CN221577397U - Integrated into one piece's wave pillow - Google Patents

Abstract

An integrally formed wave pillow comprises a pillow body and a ventilation pillow surface. The breathable pillow surface comprises a supporting pillow body, a first breathable zone and two second breathable zones which are respectively arranged on two sides of the first breathable zone. The first ventilation area comprises a plurality of rows of ventilation units which are arranged at two sides of the supporting pillow body at intervals, and each row of ventilation units comprises a plurality of spherical protrusions which are arranged at intervals. Each second ventilation zone comprises at least two ventilation grooves which are arranged at intervals. In any two rows of adjacent ventilation units, the spherical protrusions and the gaps thereof are correspondingly arranged, so that air can circulate in the first ventilation area. The ventilation grooves guide air at the periphery of the first ventilation area, and ventilation of the wave pillow is further improved. Therefore, the integrally formed wave pillow is beneficial to ventilation with air, ventilation property of the pillow is improved, and comfort of a user is improved.

Description

Integrated into one piece's wave pillow

Technical Field

The utility model relates to the technical field of daily bedding, in particular to an integrally formed wave pillow.

Background

Pillows are an important component of articles for wearing, and almost essential for people. About one third of the time people spend in bed, especially in today's high pressure social environment where good sleep is a luxury for many people. A good, comfortable pillow is certainly a necessary requirement for improving sleep quality. At present, various pillows exist in the market, and the pillows can exert different effects through fillers, or can be more comfortable through the use of pillow materials and the design of shapes, such as a medicine pillow, a cotton pillow, a chaff pillow, a silica gel pillow and the like.

Patent number CN 113812817A provides an adjustable gas transmission massage pillow core, which improves the air permeability of the pillow core by designing a gas transmission groove on the pillow core. However, the air transmission groove and other structures are made by cutting, so that the manufacturing is troublesome, the air transmission groove is narrow, and the ventilation requirement of the pillow core cannot be completely met. In addition, the adjustable gas transmission massage pillow core is mainly used for the gas transmission groove of gas transmission, and can only be arranged along one direction due to the limitation of other structures, so that the gas flow is small. When the air transmission groove is blocked by the pressing of a human body, the air flow cannot circulate, and the ventilation effect is difficult to achieve.

Disclosure of Invention

In view of the above, the present utility model provides an integrally formed wave pillow that can solve the above-mentioned problems.

An integrally formed wave pillow comprises a pillow body and a ventilation pillow surface arranged on one side of the pillow body. The breathable pillow surface comprises a supporting pillow body arranged on the pillow body, a first breathable zone surrounding the edge of the supporting pillow body, and two second breathable zones respectively arranged on two sides of the first breathable zone. The first ventilation area comprises a plurality of rows of ventilation units which are arranged at two sides of the supporting pillow body at intervals, and each row of ventilation units comprises a plurality of spherical protrusions which are arranged at intervals. Each second ventilation zone comprises at least two ventilation grooves which are arranged at intervals. In any two rows of adjacent ventilation units, the spherical protrusions and the gaps thereof are correspondingly arranged, so that air can circulate in the first ventilation area.

Further, the supporting pillow body is arranged at the center of the pillow body.

Further, the supporting pillow body comprises a supporting main body and a head limiting groove arranged on the supporting main body.

Further, the outer contour contact of each row of ventilation units is wavy, and one side of the spherical bulge, which faces away from the pillow body, is arc-shaped.

Further, the height of the spherical protrusion is greater than the height of the support body.

Further, the outer contour of the supporting main body is in a sphere structure, and the head limiting groove is a circular groove formed in the supporting main body.

Further, the first ventilation area and the ventilation unit are arranged along the length direction of the pillow body.

Further, in each second ventilation zone, the spacing between any two adjacent ventilation slots is equal.

Compared with the prior art, the wave pillow of integrated into one piece makes through the structural design of ventilative pillow face the wave pillow reaches good ventilation effect. The breathable pillow surface comprises a supporting pillow body, a first breathable zone and two second breathable zones, wherein the first breathable zone is arranged around the supporting pillow body at intervals, and the second breathable zones are respectively arranged at two sides of the first breathable zone at intervals. The supporting pillow body is arranged at the central position of the wave pillow to support the head, and the height of the supporting pillow body is lower than that of the first ventilation area so that air can circulate around the head. The first ventilation zone comprises a plurality of rows of ventilation units arranged at intervals, and each row of ventilation units consists of a plurality of spherical protrusions. In any two rows of adjacent ventilation units, the positions of the spherical protrusions and the gaps thereof correspond to each other, so that air can flow in the gaps between any two adjacent ventilation units and the spherical protrusions, and the air can circulate in the first ventilation area. Each second ventilation area at least comprises two ventilation grooves which are arranged at intervals, and the ventilation grooves further improve the ventilation property of the wave pillow. Therefore, the integrally formed wave pillow is beneficial to ventilation with air, ventilation property of the pillow is improved, and comfort of a user is improved.

Drawings

Fig. 1 is a schematic structural view of an integrally formed wave pillow according to the present utility model.

Fig. 2 is a schematic structural view of an integrally formed wave pillow of fig. 1.

Detailed Description

Specific embodiments of the present utility model are described in further detail below. It should be understood that the description of the utility model herein is not intended to limit the scope of the utility model.

Fig. 1 to 2 show schematic structural views of an integrally formed wave pillow according to the present utility model. The integrally formed wave pillow comprises a pillow body 10 and a ventilation pillow surface 20 arranged on one side of the pillow body 10. It is conceivable that the integrally formed wave pillow further comprises some other functional modules, such as a packaging sleeve, which are known to the person skilled in the art, and will not be described in detail herein.

The pillow body 10 may be made of a memory sponge, etc., and the memory sponge has a good pressure release capability and can reduce vibration to a certain extent, thereby helping to improve sleep quality. The pillow body 10 has a B-shaped overall structure and is low at the middle and high at the two sides along the length direction. The wave pillow can be well attached to the cervical vertebra curve of a human body, and a better using body feel is brought to a user. The pillow body 10 is the main body portion of the wave pillow, which is a well known technology to those skilled in the art and will not be described in detail herein.

The ventilation pillow surface 20 is arranged on one surface of the pillow body 10, which is contacted with the head of a human body. The pillow body 10 and the ventilation pillow surface 20 may be manufactured in an integrally formed manner, so as to avoid the use of related connection components such as glue, and thus the production meets the environmental protection requirement. Meanwhile, the integrally formed manufacturing method also enables the combination of the pillow body 10 of the integrally formed wave pillow and the breathable pillow surface 20 to be more smooth and more attractive.

The ventilation pillow surface 20 comprises a support pillow body 21 arranged on the pillow body 10, a first ventilation zone 22 surrounding the edge of the support pillow body 21, and two second ventilation zones 23 respectively arranged at two sides of the first ventilation zone 22.

The supporting pillow body 21 is disposed at the center of the pillow body 10 for supporting and placing the head of the human body. The supporting pillow body 21 includes a supporting body 211 and a head limiting groove 212 provided on the supporting body 211. The outer contour of the supporting body 211 may be a sphere structure, which plays a role of supporting the head. The head limiting groove 212 may be a circular groove, and is fitted with the head of the human body, so that the head limiting groove has a coating feel and a comfortable feel when the head is placed.

The first ventilation area 22 includes a plurality of rows of ventilation units 221 arranged at intervals on both sides of the support pillow body 21. The ventilation unit 221 is composed of a plurality of spherical protrusions 222 arranged at equal intervals. It will be appreciated that the number of the ventilation units 221 and the spherical protrusions 222 provided for each ventilation unit 221 is determined by the length and width of the pillow body 10. Preferably, the outer contour of each row of the ventilation units 221 is in contact with each other to form a wave shape, and the spherical protrusions 222 of any two rows of the ventilation units 221 and the arrangement gaps thereof are corresponding to each other, so that air can circulate in the first ventilation area 22. The spherical protrusion 222 may have a hemispherical shape and a side thereof facing away from the pillow body 10 has an arc shape. Further, the height of the ventilation area 22 is greater than the height of the supporting pillow body 21, so as to ensure that air can circulate to the head of the human body and ensure the comfort of the head.

The two second ventilation areas 23 may be disposed along the length direction of the pillow body 10 or the width direction of the pillow body 10. As shown in fig. 1, the wave pillow of the present utility model is a schematic structure of an integrally formed wave pillow, and the second ventilation zone 23 is disposed along the length direction of the pillow body 10. Each of the second ventilation zones 23 comprises at least two ventilation slots 231 arranged at equal intervals. The cross section of the ventilation slot 231 may be semicircular, and the outer contour shapes of the ventilation slots 231 are identical. The second ventilation area 23 is disposed at the outer side of the first ventilation area 22, and the ventilation groove 231 in the second ventilation area 23 can guide the fluidity of the air at the outer side of the first ventilation area 22, so that the second ventilation area 23 further increases the overall ventilation of the wave pillow through the ventilation groove 231, and meanwhile, the groove interval can form streamline along the outline of the pillow body, thereby increasing the line feeling of the wave pillow, and having more fashion appearance.

Fig. 2 is a schematic structural view of another embodiment of an integrally formed wave pillow according to the present utility model. In this embodiment, two second ventilation areas 23 are provided at both ends of the pillow body 10 in the width direction of the pillow body 10, respectively.

Compared with the prior art, the wave pillow formed integrally enables the wave pillow to achieve good ventilation effect through the structural design of the ventilation pillow surface 20. Specifically, the ventilation pillow surface 20 includes one support pillow body 21, one first ventilation area 22 spaced around the support pillow body 21, and two second ventilation areas 23 spaced on both sides of the first ventilation area 22. The supporting pillow body 21 is disposed at the central position of the wave pillow to support the head, and has a height lower than the first ventilation zone 22 so that air can circulate around the head. The first ventilation zone 22 includes a plurality of rows of ventilation units 221 arranged at intervals, and each row of ventilation units 221 is composed of a plurality of spherical protrusions 222. In any two rows of adjacent ventilation units 221, the positions of the spherical protrusions 222 and the gaps thereof correspond to each other, so that air can flow in the gaps between any two adjacent ventilation units 221 and the spherical protrusions 222, and the air can circulate in the first ventilation area 22. Each second ventilation zone 23 comprises at least two ventilation grooves 231 arranged at intervals, and the ventilation grooves 231 further improve the ventilation property of the wave pillow. Therefore, the integrally formed wave pillow is beneficial to ventilation with air, ventilation property of the pillow is improved, and comfort of a user is improved.

The above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model, and any modifications, equivalents, improvements, etc. within the spirit of the present utility model are intended to be included in the scope of the claims of the present utility model.

Claims (8)

1. An integrated into one piece's wave pillow, its characterized in that: the wave pillow comprises a pillow body and a ventilation pillow surface arranged on one side of the pillow body, wherein the ventilation pillow surface comprises a support pillow body arranged on the pillow body, a first ventilation zone surrounding the edge of the support pillow body and two second ventilation zones respectively arranged on two sides of the first ventilation zone, the first ventilation zone comprises a plurality of rows of ventilation units arranged on two sides of the support pillow body at intervals, each row of ventilation units comprises a plurality of spherical protrusions arranged at intervals, each second ventilation zone comprises at least two ventilation grooves arranged at intervals, and in any two rows of adjacent ventilation units, the positions of the spherical protrusions and gaps of the spherical protrusions are correspondingly arranged so that air can circulate in the first ventilation zone.

2. The integrally formed wave pillow of claim 1, wherein: the supporting pillow body is arranged at the center of the pillow body.

3. The integrally formed wave pillow of claim 1, wherein: the support pillow body comprises a support main body and a head limiting groove arranged on the support main body.

4. The integrally formed wave pillow of claim 1, wherein: the outer contour contact of each row of ventilation units is wavy, and one side of the spherical bulge, which faces away from the pillow body, is arc-shaped.

5. An integrally formed wave pillow as claimed in claim 3, wherein: the height of the spherical protrusion is greater than the height of the support body.

6. An integrally formed wave pillow as claimed in claim 3, wherein: the outer contour of the supporting main body is in a sphere structure, and the head limiting groove is a circular groove formed in the supporting main body.

7. The integrally formed wave pillow of claim 1, wherein: the first ventilation area and the ventilation unit are arranged along the length direction of the pillow body.

8. The integrally formed wave pillow of claim 1, wherein: in each second ventilation zone, the spacing between any two adjacent ventilation slots is equal.