CN209883703U - Ventilative light novel silica gel pillow - Google Patents

Abstract

The utility model provides a novel breathable and portable silica gel pillow, which comprises a silica gel pillow inner; the middle part of the upper end surface of the silica gel pillow core is concave, and two ends of the upper end surface of the silica gel pillow core form supporting ends which are arched upwards relative to the middle part and are respectively a first supporting end and a second supporting end. The first supporting end and the second supporting end have different heights; the lower end face of the silica gel pillow inner is provided with a plurality of first through holes penetrating through the upper end face, and the first through holes form a honeycomb structure. The drill way of silica gel pillow inner up end is split into a plurality of meshes by the splice bar to make silica gel pillow inner up end forms the mesh face, first through-hole aperture is greater than the mesh aperture. The weight of the silica gel pillow is reduced and the deformation degree of the silica gel pillow is enhanced by designing the honeycomb structure, so that the effects of comfort, ventilation and portability are achieved; the mesh surface is arranged on the upper end surface of the silica gel pillow to enhance the rigidity of the silica gel pillow, so that the silica gel pillow has a better supporting effect and prevents the pillow core from deforming after long-term use. The user can also cooperate the silica gel pad to use, adjusts required height.

Description

Ventilative light novel silica gel pillow

Technical Field

The utility model relates to a life at home field, concretely relates to ventilative light novel silica gel pillow.

Background

Sleep is a life requirement, the poor sleep quality can cause disordered cognitive performance, such as memory reduction, attention deficit, overall state decline, alertness reduction and the like, and long-term insomnia can cause anxiety and depression. The pillow is used as a sleeping tool, and the pillow is used for not only considering the comfort degree of the pillow, but also being a vital consideration for protecting the cervical vertebra. Pillows are generally considered to be articles that people adopt to ensure comfortable sleep. From a scientific point of view, the spine of a human body is a straight line when viewed from the front, and is a curve when viewed from the side. In order to protect the normal physiological bending of the neck and maintain the normal physiological activities of people during sleeping, a pillow is needed during sleeping. Most of the existing pillows are filled with cotton or sponge, and after the pillow is used for a long time, the cotton or sponge collapses due to stress, so that the pillow deforms.

Currently, most of the pillows in the market are cotton pillows, chemical fiber pillows or latex pillows, but all of them have many disadvantages. The cotton pillow takes common cotton as the filler of the pillow, has the defects of poor elasticity, easy sweat absorption, easy moisture regain, hardening, bacteria breeding and the like, and can not be cleaned by water washing due to the fiber characteristics of the cotton. Therefore, after long-term use, the pillow is not only collapsed due to compaction of cotton, but also has the problems of mite adhesion, cotton mildew and the like due to the fact that the pillow cannot be cleaned. The chemical fiber pillow uses chemical fiber fluffy cotton and hollow fiber as fillers, and compared with a cotton pillow, the chemical fiber pillow is light in weight and good in elasticity; however, the chemical fiber pillow is not breathable, and is easy to become into blocks after being used for a long time, so that the elasticity of the pillow is poor, the pillow is in a rugged state, and the pillow is difficult to clean. In addition, as a relatively novel pillow, the latex pillow basically does not have the problems of a cotton pillow or a chemical fiber pillow, so that the latex pillow is made of latex instead of fiber fillers. However, the latex pillow has many problems, the latex pillow is made of latex, the latex pillow is too soft and too strong in elasticity, when the latex pillow is used, the position of the head is changed on the pillow all the time, so that neck muscles are always suitable for the support of the head, the support force is lacked, the cervical vertebra is not good after the latex pillow is used for a long time, and the manufacturing cost of natural latex is very high.

For example, chinese patent publication No. CN107518712A provides a pillow comprising a pillow core filled with cotton, a pillow case for housing the pillow core, and a pillow case; the pillow groove is the position of the center of the pillow. The pillow uses cotton as filler, and has sanitary problems such as mite adhesion, cotton damp and mildew, and difficulty in cleaning or cleaning; such pillows also cannot be washed with water, because the cotton cannot be restored to the original full state by washing with water, and the loss of the pillow is large. Meanwhile, the pillow using cotton or sponge as filler has small effect of supporting the head of a human body, is difficult to have certain supporting force to protect the spine or the neck, has poor using effect of a user, influences sleeping quality, and has low health care effect and single function.

Therefore, in order to solve the problems in the prior art, it is urgently needed to provide a pillow which has the advantages of elasticity, air permeability, light weight, environmental protection, durability and the like, has a simple structure, and is comfortable and capable of maintaining a certain supporting force for the head.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to avoid the weak point among the prior art, and provide a simple structure, have high elasticity, ventilative light, environmental protection durable, have the novel silica gel pillow of certain holding power.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a novel breathable and portable silica gel pillow, which comprises a silica gel pillow inner; the middle part of the upper end surface of the silica gel pillow core is concave, and two ends of the upper end surface of the silica gel pillow core form supporting ends which are arched upwards relative to the middle part and are respectively a first supporting end and a second supporting end.

The first supporting end and the second supporting end have different heights;

the lower end face of the silica gel pillow inner is provided with a plurality of first through holes penetrating through the upper end face, and the first through holes form a honeycomb structure. The drill way of the first through hole penetrating the upper end face is divided into a plurality of meshes by the connecting ribs, so that the plurality of meshes of the upper end face of the silica gel pillow inner form a mesh surface, and the aperture of the first through hole is larger than that of the meshes.

Specifically, a plurality of first through-holes of silica gel pillow form honeycomb, and this structure has higher intensity and rigidity, can strengthen the holding power of silica gel pillow. The comfort degree is guaranteed, and meanwhile, the silica gel pillow inner can be guaranteed to have enough supporting force, so that the cervical vertebra is protected.

In particular, a honeycomb Structure (Cellular Structure) is an optimal topology for covering a two-dimensional plane. The honeycomb structure is a basic structure of a honeycomb, and is a structure formed by symmetrically arranging and combining a plurality of regular hexagonal single rooms with all downward or one side and back to back, wherein the room openings of the regular hexagonal single rooms are all downward or are arranged towards one side. In the present application, the shape of the through-hole of the honeycomb structure is not limited to a regular hexagon, and may be any shape.

Specifically, the design of the plurality of first through holes communicated with the upper end face of the pillow inner aims to reduce the weight of the pillow inner, and the pillow inner is made of silica gel materials, so that the weight of the pillow inner is very heavy for a common cotton pillow. The design of first through-hole when alleviateing the weight of pillow, also makes the pillow of fretwork have certain deformation degree, strengthens its travelling comfort, more accords with user's demand.

Specifically, the connecting ribs divide the orifices on the upper end face of the pillow core into a plurality of meshes, so that the upper end face forms a mesh surface, and the structure is used for enhancing the rigidity of the pillow core. If the pillow core is only provided with the honeycomb structure, the honeycomb structure is difficult to realize better supporting force, if the pillow core wants to have better supporting force, the aperture of the first through hole of the honeycomb structure can only be set smaller, and the better supporting force can be ensured, but the aperture of the first through hole is too small to effectively reduce the weight of the pillow core, so that good comfort is achieved. Meanwhile, if the upper end face of the pillow core is of a honeycomb structure, when a user uses the pillow, the upper end face of the pillow core is provided with a plurality of through holes, so that the end face of the pillow core is in a non-smooth state, the head cannot be attached to the pillow core when the pillow is used, and the pillow cannot be comfortable. Therefore, the upper end face of the pillow core needs to be smooth, and the deformation degree, the weight and the like of the pillow do not need to be influenced, so that the through holes are divided into a plurality of meshes by using the connecting ribs, the orifices of the original through holes are divided into dense and numb meshes, the end face of the pillow core is smoother than the original end face, and the pillow core can be attached to the head to provide a better use feeling; in addition, the design of the connecting ribs can enhance the rigidity and the supporting force of the pillow core, the weight of the pillow core is not influenced, and the structural design is more reasonable.

Preferably, the aperture of the first through hole at the edge of the silica gel pillow inner is smaller than the apertures of the other first through holes at the non-edge.

Specifically, the aperture of the first through hole at the edge of the silica gel pillow core is smaller, so that the shape of the pillow core can be still kept under long-term use or larger pressure, a better holding and shaping effect is achieved, and the rigidity and the supporting force of the silica gel pillow core are enhanced to a certain extent.

Preferably, the distance between the first through hole at the edge of the silica gel pillow inner and the end face at the edge of the silica gel pillow inner is greater than or equal to 0.5 cm.

Specifically, if the distance between the first through hole at the edge of the silica gel pillow core and the end face of the edge of the silica gel pillow core is too close, that is, the first through hole is very close to the edge of the silica gel pillow core, the silica gel pillow is difficult to keep a better shape under a stress condition, the rigidity of the pillow core is poor, the cervical vertebra of a user is not protected, and the pillow is easy to deform; after long-term use, the pore wall is broken to destroy the structure of the pillow core. Therefore, the first through hole is arranged to keep a certain distance from the edge of the pillow core, which can avoid the situation.

Preferably, the thickness between the walls of the first through holes is greater than or equal to 2 mm.

Specifically, the thickness between the hole walls of the first through holes is larger than or equal to 2mm, so that the pillow inner has a certain degree of retention after being stressed.

Preferably, the end surfaces of the first support end and the second support end are both curved surfaces.

Preferably, the connecting ribs divide the first through hole into a plurality of meshes in a crisscross arrangement.

Preferably, the thickness of the connecting rib is greater than or equal to 2 mm.

Specifically, the connecting ribs are arranged in a cross mode, so that the pillow inner has better supporting force. The thickness of the connecting ribs is larger than or equal to 2mm, so that the connecting ribs are prevented from being broken due to the fact that the thickness of the connecting ribs is too small, and the use of the pillow core is influenced.

Preferably, the silica gel pillow inner is integrally formed.

Preferably, the height of the first support end is 2/3 the height of the second support end.

Specifically, the first support end and the second support end which are arched upwards and have different heights are arranged on the silica gel pillow inner, so that the requirements of each person on the height of the pillow are different in the process that a user uses the pillow; the design of the first supporting end and the second supporting end enables the supporting ends with different heights of the silica gel pillow inner to provide choices for users, and the practicability of the pillow is enhanced.

The silica gel pillow also comprises a silica gel pad matched with the silica gel pillow inner for use, and the silica gel pad is arranged on the lower side of the silica gel pillow inner and used for heightening the silica gel pillow inner;

the silica gel pad is equipped with a plurality of penetrating second through-holes, a plurality of second through-holes form honeycomb.

Preferably, the plurality of second through holes are arranged corresponding to the plurality of first through holes.

Preferably, the silica gel pad has a plurality of.

Specifically, the user can set up the silica gel pad in silica gel pillow lower side pad, according to the required pillow height of user self, can locate the pillow downside with one or more silica gel pads to reach the purpose of raising the pillow, thereby adjust the height of pillow.

Preferably, the silica gel pillow inner and the silica gel pad are made of food-grade silica gel or common silica gel.

Particularly, the food-grade silica gel has the advantages of good fluidity, high temperature resistance, corrosion resistance, high tensile strength, high tear resistance, low shrinkage and the like, and is non-toxic and odorless; because the distance between the pillow and the head is very close, the user may lick mistakenly when sleeping (especially infants); the food-grade silica gel is used, so that the silica gel pillow inner has the advantages of safety in use and no toxicity when the silica gel pillow inner has better deformation force.

The silica gel pillow further comprises a pillowcase, the periphery of the pillow core is sleeved with the pillowcase, and the pillowcase is made of fiber materials.

In particular, the pure cotton cloth pillowcase has the advantages of high air permeability, skin friendliness and the like.

Preferably, the pillowcase is made of cotton cloth.

The utility model has the advantages that:

the utility model provides a silica gel pillow, which reduces the weight of the silica gel pillow and enhances the deformation degree of the silica gel pillow by designing a honeycomb structure, thereby achieving the effects of comfort, ventilation and portability; meanwhile, the mesh surface is arranged on the upper end surface of the silica gel pillow and can enhance the rigidity of the silica gel pillow, so that the silica gel pillow has a good supporting effect and the pillow core is prevented from deforming after long-term use. And this pillow still is equipped with first support end and second support end, and the user can select required height according to the actual demand, has strengthened the practicality of pillow. The user can also cooperate the silica gel pad to use to adjust required height. The cervical vertebra protector is simple in structure, convenient to produce, high in elasticity, breathable, light, environment-friendly, durable and comfortable, and has the effects of supporting force and protecting cervical vertebra.

Drawings

FIG. 1 is a schematic view of the silica gel pillow of the present invention;

FIG. 2 is a schematic view of the use of the silica gel pillow core and the silica gel pad;

FIGS. 3 to 4 are schematic views of the silica gel pillow core of the present invention;

FIG. 5 is a top view of the silica gel pillow core of the present invention;

FIG. 6 is a schematic view of the mesh surface of the silica gel pillow core of the present invention;

FIG. 7 is a lower end view of the silica gel pillow core of the present invention;

FIG. 8 is a cross-sectional view of the silica gel pillow core of the present invention;

FIG. 9 is a schematic view of the honeycomb structure of the silica gel pillow core of the present invention;

fig. 10 is a schematic view of the silica gel pad structure of the silica gel pillow core of the present invention.

Description of the reference numerals

1 silica gel pillow core and 2 silica gel pad;

11 a first supporting end, 12a second supporting end, 13a honeycomb structure, 13a first through holes, 14 connecting ribs, 15 mesh surfaces, 15a meshes, 16 edge end surfaces, 17 upper end surfaces and 18 lower end surfaces;

21 silica gel pad honeycomb, 21a second through hole.

Detailed Description

The present invention will be described in further detail with reference to the following examples.

Examples

As shown in fig. 1-10, a novel breathable and portable silica gel pillow comprises a silica gel pillow core 1 and a silica gel pad 2 matched with the silica gel pillow core 1; the silica gel pad 2 is arranged on the lower side of the silica gel pillow core 1, and the silica gel pillow core 1 is lifted;

the silica gel pillow core 1 is integrally formed, the middle part of the upper end surface of the silica gel pillow core 1 is concave, and two ends of the upper end surface form supporting ends which are arched upwards relative to the middle part and are respectively a first supporting end 11 and a second supporting end 12; the second supporting end 12 is higher than the first supporting end 11, specifically, the height of the first supporting end is 2/3 of the height of the second supporting end; and the end surfaces of the first support end 11 and the second support end 12 are both curved surfaces.

The first support end 11 and the second support end 12 which are arched upwards and have different heights are arranged on the silica gel pillow inner 1, because the requirements of each person on the height of the pillow are different in the process of using the pillow by a user; the design of the first support end 11 and the second support end 12 provides the users with the support ends with different heights of the silica gel pillow core 1, and enhances the practicability of the pillow.

The lower end face of the silica gel pillow inner 1 is provided with a plurality of first through holes 13a penetrating through the upper end face, and the first through holes 13a form a honeycomb structure 13.

The hole opening on the upper end face of the silica gel pillow core 1 is divided into a plurality of meshes 15a by connecting ribs 14 in a cross arrangement mode, so that a mesh surface 15 is formed on the upper end face of the silica gel pillow core 1, and the hole diameter of the first through hole 13a is larger than the hole diameter of the meshes 15 a; the thickness of the connecting rib is larger than 2 mm. The plurality of first through holes 13a of the silica gel pillow core 1 form a honeycomb structure 13, and the structure 13 has higher strength and rigidity and can enhance the supporting force of the silica gel pillow core 1. The comfort degree is guaranteed, and meanwhile the silica gel pillow inner 1 can be guaranteed to have enough supporting force, so that the cervical vertebra is protected. The design of the first through holes 13a communicated with the upper end surface of the pillow core 1 is to reduce the weight of the pillow core, and the weight of the pillow core is very heavy for a common cotton pillow because the pillow core is made of silica gel. The design of first through-hole 13a when alleviateing the weight of pillow, also makes the pillow of fretwork have certain deformation degree, strengthens its travelling comfort, more accords with user's demand. The connecting ribs are arranged in a cross mode, so that the pillow core has better supporting force. The thickness of the connecting ribs is larger than or equal to 2mm, so that the connecting ribs are prevented from being broken due to the fact that the thickness of the connecting ribs is too small, and the use of the pillow core is influenced.

The connecting ribs 14 divide the openings of the upper end surface of the pillow core into a plurality of meshes 15a, thereby forming a mesh surface 15, and the structure 15 is used for enhancing the rigidity of the pillow core. If the pillow core 1 is only provided with the honeycomb structure 13, the honeycomb structure 13 is difficult to realize better supporting force, if the pillow core wants to have better supporting force, the aperture of the first through hole 13a of the honeycomb structure 13 can only be set smaller to ensure that the pillow core has better supporting force, but the aperture of the first through hole 13a is too small to effectively reduce the weight of the pillow core and achieve good comfort level. Meanwhile, if the upper end surface of the pillow core is of the honeycomb structure 13, when a user uses the pillow, the upper end surface of the pillow core is provided with a plurality of through holes 13a, so that the end surface of the pillow core is in a non-smooth state, the head cannot be attached to the pillow core easily when the pillow is used, and the pillow cannot be comfortable. Therefore, the upper end face of the pillow core 1 needs to be smooth, and the deformation degree, the weight and the like of the pillow do not need to be influenced, so the through holes are divided into a plurality of meshes 15a by the connecting ribs 14, the openings of the original through holes 13a are divided into dense and hemp meshes 15a, the end face is smoother than the original end face, and the pillow can be attached to the head to provide better use feeling; in addition, the design of the connecting ribs 14 can enhance the rigidity and the supporting force of the pillow core 1, the weight of the pillow core 1 is not influenced, and the structural design is more reasonable.

The aperture of the first through hole 13a at the edge of the silica gel pillow inner 1 is smaller than the aperture of the first through holes 13a at the other non-edge. The aperture of the first through hole 13a at the edge of the silica gel pillow core 1 is smaller, so that the shape of the pillow core can be still kept under long-term use or larger pressure, a better keeping and shaping effect is achieved, and the rigidity and the supporting force of the silica gel pillow core 1 are enhanced to a certain degree. The distance between the first through hole 13a at the edge of the silica gel pillow core and the end face 16 at the edge of the silica gel pillow core 1 is more than 0.5 cm. If the distance between the first through hole 13a at the edge of the silica gel pillow core and the end face 16 at the edge of the silica gel pillow core is too close, that is, the first through hole 13a is very close to the edge of the silica gel pillow core 1, the silica gel pillow is difficult to keep a better shape under a stress condition, the rigidity of the pillow core is poor, the cervical vertebra of a user is not protected, and the pillow is easy to deform; after long-term use, the pore wall is broken to destroy the structure of the pillow core. Therefore, the first through hole 13a is arranged to keep a certain distance from the edge of the pillow core, which can avoid the situation.

In the present embodiment, the thickness between the hole walls of the first through holes 13a is greater than 2 mm. The thickness between the hole walls of the first through holes 13a is more than 2mm, so that the pillow core 1 has certain retention after being stressed.

The silica gel pad 2 has one, is equipped with a plurality of penetrating second through-holes 21a on the silica gel pad 2, a plurality of second through-holes 21a form honeycomb 21, just a plurality of second through-holes 21a with a plurality of first through-holes 13a correspond the setting.

Specifically, the user fills up in silica gel pillow 1 downside and establishes silica gel pad 2, according to the required pillow height of user self, can locate pillow 1 downside with one or more silica gel pad 2 pads to reach the purpose of raising pillow 1, thereby adjust the height of pillow.

The silica gel pillow inner 1 and the silica gel pad 2 are made of food-grade silica gel. The food-grade silica gel has the advantages of good fluidity, high temperature resistance, corrosion resistance, high tensile strength, high tear resistance, low shrinkage and the like, and is non-toxic and tasteless; because the distance between the pillow and the head is very close, the user may lick mistakenly when sleeping (especially infants); the food-grade silica gel is used, so that the silica gel pillow inner has the advantages of safety in use and no toxicity when the silica gel pillow inner has better deformation force.

It should be finally noted that the above embodiments are only intended to illustrate the technical solution of the present invention and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solution of the present invention can be modified or replaced with other equivalents without departing from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. A novel breathable and portable silica gel pillow is characterized by comprising a silica gel pillow inner;

the middle part of the upper end surface of the silica gel pillow core is concave, and two ends of the upper end surface of the silica gel pillow core form supporting ends which are arched upwards relative to the middle part and are respectively a first supporting end and a second supporting end;

the first supporting end and the second supporting end have different heights;

the lower end face of the silica gel pillow inner is provided with a plurality of first through holes penetrating through the upper end face, and the first through holes form a honeycomb structure;

the hole opening of the first through hole penetrating the upper end face is divided into a plurality of meshes by the connecting ribs, and the hole diameter of the first through hole is larger than that of the meshes.

2. The novel silica gel pillow according to claim 1, wherein the connecting ribs divide the first through holes into a plurality of meshes in a criss-cross arrangement.

3. The novel silica gel pillow of claim 2, wherein the thickness of the connecting rib is greater than or equal to 2 mm.

4. The novel silica gel pillow according to claim 1, wherein the end surfaces of the first support end and the second support end are both curved surfaces.

5. The novel silica gel pillow according to claim 1, wherein the first through hole aperture at the edge of the silica gel pillow core is smaller than the first through hole aperture at the non-edge.

6. The novel silica gel pillow according to claim 1, wherein the distance between the first through hole at the edge of the silica gel pillow core and the end face of the edge of the silica gel pillow core is greater than or equal to 0.5 cm.

7. The novel silica gel pillow according to claim 1, wherein the silica gel pillow core is integrally formed.

8. The novel silica gel pillow according to claim 1, further comprising a silica gel pad used in cooperation with the silica gel pillow core, wherein the silica gel pad is placed under the silica gel pillow core and is used for heightening the silica gel pillow core.

9. The novel silica gel pillow of claim 8, wherein the silica gel pad is provided with a plurality of second through holes, and the second through holes form a honeycomb structure.

10. The novel silica gel pillow of claim 1, wherein the thickness between the walls of the first through holes is greater than or equal to 2 mm.

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