Integrated combination airbag neck pillow

By setting an interlocking structure of mounting groove and cushioning components inside the airbag, and combining the connection between the covering fabric and the mounting groove, the problems of misalignment and breakage between memory foam and airbag are solved, thereby improving the stability and breathability of neck support and extending the product's service life.

CN224320434UActive Publication Date: 2026-06-05BERICH GROUP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BERICH GROUP CO LTD
Filing Date
2025-08-21
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In existing technologies, the relative positions of memory foam and airbags are not fixed, which makes them prone to misalignment during repeated storage and unfolding, affecting the stability of neck support. Furthermore, memory foam is easily broken or fractured, causing the product to be scrapped prematurely.

Method used

An installation groove is provided on the inside of the airbag, and the cushioning component is embedded in the installation groove. It is fixed by connecting the cloth to the installation groove to form a fitting structure, which restricts the sliding of the cushioning component. Combined with the design of the ventilation holes and the outer cloth, the stability and breathability of the neck support are ensured.

Benefits of technology

It effectively avoids misalignment and breakage of the cushioning components, improves the stability and comfort of the neck support, extends the product's service life, and improves production efficiency and breathability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to technical field of neck pillow provides an integrated combination air bag neck pillow, including air bag and buffer assembly, air bag sets up as the annular structure with the gap, and the side of air bag to the human body neck is equipped with at least one mounting groove, buffer assembly is embedded in the mounting groove same with the number and one -to -one correspondence, and buffer assembly includes buffer support and cloth, and the surface size and shape of buffer support corresponding to the mounting groove of the surface of mounting groove are same, cloth is covered in the outside of buffer support, and cloth is connected with the surface of mounting groove, the utility model sets up the mounting groove in the air bag inside and buffer assembly form the adaptive embedded structure, and the connection of cloth and the surface of mounting groove is combined, forms the spacing restraint to buffer assembly from the spatial position, effectively limits buffer support and air bag to slide relatively in the storage, unfolding or use process of neck pillow, avoids the misplacement problem, through the complete cloth of buffer support is covered, can reduce its broken, fracture phenomenon in the repeated extrusion, friction process.
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Description

Technical Field

[0001] This utility model relates to the field of neck pillow technology, and in particular to an integrated combined airbag neck pillow. Background Technology

[0002] A neck pillow is a type of pillow that is placed around the neck to protect the cervical spine. Among them, airbag neck pillows are widely used because they are retractable and portable, while memory foam is often used in neck pillow designs due to its good fit and cushioning properties. In the current technology, although there are products that combine airbags and memory foam, most of them use a simple layering method and do not effectively fix the relative position of the memory foam and airbags.

[0003] However, existing technologies have obvious limitations. During repeated storage and unfolding, memory foam and airbags are prone to relative sliding, causing misalignment and seriously affecting the stability of neck support. Due to the lack of effective covering and protection, memory foam is prone to breakage and fracture after repeated squeezing and friction, causing it to lose its original cushioning performance and shape, ultimately leading to premature product failure. Utility Model Content

[0004] This utility model provides an integrated airbag neck pillow to solve the defects of memory foam in the prior art, which is prone to breakage and fracture.

[0005] This utility model provides an integrated combined airbag neck pillow, comprising:

[0006] An airbag is configured as a ring-shaped structure with a notch, and the side of the airbag facing the human neck has at least one mounting groove;

[0007] A buffer assembly, the same number as the mounting slots, is embedded in each mounting slot in a corresponding manner. Each buffer assembly includes:

[0008] A buffer support, wherein the mating surface of the buffer support corresponding to the mounting groove has the same surface size and shape as the mounting groove;

[0009] A fabric covering is used to cover the outside of the cushioning support, and the fabric is connected to the mating surface of the mounting groove.

[0010] According to the integrated airbag neck pillow provided by this utility model, when the airbag neck pillow is worn, the height of the cushioning component facing the neck is greater than the height of the airbag facing the neck.

[0011] According to the integrated airbag neck pillow provided by this utility model, the mounting groove is positioned to correspond at least to the support parts on the left and right sides and / or the back of the human neck.

[0012] According to the integrated airbag neck pillow provided by this utility model, the fabric is evenly distributed with multiple ventilation holes on the side facing the human neck.

[0013] The integrated airbag neck pillow provided by this utility model also includes an outer covering fabric, which is detachably wrapped around the outside of the airbag and the cushioning component.

[0014] The integrated airbag neck pillow provided by this utility model also includes an outer covering fabric, which is sewn over the outside of the airbag and the cushioning component.

[0015] According to the integrated airbag neck pillow provided by this utility model, the covering fabric is connected to the surface of the mounting groove by heat pressing.

[0016] According to the integrated airbag neck pillow provided by this utility model, the bottom cross section of the mounting groove is V-shaped.

[0017] According to the integrated airbag neck pillow provided by this utility model, both the covering fabric and the outer covering fabric are breathable materials.

[0018] According to the integrated airbag neck pillow provided by this utility model, the outer cover is provided with a zipper, and the airbag and the cushioning component are detachably installed into the outer cover through the zipper.

[0019] This utility model provides an integrated airbag neck pillow. The mounting groove inside the airbag forms a fitted structure with the cushioning components. Combined with the connection between the fabric and the mounting groove's contact surface, this spatially restricts the cushioning components, effectively limiting relative sliding between the cushioning support and the airbag during the pillow's storage, unfolding, or use. This avoids misalignment and ensures the stability of the neck support position. The complete coverage of the cushioning support reduces direct stress during repeated compression and friction, preventing breakage. By matching the number of cushioning components to the mounting grooves, the thickness and hardness of the cushioning support in each component can be flexibly adjusted according to the support needs of different neck positions, achieving targeted support. Simultaneously, the positioning function of the mounting grooves simplifies the assembly process, ensures the accuracy of the connection between the fabric and the mounting groove, and improves production efficiency. Attached Figure Description

[0020] To more clearly illustrate the technical solutions in this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0021] Figure 1This is a schematic diagram of the structure of the airbag provided in an embodiment of the present invention.

[0022] Figure 2 This is a schematic diagram of the installation structure of the airbag and buffer assembly provided in this embodiment of the utility model.

[0023] Figure 3 This is a cross-sectional view of the airbag neck pillow provided in this embodiment of the utility model.

[0024] Figure 4 This is a schematic diagram of the structure of the airbag neck pillow cover with outer fabric provided in this embodiment of the utility model.

[0025] Figure label:

[0026] 1. Airbag; 2. Cushioning assembly; 3. Cushioning support; 4. Fabric covering; 5. Mounting slot; 6. Ventilation hole; 7. Outer fabric covering. Detailed Implementation

[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.

[0028] The following is combined with Figures 1-4 This invention describes an integrated combined airbag neck pillow.

[0029] Reference Figures 1-3This utility model provides an integrated airbag neck pillow, including: an airbag 1 and a cushioning assembly 2. The airbag 1 is configured as a ring structure with a notch to adapt to the need for neck wrapping support. The side (inner side) of the airbag 1 facing the neck has at least one mounting groove 5. The number of cushioning assemblies 2 is the same as the number of mounting grooves 5 and they are embedded in the mounting grooves 5 in a one-to-one correspondence. The cushioning assembly 2 includes a cushioning support 3 and a cover 4. The cushioning support 3, such as memory foam, corresponds to the contact surface of the mounting groove 5 and has the same surface size and shape as the mounting groove 5. The cover 4 covers the outside of the cushioning support 3. The fabric 4 is connected to the mating surface of the mounting groove 5. By placing the airbag 1 as the main support outside the buffer assembly 2, the overall support strength is ensured, and the cushioning effect of the buffer support 3 reduces the pressure on the neck, avoiding direct friction or compression of the neck by the hard edge of the airbag 1, and improving the softness and fit of the support. Through the interlocking of the buffer support 3 and the mounting groove 5 and the connection and fixation of the fabric 4, the buffer assembly 2 and the airbag 1 form a stable overall structure, avoiding the problem of loose parts in the traditional sandwich structure, and ensuring that the original shape and support performance can still be maintained after multiple storage and unfolding.

[0030] As can be seen from the above scheme, the mounting groove 5 set inside the airbag 1 and the buffer component 2 form a matching and fitting structure. Combined with the connection between the covering fabric 4 and the contact surface of the mounting groove 5, the buffer component 2 is spatially constrained, effectively limiting the relative sliding of the buffer support 3 with the airbag 1 during the storage, unfolding or use of the neck pillow, avoiding misalignment and ensuring the stability of the neck support position. Since the buffer support 3 is completely covered by the covering fabric 4, it can reduce the direct force on it during repeated squeezing and friction, avoiding breakage and fracture. By embedding the buffer components 2 and the mounting groove 5 in the mounting groove 5 in the same number and in a one-to-one correspondence, the thickness and hardness of the buffer support 3 in each buffer component 2 can be flexibly adjusted according to the support needs of different neck positions to achieve targeted support. At the same time, the positioning function of the mounting groove 5 simplifies the assembly process, ensures the accuracy of the connection between the covering fabric 4 and the mounting groove 5, and improves production efficiency.

[0031] In this embodiment, the mounting groove 5 is positioned at least to correspond to the support parts on the left and right sides and / or the back of the human neck; that is, when wearing an airbag neck pillow, the buffer component 2 is positioned at least on the corresponding sides of the human neck, or at least on the corresponding back of the human neck, or at least simultaneously on the sides and back of the human neck, forming targeted support; the limiting position of the mounting groove 5 enables the buffer component 2 to accurately correspond to the key areas of neck contact, and the flexible support of the buffer support 3 and the support of the airbag 1 work together to improve the neck fit and support stability.

[0032] With this design, when the neck moves, the cushioning support 3 can precisely fit the corresponding force-generating part of the neck. Through its own cushioning performance, it can distribute pressure and provide effective support throughout the neck movement, reducing the swaying of the neck due to lack of support, reducing the tension of the neck muscles, improving the comfort of use, and avoiding discomfort caused by the neck being suspended or unevenly stressed when tilting the neck to the left or right or backward. This enhances the adaptability and comfort of the neck support.

[0033] Preferably, when the airbag neck pillow is worn, the height of the side of the cushioning component 2 facing the human neck is greater than the height of the side of the airbag 1 facing the human neck. For example, the height difference can be set to 0.5-2cm.

[0034] This design ensures that when the airbag neck pillow is worn, the neck primarily contacts the cushioning component 2. The gaps between the airbags 1 (which are not in contact with the skin) and the neck around the cushioning component 2 create airflow channels, effectively reducing sweat buildup and stuffiness. This keeps the neck dry, especially during extended wear, significantly improving the user experience. Furthermore, when the airbags 1 have multiple mounting slots 5 along their arc-shaped trajectory, they, in conjunction with the cushioning component 2, form multiple support structures surrounding the neck. The area A between each pair of adjacent cushioning components 2 forms an airflow channel, also distributed around the neck, accelerating sweat evaporation and reducing sweat penetration into the cushioning support 3 or the airbags 1. This lowers the risk of mold growth on the cushioning support 3 due to moisture and aging of the airbags 1 due to sweat corrosion, helping to maintain the performance stability of the cushioning component 2 and the airbags 1 and extending the overall product lifespan. The airflow channels formed by the height difference are distributed in a ring, creating a uniform airflow area around the neck, ensuring good breathability for all contact points.

[0035] Furthermore, the covering fabric 4 has multiple ventilation holes 6 evenly distributed on the side facing the neck, allowing the cushioning component 2 to ensure cushioning performance while also maintaining breathability. This allows the covering fabric to protect the cushioning support 3 from breakage, while the ventilation holes 6 ensure efficient airflow. Figures 2-3 As shown, the ventilation holes 6 are directly distributed on the side that comes into contact with the neck, which can quickly wick away the hot and humid air generated on the skin surface of the neck due to contact, reduce the accumulation of sweat on the contact surface, and effectively relieve stuffiness and discomfort; the ventilation holes can work together with the air circulation channels to greatly improve the overall breathability.

[0036] In this embodiment, the bottom cross-section of the mounting groove 5 is V-shaped, such as... Figure 1 , Figure 3As shown, the V-shaped bottom section can provide tilting limits on both sides of the buffer component 2. Combined with the heat-pressed connection between the covering fabric 4 and the surface of the mounting groove 5, it can form multiple constraints on the buffer component 2, further limiting its left-right swaying and up-down displacement during storage, unfolding, or use, thus solving the problem of easy misalignment of the buffer support component 3 in the prior art. When pressure is applied to the neck, the V-shaped bottom surface can distribute the force to both sides to the airbag 1, avoiding localized force concentration at the contact point between the buffer component 2 and the mounting groove 5, while reducing the risk of deformation or breakage of the buffer support component 3 due to excessive force at a single point, thus extending the service life of the buffer component 2. Furthermore, the V-shaped bottom can form a mutually supportive mating structure with the bottom of the buffer support component 3, increasing the contact area between the two, so that the buffer component 2 can fit more stably against the mounting groove 5 when under force, avoiding abnormal noise or shaking caused by gaps, and improving the stability and comfort of the neck support.

[0037] It should be noted that the V-shaped bottom cross section of the mounting groove 5 is only an example and is not a specific limitation on the structure of the mounting groove 5. Other mounting grooves 5 with different shapes that have the above-mentioned effects are also within the scope of protection.

[0038] In some embodiments, such as Figure 4 As shown, it also includes an outer covering fabric 7, which is sewn over the airbag 1 and the cushioning component 2. This design allows the outer covering fabric 7 to act as an outer protective layer, protecting the internal airbag 1 and cushioning component 2, reducing the direct adhesion of external dust and impurities to them, preventing premature wear of the internal structure, and extending the overall product lifespan. By covering the airbag 1 and cushioning component 2 with the outer covering fabric 7, a certain binding force is created, helping to maintain the overall shape of the combined airbag 1 and cushioning component 2, preventing relative movement and loosening of the internal structure due to external forces during use or storage, further strengthening the stability of the connection between the two, and ensuring that the neck pillow always provides stable support.

[0039] In other embodiments, an outer covering 7 is also included, which is detachably wrapped around the airbag 1 and the cushioning component 2. This arrangement allows the outer covering 7 to act as an outer protective layer, protecting the internal airbag 1 and cushioning component 2, reducing the direct adhesion of external dust and impurities to them, preventing premature wear of the internal structure, and extending the overall product's lifespan. Furthermore, it facilitates cleaning and maintenance; the detachable design of the outer covering 7 allows users to remove and wash it after a period of use, maintaining the neck pillow's cleanliness and hygiene, thus solving the problem of cleaning traditional integrated neck pillows.

[0040] More importantly, by covering the airbag 1 and the cushioning component 2 with the outer fabric 7, a certain binding force can be formed on the two, which helps to maintain the overall shape of the airbag 1 and the cushioning component 2 after combination, preventing relative movement and loosening of the internal structure caused by external force during use or storage, further strengthening the stability of the connection between the two, and ensuring that the neck pillow can always provide a stable support effect.

[0041] In addition, the detachable outer cover 7 makes it easy to change to different colors, patterns or materials. Users can choose the appropriate outer cover 7 according to their own preferences or usage scenarios such as home, office, travel, etc., to enhance the product's aesthetics and personalization capabilities, and increase the product's flexibility of use.

[0042] Optionally, the outer cover 7 is equipped with a zipper, and the airbag 1 and the cushioning component 2 are detachably installed inside the outer cover 7 via the zipper; of course, the outer cover 7 can also be installed in a detachable manner using common detachable connection structures such as Velcro and buttons.

[0043] In this embodiment, the surfaces of the covering fabric 4 and the mounting groove 5 are connected by heat pressing. This configuration allows the covering fabric 4 and the mounting groove 5 to form a stable bond. Combined with their adaptable structure, this effectively limits the displacement of the cushioning component 2 relative to the airbag 1 during storage, deployment, or use. This avoids the misalignment problem of the cushioning support 3 caused by weak connection in the prior art, ensuring the stability of the neck support position. The heat pressing connection eliminates the need for additional sewing operations, reducing mechanical damage to the covering fabric 4 and the internal cushioning support 3. It also avoids the risk of breakage of the cushioning support 3 due to pulling or puncture during sewing. At the same time, the complete coverage of the covering fabric 4 combined with heat pressing further protects the cushioning support 3 from damage caused by external rubbing.

[0044] Preferably, the airbag 1 adopts a compression molding structure, that is, it is made into the designed shape by compression molding process. Compression molding process can make the airbag 1 strictly follow the preset arc trajectory, mounting groove 5 and other structural parameters to ensure the accuracy of key parts such as the outer size, curvature and connection surface of the airbag 1. Moreover, compression molding process can facilitate automated production.

[0045] Optionally, the cushioning support 3 is a cut-and-formed structure. The cut-and-formed process is relatively simple to operate, without the need for complicated mold preparation and debugging. The cushioning support 3 can be quickly processed according to the design parameters. Compared with the molding process, the cut-and-formed process does not require high temperature and high pressure treatment, which can reduce the impact on the original material properties of the cushioning support 3 and maintain its proper softness, resilience and cushioning support performance. The cut-and-formed process can flexibly process the cushioning support 3 into a shape that matches the mounting groove 5 according to the design size and ergonomic requirements of the neck pillow.

[0046] Preferably, both the covering fabric 4 and the outer covering fabric 7 are breathable materials. On the one hand, each covering fabric can form a restraining force after wrapping, maintaining the stability of the internal structure shape. On the other hand, the breathable material can promote air circulation between the inside of the neck pillow and the outside, effectively reducing the stuffiness and sweat accumulation caused by prolonged contact between the neck and the neck pillow. Especially in summer or long-term use scenarios, it can keep the neck contact area dry, improve wearing comfort, and reduce the risk of aging and deterioration of the cushioning support 3 due to moisture, which helps to maintain the original performance and service life of the internal materials.

[0047] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. An integrated airbag neck pillow, characterized in that, include: The airbag (1) is configured as a ring structure with a notch, and the airbag (1) has at least one mounting groove (5) on the side facing the human neck. The number of buffer components (2) is the same as that of the mounting slots (5). The buffer components (2) are embedded in the mounting slots (5) one by one. The buffer components (2) include: The buffer support (3) has the same surface size and shape as the mounting groove (5) as the mating surface of the mounting groove (5). The fabric (4) covers the outside of the buffer support (3) and is connected to the mating surface of the mounting groove (5).

2. The integrated combined airbag neck pillow according to claim 1, characterized in that, When the airbag neck pillow is worn, the height of the cushioning component (2) facing the neck is greater than the height of the airbag (1) facing the neck.

3. The integrated combined airbag neck pillow according to claim 2, characterized in that, The mounting slot (5) is positioned at least in relation to the support parts on the left and right sides and / or behind the neck of the human body.

4. The integrated combined airbag neck pillow according to claim 2, characterized in that, The covering (4) has multiple ventilation holes (6) evenly distributed on the side facing the neck of the human body.

5. The integrated combined airbag neck pillow according to claim 2, characterized in that, It also includes an outer covering (7) which is detachably wrapped around the outside of the airbag (1) and the cushioning assembly (2).

6. The integrated airbag neck pillow according to claim 2, characterized in that, It also includes an outer covering (7), which is sewn over the outside of the airbag (1) and the cushioning assembly (2).

7. The integrated airbag neck pillow according to claim 1, characterized in that, The surface of the covering fabric (4) is connected to the surface of the mounting groove (5) by heat pressing.

8. The integrated airbag neck pillow according to claim 2, characterized in that, The bottom cross section of the mounting groove (5) is V-shaped.

9. The integrated airbag neck pillow according to claim 6, characterized in that, Both the covering fabric (4) and the outer covering fabric (7) are breathable materials.

10. The integrated airbag neck pillow according to claim 5, characterized in that, The outer fabric (7) is provided with a zipper, and the airbag (1) and the cushioning component (2) are detachably installed into the outer fabric (7) through the zipper.