Kind of Pillow with Adjustable Height

Abstract

The present utility model provides a pillow with adjustable height, which comprises a pillow body and an airbag; the pillow body is internally provided with a cavity for accommodating an airbag; the airbag is arranged on the lower bottom surface of the cavity and expands towards the direction close to the upper top surface of the cavity after inflation; the pillow body extends towards the direction close to the cavity at the connecting part between the side wall of the cavity and the upper top surface to form a thickened transition region. According to the pillow with adjustable height, when lying on the back and on the side, the pillow has better support strength to the neck and the head. There will be no obvious collapse feeling and the comfort level of users will be increased.

Description

PRIORITY

This application claims the benefit of Chinese patent application serial No. 201921318299.X, entitled “A Kind of Pillow with Adjustable Height,” filed Aug. 14, 2019, herein incorporated by reference in its entirety.

TECHNICAL FIELD

The utility model relates to a household article, in particular to a pillow.

BACKGROUND

With the general acceleration of people's life rhythm, lack of sleep has become a common phenomenon among urban people today. Experts remind that lack of sleep is very harmful to health and should be addressed seriously. The harm of insufficient sleep is mainly reflected in: 1. Affect the creative thinking of the brain; 2. Affect the growth and development of teenagers; 3. Affect people's health, etc. This shows that a comfortable sleep is very important to the human body. In bed rest, the head needs to be supported by a pillow and tilted upward at a certain angle. Therefore, the suitability of pillows is particularly important. If the pillow is not suitable, it will cause cervical vertebra pain, insomnia and dreaminess, and fatigue the next day, which will affect the normal life the next day. However, it is extremely difficult to choose a suitable pillow because of each person's body curve, sleeping posture and other factors.

Since the suitable pillow heights are different when people lie on their sides or supine, there are some pillows on the market that can automatically adjust the height according to different sleeping postures. The pillow depends on the inflation and deflation of the airbag to change the height of the pillow. However, since the airbag expands in the vertical direction and contracts in the horizontal direction after inflation, a gap will be formed between the airbag and the cavity in which the airbag is placed after inflation. Once the head and neck of the human body are located in the gap, a sense of collapse will occur, which is very uncomfortable.

SUMMARY

The main technical problem to be solved by the present utility model is to provide a pillow with adjustable height. When lying on one's back and side, the pillow has better support to the head and neck without obvious collapse feeling, thus increasing user comfort.

In order to solve the above technical problems, the present utility model provides a pillow with adjustable height, which comprises a pillow body and an airbag; The pillow body is internally provided with a cavity for accommodating an airbag; The airbag is arranged on the lower bottom surface of the cavity and expands towards the direction close to the upper top surface of the cavity after inflation.

The pillow body extends towards the direction close to the cavity at the connecting part between the side wall of the cavity and the upper top surface to form a thickened transition region.

In a preferred embodiment: The thickened transition region is arc-shaped.

In a preferred embodiment: The airbag is a single airbag or is formed by combining a plurality of sub-airbags.

In a preferred embodiment: The pillow body comprises an upper half part and a lower half part; The upper half part and the lower half part are spliced oppositely to form the cavity and the sub-cavity; An electrical circuit assembly is arranged in that sub-cavity for controlling the inflation and deflation of the airbag.

In a preferred embodiment: The upper half part is a neck support area and a head support area, and the sub-cavity is positioned on one side of the head support area away from the neck support area.

In a preferred embodiment: The lower half part is provided with a height adjusting cavity for adjusting the height of a certain area of the pillow and fillers matched with the height adjusting cavity; The fillers are filled into the height adjusting cavity, and the more the fillers are filled, the higher the height of the area of the pillow body corresponding to the height adjusting cavity.

In a preferred embodiment: One end of the lower half part close to the neck of the human body extends out of a platform outwards; The platform extends along the length direction of the pillow body and is positioned in a cavity formed by a neck, a shoulder back and a human body support when a human body lies supine; The platform is provided with pressure sensors.

In a preferred embodiment: The pressure sensors are arranged on the lower surface of the platform along the length direction of the platform.

In a preferred embodiment: The upper half part is provided with a detachable supporting piece on the outer surface of the neck supporting area.

Compared with the existing technology, the technical solution of the present utility model has the following beneficial effects:

The utility model provides a pillow with adjustable height, wherein the pillow body extends towards the direction close to the cavity at the connecting part between the side wall of the cavity and the upper top surface to form a thickened transition region. Thereby increasing the thickness of the transition area between the side wall and the upper top surface of the pillow body. When a person lies on his back, the airbag shrinks, the supporting strength of the cavity becomes smaller, and the head easily collapses the cavity to form a collapse feeling. After the design of the present utility model is adopted, the supporting force of the cavity can be increased to reduce the collapse feeling. In addition, when lying on one's side, the airbag expands in the vertical direction and contracts in the horizontal direction. When the airbag is propped against the upper top surface of the cavity, a gap will be formed between the airbag and the side wall of the cavity. Once a person's head and neck are located at this gap, a sense of collapse will occur, which is not comfortable enough. However, after the design of the present utility model is adopted, when the airbag expands and contracts along the horizontal direction, the contraction amount of the airbag can be compensated because the transition area is relatively thick, so that the airbag and the transition area also maintain a fitting state, the generation of gaps is avoided, the generation of collapse feeling is also avoided, and the comfort level of users is increased.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a sectional view of the pillow with the airbag in the deflated state in the preferred Embodiment 1 of the utility model;

FIG. 2 is a sectional view of the pillow with the airbag in the inflated state in the preferred Embodiment 1 of the utility model;

FIG. 3 is a schematic diagram of the height adjusting cavity in the preferred Embodiment 1 of the utility model;

FIG. 4 is a schematic diagram of the platform of the lower half part of the preferred Embodiment 1 of the utility model;

FIG. 5 is a schematic diagram of the setting position of gel sheets in preferred Embodiment 1 of the utility model;

FIG. 6 is a sectional view of the pillow with the airbag in the deflated state in the preferred Embodiment 2 of the utility model;

FIG. 7 is a sectional view of the pillow with the airbag in the inflated state in the preferred Embodiment 2 of the utility model.

DETAILED DESCRIPTION

The specific implementation method of the utility model will be further explained below, but the specific implementation method of the utility model is not limited to this.

EMBODIMENT 1

Referring to FIGS. 1 and 2, a pillow with adjustable height comprises a pillow body 1 and an airbag 2; The pillow body 1 is internally provided with a cavity for accommodating an airbag 2; The airbag 2 is arranged on the lower bottom surface of the cavity and expands towards the direction close to the upper top surface of the cavity after inflation;

The pillow body 1 extends to form an arc-shaped transition region at the connecting part between the side wall of the cavity and the upper top surface toward the direction close to the cavity. As a simple replacement of the embodiment, the transition region can also be rectangular. As long as the transition region is thickened, the effect of the embodiment can be realized. Therefore, the scope of protection of this patent cannot be limited by this.

In the above-mentioned pillow with adjustable height, an arc-shaped transition region is formed by extending the connecting portion between the side wall of the cavity and the upper top surface of the pillow body 1 toward the direction close to the cavity. Thereby increasing the thickness of the transition region of the pillow body 1 between the side wall and the upper top surface. When a person lies on his back, the airbag 2 shrinks, the supporting strength of the cavity becomes smaller, and the head or neck easily collapses the cavity to form a collapse feeling. After the design of the present utility model is adopted, the supporting force of the cavity can be increased to reduce the collapse feeling. In addition, when lying on one's side, the airbag 2 expands in the vertical direction and contracts in the horizontal direction. When the airbag 2 is propped against the upper top surface of the cavity, a gap will be formed between the airbag 2 and the side wall of the cavity. Once a person's head is located in this gap, a sense of collapse will occur, which is not comfortable enough. After the design of the present utility model is adopted, when the airbag 2 expands and contracts along the horizontal direction, the contraction amount of the airbag 2 can be compensated because the transition area is relatively thick, so that the airbag 2 and the transition area maintain a fitting state, the generation of gaps is avoided, the generation of collapse feeling is also avoided, and the comfort level of users is increased.

In this embodiment, the airbag 2 is a plurality of sub-airbags connected in series.

Further, in order to form the air cavity in this embodiment, the pillow body 1 includes an upper half part 11 and a lower half part 12; The upper half part 11 and low half part 12 are spliced oppositely to form the cavity and the sub-cavity; An electrical circuit assembly is placed in the sub-cavity for controlling the inflation and deflation of the airbag 2.

The upper half part 11 is divided into a neck support area and a head support area, and the sub-cavity is located on the side of the head support area away from the neck support area. In this way, the sub-cavity can be kept as far away from the head of the human body as possible, thus preventing the noise made by the air pump from affecting the sleep quality of the human body.

With further reference to FIG. 3, the lower half part 12 has a height adjusting cavity 122 for adjusting the overall height of the pillow body 1, and fillers cooperating with the height adjusting cavity 122. The fillers are filled into the height adjusting cavity 122, and when the filling height of the fillers is higher, the height of the corresponding height adjusting cavity portion in the pillow body 1 is higher. For example, the height adjusting cavity 122 is arranged at a position corresponding to the head support area, and the height of the head support area can be adjusted by adjusting the number of fillers.

In this embodiment, the pillow body 1 is made of sponge material, and the filler for filling the height adjusting cavity is also a sponge block. The sponge block can be a plurality of blocks, and the user can select an appropriate number of sponge blocks according to actual needs.

With further reference to FIG. 4, one end of the lower half part 12 near the neck of the human body extends outward from a platform 121; The platform 121 extends along the length direction of the pillow body 1 and is located in the cavity formed by the neck, shoulder and back and the human body support when the human body is supine; The platform 121 is provided with pressure sensors 123.

In this embodiment, the pressure sensors 123 are arranged at intervals on the lower surface of the platform 121 along the length direction of the platform 121. The sleeping posture of the human body can be distinguished by the pressure distribution of the human body on the platform under the supine and lateral lying states.

Finally, referring to FIG. 5, in this embodiment, the upper half part 11 is provided with a detachable support piece 111 on the outer surface of the neck support area, and the user adjusts the height of the neck support area.

EMBODIMENT 2

Referring to FIG. 6 and FIG. 7, the airbag 2 in this embodiment is a single airbag, and the rest is the same as that in Embodiment 1, and will not be described again.

The above is only a preferred implementation example of the present utility model, and the scope of implementation of the utility model cannot be limited accordingly. That is, equivalent changes and modifications made in accordance with the scope of the patent for the utility model and the contents of the specification shall still fall within the scope of the present utility model.

Claims

1-9. (canceled)

10. A pillow with adjustable height, comprising: a pillow body including a neck support region and a head support region, wherein the pillow body encapsulates a main cavity; andan airbag located inside the main cavity, wherein the airbag is disposed on a bottom surface of the main cavity and operable to extend vertically towards a top surface of the main cavity during inflation,wherein the pillow body includes a first portion that forms a sidewall of the main cavity, a second portion that forms the top surface of the main cavity, and a third portion that provides transition from the first portion to the second portion, and wherein the third portion has a thickness larger than either the first portion or the second portion.

11. The pillow of claim 10, wherein the third portion has an arc-shape.

12. The pillow of claim 10, wherein the third portion is in the neck support region.

13. The pillow of claim 10, wherein the airbag includes a plurality of child-airbags.

14. The pillow of claim 10, wherein when the airbag touches the top surface of the main cavity after inflation, the airbag is in contact with the third portion to provide support from the pillow.

15. The pillow of claim 10, wherein the pillow body includes an upper half part and a lower half part, the upper half part and the lower half part being spliced oppositely to form the main cavity.

16. The pillow of claim 15, wherein the upper half part and the lower half part also form a sub cavity, further comprising: an electrical circuit assembly disposed in the sub cavity for controlling the inflation.

17. The pillow of claim 16, wherein the sub cavity is located in the head support region.

18. The pillow of claim 15, wherein the lower half part has a height adjusting cavity operable to adjust an overall height of the pillow body.

19. The pillow of claim 18, wherein the height adjusting cavity is operable to fill with filler blocks, such that the more the fillers blocks are filled, the higher the overall height of the pillow body is.

20. The pillow of claim 19, wherein a user of the pillow is provided with a freedom to select an appropriate number of the filler blocks as needed to fill in the height adjusting cavity.

21. The pillow of claim 19, wherein the pillow body and the filler blocks are made of a same type of material.

22. A pillow with adjustable height, comprising: a pillow body including a neck support region and a head support region, wherein the pillow body encapsulates a main cavity;an inflatable airbag located inside the main cavity;an electrical circuit assembly located in the head support region, wherein the electrical circuit assembly is operable to control inflation or deflation of the inflatable airbag; andpressure sensors located under the pillow body.

23. The pillow of claim 22, wherein the pressure sensors are operable to distinguish whether a user is lying on the user's side or supine.

24. The pillow of claim 22, wherein a lower portion of the pillow body extends in a direction away from the head support region, thereby forming a platform, and wherein the pressure sensors are located on a bottom surface of the platform.

25. The pillow of claim 24, wherein the pressure sensors are arranged at intervals along a length direction of the platform.

26. The pillow of claim 22, further comprising: a detachable supporting piece located on an upper portion of the pillow body in the neck support region.

27. A pillow with adjustable height, comprising: an upper pillow body providing a neck support area and a head support area;a lower pillow body spliced oppositely with the upper pillow body, thereby forming a main cavity and a sub cavity, wherein, in a region a sidewall of the main cavity transits to a top surface of the main cavity, the upper pillow body has a transition portion that is thicker than adjacent portions of the upper pillow body;an inflatable airbag attached to a bottom surface of the main cavity; andpressure sensors located under the lower pillow body.

28. The pillow of claim 27, wherein the lower pillow body provides a height adjusting cavity for filling with fillers to adjust a height of the pillow, and the height adjusting cavity is arranged at a position corresponding to the head support area.

29. The pillow of claim 27, wherein an extended portion of the lower pillow body extends outside of the upper pillow body in a lateral direction away from the head support area, and wherein the pressure sensors are located under the extended portion.