JP6037735B2 - Dampers, damper units, and beds - Google Patents

Description

The present invention relates to a damper that supports a mattress, a damper unit that includes the damper, and a bed that includes the damper unit.

Conventionally, the slatted board that supports the mattress of the bed or sofa on which a person sleeps or sits directly has realized better body pressure distribution in addition to the slatted board consisting only of the floor board, and the sleeping comfort that fits each person's body. It is known that the drainboard itself has a cushioning property in order to obtain a comfortable seating (for example, Patent Document 1).

In terms of the cushioning property of the drainboard itself, it is said that a structure that supports the slatted board at points is preferable in order to realize better distribution of body pressure. Conventionally, as a structure supported by points, a coil spring has been arranged on a surface, but in recent years, it has been put into practical use to arrange a spring element formed of a resin foam instead of the coil spring. ..

For example, in Patent Document 2, the spring body that forms the main body of each spring element having a crossbar structure is configured as a hollow chamber molded product having at least one chamber, and the axis of each spring body is the head of the spring body. The spring body is configured as an integrally molded plastic molded part that is located in a plane parallel to the support tray provided in the portion and is oriented in a direction perpendicular to the direction of the load force. A spring having a cushioning property is disclosed.

U.S. Pat. No. 5,426,799 Japanese Unexamined Patent Publication No. 8-252151

The damper, which is a spring element made of an elastomer having a crossbar structure according to the prior art as shown in FIG. 7, can absorb and disperse the load by smooth deformation when the load is received from directly above as in P1. However, when a load is applied in the other direction, for example, P2, which includes the crossbar in the axis, a large drag is exhibited at the beginning of receiving the load, and when the crossbar bends, a different drag is suddenly exhibited. .. That is, depending on the input direction of the load or impact, the elastic performance of the damper becomes non-uniform, it is difficult to realize excellent body pressure distribution, and to obtain a sleeping comfort and a sitting comfort that fit the body.

Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide excellent body pressure distribution by exhibiting uniform elasticity regardless of a load or impact from any direction. The purpose is to provide a damper that provides proper physical support. Further provided, a damper unit for attaching to a bed using such a damper, and a bed using the damper unit.

In order to solve the above problems, a damper that supports a mattress with a plurality of dampers, the dampers are made of an elastic resin foam, and the shape is from a side surface and a substantially circular or substantially elliptical front surface and a back surface. It is a substantially cylindrical shape, has one or more holes penetrating from the front to the back, and the shape of the penetrating holes is a substantially circular or substantially elliptical shape, and the central axis of the cylindrical shape of the damper is oriented with respect to the load direction. Provided are dampers that are arranged vertically and used to receive a load , characterized in that the center of any one or more of the holes coincides with the central axis. Similarly, the damper may be characterized in that the holes are arranged so that the line segment passing through the center thereof crosses any one of the one or more holes on the front surface and the back surface.
According to this, it is possible to provide a damper that can obtain excellent body pressure distribution and appropriate body support by exhibiting uniform elasticity regardless of a load or impact from any direction.

Further, a surface perpendicular to the load direction on a part of the side surface may be an installation surface, and the two sides facing the installation surface may be a rectangular plane as a generatrix.
According to this, the damper can be stably arranged regardless of the load or impact from any direction.

Further, it may be characterized in that holes penetrating from the front surface to the back surface are formed line-symmetrically with reference to an axis with respect to a load received from a direction perpendicular to the installation surface, passing through a substantially cylindrical central axis.
According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction.

According to another viewpoint, in order to solve the above-mentioned problems, the above-mentioned damper, a holding portion for arranging the damper inside and holding it in contact with the side surface of the damper, and a supporting portion for supporting the mattress. Provided is a damper unit comprising a connecting portion for connecting the support portion and the holding portion thereof, and a mounting portion arranged below the holding portion and attached to a base.
According to this, it is possible to provide a damper unit including a damper which can obtain excellent body pressure distribution and proper body support by exhibiting uniform elasticity regardless of a load or impact from any direction.

From another point of view, in order to solve the above problems, a bed to which a plurality of the above damper units are attached is provided.
According to this, it is possible to provide a bed equipped with a damper that can obtain excellent body pressure distribution and proper body support by exhibiting uniform elasticity under a load or impact from any direction.

As described above, according to the present invention, a damper, a damper unit, and a damper unit, which can obtain excellent body pressure distribution and proper body support by exhibiting uniform elasticity regardless of a load or impact from any direction. Beds can be provided.

A regular hexagonal view of the damper of the first embodiment according to the present invention. (A) front view, (B) plan view, (C) bottom view, (D) rear view, (E) left side view, (F) right side view, (G) perspective view. A regular hexagonal view of the damper unit of the first embodiment according to the present invention (excluding the damper). (A) front view, (B) plan view, (C) bottom view, (D) rear view, (E) left side view, (F) right side view, (G) perspective view. The perspective view of the bed to which the damper unit of 1st Example which concerns on this invention is attached. A regular hexagonal view of the damper of the second embodiment according to the present invention. (A) front view, (B) plan view, (C) bottom view, (D) rear view, (E) left side view, (F) right side view, (G) perspective view. The perspective view of the damper unit of the 2nd Example which concerns on this invention. The front view which shows the variation of the damper in this invention. (A) front view and (B) perspective view of the damper of the prior art.

Hereinafter, examples according to the present invention will be described with reference to the drawings.
<First Example>
FIG. 1 shows a regular hexagonal view of the damper 10 in the first embodiment of the present invention. The damper 10 is made of an elastic resin foam.

The resin foam used in the present invention has an open cell structure having a structure in which the bubbles of the resin foam are communicated with each other. However, a semi-continuous semi-closed cell structure (a bubble structure in which a closed cell structure and an open cell structure are mixed, and the ratio thereof is not particularly limited) may be partially included. The bubble structure of this resin foam has a foaming method and foaming conditions (for example, the type and amount of foaming agent, temperature and pressure during foaming, etc.) when forming the resin foam, depending on the type of material of the resin foam. It is adjusted by selecting (time, etc.).

The resin foam is, for example, a polyolefin foam such as urethane foam, polyethylene or polypropylene, a polyvinyl chloride foam, a polystyrene foam, an amino resin foam such as a melamine resin or a urea resin, a phenol resin foam or the like, and is not particularly limited. It is also manufactured by a conventional method. For example, as an open foam, the raw material is naturally foamed at room temperature and atmospheric pressure, cured, and then cut into a product shape. A typical open foam is a slab foam. The slab foam is continuously produced by discharging the raw material onto the belt conveyor, and while the belt conveyor moves, the raw material spontaneously foams and hardens at room temperature and atmospheric pressure, and then in a drying oven. After curing, it is cut into a predetermined shape. The molded foam is obtained by injecting a raw material into a mold (molding mold), foaming the foam in the mold, and then removing the mold.

Since the resin foam is loaded for a long period of time, the compression set is small, and it is preferable that the resin foam has a wide hardness range and a high damping effect in order to reduce various vibrations. For example, in this embodiment, the product name "Cell Damper" manufactured by Inoac Co., Ltd. is used, and in terms of its general physical properties, the density is 155 to 690 kg / m ³ , and the 25% compressive strength is 0.04 to 1.06 MPa. The tensile strength is 0.64 to 2.67 MPa, the elongation is 150 to 177%, the tear strength is 2.02 to 8.60 N / mm, and the compressive permanent strain is 4.1 to 8.3%.

The shape (outer shape) of the damper 10 is a substantially cylindrical shape (cylindrical shape) including a side surface 11 and a substantially circular front surface 12a and back surface 12b. If it is cylindrical, it can be extruded and can be manufactured at low cost. The side surface 11 may have a curvature in the direction of the central axis C, and in that case, the side surface 11 has a drum shape. Further, the front surface 12a and the back surface 12b may be substantially elliptical. In this case, it is easy to stabilize if the minor axis direction coincides with the load receiving direction. Further, in this embodiment, the front surface 12a and the back surface 12b are parallel to each other, but the present invention is not limited to this. If they are not parallel to each other, it will be easier to stabilize if the distance between the front and back increases from the upper side to the lower side when viewed from the side. Further, in this embodiment, the front surface 12a and the back surface 12b and the side surface form a right angle and are rectangular in a plan view, but the present invention is not limited to this, and a parallelogram in a plan view may be used.

The damper 10 includes one hole 14 penetrating from the front surface 12a to the back surface 12b. The shape of the hole 14 is substantially circular when viewed from the front, but may be substantially elliptical. In this embodiment, the center of the hole 14 in front view is concentric with the centers of the front surface 12a and the back surface 12b, but is not limited thereto. However, since there is no eccentricity with respect to the load from above, it is preferable that both centers are aligned in the left-right direction in the front view. Further, it is more preferable that both centers coincide with the central axis C of the cylindrical damper 10. Then, the distance between the side surface 11 and the inner side surface 15 becomes constant, the deformation of the damper 10 tends to be symmetrical in the vertical and horizontal directions, and it is easy to show uniform elasticity with respect to the load.

The damper 10 is used so that its cylindrical central axis C is arranged perpendicular to the load direction to receive a load. That is, the cylinder is placed horizontally so that the side surface 11 is loaded. When a load is received from the side surface of a cylinder, the load can be received by a line (generatrix) as compared with a spherical shape, and there is a sense of stability when the load is received. Further, if the outer shape of the damper 10 is cylindrical, its elasticity can be easily controlled as compared with the drum shape.

By arranging a plurality of such dampers 10 between the mattress and the mattress, the damper 10 supports the mattress. Then, the damper 10 supports the mattress with a plurality of dampers, and the damper 10 is made of an elastic resin foam, and the shape thereof is abbreviated as a side surface 11 and a substantially circular or substantially elliptical front surface 12a and a back surface 12b. It is cylindrical and has one hole 14 penetrating from the front surface 12a to the back surface 12b. The shape of the penetrating hole 14 is a substantially circular or substantially elliptical shape, and the cylindrical central axis C of the damper 10 is in the load direction. It is possible to provide a damper that is used by arranging it perpendicular to a load so as to receive a load. According to this, it is possible to provide a damper that can obtain excellent body pressure distribution and appropriate body support by exhibiting uniform elasticity regardless of a load or impact from any direction.

Further, the damper 10 has an installation surface 13 having a surface perpendicular to the load direction as an installation surface 13 on a part of the side surface 11 and a rectangular plane having two opposing sides as generatrix. According to this, the damper can be stably arranged regardless of the load or impact from any direction. In this embodiment, the generatrix of the installation surface 13 forms from the front surface 12a to the back surface 12b, but is not limited to this, and may be a generatrix that is a part of the generatrix.

FIG. 2 shows a regular hexagonal view of the damper unit 20 in this embodiment. Although the damper unit 20 includes the damper 10, the damper 10 is not shown in this figure. The damper unit 20 is a connection in which the damper 10 is arranged inside to connect the holding portion 21 that abuts and holds the damper 10, the support portion 22 that supports the mattress, and the support portion 22 and the holding portion 21. A portion 24 and a mounting portion 23 arranged below the holding portion 21 and attached to the base are provided. According to this, it is possible to provide a damper unit 20 including a damper 10 which can obtain excellent body pressure distribution and proper body support by exhibiting uniform elasticity regardless of a load or impact from any direction. ..

The holding portion 21 forms an annular shape and abuts on the side surface 11 of the damper 10 to hold the damper 10 from the surroundings. The holding portion 21 has elasticity, and in order to effectively utilize the uniform elasticity of the damper 10, its elastic modulus is preferably smaller than the elastic modulus of the damper 10. Further, in this embodiment, the material of the holding portion 21 is plastic, but any material may be used as long as it has such an elastic modulus, and the material is not particularly limited to plastic, metal, and the like.

The support portion 22 is connected to the holding portion 21 at the connecting portion 24, the mattress is placed on the support portion 21, and the mattress is supported from below by the plurality of support portions 22. In this embodiment, the material of the support portion 22 is plastic, but any material may be used as long as it has the strength to support the mattress, and the material is not particularly limited to plastic, metal, and the like.

In the present embodiment, since the support portion 22 and the holding portion 21 are made of plastic, the connecting portion 24 is integrally molded by being fused to each other, but the present invention is not limited to this, and may be a tack stopper or the like.

The mounting portion 23 is mounted so as to sandwich the mounting bar on the base of the bed. The mounting portion 23 has an open portion at the lower portion on the opposite side of the holding portion 21, and is made of an elastic material. When the mounting portion 23 is attached to the mounting bar, the mounting portion 23 is released at the lower portion of the mounting portion 23. It is attached by expanding the attached part beyond the width of the attachment bar and sandwiching the attachment bar by its own elastic force.

FIG. 3 is a perspective view of the bed to which the damper unit 20 of this embodiment is attached. As shown, a plurality of damper units 20 are attached to the base of the bed to form a drainboard. A mattress is placed on the drainboard formed by the plurality of damper units 20 to form a bed. According to this, it is possible to provide a bed equipped with a damper that can obtain excellent body pressure distribution and proper body support by exhibiting uniform elasticity under a load or impact from any direction.

Due to the difference in the diameter of one hole 14 in this embodiment, the strain of the damper 10 when a load is applied to the side surface 11 is different, that is, the elastic modulus of the damper 10 is different. For example, as a resin foam, a product name manufactured by Inoac Co., Ltd .: BF-300 (density 312 kg / m ³ , 25% compressive strength 0.14 MPa, tensile strength 1.11 MPa, elongation 177%, tear strength 4 When the diameters of the front surface 12a and the back surface 12b of the damper 10 are 60 mm, the elastic modulus is 5.86 and the hole 14 is 5.86 when the diameter of the hole 14 is 10 mm. If the diameter of the hole 14 is 20 mm, the elastic modulus changes to 3.33, if the diameter of the hole 14 is 29 mm, the elastic modulus changes to 1.67, and if the diameter of the hole 14 is 36 mm, the elastic modulus changes to 0.75.

Since it is necessary to have different elastic moduli depending on the position where the damper is placed on the drainboard, it is necessary to accurately determine the elastic modulus of the damper, but it is difficult to accurately control the elastic modulus with the resin foam itself. .. On the other hand, as described above, the elastic modulus can be easily controlled by changing the diameter of the hole 14.

Further, the damper of the prior art has a different elastic modulus depending on the direction of the load, but the damper 10 of the present embodiment does not have a different elastic modulus depending on the direction of the load. Further, the damper 10 of this embodiment smoothly responds to the load in a small amount of deformation at the initial stage of the load, can be smoothly and linearly deformed even at a medium-high load exceeding 200 N, and is further made of a resin foam. Therefore, the feeling of bottoming is smaller than that of the damper of the conventional technique, and the cushioning property is good.

<Second Example>
FIG. 4 shows a regular hexagonal view of the damper 10A in this embodiment. In addition, in order to avoid duplicate explanation, only the points different from the first embodiment will be described.

The damper 10A includes seven holes 14A penetrating from the front surface 12aA to the back surface 12bA. The shape of the hole 14 is substantially circular when viewed from the front, but may be substantially elliptical, and a shape having no corners at which stress is concentrated when a load is applied is preferable. The diameter of the hole 14A is smaller than that of the first embodiment. The holes 14A on the front surface 12a and the back surface 12b are evenly arranged around the central axis C. Also in this embodiment, the deformation of the damper 10A is symmetrical on the left and right, there is no eccentricity with respect to the load from above, and uniform elasticity with respect to the load is exhibited. According to this, it is possible to provide a damper that can obtain excellent body pressure distribution and appropriate body support by exhibiting uniform elasticity regardless of a load or impact from any direction.

FIG. 5 shows a perspective view of the damper unit 20A in this embodiment. The damper unit 20A is a connection in which the damper 10A is arranged inside to connect the holding portion 21A that abuts and holds the damper 10A, the support portion 22A that supports the mattress, and the support portion 22A and the holding portion 21A. A portion 24A (not shown) and a mounting portion 23A arranged below the holding portion 21A and attached to the base are provided. According to this, it is possible to provide a damper unit 20A including a damper 10A that can obtain excellent body pressure distribution and proper body support by exhibiting uniform elasticity regardless of a load or impact from any direction. ..

<Modification example>
Here, a modified example of the hole of the damper will be described with reference to FIG. The shape of the hole itself is preferably a shape having a curvature without an angle so that stress is concentrated when a load is applied, and thus the case of a circular shape will be described, but the hole is not limited thereto.

FIG. 6A shows a front view of the damper 10 of the first embodiment. The hole 14 is one substantially circle concentric with the outer circle. That is, the holes 14 passing through the substantially cylindrical central axis C and penetrating from the front surface 12a to the back surface 12b are formed line-symmetrically with reference to the axis S with respect to the load received from the direction perpendicular to the installation surface 13. According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction.

FIG. 6B shows a damper 10B having two holes 14B. The holes 14B are arranged on the left and right sides of the line symmetry axis S. That is, the holes 14B passing through the substantially cylindrical central axis C and penetrating from the front surface 12aB to the back surface 12bB are formed line-symmetrically with reference to the axis S with respect to the load received from the direction perpendicular to the installation surface 13B. According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction. In this modification, the two holes are arranged symmetrically, but the center of the circle may be arranged on the axis S and arranged vertically.

FIG. 6C shows a damper 10C having three holes 14C. The holes 14C are arranged so that two holes are arranged on the left and right sides of the line symmetry axis S, and the remaining one hole is divided into two by the line symmetry axis S. That is, the holes 14C that pass through the substantially cylindrical central axis C and penetrate from the front surface 12aC to the back surface 12bC are formed line-symmetrically with reference to the axis S with respect to the load received from the direction perpendicular to the installation surface 13C. According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction. In this modification, two holes are arranged below and one hole is arranged above, but one hole may be arranged below and two holes may be arranged above.

FIG. 6D shows a damper 10D having five holes 14D. The hole 14D is arranged as a substantially regular pentagon having one apex on the line symmetry axis S with the central axis C as the center. That is, the holes 14D passing through the substantially cylindrical central axis C and penetrating from the front surface 12aD to the back surface 12bD are formed line-symmetrically with reference to the axis S with respect to the load received from the direction perpendicular to the installation surface 13D. According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction.

FIG. 6E shows a damper 10E having six holes 14E. The holes 14E are arranged as a substantially regular pentagon having one apex on the line symmetry axis S with the central axis C as the center, and one is arranged concentrically with the central axis. That is, the holes 14E passing through the substantially cylindrical central axis C and penetrating from the front surface 12aE to the back surface 12bE are formed line-symmetrically with reference to the axis S with respect to the load received from the direction perpendicular to the installation surface 13D. According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction.

FIG. 6F shows a front view of the damper 10A of the second embodiment. The damper 10A has seven holes 14A. The holes 14A are arranged as substantially regular hexagons having two vertices on the line symmetry axis S with the central axis C as the center, and one is arranged concentrically with the central axis. That is, the holes 14A that pass through the substantially cylindrical central axis C and penetrate from the front surface 12aA to the back surface 12bA are formed line-symmetrically with reference to the axis S with respect to the load received from the direction perpendicular to the installation surface 13A. According to this, it is possible to provide a damper that can obtain better body pressure distribution and proper body support regardless of a load or impact from any direction.

The present invention is not limited to the illustrated examples, and can be implemented with a configuration within a range that does not deviate from the contents described in each section of the claims. That is, the present invention is particularly illustrated and described primarily with respect to specific embodiments, but without departing from the scope of the technical idea and purpose of the present invention, with respect to the embodiments described above. Various modifications can be made by those skilled in the art in terms of material, quantity, and other detailed configurations. Therefore, the description that limits the shape, material, etc. disclosed above is merely an example for facilitating the understanding of the present invention, and does not limit the present invention. Therefore, those shapes, materials, etc. The description by the name of the member excluding a part or all of the limitation such as is included in the present invention.

1 Bed base 10 Damper 11 Side 12a Front 12b Back 13 Installation surface 14 Hole 15 Inner side 20 Damper unit 21 Holding 22 Support 23 Mounting 24 Connecting C Central axis S-line symmetry axis

Claims (6)

A damper that supports the mattress with multiple dampers
The damper is made of an elastic resin foam and is made of an elastic resin foam.
Its shape is a substantially cylindrical shape consisting of sides and a substantially circular or approximately elliptical front and back surface.
It is provided with one or more holes penetrating from the front to the back, and the shape of the penetrating holes is a substantially circular or substantially elliptical shape.
A damper used by arranging the cylindrical central axis of the damper perpendicular to the load direction to receive a load .
A damper characterized in that the center of any one or more of the holes coincides with the central axis . A damper that supports the mattress with multiple dampers
The damper is made of an elastic resin foam and is made of an elastic resin foam.
Its shape is a substantially cylindrical shape consisting of sides and a substantially circular or approximately elliptical front and back surface.
It is provided with one or more holes penetrating from the front to the back, and the shape of the penetrating holes is a substantially circular or substantially elliptical shape.
A damper used by arranging the cylindrical central axis of the damper perpendicular to the load direction to receive a load .
A damper characterized in that the holes are arranged so that a line segment passing through the center thereof crosses any one of the one or more holes on the front surface and the back surface . The damper according to claim 1 or 2 , wherein a surface perpendicular to the load direction is an installation surface on a part of the side surface, and two sides facing the installation surface are rectangular planes having generatrix. The hole passing through the substantially cylindrical central axis and penetrating from the front surface to the back surface is line-symmetrically formed with reference to an axis with respect to a load received from a direction perpendicular to the installation surface. The damper according to claim 3. The damper according to any one of claims 1 to 4,
A holding portion for arranging the damper inside and abutting and holding the side surface of the damper.
The support that supports the mattress and
A connecting portion that connects the supporting portion and the holding portion,
A mounting part that is placed under the holding part and attached to the base,
Damper unit with. A bed to which a plurality of damper units according to claim 5 are attached.

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