Double-core multi-sleep high and low pillow

Abstract

A double-core multi-sleep-feeling high-low pillow comprises a supporting layer, a comfortable layer, supporting rods, and a ventilation unit. The hardness of the supporting rods is greater than that of the comfortable layer. The comfortable layer comprises a high-sleep area, a low-sleep area, a first accommodating groove, and a second accommodating groove. The high-sleep area and the low-sleep area are arc-shaped in outer contour, and the height of the high-sleep area is greater than that of the low-sleep area. The ventilation unit comprises ventilation through holes. The ventilation unit is arranged at the joint of the high-sleep area and the low-sleep area, and the two supporting rods are respectively accommodated in the first accommodating groove and the second accommodating groove, so that the supporting rods improve the supporting property of the high-sleep area and the low-sleep area. The double-core multi-sleep-feeling high-low pillow improves the comfort of the pillow during use, improves the supporting property of the neck, and improves the air flow property of the pillow.

Description

Technical Field

[0001] This utility model belongs to the field of pillow technology, specifically a dual-core, multi-sleep comfort high and low pillow. 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 universal high / low pillow, application number CN202121975184.5, includes a pillow body with a fixed height at the front and an internal cavity at the rear containing an inflatable airbag. The front and rear of the pillow body form a head support section. However, this pillow only has an inflatable airbag at the rear, failing to provide adequate neck support when using the rear side. Secondly, the pillow has poor breathability. The inflatable airbag causes the pillow to conform to the user's neck, preventing airflow between the pillow and the user. This leads to sweating on the head and neck during use, reducing sleep comfort and affecting the pillow's hygiene. Utility Model Content

[0004] In view of this, the present invention provides a dual-core multi-sleep comfort pillow that can improve neck support to meet industrial needs.

[0005] A dual-core, multi-feel pillow includes a support layer, a comfort layer disposed on the support layer, two support rods disposed between the support layer and the comfort layer, and a breathable unit disposed on the side of the comfort layer facing the support layer. The support rods are firmer than the comfort layer. The comfort layer includes a high sleeping area, a low sleeping area disposed on the side of the high sleeping area, a first receiving groove disposed on the side of the high sleeping area facing the support layer, and a second receiving groove disposed on the side of the low sleeping area facing the support layer. The outer contours of the high sleeping area and the low sleeping area are arc-shaped. The height of the high sleeping area is greater than that of the low sleeping area. The breathable unit includes multiple breathable holes. The breathable unit is disposed at the junction of the high sleeping area and the low sleeping area. The two support rods are respectively received in the first receiving groove and the second receiving groove, thereby enhancing the support of the high sleeping area and the low sleeping area.

[0006] Furthermore, the direction in which the breathable pores extend is the same as the length direction of the comfort layer.

[0007] Furthermore, each of the aforementioned vent holes is inclined.

[0008] Furthermore, there are four ventilation holes, with two ventilation holes forming a group, and the two groups of ventilation holes are symmetrically arranged at the junction of the high sleeping area and the low sleeping area.

[0009] Furthermore, in each group of ventilation holes, the closer the ventilation hole is to the junction of the high sleeping area and the low sleeping area, the shorter the arc length of the cross-sectional outline of the ventilation hole.

[0010] Furthermore, the outer contour of each of the aforementioned vent holes is arc-shaped.

[0011] Furthermore, the outer contours of the first receiving groove and the second receiving groove of the support rod are both cylindrical.

[0012] Compared with existing technologies, the dual-core multi-sleep-feel high-low pillow provided by this utility model improves the comfort of use by adjusting the support of the comfort layer through the support rod 30. The comfort layer includes a high sleeping area, a low sleeping area disposed on one side of the high sleeping area, a first receiving groove disposed on the side of the high sleeping area facing the support layer, and a second receiving groove disposed on the side of the low sleeping area facing the support layer. The outer contours of both the high and low sleeping areas are arc-shaped, and the height of the high sleeping area is greater than the height of the low sleeping area to meet the user's needs for different pillow heights. Furthermore, the first and second receiving grooves are used to accommodate the support rod, which is combined with the comfort layer to adjust the support of the high and low sleeping areas within the comfort layer. Furthermore, the breathable unit includes multiple ventilation holes and is positioned at the junction of the high sleeping area and the low sleeping area. This ensures that when the user's neck rests on either the high or low sleeping area, the user's head is positioned at this junction, enhancing airflow around the user's head. Therefore, this dual-core, multi-sensory high-low pillow improves comfort during use, enhances neck support, and improves airflow within the pillow. Attached Figure Description

[0013] Figure 1 This is a structural diagram of the dual-core, multi-sleep-feel high and low pillow provided by this utility model.

[0014] Figure 2 for Figure 1 A schematic diagram of the exploded structure of a dual-core, multi-sleep comfort high and low pillow.

[0015] Figure 3 for Figure 2 A magnified schematic diagram of the dual-core, multi-sleep comfort high and low pillow at point A. Detailed Implementation

[0016] 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.

[0017] like Figures 1 to 3 The diagram shown is a structural schematic of the dual-core, multi-sleep comfort pillow provided by this utility model. The dual-core, multi-sleep comfort pillow includes a support layer 10, a comfort layer 20 disposed on the support layer 10, two support rods 30 disposed between the support layer 10 and the comfort layer 20, and a breathable unit 40 disposed on the side of the comfort layer 20 facing the support layer 10. The dual-core, multi-sleep comfort 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.

[0018] The support layer 10 is made of high-density sponge, which enhances the support of the entire pillow. The support layer 10 is used to support the comfort layer 20 and the support rod 30. The support layer 10 is used to maintain the shape of the pillow, prevent the pillow from collapsing or deforming too much during use, and ensure the support and durability of the pillow. The support layer 10 is a prior art and will not be described in detail here.

[0019] The comfort layer 20 includes a high sleeping area 21, a low sleeping area 22 disposed on one side of the high sleeping area 21, a first receiving groove 23 disposed on the side of the high sleeping area 21 facing the support layer 10, and a second receiving groove 24 disposed on the side of the low sleeping area 22 facing the support layer 10. The comfort layer 20 is made of low-density sponge, resulting in a softer texture and relatively lower overall firmness. In contrast, the support layer 10 and the support rod 30 are made of high-density sponge, possessing higher firmness. The comfort layer 20 is less firm than the support layer 10 and the support rod 30. The low-density sponge provides the comfort layer 20 with a softer touch and better cushioning performance, making it suitable for areas requiring high pressure relief. The high-density sponge provides stronger support to the support layer 10 and the support rod 30, offering stable support for the human body. The combination of these two elements meets diverse needs for firmness in different scenarios, further enhancing the user experience and functionality of the product, and ultimately improving the comfort of the user resting on the comfort layer 20.

[0020] When in use, the high sleeping area 21 and the low sleeping area 22 of the pillow support the user's neck. Since the outer contours of the high sleeping area 21 and the low sleeping area 22 are both arc-shaped, the connection between the high sleeping area 21 and the low sleeping area 22 is smoothly transitioned so as to fit the user's neck.

[0021] The first receiving groove 23 and the second receiving groove 24 are used to receive the support rod 30, thereby combining the support rod 30 with the comfort layer 20. Since the support rod 30 is made of high-density sponge, it enhances the support of the comfort layer 20 in the high sleeping area 21 and the low sleeping area 22. The support rod 30, the first receiving groove 23, and the second receiving groove 24 are all cylindrical in shape, facilitating the placement of the support rod 30 within these grooves.

[0022] The ventilation unit 40 includes a plurality of ventilation holes 41. The ventilation unit 40 is located at the junction of the high sleeping area 21 and the low sleeping area 22. When the user's neck rests on the high sleeping area 21 or the low sleeping area 22, the user's head is located at the junction of the high sleeping area 21 and the low sleeping area 22. The ventilation unit 40 can enhance the airflow to the user's head. The extension direction of the ventilation holes 41 is the same as the length direction of the comfort layer 20, and the outer contour of each ventilation hole 41 is arc-shaped. Each ventilation hole 41 is inclined. In this embodiment, there are four ventilation holes 41, and two ventilation holes 41 form a group. The two groups of ventilation holes 41 are symmetrically arranged at the junction of the high sleeping area 21 and the low sleeping area 22. In each group of ventilation holes 41, the closer the ventilation hole 41 is to the junction of the high sleeping area 21 and the low sleeping area 22, the shorter the arc length of the cross-sectional contour of the ventilation hole 41. Each group of ventilation holes 41 is stepped. So when the user's head rests between the high sleeping area 21 and the low sleeping area 22, the comfort layer 20 deforms along the junction between the high sleeping area 21 and the low sleeping area 22, so that the high sleeping area 21 and the low sleeping area 22 fit the user's head.

[0023] Compared with existing technologies, the dual-core multi-sleep-feel high-low pillow provided by this utility model improves the comfort of use by adjusting the support of the comfort layer 20 through the support rod 30. The comfort layer 20 includes a high sleeping area 21, a low sleeping area 22 disposed on one side of the high sleeping area 21, a first receiving groove 23 disposed on the side of the high sleeping area 21 facing the support layer 10, and a second receiving groove 24 disposed on the side of the low sleeping area 22 facing the support layer 10. The outer contours of both the high sleeping area 21 and the low sleeping area 22 are arc-shaped, and the height of the high sleeping area 21 is greater than the height of the low sleeping area 22 to meet the user's needs for different pillow heights. Furthermore, the first receiving groove 23 and the second receiving groove 24 are used to accommodate the support rod 30. The support rod 30 is combined with the comfort layer 20, and the support of the high sleeping area 21 and the low sleeping area 22 in the comfort layer 20 is adjusted by the support rod 30. Furthermore, the breathable unit 40 includes multiple breathable holes 41. The breathable unit 40 is positioned at the junction of the high sleeping area 21 and the low sleeping area 22. Thus, when the user's neck rests on the high sleeping area 21 or the low sleeping area 22, the user's head is positioned at the junction of the high sleeping area 21 and the low sleeping area 22, and the breathable unit 40 enhances airflow around the user's head. It can be seen that this dual-core, multi-feel high-low pillow improves comfort during use, enhances neck support, and improves airflow within the pillow.

[0024] 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 dual-core, multi-sleep comfort pillow, characterized in that: The dual-core, multi-sleep-feel high-low pillow includes a support layer, a comfort layer disposed on the support layer, two support rods disposed between the support layer and the comfort layer, and a breathable unit disposed on the side of the comfort layer facing the support layer. The support rods are firmer than the comfort layer. The comfort layer includes a high sleeping area, a low sleeping area disposed on the side of the high sleeping area, a first receiving groove disposed on the side of the high sleeping area facing the support layer, and a second receiving groove disposed on the side of the low sleeping area facing the support layer. The outer contours of the high sleeping area and the low sleeping area are arc-shaped, and the height of the high sleeping area is greater than that of the low sleeping area. The breathable unit includes multiple breathable holes and is disposed at the junction of the high sleeping area and the low sleeping area. The two support rods are respectively received in the first receiving groove and the second receiving groove, thereby the support rods improving the support of the high sleeping area and the low sleeping area.

2. The dual-core multi-sleep comfort pillow as described in claim 1, characterized in that: The ventilation holes extend in the same direction as the length of the comfort layer.

3. The dual-core multi-sleep comfort pillow as described in claim 1, characterized in that: Each of the aforementioned vent holes is inclined.

4. The dual-core multi-sleep comfort pillow as described in claim 1, characterized in that: There are four ventilation holes, and two ventilation holes form a group. The two groups of ventilation holes are symmetrically arranged at the junction of the high sleeping area and the low sleeping area.

5. The dual-core multi-sleep comfort pillow as described in claim 1, characterized in that: In each group of ventilation holes, the closer the ventilation hole is to the junction of the high sleeping area and the low sleeping area, the shorter the arc length of the cross-sectional outline of the ventilation hole.

6. The dual-core multi-sleep comfort pillow as described in claim 1, characterized in that: The outer contour of each of the aforementioned vent holes is arc-shaped.

7. The dual-core multi-sleep comfort pillow as described in claim 1, characterized in that: The outer contours of the first and second receiving grooves of the support rod are both cylindrical.

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