Anti-pulling cervical vertebra maintenance pillow with soft and hard structures

By designing a cervical spine support pillow with both soft and firm structures, combining soft and firm pillow bodies, through channels and breathable zones, the problem of pillows being limited in terms of support and breathability is solved. This achieves effective support for the cervical spine and improved breathability, meeting the sleep needs of different groups and improving sleep quality.

CN224483563UActive Publication Date: 2026-07-14GUANGDONG QIANJIA HOME TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG QIANJIA HOME TECHNOLOGY CO LTD
Filing Date
2025-09-05
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing pillows have the problem of supporting only one area of ​​the head and neck, which cannot meet the sleep needs of different groups of people. In particular, they are not supportive enough for people with sub-healthy cervical spine, have poor breathability, and are difficult to improve sleep quality.

Method used

A reverse traction cervical spine care pillow with a soft and hard structure is designed. By setting a soft pillow body and a hard pillow body on the pillow core, combined with through grooves, raised ventilation areas and side ventilation areas, it can achieve effective support for the cervical spine and improve breathability.

Benefits of technology

To meet the sleep needs of different groups, it provides effective support and breathability for the cervical spine, improves sleep quality, adapts to supine and side sleeping habits, and enhances the comfort and durability of the pillow.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224483563U_ABST
    Figure CN224483563U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of anti-pulling cervical vertebra maintenance pillow with soft and hard structure, the pillow main body includes pillow core and the soft pillow body and hard pillow body of being set in the length direction two sides of pillow core, the middle part of headrest area is equipped with protruding ventilation area, the both ends of headrest area are equipped with side ventilation area, in the scheme, the soft pillow body and hard pillow body with different height are set on the pillow core, the sleep demand of cervical vertebra sub-health population can be solved, the purpose of sleeping and maintaining cervical vertebra is realized, the soft pillow body and hard pillow body of different height can satisfy the demand of different population to pillow core height, the soft pillow body and hard pillow body are integrally formed with pillow core, better traction effect, the protruding ventilation area of the middle part of headrest area, while increasing the ventilation area of head when meeting enough traction to cervical vertebra, head is better in sleep process Ventilation, not prone to head stuffy phenomenon, various functional designs satisfy supine and lateral sleeping habit population simultaneously.
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Description

Technical Field

[0001] This utility model relates to the field of pillow technology, specifically to a cervical spine care pillow with a soft-hard structure that provides anti-traction. Background Technology

[0002] As an essential bedding item for sleep every night, a pillow needs to provide effective support for the head and neck area. The back of the head, where the head rests against the pillow, is best made of soft material to protect the brain from injury, while the cervical spine area requires firm material to provide strong support, allowing the cervical spine to maintain its normal physiological curvature and fully relax and rest during sleep.

[0003] However, most pillows on the market currently suffer from a lack of specific support for different areas of the head and neck. While fiber pillows are soft, they lack elasticity, offering poor support for the cervical spine and failing to conform well to the neck and shoulder area.

[0004] Traditional cotton pillows, while conforming well to the human body, offer insufficient support for people with sub-optimal cervical spine health. They lack the function of counter-traction to stretch the cervical spine and cannot effectively address sleep problems for this group. They do not effectively improve sleep quality for sub-optimal health and do not effectively protect the cervical spine. Furthermore, these pillows do not adequately cater to the height needs of different individuals, making it difficult to meet the requirements for supine and side-lying sleep. In order to provide sufficient traction for the cervical spine, some pillows prioritize a close fit to the neck and breathability, resulting in insufficient overall breathability and relatively poor performance. Utility Model Content

[0005] To address the technical deficiencies in the background technology, this utility model proposes a cervical spine care pillow with a soft and hard structure, which solves the above-mentioned technical problems and meets practical needs. The specific technical solution is as follows:

[0006] A cervical spine support pillow with a soft and hard structure includes a pillow body, which includes a pillow core and soft and hard pillow bodies disposed on both sides of the pillow core along its length. The soft and hard pillow bodies are integrally formed with the pillow core, and the horizontal height of the soft pillow body is not lower than the horizontal height of the hard pillow body.

[0007] The pillow body has a through groove extending along its length at the position between the soft and hard pillow bodies, and a headrest area is formed at the bottom of the through groove. The headrest area has a raised ventilation area in the middle and side ventilation areas at both ends.

[0008] As an improvement to the above solution, the top of the soft pillow has a first arc-shaped surface that bulges upward and contacts the human body, and the top of the hard pillow has a second arc-shaped surface that bulges upward and contacts the human body. The horizontal height of the first arc-shaped surface bulging upward is greater than the horizontal height of the second arc-shaped surface bulging upward.

[0009] As an improvement to the above solution, the horizontal height of the side where the pillow core is in contact with the soft pillow body is greater than the horizontal height of the side where the pillow core is in contact with the hard pillow body, thereby forming a headrest area with a curved arc.

[0010] As an improvement to the above solution, the ends of the headrest area along its length are provided with wavy connecting edges, and the two ends of the connecting edges are respectively connected to the soft pillow body and the hard pillow body.

[0011] As an improvement to the above solution, the bottom of the through groove is provided with at least one side ventilation area distributed in a stepped manner at both ends of the headrest area, and the horizontal height of the side ventilation area is lower than the horizontal height of the bottom of the through groove.

[0012] As an improvement to the above solution, the end face of the side ventilation area is provided with a number of first ventilation grooves arranged at equal intervals and communicating with the outside, and the extension direction of the first ventilation grooves is aligned with the length direction of the pillow body.

[0013] As an improvement to the above solution, the raised ventilation area is composed of several annular protrusions, which are arranged in ascending order from small to large along the middle of the headrest area from the inside to the outside, and a second ventilation groove is formed between two adjacent annular protrusions.

[0014] The beneficial effects of this utility model are as follows: This solution provides soft and hard pillow bodies of different heights on the pillow core, which can address the sleep needs of people with sub-optimal cervical spine health, achieving the goal of nourishing the cervical spine while sleeping. The different heights of the soft and hard pillow bodies can meet the needs of different groups for pillow core height. The soft and hard pillow bodies are integrally formed with the pillow core, resulting in better traction. The raised breathable area in the middle of the headrest area not only provides sufficient traction for the cervical spine but also increases the breathable area of ​​the head, improving head ventilation during sleep and reducing the likelihood of a stuffy head. The multiple functional designs also cater to people with supine or side-lying sleeping habits. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the main structure of the pillow according to this utility model.

[0016] Figure 2 This is a schematic diagram of the end face structure of the pillow body of this utility model.

[0017] Figure 3 This is a schematic diagram of the side structure of the pillow body of this utility model.

[0018] The pillow consists of: a pillow body 1, a pillow core 2, a soft pillow body 3, a first arc-shaped surface 31, a hard pillow body 4, a second arc-shaped surface 41, a through groove 5, a headrest area 6, a connecting edge 61, a raised breathable area 7, an annular protrusion 71, a second breathable groove 72, a side breathable area 8, and a first breathable groove 81. Detailed Implementation

[0019] The embodiments of this utility model will be described below with reference to the accompanying drawings and related examples. The embodiments of this utility model are not limited to the following examples, and this utility model relates to relevant necessary components in this technical field, which should be regarded as well-known technology in this technical field and can be known and mastered by those skilled in this technical field.

[0020] like Figures 1 to 3 As shown, a cervical spine care pillow with a soft and hard structure includes a pillow body 1. In the technical solution of the pillow body 1, the pillow body 1 includes a pillow core 2 and a soft pillow body 3 and a hard pillow body 4 disposed on both sides of the pillow core 2 along its length. The soft pillow body 3 and the hard pillow body 4 are integrally formed with the pillow core 2, and the horizontal height of the soft pillow body 3 is not lower than the horizontal height of the hard pillow body 4.

[0021] It should be noted that the soft pillow body 3 has a softer touch and a higher horizontal height than the hard pillow body 4. Compared with the hard pillow body 4, the soft pillow body 3 is suitable for people who are used to sleeping with high pillows. It has the characteristics of being thick and soft, and can still maintain sufficient traction after compressing and conforming to the user's cervical spine.

[0022] It should be noted that the firm pillow body 4 has a firmer feel and a lower horizontal height compared to the soft pillow body 3. Compared to the soft pillow body 3, the firm pillow body 4 is suitable for people who are used to sleeping with a low pillow. It is thin and firm, and its deformation is less after conforming to the user's cervical spine, so it can maintain sufficient traction.

[0023] Furthermore, in the above solution, the pillow body 1 has a through groove 5 extending downwards along its length at the position between the soft pillow body 3 and the hard pillow body 4, and a headrest area 6 is formed at the bottom of the through groove 5. The headrest area 6 has a raised ventilation area 7 in the middle and side ventilation areas 8 at both ends.

[0024] It should be noted that the through groove 5 runs through both ends of the main body of the pillow core 2. The design of the through groove 5 allows the user's neck to fit against the soft pillow body 3 or the hard pillow body 4 when in use, and the head to fit against the headrest area 6, conforming to the curve of the head and cervical spine when the human body is lying supine. The raised breathable area 7 fits against the human head, providing a breathable effect while also increasing the friction between the head and the head, thereby using the weight of the head to provide counter-traction to the cervical spine. The side breathable area 8 increases the overall breathability of the pillow body 1.

[0025] The raised breathable area 7 is composed of several annular protrusions 71, which are arranged in ascending order from small to large along the center of the headrest area 6 from the inside out. A second breathable groove 72 is formed between two adjacent annular protrusions 71. The annular protrusions 71 reduce the contact area between the user's head and the headrest area 6, and enhance the breathability between the head and the pillow core 2 without changing the head friction, thereby improving the user's comfort. In addition, the soft pillow body 3 and the hard pillow body 4 are made of memory foam materials with different hardness. This material has good resilience and support, and can adapt to the shape of the user's neck to provide better support.

[0026] In the technical solution of the soft pillow body 3 and the hard pillow body 4 of this utility model, both the soft pillow body 3 and the hard pillow body 4 are cylindrical. The top of the soft pillow body 3 has a first arc-shaped surface 31 that protrudes upward and contacts the human body, and the top of the hard pillow body 4 has a second arc-shaped surface 41 that protrudes upward and contacts the human body. The horizontal height of the first arc-shaped surface 31 protruding upward is greater than the horizontal height of the second arc-shaped surface 41 protruding upward, so that the soft pillow body 3 has higher support than the hard pillow body 4. The soft pillow body 3 is more suitable for people who are used to sleeping with high pillows. It has the characteristics of high elasticity and softness, and conforms to the user's cervical spine with a higher degree of deformation, which can effectively relieve cervical spine pressure.

[0027] Meanwhile, the curvature design of the first arc surface 31 and the second arc surface 41 both conform to the ergonomic principle, which can better fit the cervical spine curve of the human body after being pressed, providing a more comfortable sleep experience. In addition, the cylindrical shape of the soft pillow body 3 and the hard pillow body 4 also makes the pillow return to its original position quickly during use and not easily deformed, thus ensuring its stability and comfort in long-term use.

[0028] In the technical solution of the pillow core 2 of this utility model, the horizontal height of the side of the pillow core 2 that is in contact with the soft pillow body 3 is greater than the horizontal height of the side of the pillow core 2 that is in contact with the hard pillow body 4, thereby forming a headrest area 6 with a curved arc at the bottom of the through groove 5. The curved headrest area 6 further enhances the comfort and functionality of the pillow. The curved arc of the headrest area 6 matches the natural curve of the back of the human head, so that the head and neck can be properly supported when the user lies on the pillow.

[0029] Furthermore, in the above-described design, each end of the headrest area 6 along its length is provided with a wavy connecting edge 61. The two ends of the connecting edge 61 are respectively connected to the soft pillow body 3 and the hard pillow body 4. The wavy connecting edge 61 has a certain degree of elasticity, providing cushioning when the user's head moves. Simultaneously, this wavy design enhances the structural stability between the soft pillow body 3 and the hard pillow body 4, making the entire pillow more durable during use.

[0030] Furthermore, in the above scheme, the bottom of the through groove 5 is provided with at least one side ventilation area 8 distributed in a stepped manner at both ends of the headrest area 6. The horizontal height of the side ventilation area 8 is lower than the horizontal height of the bottom of the through groove 5. The end face of the side ventilation area 8 is provided with a plurality of first ventilation grooves 81 arranged at equal intervals and communicating with the outside. The extension direction of the first ventilation grooves 81 is aligned with the length direction of the pillow body 1.

[0031] The stepped side ventilation zones 8 design not only increase the pillow's breathability but also effectively disperse heat generated by the head and neck, keeping the pillow dry and comfortable. In the hot summer, this significantly improves the user's sleep experience. In addition, the evenly spaced arrangement of the first ventilation grooves 81 ensures uniform airflow, avoiding local overheating or dampness, further enhancing the pillow's practicality and comfort.

[0032] The above description is only a preferred embodiment of 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 principle 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 cervical spine support pillow with a soft-hard structure, characterized in that, The pillow includes a pillow body, which comprises a pillow core and soft and hard pillow bodies disposed on both sides of the pillow core along its length. The soft and hard pillow bodies are integrally formed with the pillow core, and the horizontal height of the soft pillow body is not lower than the horizontal height of the hard pillow body. The pillow body has a through groove extending along its length at the position between the soft and hard pillow bodies, and a headrest area is formed at the bottom of the through groove. The headrest area has a raised ventilation area in the middle and side ventilation areas at both ends.

2. The anti-traction cervical spine care pillow with a soft-hard structure according to claim 1, characterized in that, The top of the soft pillow has a first arc-shaped surface that bulges upward and contacts the human body, and the top of the hard pillow has a second arc-shaped surface that bulges upward and contacts the human body. The horizontal height of the first arc-shaped surface bulging upward is greater than the horizontal height of the second arc-shaped surface bulging upward.

3. The anti-traction cervical spine care pillow with a soft-hard structure according to claim 1, characterized in that, The horizontal height of the side where the pillow core connects to the soft pillow body is greater than the horizontal height of the side where the pillow core connects to the hard pillow body, thus forming a headrest area with a curved arc.

4. The anti-traction cervical spine care pillow with a soft-hard structure according to claim 1, characterized in that, The headrest area has wavy connecting edges at its ends along its length, with the two ends of the connecting edges connected to the soft pillow body and the hard pillow body, respectively.

5. The anti-traction cervical spine care pillow with a soft-hard structure according to claim 1, characterized in that, The bottom of the through groove is provided with at least one side ventilation area distributed in a stepped manner at both ends of the headrest area, and the horizontal height of the side ventilation area is lower than the horizontal height of the bottom of the through groove.

6. The anti-traction cervical spine care pillow with a soft-hard structure according to claim 1, characterized in that, The end face of the side ventilation area is provided with a number of first ventilation grooves arranged at equal intervals and communicating with the outside. The extension direction of the first ventilation grooves is aligned with the length direction of the pillow body.

7. The anti-traction cervical spine care pillow with a soft-hard structure according to claim 1, characterized in that, The raised ventilation area is composed of several annular protrusions, which are arranged in ascending order from small to large along the middle of the headrest area from the inside to the outside, and a second ventilation groove is formed between two adjacent annular protrusions.