 20 includes a low-firmness adjustment layer 21 disposed on one side of the support layer 10, and two high-firmness adjustment layers 22 symmetrically disposed on both sides of the low-firmness adjustment layer 21. The firmness of the low-firmness adjustment layer 21 is lower than that of the high-firmness adjustment layer 22. During use, the user can rest their head on either the low-firmness adjustment layer 21 or the high-firmness adjustment layer 22. When the user's neck is on the low-firmness adjustment layer 21, the high-firmness adjustment layers 22 on both sides of the low-firmness adjustment layer 21 wrap around the user's neck. Furthermore, the low-firmness adjustment layer 21 and the high-firmness adjustment layer 22 extend sequentially through the high sleeping zone 311 and the low sleeping zone 312 of the comfort layer 30. The low-firmness adjustment layer 21 and the high-firmness adjustment layer 22, combined with the high sleeping zone 311 and the low sleeping zone 312, form four sleeping comfort zones. Therefore, this multi-sensory neck pillow achieves multiple sleeping comfort zones, meeting the different needs of users and improving the comfort and enveloping feel of the pillow during use.

[0026] The above are merely preferred embodiments of the present utility model and are not intended to limit the scope of protection of the present utility model. Any modifications, equivalent substitutions or improvements within the spirit of the present utility model are covered within the scope of the claims of the present utility model.

Claims

1. A multi-sensory neck support pillow with zoned compartments, characterized in that: The multi-sensory neck pillow includes a support layer, an adjustment layer disposed on one side of the support layer, and a comfort layer disposed on the side of the adjustment layer opposite to the support layer. The adjustment layer includes a low-firm adjustment layer disposed on the side of the support layer opposite to the comfort layer, and two high-firm adjustment layers symmetrically disposed on both sides of the low-firm adjustment layer. The firmness of the low-firm adjustment layer is less than that of the high-firm adjustment layer. The comfort layer includes a comfort layer body and multiple breathable grooves disposed on the comfort layer. The comfort layer body includes a high sleeping area and a low sleeping area disposed on one side of the high sleeping area. The extension directions of the low-firm adjustment layer and the high-firm adjustment layer both pass through the high sleeping area and the low sleeping area in sequence.

2. The multi-sensory neck support pillow as described in claim 1, characterized in that: The spacing between any two adjacent air vents is equal.

3. The multi-sensory neck support pillow as described in claim 1, characterized in that: The ventilation groove extends in the same direction as the length of the comfort layer.

4. The multi-sensory neck support pillow as described in claim 1, characterized in that: The high sleep zone and the low sleep zone have a smooth transition, and the height of the high sleep zone is greater than the height of the low sleep zone.

5. The multi-sensory neck support pillow as described in claim 1, characterized in that: The outer contours of the high sleeping area and the low sleeping area are arc-shaped.

6. The multi-sensory neck support pillow as described in claim 1, characterized in that: The outer contours of the support layer, the adjustment layer, and the comfort layer overlap.

7. The zoned multi-sensory neck support pillow as described in claim 1, characterized in that: The low-hardness adjustment layer is located at the center of the support layer and the comfort layer.