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JP-3255728-U - Combination Gel Pillow

JP3255728UJP 3255728 UJP3255728 UJP 3255728UJP-3255728-U

Abstract

[Problem] In the field of technology for household goods, we provide a modular gel pillow. [Solution] The pillow core includes a first pillow core 1 and a second pillow core. The back of the first pillow core is provided with a combination cavity that provides lining for the second pillow core. The front of the first pillow core is provided with a mesh surface. The mesh surface includes a first mesh surface 12 provided on one side of the pillow surface of the first pillow core, a second mesh surface 13 provided on the other side of the pillow surface, a third mesh surface 14 provided on one side of the central part of the pillow surface of the first pillow core, and a fourth mesh surface 15 provided on the other side of the central part of the pillow surface. By combining the first and second pillow cores, a combination pillow core with different hardnesses on the inside and outside is formed. By using a flexible material for the first pillow core, the user can lean on the pillow comfortably. By using a hard material for the second pillow core, the overall structure of the pillow core is maintained so as not to deform, allowing for a more comfortable lean on the pillow. The combination of two pillow cores made of different materials reduces the overall weight and reduces costs. [Selection Diagram] Figure 1

Inventors

  • 程海涛

Assignees

  • 禾▲豊▼(青▲島▼)家紡有限公司

Dates

Publication Date
20260507
Application Date
20260202
Priority Date
20250708

Claims (6)

  1. Including a first pillow core (1) and a second pillow core (2), A combination cavity (3) is provided on the back of the first pillow core (1) to provide the lining for the second pillow core (2). A combination gel pillow characterized in that a mesh structure is installed on the front surface of the first pillow core (1).
  2. The combination gel pillow according to claim 1, characterized in that the mesh surface includes a first mesh surface (12) installed on one side of the pillow surface of the first pillow core (1), a second mesh surface (13) installed on the other side of the pillow surface, a third mesh surface (14) installed on one side of the central part of the pillow surface of the first pillow core (1), and a fourth mesh surface (15) installed on the other side of the central part of the pillow surface.
  3. The combination gel pillow according to claim 1, characterized in that the first mesh surface (12) and the second mesh surface (13) have the same mesh size.
  4. The combination gel pillow according to claim 1, characterized in that the third mesh surface (14) and the fourth mesh surface (15) have different mesh sizes.
  5. The combination gel pillow according to claim 1, characterized in that the first pillow core (1) uses a flexible material and the second pillow core (2) uses a rigid material.
  6. The combination gel pillow according to claim 1, characterized in that at least one set of core plates of the second pillow core (2) is provided.

Description

This invention relates to the field of household goods, and more particularly to a modular gel pillow. The role of a pillow as a sleep aid is to maintain the normal physiological state of the cervical spine. As people's demand for sleep increases, the variety of pillows is also growing. Gel pillows, as a type of pillow, are made of gel. Their main role is to conform to the curve of the cervical spine, distribute pressure, regulate temperature, and contribute to improved sleep quality. They are suitable for people with cervical spine discomfort or those sensitive to their sleep environment. However, conventional gel pillows are mostly made of a single-piece press-molded structure, which has the disadvantages of being easily deformed, relatively heavy, and relatively expensive, making them unsuitable for widespread market adoption and use. Therefore, to solve the problems presented in the background art described above, a person skilled in the art provides a modular gel pillow. This is a schematic diagram of the modular gel pillow.This is a bottom view of a modular gel pillow.This is a diagram showing the disassembled state of a modular gel pillow.This is a schematic diagram of the first pillow core in a modular gel pillow.This is a schematic diagram of the second pillow core in a combination gel pillow.This is a schematic plan view of the second pillow core in a combination gel pillow. The following describes the technical means in the embodiments of the present invention clearly and completely, with reference to the drawings of the embodiments. It is clear that the embodiments described are only a subset of the present invention, not all embodiments. All other embodiments that can be obtained based on the embodiments of the present invention, without the creative work of a person skilled in the art, are all within the scope of the protection of the present invention. As shown in Figures 1 to 6, this invention provides a technical means for a modular gel pillow. The modular gel pillow includes a first pillow core 1 and a second pillow core 2. A combination cavity 3 is provided on the back of the first pillow core 1 to provide the lining for the second pillow core 2. By providing the combination cavity 3 on the back of the first pillow core 1 as an assembly space for the lining of the second pillow core 2, a modular pillow core with different inner and outer hardnesses is formed by combining the first and second pillow cores 1 and 2. This allows the user to lean comfortably on the pillow, maintains the overall structure of the pillow core without deformation, and provides greater comfort. Furthermore, the combination of two pillow cores made of different materials reduces the overall weight and lowers costs. Furthermore, the first pillow core 1 uses a flexible material, and the second pillow core 2 uses a rigid material. The first pillow core 1, by using a flexible material primarily composed of gel, can flexibly support the entire gel pillow. The second pillow core 2 can use relatively rigid materials such as 3D spray printing or sponge. It can also use a gel material with a higher mesh density than the first pillow core 1, thereby providing more stable support with less deformation and good breathability. The relative softness and hardness of the first and second pillow cores 1 and 2 make it easier to fill the second pillow core 2 into the combination cavity 3 of the first pillow core 1 using a lining method, thus providing lining support, improving the overall unity of the gel pillow when placed against the pillow, and reducing deformation when placed against the pillow. Furthermore, the core plate of the second pillow core 2 is provided in at least one set. Both the pillow cover 11 of the second pillow core 2 and the first pillow core 1 may have a honeycomb structure, thereby improving overall stability. The difference in density between the honeycomb structures between them can be used to achieve different hardness levels on the inside and outside. The second pillow core 2 may consist of one or two sets. If two sets of the second pillow core 2 are provided, their honeycomb meshes are offset from each other, and the overlapping meshes are used to improve deformation resistance. As a further means of this embodiment, a mesh surface is provided on the front of the first pillow core 1. The mesh surface includes a first mesh surface 12 located on one side of the pillow surface of the first pillow core 1, a second mesh surface 13 located on the other side of the pillow surface, a third mesh surface 14 located on one side of the central part of the pillow surface of the first pillow core 1, and a fourth mesh surface 15 located on the other side of the central part of the pillow surface. The first mesh surface 12 and the second mesh surface 13 have the same mesh size, while the third mesh surface 14 and the fourth mesh surface 15 have different mesh sizes. By providing mesh surfaces with different mesh sizes on