JP2020032073A - mattress - Google Patents

Abstract

To effectively enhance durability and a sleeping quality of a mattress.SOLUTION: The mattress includes: a first coil spring layer in which first coil springs are disposed, being deviated by a certain distance for each column in an alternate arrangement form; a second coil spring layer that is provided on the upper side of the first coil spring layer and in which second coil springs are disposed, being deviated by a certain distance for each column in an alternate arrangement form; and a third coil spring layer that is provided on the upper side of the second coil spring layer and in which third coil springs are disposed, being deviated by a certain distance for each column in an alternate arrangement form, where the wire diameter of the first coil springs is larger than that of the second coil springs and the wire diameter of the second coil springs is larger than that of the third coil springs.SELECTED DRAWING: Figure 2

Description

  The present disclosure relates to mattresses.

  A first coil spring layer composed of a plurality of first coil springs; and a second coil spring layer composed of a plurality of second coil springs having different coil diameters, numbers, arrangements, and forms from the first coil springs. Is known via an intermediate buffer layer (see, for example, Patent Document 1).

JP 2009-131594 A

However, it is difficult to effectively improve the durability and comfort of the mattress by the above-described conventional techniques. When two coil spring layers are provided, the comfort and durability of the mattress can be improved as compared with the case where a single coil spring layer is provided. However, depending on the user, the comfort may be poor, or the mattress may be difficult depending on the use environment. In some cases, wear (sets, etc.) may occur earlier than expected.
Thus, in one aspect, the present invention aims to effectively increase the durability and comfort of a mattress.

In one aspect, a first coil spring layer in which the first coil springs are arranged in an alternating arrangement form that is shifted by a fixed distance for each row;
A second coil spring layer in which the second coil springs are arranged in a staggered arrangement in which the second coil springs are shifted by a certain distance for each row, above the first coil spring layer;
A third coil spring layer, which is arranged above the second coil spring layer and in which the third coil springs are alternately arranged in a row by a predetermined distance,
A mattress is provided in which the first coil spring has a larger wire diameter than the second coil spring, and the second coil spring has a larger wire diameter than the third coil spring.

  In one aspect, according to the present invention, it is possible to effectively increase the durability and comfort of a mattress.

It is a perspective view which shows the use state of a mattress. It is explanatory drawing of the cross-section of a 1st mattress part. It is explanatory drawing of the cross-section of a 2nd mattress part. It is a table showing the number of each coil spring according to size of the 1st mattress part. It is a table showing the number of each coil spring according to size of the 2nd mattress part.

  Hereinafter, each embodiment will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing a use state of the mattress 1. In the following description, the use state refers to a state of the mattress 1 based on a normal use (recommended use). The mattress 1 is bedding and is used by being placed on a bed frame 7. In the following description, the up-down direction is based on the use state. The second mattress section 20 can be changed up and down as described below, but the upper and lower sides of the second mattress section 20 are in the state shown in FIG. 1 (and FIG. 3) unless otherwise specified. Use as a reference.

  The mattress 1 includes a first mattress section 10 and a second mattress section 20. In use, in the mattress 1, the first mattress section 10 is disposed below the second mattress section 20. Therefore, in the use state, the upper surface of the first mattress portion 10 makes vertical surface contact with the lower surface of the second mattress portion 20.

  The first mattress portion 10 and the second mattress portion 20 have substantially the same outer shape (outer size), and are used in an overlapping manner such that the first mattress portion 10 is located below the second mattress portion 20.

  FIG. 2 is an explanatory diagram of a cross-sectional structure of the first mattress unit 10, and is a schematic diagram of a cross-sectional structure of the first mattress unit 10. Although FIG. 2 is an explanatory view of a cross-sectional structure in a side view, various spring coil layers 122 and 124 described later are schematically illustrated in a top view.

  The first mattress section 10 includes, from the upper side, a quilting section 11 (hereinafter, also referred to as an “upper quilting section 11” for simplicity), a filling section 12, and a quilting section 13 (hereinafter, “lower quilting for distinction”). Unit 13).

  The upper quilting section 11 is composed of a surface cloth 111, artificial cotton 112, urethane 113, and nonwoven cloth 114 from above. Note that the configuration of the upper quilting section 11 is not limited to this, and other materials may be added, or some of the materials may be omitted.

The surface cloth 111 preferably has a density of 200 g / m ² or more, more preferably has a density of 250 g / m ² or more, and still more preferably has a density of 300 g / m ² or more. By using the surface cloth 111 having such a density range, a shift (a shift in a horizontal plane) between the first mattress portion 10 and the second mattress portion 20 is less likely to occur. In addition, from the viewpoint of preventing the displacement between the first mattress portion 10 and the second mattress portion 20, basically, the higher the density of the surface cloth 111 is, the better it is. However, if the density is 250 g / m ² or more. If the density is 300 g / m ² or more, the displacement can be effectively prevented. On the other hand, it is not desirable to increase the density more than necessary from the viewpoint of cost and weight. From such a viewpoint, the density is most preferably about 300 g / m ² . Note that the gap between the first mattress section 10 and the second mattress section 20 tends to occur when a lateral force is applied to the second mattress section 20.

  The surface cloth 111 may have a thickness of 1 mm, for example. The surface cloth 111 may be, for example, a knitted cloth having antibacterial, deodorant, and tickproof functions.

The artificial cotton 112 may have a density of, for example, about 70 g / m ² . The artificial cotton 112 may have a thickness of, for example, 5 mm.

  The urethane 113 may have a density of D21, for example. The urethane 113 may have a thickness of, for example, 5 mm.

The nonwoven fabric 114 may have a density of, for example, about 40 g / m ² . The nonwoven fabric 114 may have a thickness of, for example, 0.25 mm.

  Such an upper quilting section 11 has a thickness of, for example, about 11.25 mm.

  The filling portion 12 includes, from the top, a soft urethane 121, a spring coil layer 122 (an example of a second coil spring layer), a needle punch 123, a spring coil layer 124 (an example of a first coil spring layer), and a needle punch. 125. Hereinafter, for distinction, the spring coil layer 122 is referred to as “middle spring coil layer 122”, and the spring coil layer 124 is referred to as “lower spring coil layer 124”. The configuration of the filling portion 12 is not limited to this, and various changes are possible as long as the middle spring coil layer 122 and the lower spring coil layer 124 are provided.

  The soft urethane 121 may have a density of D21, for example. Further, the soft urethane 121 may have a thickness of, for example, 10 mm. Thereby, the sleeping comfort can be effectively improved.

  In the middle spring coil layer 122, a plurality of coil springs 122a (an example of a second coil spring) are arranged alternately. The alternate arrangement form is an arrangement mode in which the coil springs 122a are shifted by a certain distance (for example, a distance corresponding to the radius of the coil spring 122a) for each row, as schematically shown in FIG. That is, the pitch of the mattress 1 in the short direction (width direction) and the pitch of the mattress 1 in the long direction (length direction) are the same. In other words, the alternate arrangement is a staggered arrangement. Each row of the coil springs 122a extends in the longitudinal direction of the mattress 1 and contacts each other in the short direction of the mattress 1. The number of coil springs 122a in each row may be the same.

  The coil spring 122a forming the middle spring coil layer 122 has a wire diameter (steel wire diameter) of 1.4 mm and a coil diameter of 54 mm. The coil spring 122a forming the middle spring coil layer 122 has six turns, a free coil length of 120 mm, and a pocket height of 80 mm. The pocket state indicates a state in which the coil spring 122a is housed in a pocket (cylindrical bag). The shape of each coil spring 122a is, for example, a lantern type as a typical example. However, the shape of each coil spring 122a is a drum-shaped spring shape, a conical coil spring, a continuous coil spring, a barrel coil spring, a rectangular coil spring, or the like. You may. A coil spring 122a forming the middle spring coil layer 122 is surrounded on all sides by a frame-shaped urethane portion 122b in a top view. This makes it easier for each coil spring 122a to be stably maintained at a regular position.

The needle punch 123 may have a density of, for example, about 230 g / m ² . The needle punch 123 may have a thickness of, for example, 2.5 mm.

  In the lower spring coil layer 124, a plurality of coil springs 124a (an example of a first coil spring) are arranged in an alternating arrangement. Each row of the coil springs 124a extends in the longitudinal direction of the mattress 1 and contacts each other in the short direction of the mattress 1. The number of coil springs 124a in each row may be the same.

  The coil spring 124a forming the lower spring coil layer 124 has a wire diameter (steel wire diameter) of 1.8 mm and a coil diameter of 62 mm. The coil spring 124a forming the lower spring coil layer 124 has 5.5 turns, a free coil length of 170 mm, and a pocket length of 100 mm. Each coil spring 124a is, for example, a lantern type. The coil spring 124a forming the lower spring coil layer 124 is surrounded on all sides by a frame-shaped urethane portion 124b in a top view. This makes it easier for each coil spring 124a to be stably maintained at a regular position.

Needle punch 125 may have a density of, for example, about 230 g / m ² . The needle punch 125 may have a thickness of, for example, 2.5 mm.

  The lower quilting section 13 includes a nonwoven fabric 131, urethane 132, artificial cotton 133, and surface cloth 134 from the upper side. Note that the configuration of the lower quilting section 13 is not limited to this, and another material may be added, or some of the material may be omitted.

The nonwoven fabric 131 may have a density of, for example, about 40 g / m ² . Further, the nonwoven fabric 131 may have a thickness of, for example, 0.25 mm.

  The urethane 132 may have a density of D21, for example. The urethane 132 may have a thickness of, for example, 5 mm.

The artificial cotton 133 may have a density of, for example, about 70 g / m ² . Further, the artificial cotton 133 may have a thickness of, for example, 5 mm.

Surface fabric 134 may have a density of, for example, about 180 g / m ² . The surface cloth 134 may have a thickness of 1 mm, for example. The surface fabric 134 may be, for example, a knit fabric having antibacterial, deodorant, and mite-proof functions. The surface cloth 134 is thus significantly lower in density than the upper surface cloth 111.

  Such a lower quilting section 13 has a thickness of, for example, about 11.25 mm, and is the same as the upper quilting section 11.

  The first mattress 10 has a thickness of, for example, about 217.5 mm. Since the first mattress section 10 includes two spring coil layers, that is, the lower spring coil layer 124 and the middle spring coil layer 122, the first mattress section 10 is configured to be relatively heavy as compared with the second mattress section 20 described later.

  FIG. 3 is an explanatory diagram of a cross-sectional structure of the second mattress portion 20, and is a schematic diagram of a cross-sectional structure of the second mattress portion 20. Although FIG. 3 is an explanatory view of a cross-sectional structure in a side view, a spring coil layer 223 described later is schematically illustrated in a top view.

  The second mattress section 20 includes a quilting section 21 (hereinafter, also referred to as “upper quilting section 21” for distinction), a filling section 22, and a quilting section 23 (hereinafter, “lower quilting section 23” for distinction). ).

  The upper quilting section 21 includes, from the upper side, a surface cloth 211, artificial cotton 212, first soft urethane 213-1, second soft urethane 213-2, and nonwoven fabric 214. Note that the configuration of the upper quilting section 21 is not limited to this, and another material may be added, or some of the material may be omitted.

The surface cloth 211 may be, for example, a knitted cloth having antibacterial, deodorant, and mite-proof functions. The surface cloth 211 preferably has a density of 200 g / m ² or more, more preferably has a density of 250 g / m ² or more, and still more preferably has a density of 300 g / m ² or more. By using the surface cloth 211 having such a density range, there is obtained an effect that durability is increased and soft sleeping comfort can be realized. Further, as described later, the second mattress portion 20 can be used by changing the upper and lower positions. Accordingly, even when the surface cloth 211 is on the lower side, if the surface cloth 211 is in such a range of the density, the displacement between the first mattress portion 10 and the second mattress portion 20 hardly occurs. The surface cloth 211 may have a thickness of 1 mm, for example.

The artificial cotton 212 may have a density of, for example, about 230 g / m ² . The artificial cotton 112 may have a thickness of, for example, 15 mm. Therefore, the artificial cotton 212 of the upper quilted portion 21 of the second mattress portion 20 has a higher density and thickness than the artificial cotton 112 of the upper quilted portion 11 of the first mattress portion 10.

  The first soft urethane 213-1 may have a density of, for example, D28. In addition, the first soft urethane 213-1 may have a thickness of, for example, 10 mm.

  The second soft urethane 213-2 may have a density of, for example, D28. In addition, the second soft urethane 213-2 may have a thickness of, for example, 20 mm. The first soft urethane 213-1 and the second soft urethane 213-2 may be realized by one soft urethane. However, by dividing into two, manufacturability is improved. That is, in the case of a urethane roll of 30 mm × 50 m, the diameter of the urethane roll is large, the weight is heavy, and it is difficult to set the urethane roll on a machine. By dividing into 10 mm first soft urethane 213-1 and 20 mm second soft urethane 213-2, it becomes easier for employees to set rolls when setting materials.

Nonwoven fabric 214 may have a density of, for example, about 40 g / m ² . The nonwoven fabric 214 may have a thickness of, for example, 0.25 mm.

  Such an upper quilting section 21 has a thickness of, for example, about 36.25 mm.

  The filling portion 22 includes, from the upper side, a soft urethane 221, a nonwoven fabric 222, a spring coil layer 223 (an example of a third coil spring layer), a nonwoven fabric 224, and a needle punch 225. Hereinafter, for distinction, the spring coil layer 223 is referred to as “upper spring coil layer 223”.

  The soft urethane 221 may have a density of D21, for example. The soft urethane 221 may have a thickness of, for example, 35 mm. Preferably, the upper side of the soft urethane 221 is unevenly formed, as schematically shown in FIG. Thereby, the body pressure dispersion value is improved.

Nonwoven fabric 222 may have a density of, for example, about 80 g / m ² . Further, the nonwoven fabric 222 may have a thickness of, for example, 0.25 mm.

  In the upper spring coil layer 223, a plurality of coil springs 223a (an example of a third coil spring) are arranged in an alternate arrangement. Each row of the coil springs 223a extends in the longitudinal direction of the mattress 1 and contacts each other in the short direction of the mattress 1. The number of coil springs 223a in each row may be the same.

  The coil spring 223a forming the upper spring coil layer 223 has a wire diameter (steel wire diameter) of 1.0 mm and a coil diameter of 38 mm. The coil spring 223a forming the upper spring coil layer 223 has eight turns, a free coil length of 110 mm, and a pocket length of 65 mm. Each coil spring 223a is, for example, a lantern type.

Nonwoven fabric 224 may have a density of, for example, about 80 g / m ² . The nonwoven fabric 224 may have a thickness of, for example, 0.25 mm.

Needle punch 225 may have a density of, for example, about 230 g / m ² . The needle punch 225 may have a thickness of, for example, 2.5 mm.

  The lower quilting part 23 includes a nonwoven fabric 231, soft urethane 232, artificial cotton 233, and surface cloth 234 from the upper side. Note that the configuration of the lower quilting portion 23 is not limited to this, and another material may be added, or some of the material may be omitted.

The nonwoven fabric 231 may have a density of, for example, about 40 g / m ² . The nonwoven fabric 231 may have a thickness of, for example, 0.25 mm.

  The soft urethane 232 may have, for example, a density of D21. The soft urethane 232 may have a thickness of, for example, 5 mm. As will be described later, the second mattress section 20 can be used by changing the upper and lower sides. Therefore, the thickness of the soft urethane 232 may be further increased in consideration of the case where the surface cloth 234 is on the upper side.

The artificial cotton 233 may have a density of, for example, about 70 g / m ² . The artificial cotton 233 may have a thickness of, for example, 5 mm.

The surface fabric 234 may be, for example, a knit fabric having antibacterial, deodorant, and mite-proof functions. The surface cloth 234 preferably has a density of 200 g / m ² or more, more preferably has a density of 250 g / m ² or more, and still more preferably has a density of 300 g / m ² or more. By using the surface cloth 234 having such a density range, the displacement between the first mattress portion 10 and the second mattress portion 20 is less likely to occur. In addition, from the viewpoint of preventing the displacement between the first mattress portion 10 and the second mattress portion 20, basically, the higher the density of the surface cloth 234 is, the better, but if the density is 250 g / m ² or more. If the density is 300 g / m ² or more, the displacement can be effectively prevented. On the other hand, it is not desirable to increase the density more than necessary from the viewpoint of cost and weight. From such a viewpoint, the density is most preferably about 300 g / m ² . The surface cloth 234 may have a thickness of, for example, 1 mm.

  FIG. 4 shows the number of coil springs 122a and 124a for each size of the first mattress portion 10 of the mattress 1, and FIG. 5 shows the number of coil springs 223a for each size of the second mattress portion 20 of the mattress 1. .

  In FIG. 4, "small" indicates the coil spring 122a, and "large" indicates the coil spring 124a. For example, as shown in FIG. 4, in an S size mattress 1 having a height of 210 mm, a width of 970 mm, and a length of 1970 mm, 558 coil springs 122a are arranged, 416 coil springs 124a are arranged, and a total of 974 coil springs are arranged. Have been. The same applies to the view of FIG. FIG. 5 relates to the coil spring 223a.

  According to the present embodiment, as described above, the coil spring 223a forming the upper spring coil layer 223 (hereinafter, referred to as “upper coil spring 223a” for distinction) has the smallest wire diameter and the lower spring coil The coil spring 124a that forms the layer 124 (hereinafter, referred to as a “lower coil spring 124a” for distinction) has the largest wire diameter, and the coil spring 122a that forms the middle spring coil layer 122 (hereinafter, for distinction, The wire diameter of the “middle-stage coil spring 122a” is between these. That is, the lower coil spring 124a has a larger wire diameter than the middle coil spring 122a, and the middle coil spring 122a has a larger wire diameter than the upper coil spring 223a.

  Here, if the coil diameter of the coil spring is the same, the spring constant generally increases as the wire diameter increases.

  Therefore, in the present embodiment, the lower spring coil layer 124 has the hardest setting. Thereby, the lower spring coil layer 124 can effectively function as a base for the middle spring coil layer 122 and the second mattress portion 20. That is, the lower spring coil layer 124 can stably support the middle spring coil layer 122 and the second mattress portion 20 without undergoing large elastic deformation under a load generated in a normal use state. Hereinafter, such a function of the lower spring coil layer 124 is referred to as a “stable support function”. The stable support function also contributes to improving the stability of the sleeping posture of the user who sleeps on the bed.

  On the other hand, when a very large load (for example, an impact load) is applied to the second mattress portion 20 from above, the lower spring coil layer 124 can be elastically deformed, and is absorbed by the upper spring coil layer 223 and the middle spring coil layer 122. Ineffective load can be effectively absorbed. Thereby, the durability of the upper spring coil layer 223 and the middle spring coil layer 122 can be improved.

  In the present embodiment, the upper spring coil layer 223 has the softest setting. Therefore, the upper spring coil layer 223 can be flexibly deformed according to the body shape and the sleeping posture of the user who sleeps on the bed. Hereinafter, such a function of the upper spring coil layer 223 is referred to as a “body-following function”.

  In this embodiment, the middle spring coil layer 122 is set to be harder than the upper spring coil layer 223 and softer than the lower spring coil layer 124. Therefore, the middle spring coil layer 122 can effectively absorb a load that cannot be completely absorbed by the upper spring coil layer 223. Thereby, the durability of the upper spring coil layer 223 (and the second mattress portion 20 including the same) can be increased. In other words, even if the upper spring coil layer 223 is set to be softer so that the elastic deformation is relatively large even with a relatively small load, the load that cannot be completely absorbed by the upper spring coil layer 223 is increased in order to enhance the above-described body shape tracking function. It can be absorbed by the spring coil layer 122 (as a result, the durability of the upper spring coil layer 223 can be increased). Hereinafter, such a function of the middle spring coil layer 122 is referred to as a “load absorbing function”.

  According to the present embodiment, as described above, the lower coil spring 124a has a larger coil diameter than the middle coil spring 122a, and the middle coil spring 122a has a larger coil diameter than the upper coil spring 223a.

  In general, if the coil spring has the same wire diameter, the smaller the coil diameter, the higher the spring constant.

  The lower coil spring 124a has the largest coil diameter, but the spring constant itself is larger than the middle coil spring 122a and the upper coil spring 223a. Similarly, the upper coil spring 223a has the smallest coil diameter, but the spring constant itself is smaller than the middle coil spring 122a and the lower coil spring 124a. Thereby, the above-described stable support function, body-following function, and load absorbing function can be secured.

  Further, since the coil diameter of the upper coil spring 223a is the smallest, the above-mentioned body shape tracking function functions more effectively. That is, the smaller the coil diameter of the upper coil spring 223a, the more independently it can be elastically deformed for each finer region, so that the above-mentioned body shape following function is improved. That is, when the coil diameter of the upper coil spring 223a is a small value such as 38 mm, it is possible to more finely follow a difference in body shape and a change in sleeping posture.

  Further, in this embodiment, since the upper coil springs 223a are arranged alternately in the upper spring coil layer 223, the number of coil springs per unit area is smaller than that in the parallel arrangement (array in which there is no displacement in each row). Can be increased. This reduces the load per coil spring, thereby improving the durability of the upper coil spring 223a. In addition, by increasing the number of coil springs per unit area, the above-mentioned body shape following function is improved.

  On the other hand, since the middle spring coil layer 122 and the lower spring coil layer 124 do not substantially contribute to the above-mentioned body shape tracking function, there is room for making the coil diameter relatively large. The larger the coil diameter, the smaller the number of coil springs that can be mounted on a certain area. Therefore, the middle spring coil layer 122 and the lower spring coil layer 124 are in a range where the above-described load absorbing function and stable supporting function are not impaired. It is advantageous to increase the coil diameter from the viewpoint of cost reduction.

  In this embodiment, since the middle coil springs 122a are arranged in an alternating arrangement form in the middle spring coil layer 122, unlike the parallel arrangement (an arrangement in which there is no deviation for each row), even if the coil diameter is relatively large. In addition, it is easy to secure the required number of coil springs per unit area (the number of coil springs required to realize the above-described load absorbing function). Further, when the coil diameter is the same, the load per coil spring is reduced as compared with the parallel arrangement, so that the durability of the middle coil spring 122a is improved. Further, if the coil diameter is the same, the number of coil springs per unit area increases as compared with the parallel arrangement, so that the above-mentioned load absorbing function can be easily realized uniformly over the entire first mattress portion 10.

  Further, in the present embodiment, the lower spring coil layer 124 has a configuration in which the lower coil springs 124a are arranged in an alternate arrangement, so that the coil diameter is relatively large unlike the parallel arrangement (the arrangement in which there is no deviation in each row). However, the required number of coil springs per unit area (the number of coil springs required to realize the above-described stable support function) can be easily secured. Further, if the coil diameter is the same, the load per coil spring is reduced as compared with the parallel arrangement, so that the durability of the lower coil spring 124a is improved.

  As described above, according to the present embodiment, the durability and the sleeping comfort of the mattress 1 can be effectively increased by providing the above-described excellent stable supporting function, load absorbing function, and body shape following function. It is possible to improve the stability of the sleeping posture for all sleeping postures / body types.

  Further, according to the present embodiment, the first mattress section 10 and the second mattress section 20 can be separated from each other as described above. Therefore, it is also possible to use the second mattress portion 20 by changing the top and bottom thereof. According to such a usage mode, the durability of the second mattress portion 20 (for example, the durability related to the abrasion of the surface cloth 211 and the like). ) Is improved. In particular, in the present embodiment, the upper second mattress portion 20 includes only one upper spring coil layer 223, and thus the lower second mattress portion 20 includes two spring coil layers, that is, the middle spring coil layer 122 and the lower spring coil layer 124. Is significantly lighter than the first mattress portion 10. Therefore, the user can relatively easily perform the operation of changing the upper and lower positions of the second mattress unit 20.

  According to the present embodiment, artificial cotton (artificial cotton 212, 233) and urethane (first soft urethane 213-1, second soft urethane) are provided on the upper and lower sides of the upper spring coil layer 223 of the second mattress portion 20. 213-2 and soft urethane 232) are provided. Accordingly, as described above, even if the second mattress portion 20 is used by changing the upper and lower portions, artificial cotton and urethane are present above the upper spring coil layer 223, so that comfortable sleeping comfort can be maintained.

  Further, according to the present embodiment, since the lower side of the second mattress portion 20 is covered with the surface cloth 234, the first mattress portion is not covered with the surface cloth 234 (for example, when the nonwoven fabric becomes the surface). The possibility of displacement between the section 10 and the second mattress section 20 can be reduced. That is, due to the relatively large frictional force that can be generated between the upper surface fabric 111 of the first mattress portion 10 and the lower surface fabric 234 of the second mattress portion 20, the first mattress portion 10 and the The possibility of displacement between the two mattress portions 20 can be reduced. Further, since the lower side of the second mattress section 20 is covered with the surface cloth 234, even when the second mattress section 20 is used upside down, the surface cloth 234 is on the upper side, so that comfortable sleeping comfort can be maintained.

  As described above, the embodiments have been described in detail. However, the embodiments are not limited to the specific embodiments, and various modifications and changes can be made within the scope described in the claims. It is also possible to combine all or a plurality of the components of the above-described embodiment.

DESCRIPTION OF SYMBOLS 1 Mattress 7 Bed frame 10 1st mattress part 11 Upper quilting part 12 Filling part 13 Lower quilting part 20 Second mattress part 21 Upper quilting part 22 Filling part 23 Lower quilting part 111 Surface cloth 112 Artificial cotton 113 Urethane 114 Non-woven cloth 121 Soft urethane 122 Middle spring coil layer 122a Middle coil spring 122b Urethane part 123 Needle punch 124 Lower spring coil layer 124a Lower coil spring 124b Urethane part 125 Needle punch 131 Nonwoven fabric 132 Urethane 133 Artificial cotton 134 Surface cloth 211 Surface cloth 212 Artificial cotton 213 1 first soft urethane 213-2 second soft urethane 214 non-woven fabric 221 soft urethane 222 non-woven fabric 223 upper spring coil Layers 223a upper coil spring 224 nonwoven 225 needle punched 231 nonwoven 232 soft urethane 233 artificial cotton 234 surface fabric

Claims (6)

A first coil spring layer in which the first coil springs are arranged in an alternating arrangement form in which the first coil springs are shifted by a fixed distance every row;
A second coil spring layer in which the second coil springs are arranged in a staggered arrangement in which the second coil springs are shifted by a certain distance for each row, above the first coil spring layer;
A third coil spring layer, which is arranged above the second coil spring layer and in which the third coil springs are alternately arranged in a row by a predetermined distance,
The mattress, wherein the first coil spring has a larger wire diameter than the second coil spring, and the second coil spring has a larger wire diameter than the third coil spring.   The mattress according to claim 1, wherein the first coil spring has a larger coil diameter than the second coil spring, and the second coil spring has a larger coil diameter than the third coil spring.   The mattress according to claim 1, wherein the first coil spring has a higher spring constant than the second coil spring, and the second coil spring has a higher spring constant than the third coil spring.   The first mattress portion including the first coil spring layer and the second coil spring layer and the second mattress portion including the third coil spring layer are separable from each other. A mattress according to any one of the preceding claims. The upper surface of the first mattress portion is formed of a first fabric different from the nonwoven fabric and having a density of 250 g / m ² or more,
5. The mattress according to claim 4, wherein the upper and lower surfaces of the second mattress portion are formed of a second fabric different from the nonwoven fabric and having a density of 250 g / m ² or more. The first coil spring has a wire diameter of 1.8 mm, a coil diameter of 62 mm, and a number of turns of 5.5,
The second coil spring has a wire diameter of 1.4 mm, a coil diameter of 54 mm, and six turns,
The third coil spring has a wire diameter of 1.0 mm, a coil diameter of 38 mm, and a number of turns of eight.
The first dough and the second dough are the same and have a density of about 300 g / m ² ;
The mattress according to claim 4, wherein the second mattress portion includes urethane on both sides of the third coil spring layer in a vertical direction.