JP3009684U - pillow - Google Patents

Abstract

(57) [Summary] (Modified) [Purpose] A special material such as a high-concentration granular stone aggregate, magnet, or charcoal is installed on the head mounting part to promote healthy sleep. [Arrangement] An area where the user's occipital region or neck approaches with a high probability between the head mounting recess 4 and the edge of the pillow closest to this position (the long side for a normal rectangular pillow). Is formed, and a granular stone aggregate mainly made of stone containing high concentration of quartz is provided in this area. Further, by providing an expensive small magnet such as cobalt nickel in this area, it is possible to improve the utilization efficiency, and the maximum magnetic field line with the same amount passes through the user body part.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a sleep pillow for the purpose of promoting healthy sleep.

[0002]

[Prior art]

 In response to the health-conscious pillow market, for example, pillows with a special material inside, such as magnets, have been proposed.

[0003]

[Problems to be Solved by the Invention]

 However, since the special material built in is more expensive than the normal pillow material, it is common to use it partially in the pillow. Also, when these special materials are used not in the entire pillow but in a part of them, the head or neck of the user is not always close to these special materials in actual use, and rather these The probability of being within the effective distance range for the special material was low. As a result, the desired effect is not actually obtained.

An object of the present invention is to provide a pillow in which the amount of the special material incorporated is minimized to obtain the maximum effect in order to eliminate the above drawbacks.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, in the pillow of the present invention, a core material for determining the shape of the pillow having a recessed portion for promoting the positioning of the user's head in the approximate center, and the recessed portion and the outer periphery of the core material A feature is that the granular stone aggregate is positioned in a plane between at least one side, and the granular stone aggregate is covered with a highly breathable material so as not to scatter.

According to another aspect of the present invention, a pillow shape determining core member having a recessed portion for promoting positioning of a user's head in substantially the center, and the recessed portion and at least one side of an outer periphery of the core member are provided. It is characterized in that a magnet is installed between them.

Further, according to another aspect of the present invention, there is provided a core material for determining a pillow shape, which has a recessed portion for promoting positioning of a user's head in substantially the center, and at least the outer periphery of the recessed portion and the core material. It is also characterized in that it has a magnet inside it.

[0008]

[Action]

 According to the present invention having such a configuration, the recessed portion for promoting the position of the user's head is determined by determining the shape of the core material of the pillow, and the position to be installed on the pillow of the user's head is determined. Between the position and the edge of the pillow closest to this position (the long side for a regular rectangular pillow), there is a high probability that the user's occipital area or neck will come close to this area, and the crystal will form in this area. By providing a granular stone aggregate mainly composed of the high-concentration stones, the granular stone aggregate effectively contacts or approaches the occipital region of the user's occipital region or neck, and in this area, expensive small particles of cobalt nickel or the like are added. By providing a magnet, the efficiency of use can be improved, and the maximum magnetic field line with the same amount will pass through the user's body. Similarly, by providing a porous carbon typified by charcoal in this area, utilization efficiency can be improved.

[0009]

【Example】

 An embodiment of the pillow of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a perspective view showing the outer shape of the pillow of the present invention, FIG. 2 is a plan view of the pillow shown in FIG. 1, FIG. 3 is a bottom view of the pillow shown in FIG. 1, and FIG. 4 is shown in FIG. 2 is a front view of the pillow, FIG. 5 is a sectional view taken along the line AA shown in FIG. 2, FIG. 6 is a sectional view taken along the line BB shown in FIG. 2, and FIG. FIG. 8 is a view showing a usage state of the present invention along the cross-sectional direction shown in FIG. 6, and FIG. 8 is an explanatory view showing a usage state of the pillow of the present invention.

Now, these drawings show an embodiment of the present invention including a granular stone aggregate.

The core material 1 for determining the pillow shape is made of cotton, sponge or the like, and is wrapped by the side surface portion 2 and the central portion 3 so as to maintain the shape of the core material 1. The side surface portion 3 is formed of a relatively thick cloth, and the central portion 3 is formed of a relatively thin cloth. In the center of the center portion 3, a recess 4 is formed by stitching the front and back sides in a square shape, and the bottom surface of the recess 4 is formed into a diamond shape in a state of being rotated 90 ° with respect to the square shape of the pillow. Further, it is desirable that the bottom surface of the recess has a shape with a relatively small number of angles such as a triangle or a pentagon, which means that the wrinkles 5 rising from the corners of the bottom are formed deeper as the number of angles is smaller. This is because a gap through which air flows is formed in the state of contact with the head.

Now, this pillow has a rectangular shape which is the same shape as a normal pillow, and a high-concentration quartz stone or a raw quartz stone is used as a main material between the long sides 6 and 7 and the concave portion 4. The granular stone aggregates 8 thus prepared are positioned in a band shape. In order to achieve this band-shaped positioning, in this embodiment, the mesh material 11 is sewn into a bag shape in the area 9 of the central portion 3, and the granular stone aggregate 8 is formed in the bag. It is enclosed. If necessary, the mesh material 11 can be doubled, and as a result, the surface side can be formed into a two-layer structure in which a relatively small granular aggregate 8 can be used.

In addition, the pipe small fracture material 10, which has been generally used as a pillow material, is positioned in a plane shape in a portion excluding the central area 9. In order to achieve this positioning of the small pipe breakage material 10, a mesh material 11 is sewn also on the surface excluding the central area 9 to form a bag formed between the central part 3 and the mesh material 11. This is achieved by enclosing the above-mentioned pipe small fracture material 10 inside.

As described above, the upper part of the central portion is in a state in which the two kinds of materials of the granular stone aggregate 8 and the small broken pipe material 10 are wrapped in the mesh material, but these materials gradually become one in the use state. Unbalanced and unable to maintain surface condition. Therefore, a vertical seam allowance 12 is formed in the granular stone aggregate 8 and a large number of + -shape seam allowances 13 are formed in the pipe small fracture material 10.

Further, as shown in FIG. 8, the occipital region of the user is positioned in the concave portion 4, and when the occipital region position is determined, the shortest distance from the long side 6 or 7 which is the closest side to the concave portion 4 is determined. The user's neck is naturally positioned toward the distance side. That is, since the position of the neck portion coincides with the area 9, the area 9 stably contacts the occipital region and neck portion of the user. As a result, there is a high probability that the user's skin will come into contact with the granular material aggregate 8 provided inside though the mesh material 11 and the user's own hair are interposed. This is because one of the features of the granular stone aggregate 8 using a raw stone is that it projects from the mesh material 11 due to an unspecified shape. In addition, the thermal conductivity is higher than that of the pipe small fracture material 10 made of plastic (in the case of quartz, the maximum is 32 × 10 ^-3 [cal · cm ^-1 S ^-1 deg although it depends on the angle with respect to the axis of the crystal. ^-1 ]) Moreover, since it is solid, the heat capacity is also large, and therefore the contacted skin has a sufficiently clear and cool feeling as compared with the pipe small fracture material 10. Since this soothing sensation corresponds to the differential amount of temperature that occurs when the head is placed on the pillow, the soothing sensation tends to be exaggerated. In addition, comparing the temperature of the pillow when used for a long time with a small fractured pipe material of the same volume and a granular stone aggregate made of rough quartz, the temperature of the granular stone aggregate increased as shown below. Is suppressed.

At a temperature of 23.5 ° C., the pillow temperature is also the same as the temperature, and in this state, the pillow surface 5 minutes, 10 minutes, and 15 minutes after the user's head with a body temperature of 36.3 ° C. is placed. The results of measuring the temperature of are shown below. In the granular stone aggregate made of rough quartz, it was 26.5 ° C after 5 minutes, 29.8 ° C after 10 minutes, and 30.0 ° C after 15 minutes. On the other hand, in the case of the pipe small fracture material, it was 27.6 ° C after 5 minutes, 31.0 ° C after 10 minutes and 32.0 ° C after 15 minutes.

9 to 12 are examples showing an example in which a magnet is used instead of the granular stone aggregate described in the previous example, and FIG. 9 is a line end view at the same position as FIG. 7. , A flat cylindrical magnet a is provided at the center of the concave portion 4. In this figure, this magnet is preferably about 800 to 1300 gauss, and an example of magnetic lines of force exerted by this magnet a is shown. Similarly, FIG. 10, which is a line end view at the same position as in FIG. 7, shows a state in which flat cylindrical magnets are scattered in the mesh 12 in the area 9, and spherical magnets are further embedded in the core material 1 to be scattered. The state where it was made to show is shown. FIG. 11 is a perspective view showing a state in which a large number of circular magnets are provided in the mesh 12 in the area 9, and FIG. 12 is a perspective view showing a state in which spherical magnets are incorporated so as to surround the area 9 and the concave portion 4. . The embodiments shown in the drawings above show a state in which a magnet is provided within the effective range for the head position determined by the recess 4.

Now, in FIG. 13, the shape of the concave portion 4 is not formed as a dent of one core material as described so far, but when two parallel gourd-shaped core materials are provided. This is an embodiment showing a state in which a concave portion 4'is formed by a hollow in the center, and long cylindrical porous carbon 14 (for example, charcoal) is embedded on both end sides. This charcoal has a comparative hardness, and although it is embedded, it feels uncomfortable when the head hits it, but in this example, even a person with a bad sleep has a comparatively hard head. By determining the position by the concave portion 4 ', the above-mentioned problem of causing unpleasantness is solved. By the way, it is possible to provide charcoal in place of the above-mentioned spherical magnet by putting the charcoal into a spherical air-permeable capsule or the like.

FIG. 14 is a composite embodiment in which a granular stone aggregate made of porous carbon, a magnet, and a rough crystal of quartz is combined. (1) of FIG. 14 is a perspective view, and (2) of FIG. FIG. 14 (3) is a partial perspective view showing a state in which the internal cylindrical magnet is taken out, in which a quality carbon dioxide is taken out. On the other hand, FIG. 15 is a line end view shown based on the CC cross section line and the DD cross section line shown in FIG. In the composite embodiment shown in the above two figures, the basic structure is the same as the embodiment of FIG. 2, and the articles of FIGS. 14 (B) and (C) are added. That is, in the article shown in FIG. 14 (B), 4 pieces of porous carbon formed in a dice shape are integrally attached to a flexible base 15 made of rubber, which is used as the concave portion 14. It is embedded near both ends on the long side of the pillow where the head of the person will not ride. Further, the article shown in FIG. 14 (C) is a flexible base 15 made of rubber, and is made of a flexible material in which magnetic powder is encapsulated in resin at a high concentration to form a magnetic material. The cylindrical magnet a is adhered and fixed into one body, which is provided around the granular stone aggregate 8 and below the layer of the pipe small fracture material 10. Incidentally, in this composite example, granular stones are enclosed in the periphery of the recess instead of the small broken pipe material, so that all the places directly contacted by the user's head are made of granular stone aggregates. be able to. By the way, all the granular stone aggregates described above can be formed as a high-purity crystalline lens if necessary.

[0021]

[Effect of device]

 According to the present invention having such a configuration, the recessed portion for promoting the position of the user's head is determined by determining the shape of the core material of the pillow, and the position to be installed on the pillow of the user's head is determined. An area can be formed between the position and the edge of the pillow closest to this position (the long side for a regular rectangular pillow), with a high probability that the user's occipital region or neck approaches.

Further, by providing a granular stone aggregate mainly composed of high-concentration quartz stones in this area, the granular stone aggregate effectively contacts or approaches the occipital region or neck of the user. That is, the expensive stone containing quartz can be effectively used.

Similar to the above, by providing an expensive small magnet such as cobalt nickel in this area, the utilization efficiency can be improved, and the maximum magnetic field line with the same amount will pass through the user body part. .

Similarly, by providing porous carbon typified by charcoal in this area, the utilization efficiency can be improved, and the malodor removal characteristic of the porous carbon and the moisture absorption effect can be maximized with the same amount. Is obtained.

[Brief description of drawings]

FIG. 1 is a perspective view showing the outer shape of the pillow of the present invention.

FIG. 2 is a plan view of the pillow shown in FIG.

3 is a bottom view of the pillow shown in FIG.

FIG. 4 is a front view of the pillow shown in FIG.

5 is a line end view taken along the line AA in FIG.

6 is a line end view taken along the line BB of FIG.

FIG. 7 is a view showing a usage state along the cross-sectional direction shown in FIG.

FIG. 8 is an explanatory view showing a use state of the pillow.

9 is a line end view at the same position as in FIG. 7, in which the dotted line indicates the magnetic field line.

FIG. 10 is a line end view at the same position as in FIG.

FIG. 11 is a perspective view showing a state where a large number of circular magnets are provided in a mesh.

FIG. 12 is a perspective view showing a state in which a spherical magnet is incorporated.

FIG. 13 is a perspective view showing a state in which two gourd-shaped core members are provided in parallel.

FIG. 14 is a composite example in which porous carbon, a magnet, and a granular stone aggregate made of rough quartz are combined.

15 is a sectional view taken along line CC of FIG. 14A and FIG.
-End view shown based on the D cross section line

[Explanation of symbols]

 In the figure 1 ... Core material 2 ... Side surface 3 ... Central portion 4 ... Recessed portion 5 ... Wrinkle 6 ... Long side 7 ... Long side 8 ... Granular stone aggregate 9 ... Area 10 ... Pipe small fracture material 11 ... Mesh material 13 ... Seam allowance 14 ... Porous carbon 15 ... Base

Claims (7)

[Scope of utility model registration request] 1. A granular stone aggregate is provided between a core material for determining a pillow shape, which has a recessed portion for promoting positioning of a user's head in a substantially central portion, and the recessed portion and at least one side of an outer periphery of the cored material. A pillow characterized in that it is positioned in a plane and the granular stone aggregate is covered with a highly breathable material so as not to scatter. 2. The pillow according to claim 1, wherein the aggregate of granular stones is composed mainly of stones having a high concentration of quartz. 3. The pillow according to claim 1, wherein the recess is formed by stitching the front and back sides at a central position of the cloth that wraps the core material. 4. The pillow according to claim 1, wherein the granular stone aggregate is provided on both sides of the concave portion with the concave portion interposed therebetween. 5. The pillow according to claim 1, wherein the shape of the bottom surface of the recess is a decimal decimal. 6. A core material for determining a pillow shape, which has a recessed portion for promoting positioning of a user's head in a substantially central portion, and a magnet is internally provided between the recessed portion and at least one side of an outer circumference of the core material. Pillows characterized by that. 7. A core material for determining a pillow shape, which has a recessed portion for promoting positioning of a user's head in substantially the center, and porous carbon is provided between the recessed portion and at least one side of an outer periphery of the core material. Pillows characterized by being installed.