CN218960458U - Combined partition spring neck protection pillow - Google Patents

Abstract

The utility model provides a combined partition spring neck protection pillow, which comprises: the shell fabric, spring layer and a plurality of buffer layer, the inside formation holding chamber that encloses of shell fabric, the spring layer is located the holding intracavity, the spring layer includes a plurality of closely arranged springs, the spring layer includes first nest spring district, back spring district and side spring district that sleeps, a plurality of the buffer layer is located the holding intracavity, and distribute the upper and lower both sides of spring layer. The combined partition spring neck protection pillow is provided with a plurality of partitions, the elasticity of the springs in each partition is different, the generated deformation can accord with physiological curves of the head and the neck of a human body, more effective support is generated on the head and the neck of the human body, the neck protection performance of the combined partition spring neck protection pillow is improved, the buffer layer can weaken uncomfortable touch feeling of the springs on the head, the neck protection pillow can be more attached to the head and the neck of the human body, and the comfort level of the combined partition spring neck protection pillow is improved.

Description

Combined partition spring neck protection pillow

Technical Field

The utility model relates to the technical field of pillows, in particular to a combined partition spring neck protection pillow.

Background

The pillow is a necessary bedding for daily life of people, the variety of the pillow is various, the quality of sleep directly influences the quality of life of people, and the pillow is a key factor influencing the quality of sleep. At present, the pillows using springs as fillers in the market are not more, if any, the springs with the same specification are used. Because the specifications of the springs are the same, the elastic force of the springs is the same, so that the spring pillow is a pillow with single supporting force, can only support the head of a human body, and has no neck protection effect. And the spring pillow is of a closed structure, and in the using process, the internal air is not easy to exhaust, so that the suspension sense of the spring pillow is stronger, the actual supporting force is not generated, and the stiff neck is easy to cause.

Disclosure of Invention

The utility model aims to provide a combined partition spring neck protection pillow which is provided with a plurality of partitions, wherein the supporting forces of springs in the partitions are different, so that the pillow can be more in line with physiological curves of the head and the neck of a human body, and has a neck protection function.

To achieve the above and other related objects, the present utility model provides a combined zoned spring neck pillow comprising: the fabric comprises a fabric body, a spring layer and a plurality of buffer layers, wherein an accommodating cavity is formed by surrounding the inside of the fabric body, the spring layer is positioned in the accommodating cavity, the spring layer comprises a plurality of closely arranged springs, the spring layer comprises a head nest spring area, a back-lying spring area and a side-lying spring area, the head nest spring area consists of a plurality of springs positioned in the middle of the spring layer, the back-lying spring area consists of a plurality of springs positioned on two sides in the width direction of the head nest spring area, the side-lying spring area consists of a plurality of springs positioned on two sides in the length direction of the head nest spring area, a plurality of buffer layers are positioned in the accommodating cavity and distributed on the upper side and the lower side of the spring layer, and the buffer layers adjacent to the spring layer are connected with the spring layer;

under the condition that the compression amount is the same, the working pressure generated by the springs in the head nest spring area is smaller than or equal to the working pressure generated by the springs in the side sleep spring area, and the working pressure generated by the springs in the head nest spring area is smaller than the working pressure generated by the springs in the back sleep spring area.

In an example of the combined partition spring neck protection pillow, the fabric comprises an upper layer fabric, a lower layer fabric and a vertical edge, the peripheral edges of the upper layer fabric and the lower layer fabric are respectively connected with the upper end and the lower end of the vertical edge, so that the accommodating cavity is formed, and a plurality of ventilation holes are formed in the vertical edge.

In an example of the combined partition spring neck pillow, a plurality of the air holes are distributed on the vertical edges positioned on two sides of the fabric in the length direction, and a plurality of the air holes are uniformly distributed on the vertical edges.

In an example of the combined partition spring neck guard pillow, 1-8 air holes are respectively formed in the vertical edges on two sides of the fabric in the length direction, annular pieces are arranged at the air holes, the edges of the annular pieces are fixedly connected with the vertical edges, and through holes are formed in the middle of the annular pieces.

In an example of the combined partition spring neck guard pillow, the annular piece is a metal ring, a through hole is formed in the center of the metal ring, and the edge of the metal ring is fixedly connected with the vertical edge.

In an example of the combined partition spring neck protection pillow, the inner surfaces of the upper layer fabric and the lower layer fabric are provided with skin-friendly layers, and the skin-friendly layers are respectively connected with the upper layer fabric and the lower layer fabric through a plurality of quilting lines.

In one example of the combined partition spring neck pillow of the present utility model, the skin-friendly layer has a thickness of 0.5-3 cm.

In an example of the combined partition spring neck pillow, the outer sides of a plurality of springs are wrapped with spring bags, and the spring bags are connected with the buffer layer positioned on the upper side and/or the lower side of the spring layer.

In one example of the combined zoned spring neck rest of the present utility model, the head pocket spring zone, the back spring zone and the side sleeper spring zone are connected with the spring pockets outside adjacent two of the springs.

In an example of the combined partition spring neck guard pillow, under the condition that other performance parameters of the springs are the same, the wire diameter of the springs is set to be the only variable, so that the elastic force of the springs is controlled, the wire diameter of the springs in the head nest spring area is 1.0-1.2 mm, the wire diameter of the springs in the back-rest spring area is 1.1-1.3 mm, and the wire diameter of the springs in the side-rest spring area is 1.1-1.2 mm. And the wire diameter of the spring in the head nest spring area is smaller than that of the spring in the back-lying spring area, and the wire diameter of the spring in the head nest spring area is smaller than or equal to that of the spring in the side-lying spring area.

In an example of the combined partition spring neck rest of the present utility model, the back rest spring region includes a first back rest spring region and a second back rest spring region, and the first back rest spring region and the second back rest spring region are respectively located at two sides of the head nest spring region in the width direction.

In one example of the combined zoned spring neck pillow of the present utility model, the first and second back rest spring zones include one or both wire diameter springs therein.

In one example of the combined partition spring neck pillow of the present utility model, the side sleeper spring zones include a first side sleeper spring zone and a second side sleeper spring zone, the first side sleeper spring zone and the second side sleeper spring zone being located on both sides of the head socket spring zone in a length direction, respectively.

In one example of the combined zoned spring neck pillow of the present utility model, the first side sleeper spring zone and the second side sleeper spring zone include 1 to 3 wire diameters of the springs therein.

In an example of the combined partition spring neck guard pillow, a plurality of buffer layers positioned between the upper layer fabric and the spring layer are upper buffer layers, a plurality of buffer layers positioned between the lower layer fabric and the spring layer are lower buffer layers, and the upper buffer layers and the lower buffer layers respectively comprise 1-3 layers of buffer layers.

In one example of the combined zoned spring neck pillow of the present utility model, the cushioning layer has a thickness of 1-3 cm.

In one example of the combined zoned spring neck pillow of the present utility model, the cushioning layer comprises one or more of a memory cotton layer, a latex layer, or a fibrous batting layer.

The combined partition spring neck protection pillow divides the spring layer into the head nest spring area, the back-lying spring area and the side-lying spring area, and the springs in the partitions can generate different elastic forces, so that deformation generated by the neck protection pillow can accord with physiological curves of the head and the neck of a human body, more effective support is generated on the head and the neck of the human body, the neck protection performance of the neck protection pillow is improved, uncomfortable touch feeling of the springs on the head can be weakened by the buffer layer, the neck protection pillow can be more attached to the head and the neck of the human body, and the comfort level of the neck protection pillow is improved.

Drawings

FIG. 1 is a schematic view of an embodiment of a combined split-spring neck pillow of the present utility model;

FIG. 2 is a schematic view of the spring layer of an embodiment of a combined split-area spring neck pillow of the present utility model;

FIG. 3 is a cross-sectional view of one embodiment of a combined zoned spring neck pillow of the present utility model.

Description of element numbers:

100. fabric

110. Top fabric

120. Lower layer fabric

130. Vertical edge

140. Air vent

150. Ring-shaped piece

200. Spring layer

210. Spring

220. Head socket spring area

230. Spring area for sleeping on back

231. First back-up spring zone

232. Second back-up spring zone

240. Spring area for side sleeping

241. First side sleeping spring area

242. Second side sleeping spring area

300. Buffer layer

310. Upper buffer layer

320. Lower buffer layer

400. Skin-friendly layer

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict. It is also to be understood that the terminology used in the examples of the utility model is for the purpose of describing particular embodiments only, and is not intended to limit the scope of the utility model. The test methods in the following examples, in which specific conditions are not noted, are generally conducted under conventional conditions or under conditions recommended by the respective manufacturers.

Where numerical ranges are provided in the examples, it is understood that unless otherwise stated herein, both endpoints of each numerical range and any number between the two endpoints are significant both in the numerical range. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs and to which this utility model belongs, and any method, apparatus, or material of the prior art similar or identical to the methods, apparatus, or materials of the embodiments of the utility model may be used to practice the utility model.

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of an embodiment of a combined partition spring neck pillow according to the present utility model, and fig. 2 is a schematic partition diagram of a spring layer in an embodiment of a combined partition spring neck pillow according to the present utility model.

The utility model provides a combined partition spring neck protection pillow, which comprises: the fabric 100, the spring layer 200 and the buffer layer 300, a containing cavity is formed by surrounding the inside of the fabric 100, the spring layer 200 is located in the containing cavity, the spring layer 200 comprises a plurality of closely arranged springs 210, the spring layer 200 comprises a nest spring area 220, a back-lying spring area 230 and a side-lying spring area 240, the nest spring area 220 is composed of a plurality of springs 210 located in the middle of the spring layer 200, the back-lying spring area 230 is composed of a plurality of springs 210 located on two sides of the width direction of the nest spring area 220, and the side-lying spring area 240 is composed of a plurality of springs 210 located on two sides of the length direction of the nest spring area 220. The buffer layers 300 are located in the accommodating chambers, and the buffer layers 300 are distributed on the upper side and the lower side of the spring layer 200, and the buffer layers 300 adjacent to the spring layer 200 are connected with the spring layer 200.

Under the condition that the compression amount is the same, the working pressure generated by the spring 210 in the head nest spring area 220 is smaller than or equal to the working pressure generated by the spring 210 in the side sleep spring area 240, and the working pressure generated by the spring in the head nest spring area 220 is smaller than the working pressure generated by the spring in the back sleep spring area 230.

Referring to the area separated by the dashed line in fig. 2, the spring layer 200 is provided with five sections, including a head nest spring area 220, two back-rest spring areas 230 and two side-rest spring areas 240, and the working pressures generated by the springs 210 in each section are different when the compression amounts are the same, i.e. the springs 210 in each section have different elastic supporting forces, and generate different deformation amounts when receiving external pressure. When a person lies flat, the head nest spring area 220 is depressed downwards by the pressure of the head, the back-rest spring area 230 is depressed downwards by the pressure of the neck, and the depression degree of the back-rest spring area 230 is smaller than that of the head nest spring area 220, so that the neck of the person is effectively supported, the neck protection function is achieved, the produced deformation is more accordant with the physiological curves of the head and the neck of the person, the person is more comfortable, and the sleeping quality of the person is improved. The buffer layer 300 is located at the upper and lower sides of the spring layer 200, and the buffer layer 300 can prevent a human body from directly contacting the spring 210, has a certain buffer rebound function, and can improve the comfort of the human body.

Referring to fig. 1, in an example of the combined partition spring neck pillow of the present utility model, the fabric 100 includes an upper layer fabric 110, a lower layer fabric 120 and a standing edge 130, the peripheral edges of the upper layer fabric 110 and the lower layer fabric 120 are respectively connected with the upper and lower ends of the standing edge 130, so as to form the accommodating cavity, and the standing edge 130 is provided with a plurality of ventilation holes 140. The plurality of ventilation holes 140 are distributed on the vertical edges 130 positioned on two sides of the fabric 100 in the length direction, and the plurality of ventilation holes 140 are uniformly distributed on the vertical edges 130. The ventilation holes 140 can enable the inside of the neck protection pillow to be communicated with the outside, so that the air inside and outside can flow freely, the suspended feeling caused by unsmooth ventilation in the use process is reduced, the redundant air inside the neck protection pillow is discharged, the head and the neck of a human body are attached to the neck protection pillow to the greatest extent, the muscle groups of the head and the neck are effectively supported, and the purpose of relaxing the head and the neck is achieved.

Referring to fig. 1, in an example of the combined partition spring neck pillow according to the present utility model, 1 to 8 ventilation holes 140 are respectively provided on the standing edges 130 located at two sides of the fabric 100 in the length direction, an annular member 150 is provided at the ventilation holes 140, an edge of the annular member 150 is fixedly connected with the standing edges 130, and a through hole is provided in the middle of the annular member 150. The ring member 150 is a metal ring, a through hole is formed in the center of the metal ring, and the edge of the metal ring is fixedly connected with the standing edge 130. The ring 150 can support the ventilation holes 140, thereby ensuring smooth flow of the inside and outside air. The number of the ventilation holes 140 can be adjusted according to the size of the pillow, the type of the fabric, and the like.

Referring to fig. 3, fig. 3 is a cross-sectional view of an embodiment of a combined zoned spring neck pillow of the present utility model. In an example of the combined partition spring neck pillow of the present utility model, the inner surfaces of the upper layer fabric 110 and the lower layer fabric 120 are provided with a skin-friendly layer 400, and the skin-friendly layer 400 is respectively connected with the upper layer fabric 110 and the lower layer fabric 120 through a plurality of quilting lines. The skin-friendly layer 400 has a thickness of 0.5 to 3cm. The skin-friendly layer 400 is softer, so that the upper layer fabric 110 or the lower layer fabric 120 can be more fit with the skin of a human body, and the human body is more comfortable. The skin-friendly layer 400 may be a goose down layer, a fiber wadding layer, a latex layer, or the like, and the upper layer fabric 110 and the lower layer fabric 120 may be a down-proof fabric, a knitted air layer fabric, an all-cotton fabric, or the like. It should be noted that the above materials are all common materials in the field of home textiles and can be obtained by conventional commercial means.

In an example of the combined zoned spring neck pillow of the present utility model, the outer sides of the plurality of springs 210 are each wrapped with a spring pocket connected to the cushioning layer 300 on the upper and/or lower side of the spring layer 200. The socket spring region 220, the back spring region 230 and the side sleep spring region 240 are connected with the spring pockets outside of adjacent two of the springs 210. Wrapping the air-permeable spring pocket around the outside of the spring 210 can effectively separate the springs 210 from each other, and the spring pocket is also advantageous for installation and production. The springs 210 in each section are integrally connected by the spring pocket, which can increase the stability of the neck pillow.

The spring force generated by the spring is related to the specification parameters of the spring, and the spring force generated by the spring can be changed by controlling the specification parameters of the spring, so that the springs in the various areas have different spring forces. The elastic force of the spring can be controlled by controlling the unique variable. In the following embodiments of the present utility model, the wire diameter of the spring is set as a unique variable, and other parameters of the spring, including the material, the effective number of turns, the center diameter, and the like of the spring are the same, so that the spring force is changed by controlling the wire diameter of the spring, that is, the larger the wire diameter of the spring, the larger the working pressure generated by the spring under the condition of the same compression amount, and conversely, the smaller the wire diameter of the spring, the smaller the working pressure generated by the spring.

In an example of the combined partition spring neck pillow of the present utility model, the wire diameter of the spring 210 in the head nest spring region 220 is 1.0-1.2 mm, the wire diameter of the spring 210 in the back-rest spring region 230 is 1.1-1.3 mm, and the wire diameter of the spring 210 in the side-rest spring region 240 is 1.1-1.2 mm. And the wire diameter of the spring 210 in the head nest spring area 220 is made smaller than the wire diameter of the spring 210 in the back-up spring area 230, so that the wire diameter of the spring 210 in the head nest spring area 220 is made smaller than or equal to the wire diameter of the spring 210 in the side-sleep spring area 240. The elastic supporting force generated by the wire diameter of the spring 210 in each partition can make the human body more comfortable. The spring 210 can use carbon steel with galvanized surfaces, so that the phenomena of rust and corrosion can be avoided, and the service life can be prolonged. And the spring 210 may use an olive-type wire-wound structure that is also quieter with a faster rebound speed.

Referring to fig. 2, in an example of the combined partition spring neck pillow of the present utility model, the back spring region 230 includes a first back spring region 231 and a second back spring region 232, the first back spring region 231 and the second back spring region 232 are respectively located at two sides of the width direction of the head hole spring region 220, and the first back spring region 231 and the second back spring region 232 include the springs 210 with one or two wire diameters. The spring 210 may be used to make the back spring region 230 more conform to the physiological curve of the neck of the human body, for example, the spring 210 located at the middle of the back spring region 230 may have a larger wire diameter than the springs 210 at both sides, so that the supporting force of the middle is greater than the supporting force at both sides.

Referring to fig. 2, in an example of the combined partition spring neck pillow of the present utility model, the side sleeper spring region includes a first side sleeper spring region and a second side sleeper spring region, the first side sleeper spring region and the second side sleeper spring region are respectively located at two sides of the head nest spring region in the length direction, and the first side sleeper spring region and the second side sleeper spring region include the springs having 1 to 3 wire diameters therein. The side sleeper spring region 240 may be made to more conform to physiological curves of the face and neck of the human body by using the springs 210 having various wire diameters, for example, the wire diameter of the springs 210 located at the middle portion of the side sleeper spring region 240 is made smaller than the wire diameters of the springs 210 at both sides, so that the supporting force of the middle portion is made smaller than the supporting force at both sides.

Referring to fig. 3, in an example of the combined partition spring neck pillow according to the present utility model, the buffer layers 300 located between the upper layer fabric 110 and the spring layer 200 are upper buffer layers 310, the buffer layers 300 located between the lower layer fabric 120 and the spring layer 200 are lower buffer layers 320, and the upper buffer layers 310 and the lower buffer layers 320 respectively include 1 to 3 layers of the buffer layers 300. The thickness of the buffer layer 300 is 1 to 3cm. The buffer layer 300 includes one or more of a memory cotton layer, a latex layer, or a fibrous batt layer. The buffer layer 300 can prevent the human body from directly contacting the spring 210, has a certain buffering and rebounding function, and can improve the comfort of the human body. It should be noted that the above materials are all common materials in the field of home textiles and can be obtained by conventional commercial means.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (9)

1. A combination zoned spring neck pillow comprising:

the fabric is internally surrounded to form a containing cavity;

the spring layer is positioned in the accommodating cavity and comprises a plurality of closely arranged springs, the spring layer comprises a nest spring area, a back-lying spring area and a side-lying spring area, the nest spring area consists of a plurality of springs positioned in the middle of the spring layer, the back-lying spring area consists of a plurality of springs positioned on two sides of the nest spring area in the width direction, and the side-lying spring area consists of a plurality of springs positioned on two sides of the nest spring area in the length direction;

the buffer layers are positioned in the accommodating cavity and distributed on the upper side and the lower side of the spring layer, and the buffer layers adjacent to the spring layer are connected with the spring layer;

under the condition that the compression amount is the same, the working pressure generated by the springs in the head nest spring area is smaller than or equal to the working pressure generated by the springs in the side sleep spring area, and the working pressure generated by the springs in the head nest spring area is smaller than the working pressure generated by the springs in the back sleep spring area.

2. The combination zoned spring neck pillow of claim 1 wherein the fabric comprises an upper layer fabric, a lower layer fabric and a standing edge, wherein the peripheral edges of the upper layer fabric and the lower layer fabric are respectively connected with the upper end and the lower end of the standing edge, thereby forming the accommodating cavity, and the standing edge is provided with a plurality of ventilation holes.

3. The combination zoned spring neck pillow of claim 2 wherein a plurality of said ventilation holes are disposed on said vertical edges on opposite sides of said fabric length and a plurality of said ventilation holes are uniformly disposed on said vertical edges.

4. The combined partition spring neck guard pillow of claim 3, wherein 1-8 air holes are respectively arranged on the vertical edges on two sides of the fabric in the length direction, annular pieces are arranged at the air holes, the edges of the annular pieces are fixedly connected with the vertical edges, and through holes are formed in the middle of the annular pieces.

5. The combined partition spring neck protection pillow of claim 2, wherein skin-friendly layers are arranged on the inner surfaces of the upper layer fabric and the lower layer fabric, and are respectively connected with the upper layer fabric and the lower layer fabric through a plurality of quilting lines.

6. The modular zoned spring neck pillow of claim 1 wherein the outer sides of a plurality of said springs are each wrapped with a spring pocket, said spring pockets being connected to said cushioning layer on the upper and/or lower sides of said spring layer.

7. The combination zoned spring neck rest of claim 1, wherein the back spring zone comprises a first back spring zone and a second back spring zone, the first back spring zone and the second back spring zone being located on opposite sides of the width of the head socket spring zone, respectively.

8. The combination zoned spring neck pillow of claim 1 wherein the side sleeper spring zones include a first side sleeper spring zone and a second side sleeper spring zone, the first side sleeper spring zone and the second side sleeper spring zone being located on opposite sides of the socket spring zone in a length direction thereof, respectively.

9. The combined partition spring neck rest of claim 2, wherein a plurality of the buffer layers between the upper layer fabric and the spring layer are upper buffer layers, a plurality of the buffer layers between the lower layer fabric and the spring layer are lower buffer layers, and the upper buffer layers and the lower buffer layers respectively comprise 1-3 layers of the buffer layers.

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