JP2017038763A - bed - Google Patents

Abstract

[PROBLEMS] To improve the comfort of use of a bed. A bed 1 includes a mattress 10 that elastically supports a resting person. The mattress 10 includes a mesh cushion 14 having air permeability, and a low ventilation structure that covers the mesh cushion 14 with a low ventilation structure so that air is circulated inside and outside the support surface side region 10A of the mattress 10 ( A low-breathing slab urethane 12 having a ventilation hole 12 </ b> A, a back cover 15, and a covering structure 13). The bed 1 further includes a fan 20 connected to a ventilation path in the mesh cushion 14 so as to be able to ventilate, and an area facing each vent 12A of the slab urethane 12 of the mesh cushion 14 by the operation of the fan 20. Thus, air is circulated inside and outside to allow air to pass through the mesh cushion 14. [Selection] Figure 3

Description

  The present invention relates to a bed. In detail, it is related with the bed provided with the mattress which elastically supports a resting person.

  Conventionally, a configuration in which a bedroom equipped with a bed is attached on a cab roof of a truck is known (Patent Document 1). The bedroom is connected to the cabin space in the cab through an entrance provided in the cab roof, and is supplied with conditioned air flowing through the cabin.

JP-A-8-238975

  However, in the above prior art, even if conditioned air is supplied into the bedroom, the conditioned air is not sufficiently sent to a resting person lying on the bed. The present invention was created to solve the above-described problems, and the problem to be solved by the present invention is to improve the comfort of use of the bed.

  In order to solve the above problems, the bed of the present invention takes the following means.

  1st invention is the bed provided with the mattress which elastically supports a resting person. The mattress has a cushion having air permeability, and a low ventilation structure in which the other region is configured to have a lower air permeability than the partial region so that air is circulated inside and outside the partial region of the outer peripheral region. . The bed further has a fan connected to the ventilation path in the cushion so as to allow ventilation, and air is circulated from a part of the cushion inside and outside by the operation of the fan so that the air is passed through the cushion. It has become.

  According to the first aspect of the present invention, by providing the mattress with a fan that allows air to flow inside and outside the cushion, the heat trapped in the mattress can be released to the outside, or external conditioned air can be taken into the cushion and cushioned. You can adjust the temperature. Thereby, the use comfort of a bed can be improved.

  The second invention is the following configuration in the first invention described above. That is, a partial region where the air of the cushion is circulated inside and outside is set as a support surface side region that elastically supports a mattress resting person.

  According to the second aspect of the present invention, the comfort of use of the bed can be more effectively improved by passing the area directly touched by the rester of the mattress.

  The third invention is the following configuration in the first or second invention described above. That is, the cushion is constituted by a cushion layer having two layers of different air permeability. The cushion layer on the front side has a lower air permeability than the cushion layer on the back side, and constitutes a part of the low ventilation structure as a configuration in which a vent hole for circulating air inside and outside is formed. .

  According to the third aspect of the present invention, by configuring the low ventilation structure with the cushion layer on the front side, it is possible to rationally obtain a configuration in which the cushioning property of the mattress is improved and the other region is low in ventilation.

  The fourth invention is the following structure in the third invention described above. That is, the low ventilation structure has a back side cushion layer between the cover and the front side cushion layer that is configured as a part of the low ventilation structure. And a cross-linking material that is cross-linked with a structure having a lower air permeability than the cushion layer.

  According to the fourth aspect of the present invention, even if a part of the low ventilation structure is constituted by the front cushion layer, the gap between the front cushion layer and the cover that covers the back cushion layer from the outer peripheral side is formed. It can be properly covered with a low-breathing cross-linking material.

  The fifth invention is the following structure in the fourth invention described above. That is, the cross-linking material is disposed in a form interposed between the front-side cushion layer and the back-side cushion layer.

  According to the fifth aspect of the present invention, the cross-linking material is appropriately applied to the front-side cushion layer by sandwiching the cross-linking material between the front-side cushion layer and the back-side cushion layer, and by the close-contact action of the front-side cushion layer. It can be set as the state bridge | crosslinked to.

  The sixth invention is the following configuration in the above-described fourth or fifth invention. That is, the cross-linking material is connected to the cover so as to be integrated with the cover.

  According to the sixth invention, the cross-linking material can be appropriately cross-linked to the cover.

  A seventh invention has the following configuration in any of the fourth to sixth inventions described above. That is, the cross-linking material is formed of a flexible planar member that is in surface contact with the cushion layer on the front side and is bent by the elasticity of the cushion.

  According to the seventh aspect of the invention, even if a cross-linking material is set, the cushioning property of the mattress is less likely to be inhibited, so that the mattress comfort can be maintained well.

3 is a perspective view illustrating a schematic configuration of a bed according to Embodiment 1. FIG. It is a top view of a bed. It is the III-III sectional view taken on the line of FIG.

  EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated using drawing.

<About the general configuration of the bed 1>
First, the configuration of the bed 1 according to the first embodiment will be described with reference to FIGS. The bed 1 of this embodiment is installed on a floor board F and a mattress 10 that elastically supports a resting person, three fans 20 installed on the bottom surface of the mattress 10, as shown in FIGS. 1 to 3. And a base plate 30 that supports the mattress 10 from below.

  As shown in FIGS. 1 to 2, the mattress 10 described above is configured to have a width and a length that can support a general body resting person. Further, as shown in FIG. 3, each of the three fans 20 is assembled and fixed from above in a through hole 31 formed in the base plate 30, and an intake port 20A formed on the upper surface thereof. Are connected to the corresponding connection ports 15A formed in the bottom surface of the mattress 10 from the lower side so as to be connected to the ventilation path in the mattress 10 so as to allow ventilation.

  The base plate 30 is installed on the floor plate F in a state of being raised through a bottom raising material (not shown). The base plate 30 secures an installation space for the fans 20 to be assembled in the form of projecting to the bottom side by the raised installation, and is discharged from each fan 20 through the raised space. The wind can be discharged to the outside. The above-described assembly of the base plate 30 onto the floor plate F and the assembly of each fan 20 to the base plate 30 are performed by bolt fastening.

  The bed 1 described above causes the outside air to be drawn into the mattress 10 from the support surface side region 10A that elastically supports the rest of the mattress 10 by operating the three fans 20 described above. It is designed to improve the comfort of use. Specifically, in the above-described bed 1, when air conditioning air (not shown) is supplied into the installation room, the above-described conditioned air is supported by the rest of the mattress 10 by the operation of the three fans 20. It can be drawn into the mattress 10 from the surface side area 10 </ b> A so that conditioned air can be effectively applied to a resting person or the surface temperature of the mattress 10 can be adjusted comfortably. Further, even if the conditioned air is not supplied into the installation room of the bed 1, the operation of the three fans 20 causes the outside air to flow along the surface of the resting person's body or the inside of the mattress 10. The use comfort of the mattress 10 can be improved by taking outside air into the ventilator and ventilating it.

<About the structure of the mattress 10>
The above-described mattress 10 is capable of efficiently sucking outside air from a wide range of the support surface side region 10A in a uniform and leak-free manner by operating the three fans 20 described above. . Hereinafter, specific configurations of the mattress 10 and the fans 20 described above will be described in detail. First, the configuration of the mattress 10 will be described. The mattress 10 includes a planar surface cover 11, a flat slab urethane 12, a planar inner cloth 13 cut into a substantially square frame shape, and a mat-type mesh that is thicker than the slab urethane 12. It is comprised by the laminated structure assembled | attached in the form where the shape cushion 14 and the planar back layer cover 15 are piled up in the height direction.

  Here, the slab urethane 12 corresponds to the “front cushion layer” and the “part of the low ventilation structure” of the present invention. Further, the inner cloth 13 corresponds to the “crosslinking material” and the “low ventilation structure” of the present invention. The mesh cushion 14 corresponds to the “cushion” and “back cushion layer” of the present invention. Further, the back layer cover 15 corresponds to the “cover” and “low ventilation structure” of the present invention.

  The above-described planar surface cover 11 has a flexible planar configuration formed by weaving synthetic fibers such as polyester resin into a mesh shape, and can almost circulate air inside and outside the entire area. It has a full ventilation structure with uniform ventilation. The said surface layer cover 11 is set as the structure which covers the state which covered the upper surface whole area of the slab urethane 12, and the whole surrounding side surface from the outer peripheral side, respectively. With the above configuration, the surface cover 11 is configured to form the skin of the support surface side region 10A of the mattress 10 and the upper side region of the peripheral side surface. The surface layer cover 11 has a peripheral edge portion sewn with a peripheral edge portion of the back layer cover 15 and is connected to the back layer cover 15 in a bag shape (stitched portion 10B).

  The slab urethane 12 is formed by free-foaming polyurethane resin and cutting it into a flat plate shape. The slab urethane 12 itself has a low ventilation structure that hardly allows air to pass through. However, the slab urethane 12 is formed with round hole-shaped air holes 12 </ b> A penetrating in the plate thickness direction (height direction) at various places. With the formation of the air holes 12A, the slab urethane 12 is configured such that air can be locally circulated in the height direction from the portion where the air holes 12A are formed.

  The inner cloth 13 has a flexible surface-like structure formed by weaving synthetic fibers such as polyester resin into a flat continuous shape, and has a non-ventilated structure that hardly allows air to pass through the entire area. Yes. The inner cloth 13 has a lateral width and length that is slightly larger than the slab urethane 12 in the outer diameter, and a lateral width and length that is slightly smaller in inner diameter than the slab urethane 12 in the center. It is formed by being cut into a square frame shape having a shape.

  The above-described inner cloth 13 is interposed and assembled so as to be sandwiched between outer peripheral edges of the slab urethane 12 and the mesh cushion 14 described above. Then, the outer peripheral edge portion of the inner cloth 13 is stitched with the peripheral edge portion of the non-ventilated back layer cover 15 that is put on the outer peripheral portion of the mesh cushion 14 so that the inner cloth 13 is connected to the back layer cover 15. The slab urethane 12 and the back cover 15 are cross-linked by being connected (the stitched portion 10B). By the above assembly, the inner cloth 13 is moved from the surface layer cover 11 that covers the peripheral side surface of the slab urethane 12 by the operation of the three fans 20 described above, and external air is between the peripheral side surface of the slab urethane 12 and the back layer cover 15. It functions as a sealing material that suppresses suction toward the mesh cushion 14 through the gap 10C.

  The mesh cushion 14 is formed by intertwining synthetic fibers, such as polyethylene resin, into a three-dimensional mesh shape, and has a completely ventilated structure with substantially uniform air permeability that allows air to flow inside and outside in the entire area. Has been. The mesh cushion 14 is configured to be entangled with the three-dimensional mesh shape so that the body pressure of the rest received through the slab urethane 12 can be widely dispersed and elastically received. The mesh cushion 14 has a mat-like shape having substantially the same width and length as the slab urethane 12 described above, and is assembled with the slab urethane 12 stacked in a slender shape in the height direction. Has been.

  The back layer cover 15 has a flexible surface-like structure formed by weaving synthetic fibers such as polyester resin in a continuous form in the same manner as the inner cloth 13 described above, and almost all of the air is covered in the entire area. It is a non-ventilated configuration that does not pass. The back layer cover 15 is put in a state of covering the entire area of the bottom surface of the mesh cushion 14 and the entire area of the peripheral side surface from the outer peripheral side while being sewn together in a bag shape with the surface layer cover 11 described above. It is configured. With the above configuration, the back layer cover 15 is configured to form the skin of the bottom side region of the mattress 10 and the lower side region of the peripheral side surface. In three regions corresponding to the respective locations to which the three fans 20 described above are connected in the region of the back cover 15 that covers the bottom surface of the mesh cushion 14, there are connection holes that penetrate each other in a round hole shape. 15A is formed in an open shape.

  The mattress 10 described above is configured by assembling the above-described constituent members as follows. That is, the slab urethane 12 described above is assembled in a state of being laminated on the upper layer portion of the mesh cushion 14. Then, with respect to the two-layer cushion structure comprising the assembled slab urethane 12 and the mesh cushion 14, the above-described surface cover 11 and the back cover 15 are formed into a bag shape with the intermediate cloth 13 interposed therebetween. Put the stitches together. At this time, the above-described inner cloth 13 is assembled so as to be sandwiched between the slab urethane 12 and the mesh cushion 14. As a result, the inner cloth 13 is in a state of being bridged over the entire circumference between the slab urethane 12 and the back layer cover 15, and the self-weight action of the slab urethane 12 and the tension between the surface layer cover 11 and the back layer cover 15. Due to the tension, the slab urethane 12 and the mesh cushion 14 are held in a pressed state.

  The mattress 10 assembled as described above is a resting person lying on the mattress 10 by the elastic force exerted by the surface layer cover 11, the slab urethane 12, and the mesh cushion 14 facing the support surface side region 10A. The body can be elastically supported. In addition, as described above, the mattress 10 assembled as described above has a surface layer cover 11 with a full ventilation structure, a slab urethane 12 with a low ventilation structure, a mesh cushion 14 with a full ventilation structure, and a non-venting structure. The back layer cover 15 is laminated in the form of being arranged in the height direction, and the entire ventilation structure and the low ventilation structure are mixed and laminated. However, even if the mattress 10 has such a configuration, the surface cover 11, the slab urethane 12, and the mesh cushion 14 are mutually aired by the air holes 12 </ b> A opened in the slab urethane 12 having a low ventilation structure. It is set as the structure connected in the form which can be distributed.

  Specifically, the mattress 10 includes the above-described mesh cushion 14 having a completely ventilated structure and a bottom layer cover 15 having a non-ventilated structure. The entire upper surface is covered with a slab urethane 12 having a low ventilation structure, and a gap 10C between the peripheral side surface of the slab urethane 12 and the back layer cover 15 is formed in the non-ventilated structure. It is set as the structure sealed by the cloth 13 over the perimeter area. With this configuration, the mattress 10 communicates with the air holes 12A of the slab urethane 12 by applying suction pressure from the fans 20 to the connection ports 15A formed on the bottom surface of the mattress 10. External air is sucked from the surface cover 11 to be sucked, and external air is sucked into the respective fans 20 through the respective vent holes 12A and the mesh cushion 14 of the entire vent structure.

<About the structure of the fan 20>
Each of the three fans 20 is constituted by a so-called centrifugal blower. Each of the three fans 20 is formed in a substantially disk shape whose axial direction is directed in the height direction, and an intake port 20A is formed in an upper surface portion thereof, and an exhaust port 20B is formed on a peripheral side surface. It is the structure formed by opening. The above three fans 20 are fastened by screwing a metal mounting top plate 21 having a rectangular plate shape slightly larger than the above to the upper surface portion of the three fans 20. The plate 30 is fixed to the plate 30 by being screwed integrally.

  Specifically, each of the three fans 20 is inserted into the through holes 31 formed in the base plate 30 from above, so that the mounting top plates 21 attached to the upper surface portions of the three fans 20 are the bases. It is applied to the plate 30 and locked. The three fans 20 are assembled in a state of being integrally fastened to the base plate 30 by fastening each of the locked mounting top plates 21 on the base plate 30 with screws. It has been. As a result of the above assembly, the three fans 20 have their respective air inlets 20A formed on the upper surface thereof opened upward from the round holes 21A formed in the center of each mounting top plate 21, respectively. Each exhaust port 20 </ b> B formed on the peripheral side surface is assembled in a state of opening to the side side at a position protruding to the bottom side of each base plate 30.

  The three fans 20 are assembled to the base plate 30 as described above, and then assembled in such a manner that the mattress 10 is placed on the upper surface portion of the base plate 30, so that the air intake opening opened above them. 20A is connected to the corresponding connection port 15A formed on the bottom surface portion of the mattress 10 described above and connected in communication. With the above assembly, the suction pressure accompanying the operation of each fan 20 is applied to the inside of the mattress 10 from each connection port 15A connected to each intake port 20A. The suction pressure causes a flow in which outside air is drawn into the mattress 10 from the support surface side region 10 </ b> A of the mattress 10. Each fan 20 that generates the above-described suction pressure has each exhaust that opens to the side at a position where the air in the mattress 10 sucked from each of the above-described intake ports 20A protrudes to the bottom side of the base plate 30. The water is discharged from the mouth 20B and discharged to the outside through the space between the base plate 30 and the floor plate F.

  By the way, as shown in FIG. 2, each of the three fans 20 described above is disposed in a region immediately below the body of the rest. Specifically, two of the three fans 20 described above are arranged side by side so that two of them are located directly below the left and right shoulder blades of the rest, and the other one is generally resting. It is arrange | positioned so that it may be located just under a person's abdomen. Since each fan 20 is arranged in this manner, the two fans 20 arranged side by side effectively apply suction pressure to the region on the wide side of the body of the rest. By acting, the comfort of use of the mattress 10 can be appropriately improved. In addition, even with the remaining one fan 20, the fan 20 is disposed in the lower half side region which is the narrower side of the resting person's body, so that suction pressure is effectively applied to this region, The use comfort of the mattress 10 can be improved appropriately.

  Moreover, in order to further improve the comfort of use of the mattress 10 more appropriately, the magnitudes of the outputs of the three fans 20 are set as follows. That is, the two fans 20 arranged side by side immediately below the left and right scapulas of the resting person are arranged at positions relatively close to the ears of the resting person. As compared with the other fan 20 arranged on the side, the output is set to be suppressed and the operation sound is set to be low. Thus, even if the output is suppressed, the area where the suction pressure is exerted is widened by arranging the two fans 20 so as to be separated from each other side by side, so that the mattress 10 can be used. It is designed to improve comfort appropriately.

  In addition, the remaining one fan 20 disposed immediately below the abdomen is configured to have a higher output than the two fans 20, and the operating noise is slightly larger than that of the two fans 20. Although it is, it is set as the structure which can exhibit a high suction pressure. Since the one fan 20 is disposed at a position relatively far from the ears of the rest, there is little possibility that the rest will be uncomfortable even if the operation noise is large as described above. Even with the two fans 20, the comfort of use of the mattress 10 can be appropriately improved by exhibiting a high suction pressure. Due to the suction pressure exerted by each fan 20 described above, external air is sucked into the mattress 10 described above from the support surface side region 10A in the above-described manner and appropriately distributed.

<About the arrangement relationship between the fan 20 and the vent hole 12A>
Here, the respective vent holes 12A formed in the slab urethane 12 are disposed and formed in areas outside the areas directly above the intake ports 20A of the three fans 20 described above. Specifically, as shown in FIG. 2, each of the air holes 12 </ b> A has left and right sides in areas that are respectively separated in the lateral width direction and the length direction from the area immediately above the air inlet 20 </ b> A of each fan 20. They are arranged and formed in a symmetrical distribution. By arranging the air holes 12A in this way, the suction pressure applied to the air holes 12A by the operation of the fans 20 is not excessively applied to the specific air holes 12A. The air holes 12A are hung in a shape that is less likely to cause unevenness.

  That is, when a part of each air hole 12A is formed in the region directly above the intake port 20A of each fan 20, the suction pressure due to the operation of each fan 20 is in the region directly above each intake port 20A. Since it is easy to be applied to the object, a strong intake airflow is locally generated in the vent hole 12A in the region immediately above each intake port 20A, and the suction pressure applied to the other vent holes 12A is weakened. It will be. However, as described above, the air holes 12A are arranged and formed in a symmetrical distribution in the regions that are separated from the region directly above the intake port 20A of each fan 20 in the horizontal width direction and the length direction, respectively. Therefore, the suction pressure applied to each air vent 12A by the operation of each fan 20 is strongly applied to the whole in a form in which unevenness does not occur over all the air holes 12A.

<Summary>
In summary, the bed 1 of the present embodiment has the following configuration. That is, the bed 1 includes a mattress 10 that elastically supports a resting person. The mattress 10 has a breathable cushion (mesh-like cushion 14) and a cushion (mesh-like cushion 14) that allows air to flow inside and outside in a partial area of the outer peripheral area (area facing each vent 12A of the slab urethane 12). A low ventilation structure in which the other region is configured to have a lower air permeability than the above-mentioned one region so as to circulate (the mesh cushion 14 constituted by the back layer cover 15, the slab urethane 12 and the inner cloth 13 is formed from the outer peripheral side. Covering structure). The bed 1 further has a fan 20 connected to a ventilation path in a cushion (mesh cushion 14) so as to be able to ventilate, and a part of the cushion (mesh cushion 14) (slab urethane) by the operation of the fan 20. The air is circulated inside and outside from the twelve vent holes 12A), and the air is passed through the cushion (mesh cushion 14).

  In this manner, by providing the mattress 10 with the fan 20 that allows air to flow inside and outside the cushion (mesh cushion 14), the heat trapped in the mattress 10 can be released to the outside, or external conditioned air can be discharged to the mattress 10 The temperature of the mattress 10 can be adjusted by taking it into the inside. Thereby, the use comfort of the bed 1 can be improved.

  Specifically, a part of the cushion (mesh cushion 14) in which air is circulated inside and outside (a region facing each air hole 12A of the slab urethane 12) is a support surface side that elastically supports a rester of the mattress 10. It is set in the area 10A. With such a configuration, the comfort of use of the bed 1 can be improved more effectively by passing the area directly touched by the rest of the mattress 10.

  In detail, the said cushion is comprised by the cushion layer (slab urethane 12 and mesh-shaped cushion 14) provided with the air permeability from which front and back two layers differ. The front side cushion layer (slab urethane 12) has a lower air permeability than the back side cushion layer (mesh cushion 14), and air vents 12A are provided to allow air to flow inside and outside. As a configuration, a part of the low ventilation structure is configured. In this way, by configuring the low ventilation structure with the cushion layer (slab urethane 12) on the front side, it is possible to rationally obtain a configuration in which the other region is made to have low ventilation while improving the cushioning property of the mattress 10. .

  Further, the low ventilation structure includes a cover (back layer cover 15) that covers the back cushion layer (mesh-like cushion 14) from the outer periphery side by a structure having lower air permeability than this, and a cover (back layer cover 15) and low ventilation. A cross-linked material (saddle cloth 13) that is cross-linked with a cushion layer on the front side (slab urethane 12) configured as a part of the structure in a structure having a lower air permeability than the cushion layer on the back side (mesh cushion 14) And it is set as the structure which has. As described above, even if a part of the low ventilation structure is constituted by the front side cushion layer (slab urethane 12), the front side cushion layer (slab urethane 12) and the back side cushion layer (mesh cushion 14) The gap 10 </ b> C between the cover (back layer cover 15) covered from the side can be appropriately covered with a low-breathing cross-linking material (inner cloth 13).

  Further, the cross-linking material (inner cloth 13) is disposed in a form interposed between the front cushion layer (slab urethane 12) and the back cushion layer (mesh cushion 14). With this configuration, the cross-linking material (inner cloth 13) is sandwiched between the front cushion layer (slab urethane 12) and the back cushion layer (mesh cushion 14), so that the front cushion layer The cross-linking material (inner cloth 13) can be appropriately cross-linked to the front-side cushion layer (slab urethane 12) by the close-contacting action of the (slab urethane 12) by its own weight or the like.

  Further, the cross-linking material (inner cloth 13) is connected to the cover (back layer cover 15) integrally and continuously. With such a configuration, the cross-linking material (inner cloth 13) can be appropriately cross-linked to the cover (back layer cover 15).

  Further, the cross-linking material (inner cloth 13) is formed by a flexible planar member that is in surface contact with the front cushion layer (slab urethane 12) and is bent by the elasticity of the cushion (slab urethane 12 or mesh cushion 14). Has been. With such a configuration, even if a cross-linking material (inner cloth 13) is set, the cushioning property of the mattress 10 is hardly hindered, so that the comfort of the mattress 10 can be maintained well.

  In the present embodiment, an intake-type configuration in which external air is sucked into the mattress 10 by the operation of each fan 20 is shown, but an exhaust-type configuration in which each fan 20 is operated in reverse. It is good also as a structure. In the present embodiment, the air sucked from the mattress 10 to each fan 20 and discharged to the outside is shown to be discharged to the outside. However, the air discharged from each fan 20 to the outside is circulated indoors. May be. That is, each fan 20 may supply and exhaust air between the mattress 10 and the outside, or may supply and exhaust air between the mattress 10 and the room. In addition to the so-called centrifugal blower, various types of blowers such as an axial flow blower and a cross flow blower can be applied to each fan 20.

<About other embodiments>
As mentioned above, although the embodiment of the present invention has been described using one example, the present invention can be implemented in various forms in addition to the above example. For example, the “bed” of the present invention may be a bed provided for a vehicle such as an automobile, a railway, an aircraft, and a ship, in addition to a bed as furniture.

  In addition, the low ventilation structure allows the ventilation of the other area more than the partial area so that air is circulated inside and outside the partial area of the outer peripheral area by making a partial ventilation hole in the low ventilation cushion. It may be configured as “a configuration with low characteristics”. That is, the low ventilation structure may be configured by covering the cushion with some skin material having lower air permeability than the cushion, or may be configured by the cushion itself. In addition, the low ventilation structure may be configured by any adjacent member such as an indoor wall material or floor material adjacent to the cushion.

  In addition to the fan installed on the bottom surface of the mattress, the fan may be installed on the peripheral side surface of the mattress, installed in a position away from the mattress and installed in the cushion via a duct such as a duct. It may be connected to the ventilation path of so that ventilation is possible.

  Moreover, the partial area | region where the air of a cushion distribute | circulates inside and outside may be set to areas other than the support surface side area | region which elastically supports a resting person, such as the surrounding side surface and bottom face of a mattress. Even if a region where air is circulated inside and outside of the region other than the support surface side region is not able to apply conditioned air to a resting person, outside air is taken into the interior of the mattress for ventilation or warming. To improve the comfort of using the mattress.

  Further, the mattress cushion may have a single layer configuration. Specifically, the cushion has a structural characteristic that can elastically support a resting person, such as a cushion body made of low ventilation such as slab urethane with a vent hole or a mesh cushion with full ventilation. What consists of various structures provided can be applied. In the case where the cushion is constituted by two cushion layers having different breathability, the front cushion layer may have a higher breathability than the back cushion layer. Needless to say, the cushion may be formed by laminating cushion layers having the same breathability.

  In addition, a low-breathing cover that covers the cushion layer on the back side from the outer peripheral side, and a low-breathing bridging material that is bridged between the cover and the front-side cushion layer that is configured as a part of the low-breathing structure, are acceptable. It is not limited to a flexible planar member, and may be a relatively hard member such as a resin plate. However, if the cross-linking material is made of a hard material, it may be easier for the rester to feel a foreign object or worsen the comfort when the rester sits or lies on the mattress. Therefore, attention must be paid. Further, the cross-linking material is not formed by being connected to the cover, but may be formed by the cover itself. Further, the cross-linking material may be provided so as to be applied not to the back layer side of the front cushion layer but to the surface layer side.

1 bed 10 mattress 10A support surface side area 10B stitching portion 10C gap 11 surface layer cover 12 slab urethane (front cushion layer, part of low ventilation structure)
12A Ventilation hole 13 Filling cloth (crosslinking material, low ventilation structure)
14 Mesh cushion (cushion, back cushion layer)
15 Back layer cover (cover, low ventilation structure)
15A Connection port 20 Fan 20A Intake port 20B Exhaust port 21 Mounting top plate 21A Round hole 30 Base plate 31 Through hole F Floor plate

Claims (7)

A bed with a mattress that elastically supports a rest,
The mattress includes a cushion having air permeability, and a low ventilation structure in which the other region is configured to have a lower air permeability than the partial region so that air is circulated inside and outside the partial region of the outer peripheral region. Have
Furthermore, it has a fan connected to the ventilation path in the cushion so as to allow ventilation, and air is circulated from the inside and outside of the cushion by the operation of the fan so that the air is passed through the cushion. Bed that is. The bed according to claim 1,
The bed in which the partial area where the air of the cushion is circulated inside and outside is set as a support surface side area that elastically supports a rester of the mattress. The bed according to claim 1 or 2, wherein
The cushion is constituted by two cushion layers having different breathability on the front and back sides, the cushion layer on the front side has a lower breathability than the cushion layer on the back side, and air is circulated inside and outside. A bed constituting a part of the low ventilation structure as a structure in which pores are formed. The bed according to claim 3,
The low air-permeable structure covers the cushion layer on the back side from the outer peripheral side with a structure having lower air permeability than this, and between the cover and the cushion layer on the front side configured as a part of the low air-permeable structure And a cross-linking material that is cross-linked with a structure having a lower air permeability than the cushion layer on the back side. The bed according to claim 4,
A bed in which the cross-linking material is disposed between the front cushion layer and the back cushion layer. The bed according to claim 4 or claim 5, wherein
A bed in which the bridging material is connected to the cover in a continuous form. The bed according to any one of claims 4 to 6,
The bed in which the bridging material is formed by a flexible planar member that is in surface contact with the cushion layer on the front side and is bent by the elasticity of the cushion.

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