JP2023102008A - foldable air bed - Google Patents

Abstract

To provide a simple bed that shortens a working hour generated when used and stored, and improves labor of work, and also is comfortable, and further prevents a cool air from a lower side space of a bed surface and a floor so as to be hard to be transmitted.SOLUTION: A foldable air bed 100 includes an upper surface 12, a lower surface 14, an air layer 20 between the upper surface 12 and the lower surface 14, an air mat part 10 having a ventilation part 16 capable of being ventilated in the air layer 20 and the outside, and a leg part 30 for supporting the air mat part 10. The leg part 30 is structured from multiple bone members 32, and is foldable integrally. The foldable air bed can be changed into a closed state where the leg part 30 is folded and the air mat part 10 is arranged between the opposed bone members 32, and an open state where the leg part 30 is unfolded and the air mat part 10 is in an unfolded state. A volume of the air mat part 10 in the closed state is smaller than the volume of the air mat part 10 in the open state.SELECTED DRAWING: Figure 4

Description

(1) October 20, 2021 to October 22, 2021 (Exhibition date: October 21, 2021 to October 22, 2021) Risk Management Industry Exhibition 2021, Tokyo Big Sight Aomi Exhibition Hall (1-4 Aomi, Koto-ku, Tokyo) Risk Management Industry Exhibition 2 held from October 20, 2021 to October 22, 2021 021 published from October 21, 2021 to October 22, 2021

The present invention relates to a foldable airbed.

2. Description of the Related Art Conventionally, as a simple bed used for leisure or disaster/evacuation, an assembly type or a foldable type has been proposed.
For example, Patent Document 1 relates to a portable bed for camping, and discloses an air mat to be attached to a support base, and describes a simple bed that can be used by assembling support rods and leg rods that constitute the support base to the air mat.

Patent Document 2 discloses a foldable bed. The folding bed comprises a support having a number of support rods and a sheet formed with an insertion bag into which a part of the support is inserted, and the support and the sheet are interconnected. The document shows an embodiment in which the support and the sheet are interconnected and foldable.

Register No. 963320 Actual registration No. 3028453

However, the conventional technology described above has the following problems.
That is, the portable bed for camping disclosed in Patent Document 1 has a problem that it requires assembly work for use and disassembly work for storage, which takes time and effort. In addition, in order to compactly store the dismantled portable camping bed, it is necessary to exhaust the air inside the air mattress, which is a troublesome task.

On the other hand, the foldable bed disclosed in Patent Document 2 is configured by mutually connecting a support and a sheet, and can be put into use by simply spreading the support. Therefore, the foldable bed does not need to be assembled or disassembled when used or stored, but because the surface on which the user lies is composed of a single sheet, there is a problem that the body pressure distribution is poor in localized areas such as the back of the head and the waist, and a good sleeping comfort is not provided. In addition, when lying down on a single sheet, cold air tends to be transmitted from the space below the sheet and the floor surface, and there is a problem of coldness in use at night and in winter.

The present invention has been made in view of the problems described above. That is, the present invention aims to provide a simple bed that reduces work time required for use and storage, improves work labor, is comfortable to sleep in, and prevents cold air from being easily transmitted from the space below the bed surface and the floor surface.

The foldable air bed of the present invention includes: an air mattress section having an upper surface, a lower surface, an air layer between the upper surface and the lower surface, and a ventilation section that allows ventilation between the air layer and the outside; legs for supporting the air mattress section; It is characterized in that the volume of the air mattress portion in the closed state is smaller than the volume of the air mattress portion in the open state.

The folding air bed of the present invention having the above structure can be easily changed between a closed state in which the legs are folded and the air mattress is arranged between the opposing bone members, and an open state in which the legs are spread and the air mattress is spread. Therefore, the foldable air bed of the present invention can shorten the working time when using and storing, and can improve the labor of the work. Further, according to the present invention, since the surface on which the user lies is composed of the air mat portion, it is comfortable to sleep on and is excellent in heat retention.

1 is a perspective view of a first embodiment of a foldable air bed of the present invention in an open state; FIG. 1 is a perspective view of a first embodiment of a foldable air bed of the present invention in a closed state; FIG. 1. It is a III-III cross-sectional view of the air mattress part in the folding air bed shown in FIG. Fig. 4 is a perspective view of a fourth embodiment of a foldable air bed of the present invention in an open state;

[First embodiment]
A first embodiment of the foldable air bed of the present invention will be described below with reference to FIGS. 1 to 3. FIG. In all the drawings, the same constituent elements are denoted by the same reference numerals, and overlapping descriptions are omitted as appropriate.
FIG. 1 is a perspective view of a first embodiment of a foldable air bed 100 of the present invention in an open state. FIG. 2 is a perspective view of the first embodiment of the foldable airbed 100 of the present invention in the closed state. FIG. 3 is a III-III cross-sectional view of the air mattress section 10 in the foldable air bed 100 shown in FIG.
With regard to the present invention, the open state refers to a state in which the leg portions 30 are spread and the air mattress portion 10 is thereby spread and can be used as a bed. On the other hand, the closed state refers to a state in which the leg portions 30 are folded and the air mattress portion 10 is arranged between the rib members 32, 32 facing each other, making it suitable for storage or transportation. In the context of the present invention, the phrase "the air mattress 10 is arranged between the opposing rib members 32, 32 or between the outer edge supporting members 40, 40" means that at least a portion of the air mattress is disposed between the opposing rib members 32, 32 or between the outer edge supporting members 40, 40 facing each other in the closed state, and includes a mode in which a portion of the air mattress protrudes outwardly from therebetween.
In the present invention, the term "air bed" refers to a structure having an upper surface, a lower surface, an air layer provided between the upper surface and the lower surface, and an air mattress portion having a ventilation portion that allows ventilation between the air layer and the outside. Here, the ventilation section may be, for example, a ventilation hole attached to the side material that constitutes the air mat section, or a ventilation side material that constitutes at least a part of the upper surface and/or the lower surface. That is, the present invention can include both an aspect in which the upper surface and/or the lower surface constituting the air mat portion is made of an air-permeable member and an aspect in which the air-impermeable member is provided with air holes.

As shown in FIGS. 1 to 3, the foldable air bed 100 includes an air mattress portion 10 and legs 30, and is a foldable simple bed that can be changed between a closed state folded as shown in FIG. 2 and an open state spread out as shown in FIG.

(Air mat part)
The air mat portion 10 has an upper surface 12 and a lower surface 14 and an air layer 20 between the upper surface 12 and the lower surface 14 . The air layer 20 and the outside of the air mat portion 10 are configured to be ventilated by the ventilation portion 16 . More specifically, the air mat portion 10 includes a hollow bag-like side member 11 having an upper surface 12 and a lower surface 14, and the inside of the side member 11 constitutes an air layer 20. As shown in FIG. The upper surface 12 constitutes a user's sleeping surface in the open state. The air mattress part 10 is provided with a ventilation part 16 for allowing ventilation inside and outside the air mattress part 10, whereby an air layer 20 having a significant thickness is provided inside the air mattress part 10 in the open state, and at least part of the air inside the air mattress part 10 is discharged in the closed state, so that the volume of the air mattress part 10 can be reduced.

In the present embodiment, as the ventilation portion 16 , a ventilation hole 18 is provided at an appropriate location of the air mattress portion 10 and penetrates the side member 11 constituting the air mattress portion 10 in the thickness direction. In the foldable air bed 100, which is rectangular in top view, the ventilation holes 18 are provided on each of the opposing short sides of the air mattress portion 10 as shown in FIG. However, the position where the ventilation holes 18 are provided and the number of the ventilation holes 18 are not limited to this. For example, a vent hole 18 may also be provided near the center of the lower surface 14 .

Also, the ventilation part 16 of the present invention is not limited to the form of the ventilation holes 18 described above. For example, as in a second embodiment described later, when the air mattress section 10 is configured using a breathable side member made of a breathable material, the breathable member itself can serve as the ventilation section 16 .

The side member 11 that constitutes the air mattress portion 10 in this embodiment is a non-breathable side member made of a non-breathable material, and the air pad portion 10 includes a cushion body 50 that is included in this non-breathable side member (side member 11).
The material constituting the non-breathable side material (side material 11) can be appropriately selected from sheet-like materials exhibiting gas impermeability inside and outside the air mattress portion 10. Examples thereof include synthetic leather, artificial leather, resin sheets, and resin composites in which a resin sheet (resin layer) is bonded to fabric and laminated. When the side member 11 is made of a non-breathable material, it is preferable to provide the ventilation holes 18 as the ventilation portions 16 as described above.

The cushion body 50 can be appropriately selected from members that are elastically deformable members that have cushioning properties and that can secure the air layer 20 inside the air mattress portion 10 . For example, as a member constituting the cushion body 50, a foamed resin molding, a foamed resin bead, and the like can be mentioned. Since the foamed resin molded body has air bubbles inside, the foamed resin molded body itself can constitute the air layer 20 when enclosed in the side member 11 . On the other hand, the foamed resin beads contain air inside the beads, and the air exists between the beads, so that the air layer 20 can be formed in the foamed resin bead group.
Examples of the resin forming the foamed resin molded article and foamed resin beads include urethane resin and polyolefin resin. Among them, urethane foam is preferable as the cushion body 50 from the viewpoint that it exhibits moderate rebound resilience in the open state, exerts good cushioning properties, and is easy to fold when the body is closed. In the foamed resin molded body used as the cushion body 50 in the present invention, it is preferable that some or all of the cells inside thereof have an open-cell structure, and more preferably urethane foam having an open-cell structure. Here, the term "interconnected cell structure" means that adjacent cells within the foamed resin molded article communicate with each other so as to allow air to pass therethrough.
Although the apparent density of the urethane foam is not limited, it is preferably 10 kg/m ³ or more, more preferably 12 kg/m ³ or more, and more preferably 70 kg/m ³ or less from the viewpoint of achieving a good balance between cushioning properties and foldability.

The thickness of the cushion body 50 made of foamed resin molding is not particularly limited, but from the viewpoint of being able to exhibit good sleeping comfort and heat retention, it is preferably 1 cm or more, and more preferably 2 cm or more. From the viewpoint of ease of folding for storage and compactness, the length is preferably 6 cm or less, more preferably 5 cm or less. The height dimension of the side member 11 is preferably equal to or greater than the thickness dimension of the cushion body 50. In this case, the thickness of the cushion body 50 made of foamed resin is equivalent to the thickness of the air layer 20 in the open state.

As described above, the air mattress 10, in which the cushion body 50 is accommodated, has good cushioning properties, excellent body pressure dispersibility in local areas where weight is likely to be applied, such as the back of the head and waist, and provides a good feeling of sleep. In addition, since it has the air layer 20, cold air from the space below the air mattress 10 and the floor surface is less likely to be transmitted to the user.

Further, when the cushion body 50 is made of a foamed resin molding, the following excellent effects are exhibited. That is, the foamed resin molded article can exhibit self-restoring properties such that when an external pressure is applied, internal cells are crushed and the apparent volume is reduced, and when the external pressure is released, the molded article returns to its original shape. Therefore, by changing from the open state shown in FIG. 1 to the closed state shown in FIG. 2 with the ventilation hole 18 open, the cushion body 50 made of the foamed resin molded body is compressed by the rib member 32, and the volume of the air mat portion 10 can be reduced without performing a special exhaust work. 2 to the open state shown in FIG. 1 with the ventilation holes 18 open, the side member 11 is expanded from the inside due to the self-expansion property of the foamed resin molded body and air flows into the inside from the ventilation holes 18, thereby providing the air mat portion 10 in a state suitable for use.

The vent hole 18 may always be in an open state, but for example, in order to keep the state well after being closed, or to maintain a sufficient thickness of the air layer 20 when the user lies on the upper surface 12 in the open state, it may be appropriately sealed with a sealing plug (not shown). With this sealing plug, not only the cushion body 50 but also the air mattress portion 10 itself can be cushioned.

In the air mattress portion 10 of the present embodiment, the internal space of the side member 11 is partitioned into a plurality of partitioned regions 52 in the longitudinal direction, and each partitioned region 52 contains a cushion body 50 that fits just within the dimensions of the respective internal space. Adjacent partitioned regions 52 , 52 are partitioned by binding portions 64 extending in the width direction of the air mattress portion 10 . Bonding portion 64 is formed by joining upper surface 12 and lower surface 14 by any means such as fusing, gluing, or stitching. Incidentally, when the binding portion 64 is formed by a means such as fusion bonding or adhesion, it is preferable to secure a through portion 66 in line with the binding portion 64 without completely partitioning the partitioned regions 52, 52 with the binding portion 64 in order to allow ventilation between the adjacent partitioned regions 52, 52.

As a modification of the present embodiment, the present invention includes a mode in which the cushion body 50 contained inside the side member 11 is a series of foamed resin molded bodies without partitioning the internal space of the air mat portion 10 at all. Such an aspect will be described as a fourth embodiment described later.

The air mattress section 10 is configured to be substantially parallel to the installation surface in the open state, but for example, as shown in FIGS. 1 and 3, one end in the length direction of the air mattress section 10 (in FIGS. 1 and 3, the end on the left side of the paper surface) may be inclined slightly upward so that the user's head fits well even without a pillow when lying down.

(Evaluation of sleeping comfort)
The sleeping comfort of the foldable air bed 100 provided with the air mattress section 10 can be evaluated by, for example, the head pressure measurement described below, in addition to sensory evaluation by the user.
First, a pressure sensor mat is installed in the region where the head contacts the foldable air bed 100 in the open state. Then, an adult with a weight of about 60 kg lies on his back, and the maximum head pressure is measured. It can be evaluated that the smaller the maximum pressure value, the better the pressure dispersion and the better the sleeping comfort. Examples of the pressure sensor mat include XSENSOR (US registered trademark) manufactured by X Sensor Technology.
In the present invention, the range of the maximum head pressure is not particularly limited in view of the influence of the physique and weight of the subject, but from the viewpoint of providing a more comfortable bed, the maximum head pressure is preferably 100 N or less, more preferably 80 N or less, further preferably 70 N or less, and particularly preferably 60 N or less.

(leg)
Next, the leg portion 30 will be described. The leg portion 30 is configured to support the air mattress portion 10 . Especially in the open state, it is required to support the air mattress portion 10 with the user lying on the upper surface 12 . The air mattress part 10 is directly or indirectly attached to the leg part 30 so that the leg part 30 and the air mattress part 10 are deformed together when the folding air bed 100 is changed between the open state and the closed state.
In the present invention, the air mattress 10 is indirectly attached to the leg 30, as in the present embodiment, in which the air mattress 10 is attached and supported by another support member (outer edge support member 40) connected to the leg 30. The air mattress 10 is directly attached to the leg 30, and the air mattress 10 is directly attached and fixed to the leg 30 made of the bone member 32 (not shown).

The rib member 32 forming the leg portion 30 is made of a member having strength to support the air mattress portion 10 . The bone member 32 may be, for example, a long member made of metal or resin. Among them, a hollow tubular bone member 32 is preferable from the viewpoint of weight reduction.

The leg portion 30 is composed of a plurality of bone members 32 and is configured to be integrally foldable without disassembling them.
The leg portion 30 in this embodiment includes a plurality of first rib members 321 extending vertically from the floor surface, second rib members 322 and 322 that intersect each other when the long sides of the air mattress portion 10 are viewed from the front, and third rib members 323 that intersect each other when the short sides of the air mattress portion 10 are viewed from the front. Each bone member 32 is connected to each other bone member 32 by a connecting member. The connection here does not mean that the mutual positional relationship is immovable, but refers to a state in which the relative positional relationship of the connected bone members 32, 32 can be changed when a force is applied.
For example, as shown in FIG. 1, a first rib member 321 and two second rib members 322 that intersect with it are connected by a connecting member 34, and when a force is applied, they slide on the connecting member 34, thereby changing their relative positional relationship and changing to the closed state shown in FIG. Similarly, the lower ends of the second rib member 322 and the third rib member 333 are connected by a connecting member 35, so that their positional relationship can be relatively changed between the open state and the closed state.

The leg portion 30 and the air mattress portion 10 described above may be directly connected or may be indirectly connected. In the present embodiment, an outer edge support member 40, which will be described later, is provided on the outer edge of the air mattress portion 10, and the air mattress portion 10 and the leg portion 30 are indirectly connected via the outer edge support member 40.

(outer edge support member)
The foldable air bed 100 of this embodiment is provided with an outer edge support member 40 along the outer edge of the air mattress section 10 . By providing the outer edge support member 40, bending when the user lies on the air mattress section 10 in the open state is suppressed satisfactorily. In this embodiment, elongated members are provided along the long sides of the air mattress portion 10 which is rectangular in top view. The elongate member may be constructed from members similar to the bone members 32 described above.
In the present embodiment, the outer edge support member 40 has four elongated members arranged along one long side, and the end portions of the two longitudinally arranged elongated members and the end portion of the rib member 32 are connected by a connecting member 36, and are configured to form a W shape as shown in FIG. 2 when the leg portion 30 is folded and closed. The same applies to the other long side.

In this embodiment, the outer edge support member 40 is attached to the air mattress portion 10 by providing a tunnel-shaped loop portion 62 along the outer edge of the long side of the air mattress portion 10 and passing the outer edge support member 40 through the loop portion 62. The loop portion 62 may be formed integrally with the air mattress portion 10 by folding back the ends of the long side outer edges of the side members constituting the air mattress portion 10 and fixing the end portions to the air mattress portion 10 itself at a predetermined position with an appropriate fixing means, or may be provided later by forming the loop portion 62 separately from the air mattress portion 10 and fixing it to the long side outer edge of the air mattress portion 10 with an appropriate fixing means. Here, the fixing means can be appropriately selected from any means capable of exerting a joining strength to the extent that the air pad portion 10 can be supported by the outer edge supporting member 40, such as joining means by sewing, adhesion, welding, etc., joining members such as hook-and-loop fasteners and hooks.

When the leg portion 30 is folded, the outer edge support member 40 is also folded in conjunction, and the air mattress portion 10 having the outer edge support member 40 on the outer edge is also folded. As a result, as shown in FIG. In addition, regarding the present invention, when the leg portion 30 is folded in the case where the outer edge support member 40 is not provided, an embodiment (not shown) in which the air mat is arranged only between the facing rib members 32, 32 may be employed.
Here, the bone members 32, 32 or the outer edge support members 40 facing each other include not only the case where they face each other in a positional relationship where they are adjacent to each other, but also the case where they face in a positional relationship where they can be connected in a straight line when the legs are folded. More specifically, in this embodiment, a plurality of outer edge support members 40 are provided continuously from the rib member 32. The outer edge support members 40, which are composed of a plurality of outer edge support members 40, are bent together with the leg portions 30 while having valley-fold portions, whereby the air mattress portion 10 is folded so that the upper surface 12 faces inside, and enters a closed state. As a result, the air mattress portion 10 is placed between the opposed outer edge support members 40, 40 and/or between the opposed bone members 32, 32 (leg members 30, 30) and compressed by them. Therefore, as the cushion body 50 shrinks, the air in the air layer 20 naturally flows out from the ventilation part 16 (the open ventilation hole 18) provided in the air mattress part 10, and the volume of the air mattress part 10 is reduced.
Thus, the foldable air bed 100 can exhaust the air inside the air mattress part 10 without special exhaust work by folding the leg part 30, and the volume of the air mattress part 10 in the closed state can be made smaller than the volume of the air mattress part 10 in the open state.

Further, as described above, by changing from the closed state to the open state, the cushion body 50 contained in the air mattress portion 10 self-expands, and air can flow into the air mattress portion 10 whose volume has been reduced without special air supply work.

[Second embodiment]
A second embodiment of the present invention will be described below.
The present invention includes a second embodiment in which the air mat portion includes a breathable side member made of a breathable material and a cushion body included in the breathable side member. The second embodiment is configured in the same manner as the folding air bed 100 of the first embodiment described above, except that part or all of the members forming the side member 11 are air-permeable side members. Therefore, the illustration of the second embodiment is omitted, and the description of the first embodiment is appropriately referred to for the configuration other than the air-permeable side member.

Materials constituting the air-permeable side member can be appropriately selected from materials exhibiting gas permeability inside and outside the air mattress portion 10, and examples thereof include woven fabrics and knitted fabrics. More specifically, for example, canvas, which is a plain weave fabric woven from hemp or cotton, or a basket weave Oxford fabric is preferable because of its high strength and good touch. When the side member 11 is composed of a breathable side member, the breathable side member itself becomes the ventilation portion 16 .

As in the first embodiment, the collapsible air bed in the second embodiment includes a cushion body inside the side member (breathable side member). Therefore, when the closed state is changed to the open state, the cushion member self-expands and spreads the air-permeable side member, thereby ensuring a sufficient air layer inside the air mat portion.

[Third embodiment]
A third embodiment of the present invention will be described below.
The present invention includes a third embodiment in which the air mat portion includes a non-breathable side member made of a non-breathable material, and the non-breathable side member has a ventilation hole as a ventilation portion and a sealing plug that can be repeatedly attached to and detached from the ventilation portion. The third embodiment is configured in the same manner as the collapsible air bed 100 of the first embodiment, except that the non-breathable side member (side member 11) does not contain a cushion body and that a sealing plug that seals the ventilation portion is essential. Therefore, the illustration of the third embodiment is omitted, and the description of the first embodiment will be referred to as appropriate for the configuration other than the two differences 2 described above.

In the foldable air bed of the third embodiment, in the open state, the cushioning property of the air mattress can be maintained by artificially supplying sufficient air to the air mattress through the ventilation holes and then sealing the air mattress with a sealing plug. Further, when changing from the open state to the closed state, the legs are folded in a state where the sealing plug is removed and the air vent is opened, so that the air mat section is pinched and compressed between the opposing bone sections or between the outer edge support members, and the internal air is naturally discharged and the volume is reduced.

[Fourth embodiment]
A fourth embodiment of the present invention will be described below with reference to FIG. FIG. 4 is a perspective view of a fourth embodiment of the foldable airbed 100 of the present invention in an open state.
The foldable air bed 100 of the fourth embodiment differs from the foldable air bed 100 of the first embodiment in that the inside of the air mattress section 10 is not partitioned, but is a single space, and the cushion body 50 accommodated in the air mattress section 10 is composed of a series of foamed resin moldings. Otherwise, the foldable air bed 100 of the fourth embodiment is configured in the same manner as the foldable air bed 100 of the first embodiment, so for similar configurations, refer to the description of the first embodiment as appropriate.

The foldable air bed 100 of the fourth embodiment is excellent in that it has a structure that is easy to manufacture and that the cushion body 50 is a series, so that the sleeping comfort when lying on the bed is better. Further, the foldable air bed 100 of the fourth embodiment has substantially the same configuration as that of the first embodiment, and exhibits excellent effects similar to those of the above-described first embodiment.

As a modified example of the fourth embodiment, the side material of the folding bed 100 of the fourth embodiment can be changed from the non-breathable side material to the breathable side material, and the ventilation holes 18 can be omitted as appropriate.

Although the first to fourth embodiments of the present invention have been described above, the above-described embodiments do not limit the present invention in any way. For example, the structure of the legs and the folding method of the legs are not limited to the embodiments described above.
As an example, by folding the legs in the direction of valley-folding the air mattress in a region of approximately one-half in the length direction, the air mattress can be arranged between the rib members constituting the leg or between the outer edge supporting members and compressed, whereby the air in the air layer can be easily discharged.
In order to keep the closed state well, the outer periphery of the folding air bed in the folded state may be restrained by restraining means such as a string or rubber, or a stopper may be provided in the folded state between one rib member and another rib member, between one outer edge support member and another outer edge support member, or between one rib member and one outer edge support member to fix the distance between the two.
In addition, in the present invention, the air mattress can be folded or opened in conjunction with the movement of the legs in the open state and the closed state, so they are normally maintained in a connected state. However, the air mattress may be detachable from the legs (or the outer edge support member) for cleaning or replacement of the air mattress.

(Example 1)
An air mat portion was prepared, which had an internal space of 185 cm long, 50 cm wide, and 5 cm high, and was made of a resin composite (TPU composite) in which a urethane resin sheet was bonded to one side of a polyester fabric, and which was made of a bag-like non-breathable side member. In addition, a folding air bed was manufactured by preparing legs and outer edge support members provided at the upper ends of the leg portions, which had the same configuration as that shown in FIG. In addition, Example 1 is an example corresponding to the above-described third embodiment, and the distance from the floor surface to the lower surface of the air mattress portion was set to 38 cm.

(Example 2)
A folding air bed was produced in the same manner as in Example 1, except that the dimensions of the internal space of the non-breathable side member were changed to the values shown in Table 1, and that a urethane foam (apparent density: 16 kg/m ³ , 40% compression hardness: 50 N, modulus of rebound resilience of 19% or less, open-cell structure) with a length of 180 cm, a width of 50 cm, and a thickness of 1 cm was housed inside the non-breathable side member as a cushion body. In addition, Example 2 is an example corresponding to the above-described fourth embodiment.

(Examples 3-7)
A folding air bed was produced in the same manner as in Example 2, except that the dimensions of the internal space of the non-air-permeable side member and the dimensions of the urethane foam accommodated inside the non-air-permeable side member were changed to the values shown in Table 1, and these were designated as Examples 3-7.

(Comparative example 1)
A simple bed was produced in the same manner as in Example 1 except that a sheet (Oxford cloth, length 185 cm x width 50 cm) made by basket weaving using cotton threads was used instead of the air mat portion. The distance from the floor surface to the bottom surface of the seat was 38 cm.

Using the examples and comparative examples obtained as described above, sleep comfort evaluation 1 (sensory evaluation), sleep comfort evaluation 2 (head pressure measurement), heat retention evaluation, and foldability evaluation were performed as follows, and the results are shown in Table 1.

(Sleep comfort evaluation 1; sensory evaluation)
Each of the 10 monitors lied on the bed and checked the sleeping comfort in the supine state, and evaluated them as follows. The most common evaluation results are shown in the table.
⊚: The load on the body is almost not felt, and the sleeping comfort is very good.
◯: Appropriate cushioning property was felt, and the sleeping comfort was good.
Δ: Slightly hard, but not to the extent that bottoming out is felt.
x: There is a feeling of bottoming out, and hardness is felt.

(Evaluation of sleeping comfort 2; head pressure measurement)
A pressure sensor mat (XSENSOR (US registered trademark), manufactured by X Sensor Technology Co., Ltd.) was placed so as to overlap the area where the head contacts the upper surface of the bed. An adult weighing 60 kg was then laid on it and the maximum pressure in the head area was measured.

In the sleep comfort evaluation 1 described above, all the examples were found to be more comfortable to sleep than the comparative examples.
In addition, in the sleep comfort evaluation 2, it was confirmed that the maximum pressure on the head was remarkably reduced in each of the examples as compared with the comparative example 1. Also, from the results of the sleep comfort evaluations 1 and 2, it was confirmed that the smaller the numerical value of the maximum pressure on the head, the better the sleep comfort.

(Heat retention evaluation)
A temperature sensor (T&D TR-72Ui, manufactured by T&D Co., Ltd.) was installed near the center of the upper surface of the foldable air bed under an environment of room temperature of 23°C. A 35 cm × 35 cm × 1 cm aluminum plate heated to a temperature of 50 ° C. was placed in contact with the sensor part of the temperature sensor, quickly covered with a blanket to cover the entire upper surface of the bed, and the temperature of the aluminum plate was measured to obtain a temperature curve. In this temperature curve, the slope of the approximation formula of the temperature curve of the sample was calculated in the range from time T0 when the temperature of the aluminum plate was 40°C to time T1 of 30°C.
In addition, the same test as described above was performed except that Comparative Example 1 was used as the blank, and the slope of the approximation formula for the temperature curve of the blank was calculated in the same manner as described above. Then, the heat retention rate was calculated from the following formula (1).
[Number 1]
Heat retention rate (%) = (blank slope - sample slope) / blank slope x 100 (1)
The heat retention rate calculated as described above was evaluated according to the following criteria.
A: The heat retention rate is 50% or more.
○: The heat retention rate is 40% or more and less than 50%.
Δ: The heat retention rate is 10% or more and less than 40%.
x: The heat retention rate is less than 10%.

From the above heat retention evaluation, it was confirmed that all the examples had improved heat retention compared to Comparative Example 1 in which the member constituting the bed surface was a sheet. In particular, it was confirmed that Examples 2 to 7, which have an air mat part in which a cushion made of urethane foam is enclosed in the side material, exhibit excellent heat retention.

(Foldability evaluation)
The volume V1 with the bed folded and the volume V0 with the air mat section removed from the bed and the leg section and the outer edge support member folded were determined, and the ratio of the volume V1 to the volume V0 (V1/V0) was confirmed and evaluated according to the following criteria. The volume V1 and the volume V0 were calculated by the following formula (2) by measuring the height T (cm) from the floor surface to the highest position, the dimension W1 (cm) of the maximum horizontal portion observed when the long side was viewed from the front, and the dimension W2 (cm) of the maximum horizontal portion observed when the short side was viewed from the front, when the product was folded and placed on the floor (see FIG. 2).
[Number 2]
Volume (cm ³ ) = height T (cm) x dimension W1 (cm) x dimension W2 (cm) (2)
The ratio of the volumes V1 and V0 calculated as described above was evaluated according to the following criteria.
A: The ratio (V1/V0) is 1.2 or less.
○: The ratio (V1/V0) is more than 1.2 and 3 or less.
Δ: The ratio (V1/V0) exceeds 3.

It was confirmed by the above foldability evaluation that all the examples provided with an open body and a significantly thick air mat portion can be folded compactly without special exhaust work.

The present invention described above includes the following technical ideas.
(1) an air mat portion having an upper surface, a lower surface, an air layer between the upper surface and the lower surface, and a ventilation portion that allows ventilation between the air layer and the outside;
a leg for supporting the air mattress,
The legs are composed of a plurality of bone members and can be folded integrally,
a closed state in which the leg portions are folded and the air mattress portion is disposed between the opposing bone members;
an open state in which the leg portions are spread and the air mattress portion is spread;
can be changed to
A foldable air bed, wherein the volume of the air mattress portion in the closed state is smaller than the volume of the air mattress portion in the open state.
(2) having an outer edge support member along the outer edge of the air mat section;
The outer edge support member is connected to the leg portion, and the outer edge support member is folded in conjunction with the folded leg portion,
The foldable air bed according to (1) above, wherein the air mattress portion is folded inside the folded outer edge support member.
(3) The foldable air bed according to (1) or (2) above, wherein the air mat portion includes a breathable side member made of a breathable material, and a cushion body included in the breathable side member.
(4) The air mat section includes a non-breathable side member made of a non-breathable material and a cushion body enclosed in the non-breathable side member,
The foldable air bed according to the above (1) or (2), wherein the non-breathable side member has a vent as the vent.
(5) the air mat section includes a non-breathable side member made of a non-breathable material;
The folding air bed according to the above (1) or (2), wherein the air-impermeable side member has a ventilation hole as the ventilation part and a sealing plug that can be repeatedly attached to and detached from the ventilation part.

DESCRIPTION OF SYMBOLS 10... Air mat part 11... Side member 12... Upper surface 14... Lower surface 16... Ventilation part 18... Vent hole 20... Air layer 30... Leg part 32... Rim member 321... First rib member 322... Second rib member 323... Third rib member 34, 35, 36... Joining member 40... Outer edge support member 50... Cushion body 52.

Claims (3)

an air mat portion having an upper surface, a lower surface, an air layer between the upper surface and the lower surface, and a ventilation portion allowing ventilation between the air layer and the outside;
a leg for supporting the air mattress,
The legs are composed of a plurality of bone members and can be folded integrally,
a closed state in which the leg portions are folded and the air mattress portion is disposed between the opposing bone members;
an open state in which the leg portions are spread and the air mattress portion is spread;
can be changed to
A foldable air bed, wherein the volume of the air mattress portion in the closed state is smaller than the volume of the air mattress portion in the open state. An outer edge support member is provided along the outer edge of the air mattress,
The outer edge support member is connected to the leg portion, and the outer edge support member is folded in conjunction with the folded leg portion,
The foldable air bed according to claim 1, wherein the air mattress portion is folded inside the folded outer edge support member. The air mat section includes a non-breathable side member made of a non-breathable material and a cushion body enclosed in the non-breathable side member,
3. The foldable air bed according to claim 1, wherein the non-breathable side member has a vent hole as the vent portion.

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