CN211533735U - Air convection curve pillow - Google Patents

Abstract

The utility model relates to an air convection curve pillow, including the pillow body, the pillow body includes a relative top surface and a bottom surface, the top surface is the wave surface, including first arc bellying, second arc bellying to and connect the arc recess of first arc bellying and second arc bellying, the pillow body be equipped with the parallel horizontal through-hole of top surface wave, and with the vertical criss-cross vertical through-hole of horizontal through-hole. Its advantages are: the transverse through holes and the longitudinal through holes of the pillow are vertically crossed, so that the better air circulation effect of the pillow is ensured, and the air permeability and the sweat releasing effect of the pillow are improved; the top surface of the pillow body is a top surface design structure formed by integrating a first arc-shaped bulge, a second arc-shaped bulge and an arc-shaped groove, so that the requirement of the curve of the neck of a human body is fully met, and the effect of protecting the cervical vertebra is achieved; the transverse through holes are designed in a rhombic structure, so that the pillow is guaranteed to have sufficient air convection space.

Description

Air convection curve pillow

Technical Field

The utility model belongs to the technical field of the pillow structural improvement technique and specifically relates to a can realize curve sponge pillow of air convection.

Background

At present, a soft pillow core (such as latex, sponge and the like) is adopted in a common pillow, a head is padded on the pillow during sleeping, the head is in close contact with the surface of the pillow and is completely airtight, so that the head is easy to heat, the temperature of the head is increased, blood fills the head, the sleeping quality is poor, and even serious people cause insomnia. In order to provide a comfortable feeling to the head of a human body and simultaneously relieve the redundant heat generated by a soft pillow inner, particularly a sponge product, pillow developers design a plurality of structures, wherein a convection hole structure is a common pillow structure.

At present, the pillow convection hole structure on the market is mainly an upper and lower punching structure, namely, the pillow products are subjected to secondary punching processing through punching equipment so as to achieve ventilation between the inside of the pillow and the ambient environment. The defect of the design is that the lower surface of the pillow is placed on a plane (bed) and is directly blocked by the plane, and the pillow can only contact with the environment through the surface (the surface close to the head of a human body), so that the function of air convection cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a to the not good defect of current pillow structure ventilation effect, a accord with human neck curve requirement, can make the sponge pillow realize the air convection simultaneously, improve the air convection curve pillow of pillow ventilative perspire effect.

In order to achieve the purpose, the utility model adopts the technical proposal that: the utility model provides an air convection curve pillow, includes the pillow body, the pillow body includes a relative top surface and a bottom surface, the top surface is the wave surface, including first arc bellying, second arc bellying to and connect the arc recess of first arc bellying and second arc bellying, the pillow body be equipped with the parallel horizontal through-hole of top surface wave, and with the vertical alternately vertical through-hole of horizontal through-hole. Due to the adoption of the pillow body top surface with the wave-shaped design, when a human body contacts the pillow pad, a gap is reserved between the head and the surface of the pillow when the head is in contact with the surface of the pillow, so that the phenomenon that the ventilation effect is influenced because excessive heat cannot be dissipated due to the fact that the head is completely in contact with the surface of the pillow in a fitting manner is avoided. The top surface design structure integrally formed by the first arc-shaped protruding part, the second arc-shaped protruding part and the arc-shaped groove fully meets the requirement of the curve of the neck of a human body, and the effect of protecting the cervical vertebra is achieved.

Furthermore, the longitudinal through holes are distributed on the top surface of the pillow body at equal intervals, the transverse through holes are distributed in the middle of the top surface of the pillow body at equal intervals, the transverse through holes and the longitudinal through holes are intersected at the arc-shaped groove of the pillow body, the depth of each transverse through hole is 1/3-1/2 of the thickness of the pillow body, the transverse through holes and the longitudinal through holes do not completely penetrate through the pillow body, and the situation that the ventilation effect is weakened due to the fact that the bottom surface of the pillow is placed on a plane (bed) and the through holes are directly blocked by the plane can be avoided.

Furthermore, the transverse through holes are of a diamond structure, and the diamond holes ensure sufficient air circulation space.

Furthermore, the pillow body is made of sponge.

The utility model has the advantages that:

1. the utility model discloses the better circulation of air effect of pillow is guaranteed to the perpendicular cross structure of horizontal through-hole and vertical through-hole of pillow, improves the gas permeability and the perspire effect of pillow.

2. The utility model discloses pillow body top surface is by the integrative top surface project organization that constitutes of first arc bellying, second arc bellying and arc recess, and the curved requirement of human neck of abundant laminating reaches the effect of protection cervical vertebra.

3. The utility model discloses a horizontal through-hole adopts rhombus structural design, guarantees that the pillow possesses sufficient air convection space.

Drawings

For a clearer understanding of the objects, features and advantages of the present invention, reference will now be made in detail to the preferred embodiments of the present invention, which are illustrated in the accompanying drawings, wherein:

fig. 1 is a schematic three-dimensional structure diagram of the air convection curve pillow of the present invention.

Fig. 2 is a cross-sectional view of the air convection curve pillow along the longitudinal through hole direction.

Fig. 3 is a cross-sectional view of the air convection curve pillow along the direction of the transverse through hole.

The reference numerals and components referred to in the drawings are as follows:

1. the structure comprises a transverse through hole, 2 a longitudinal through hole, 3 a top surface, 31 a first arc-shaped convex part, 32 a second arc-shaped convex part, 33 an arc-shaped groove and 4 a bottom surface.

Detailed Description

The structure of the air convection curve pillow of the present invention will be clearly and completely described below with reference to the accompanying drawings, taking a general-purpose sponge pillow as an example.

Referring to fig. 1, an air convection curve pillow comprises a pillow body, wherein the pillow body comprises a top surface 3 and a bottom surface 4 which are opposite, the top surface 3 is generally used as a surface which is contacted with the head of a human body when in use, and the bottom surface 4 is used as a surface which is contacted with a plane or a bed surface for placing the pillow. Wherein, top surface 3 is by the integrative top surface project organization who constitutes of first arc bellying 31, second arc bellying 32 and arc recess 33, and the curved requirement of human neck is fully laminated, reaches the effect of protection cervical vertebra. Furthermore, the top surface 3 is a wavy surface formed by a plurality of transverse arc-shaped shallow grooves, when a human body contacts the pillow, the head contacts with the wavy surface of the top surface 3 of the pillow, a gap is left between the head and the pillow, and the problem that excessive heat cannot be dissipated to influence the ventilation effect due to the fact that the head is completely attached to and contacted with the surface of the pillow is avoided.

The pillow body is also provided with a transverse through hole 1 parallel to a transverse arc shallow groove on the wavy surface of the top surface 3, as shown in figure 2, the transverse through hole 1 is concentrated in the middle of the pillow, the transverse through hole is cut off from the opening of the top surface 3 to the middle 1/3-1/2 of the pillow and cannot penetrate through to the bottom surface 4 of the pillow, the middle part of the transverse through hole 1 is of a rhombic structure, and the rhombic opening ensures sufficient air circulation space.

The pillow body is also provided with longitudinal through holes 2 vertically crossed with the transverse through holes 1 at the arc-shaped groove 33 of the pillow body, referring to the attached drawings 1 and 3, the longitudinal through holes 2 are distributed on the top surface 3 of the pillow body at equal intervals, and are cut off from the opening of the top surface 3 to the middle 1/3-1/2 of the pillow and do not penetrate to the bottom surface 5 of the pillow. The longitudinal through holes 2 and the transverse through holes 1 are intersected to form air convection channels, so that air convection is ensured, and the air permeability of the pillow is improved.

In particular, the transverse through holes 1 are distributed on the middle part of the top surface 3 of the pillow body at equal intervals, and the longitudinal through holes 2 are distributed on the top surface 3 of the pillow body at equal intervals. The depth of the transverse through hole 1 and the depth of the longitudinal through hole 2 are 1/3-1/2 of the thickness of the pillow body, the transverse through hole 1 and the longitudinal through hole 2 do not penetrate through the pillow body, and preferably the depth of the transverse through hole 1 and the depth of the longitudinal through hole 2 are designed to be 1/3 of the thickness of the pillow body. Because the pillow usually can place on plane or bed surface when using, if the through-hole pierces through the pillow body, can be given to stop up by the plane and lead to ventilation effect to weaken, and the utility model discloses a pillow through-hole does not pierce through the pillow body and intersects in pillow center department, can directly form the air convection hole in pillow center department, can guarantee sufficient circulation of air space like this, improves ventilative perspire effect.

It should be noted that, in the actual production and manufacturing process, according to the aesthetic requirements of customers, the through hole structure of the transverse through hole 1 may be designed into a circular structure, a square structure, or other shapes that can achieve the same air circulation effect, in addition to the rhombic structure described in the embodiments of the present specification.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides an air convection curve pillow, includes the pillow body, the pillow body includes a relative top surface and a bottom surface, its characterized in that, the top surface is the wave surface, including first arc bellying, second arc bellying to and connect the arc recess of first arc bellying and second arc bellying, the pillow body be equipped with the parallel horizontal through-hole of top surface wave, and with the vertical criss-cross vertical through-hole of horizontal through-hole, horizontal through-hole is the diamond structure, horizontal through-hole equidistant distribution is in the mid portion of pillow body top surface.

2. An air convection curve pillow as in claim 1, wherein the longitudinal through holes are distributed on the top surface of the pillow body at equal intervals.

3. An air convection curve pillow as in claim 2 wherein the transverse through hole and the longitudinal through hole intersect at the curved recess of the pillow body.

4. An air convection curve pillow as in claim 3 wherein the depth of the transverse and longitudinal through holes is 1/3-1/2 of the thickness of the pillow body.

5. The air convection curve pillow of claim 1, wherein the pillow body is made of sponge.

Images