JPWO2016051831A1 - cushion - Google Patents

Abstract

The movement of the fluid when the weight is applied to the cushion (10) is made to follow the arbitrary flow path, so that the hardness felt by the user varies depending on each part of the body. The cushion (10) was comprised with the cushion main body (11) and the air (a) enclosed inside the cushion main body (11). The cushion main body (11) is formed with a plurality of accommodating portions (11a) arranged on the front, rear, left and right sides, and a plurality of communication passages (11b, 11c) communicating the adjacent accommodating portions of the plurality of accommodating portions (11a). It was comprised with the flat bag-shaped film provided with the flexibility, and air a was enabled to move between several accommodating parts (11a) via a communicating path (11b, 11c). Then, the air (a) in the plurality of communication passages (11b, 11c) has different cross-sectional areas when passing, and when the user's weight is applied, the air (a) is along a certain flow path. Moved.

Description

  The present invention relates to a cushion in which a fluid is contained in a movable state inside a cushion body.

  Conventionally, for example, in a chair, a sofa, a bed, etc., in order to obtain a comfortable cushioning property, a cushion filled with a fluid is sometimes used (for example, see Patent Document 1). This cushion has a shoulder pad and a waist pad, and is a water cushion for a backrest that is configured to fit the shoulder and waist. It is divided into rooms. An elastic cushion covering the shoulder pad and the waist pad is disposed on the front surface of the substrate on which the shoulder pad and the waist pad are disposed, and the surface thereof is covered with a skin material. Since it comprised in this way, in this cushion, the movement of the water inside a shoulder pad and a waist pad is controlled, and the cushioning property suitable for a backrest is obtained.

JP 2010-263966 A

  However, in this cushion, a plurality of chambers and weir bodies are formed irregularly, and the weir bodies are scattered inside the chamber, so that a user can ride on the cushion or a user on the cushion. It is difficult for water to move in an arbitrary flow path when the posture is changed.

  The present invention has been made to address the above-described problems, and its purpose is to make the movement of the fluid when the body weight is loaded follow an arbitrary flow path, thereby making the hardness felt by the user. It is to provide a cushion that can have different (softness) depending on each part of the body. In the description of each constituent element of the present invention below, the reference numerals of corresponding portions of the embodiment are shown in parentheses in order to facilitate understanding of the present invention. The present invention should not be construed as being limited to the configurations of the corresponding portions indicated by the reference numerals of the forms.

  In order to achieve the above-described object, the structural feature of the cushion according to the present invention is that the plurality of storage portions (11a, 21a) arranged in the front, rear, left, and right and the storage portions adjacent to each other of the plurality of storage portions communicate with each other. A cushion main body (11, 21) made of a flexible flat bag-like film formed with a plurality of communication paths (11b, 11c, 21b, 21c), and enclosed in the cushion main body, And a cushion (10, 20, 30) having fluid (a) that can move between a plurality of accommodating portions via a cross-sectional area when the fluid passes through the plurality of communication passages is different from each other. Thus, when the user's weight (W) is applied, the fluid moves along a certain flow path.

  In the cushion, when a load is applied to a predetermined portion, the pressure in the cushion body becomes non-uniform, so that the fluid in the cushion body moves so that the pressure in the cushion body becomes uniform. For this reason, when a load is applied to the cushion, a fluid flow path is generated in the cushion body. In the cushion according to the present invention, the cross-sectional areas when the fluid passes through the plurality of communication passages are different from each other, and the amounts of fluid passing through the plurality of communication passages are different. According to this, when a person's weight is applied to the cushion, each part deforms quickly because the flow resistance is small and the fluid moves fast, and deforms slowly because the flow resistance is large and the fluid moves slowly. The part is divided into a part in which the fluid resistance is in the middle and the fluid moving speed and the deformation speed are in the middle.

  And most of the moving fluid comes along a certain flow path. For example, when a certain accommodating portion communicates with another accommodating portion via a communication passage having a large cross-sectional area and communicates with another accommodating portion via a communicating passage having a small cross-sectional area, the certain accommodating portion described above. When a load is applied to the fluid, the fluid inside thereof is likely to move from the communication passage having a large cross-sectional area to another housing portion, but is difficult to move from the communication passage having a small cross-sectional area to another housing portion. . Such a situation occurs in a chain, and a constant flow path is generated. At that time, the cushion user feels that the hardness of each part is different, such that the part where the fluid moves fast feels soft, and the part where the fluid moves slowly feels hard, along the fluid flow path. Gradually, changes in hardness can be felt from soft parts to hard parts.

  For this reason, by setting the cross-sectional area when the fluid passes through the communication path so that each part has an arbitrary hardness, a cushion having each part having an appropriate hardness according to the body part is obtained. be able to. That is, by promoting or suppressing the movement of the fluid in a specific direction, it is possible to give anisotropy to the movement of the fluid, thereby controlling the flow direction and order of the fluid. Also, when the body moves on the cushion, the fluid moves following the movement of the body, and when the body is separated from the cushion, the cushion is restored to the original state. In the present invention, the flow path extending linearly may be formed by making the cross-sectional area of the communication path located around the assumed flow path smaller than the cross-sectional area of the other communication path, A plurality of regions may be set, and the cross-sectional area of the communication path may be changed for each region.

  In a flexible communication path, the cross-sectional area becomes “0” when the communication path is closed, but when the fluid passes, the communication path widens to have a predetermined cross-sectional area, and the cross-sectional area is reduced. When the area is maximum, the cross-sectional shape is close to a circle. In the present invention, the cross-sectional area when the fluid in the communication passage passes assumes that the cross-sectional area is maximum. In the present invention, the amount of fluid passage may be different by changing the width of each communication passage so that the cross-sectional area of the flow path through which the fluid passes is different. The amount of fluid passing may be changed by providing an object, a weir, or the like through which the fluid can pass inside. Furthermore, in the present invention, all the adjacent accommodating portions may be communicated with each other through the communication path, or only a part of the adjacent accommodating portions may be communicated with each other through the communication path. In addition, air or water is preferably used as the fluid.

  Another structural feature of the cushion according to the present invention is that a plurality of housing portions are communicated with a large passage region including a housing portion communicated with a communication passage having a large cross-sectional area, and a communication passage having a small cross-sectional area. The main flow path of the fluid when the user's weight is applied to the central portion of the cushion is the flow path from the large path area to the small path area when the weight of the user is applied to the central portion of the cushion. It is in that.

  According to the present invention, when a person's weight is applied to the central portion of the cushion, most of the fluid that moves moves along the constant flow path from the Dalian passage area to the small passage area. Gradually, a change in hardness is surely felt from a soft region to a hard region. For this reason, for example, when the cushion is used for sitting, a high-quality feeling that the body sinks into a soft sofa and a sense of stability that surrounds and holds the buttocks are obtained. In the present invention, the region is a large continuous passage region and a small continuous passage region, but an intermediate region may be provided. In this case, the fluid flow path is a flow path that advances from the Dalian passage area to the small passage area via the intermediate area. In the present invention, the central portion of the cushion is a portion to which the largest load is applied when the user uses the cushion, and may be displaced from the center in terms of position.

  Still another structural feature of the cushion according to the present invention is that it is used for sitting, and when the weight of the user is applied to the central portion, the main flow path of the fluid starts from the central portion (A) of the cushion body. The flow path is directed from the both side parts (C1, C2) to the front part (D) after going to the rear part (B).

  In the present invention, the cushion is used for sitting, that is, installed on a seating surface of a chair, a sofa or the like. When the user is seated, the heel portion is positioned at the central portion of the cushion and the thigh portion is positioned at the front central portion. For this reason, the fluid in the cushion flows from the part corresponding to the collar part to the rear of the collar part, and moves from both sides of the collar part to the front part along the outside of the thigh part. According to this, since the fluid slowly moves in the flow path described above, the thigh portion is not compressed immediately after sitting, and a comfortable seating becomes possible.

  Still another structural feature of the cushion according to the present invention is that a porous elastic member (14, 24) is installed inside the cushion body.

  In the present invention, by installing a porous elastic member inside the cushion body, the cushioning property of each housing part can be further enhanced, and the deformation of each housing part becomes gradual, and the sitting comfort suitable for the cushion is achieved. Occurs. That is, when the housing portion is recessed due to the weight load on the cushion, moderate elasticity can be given, and when the housing portion is restored to its original shape, it is reliably restored by the elasticity of the elastic member. It becomes like this.

  Still another structural feature of the cushion according to the present invention is that the fluid injection pump (31) and the fluid discharge valve (33) are connected to the cushion body so that the pressure of the fluid in the cushion body can be adjusted. There is.

  In the cushion according to the present invention, since the fluid injection pump and the fluid discharge valve are connected to the cushion body, the pressure of the fluid in the cushion body can be set to an arbitrary value so as to have an arbitrary hardness. it can. The tension of the cushion body varies depending on the temperature and atmospheric pressure, but the cushion according to the present invention can adjust the pressure of the fluid in the cushion body, so that it can be used in an optimum state regardless of the place and the season. .

It is the top view which showed a part of cushion based on 1st Embodiment of this invention. It is 2-2 sectional drawing of FIG. The lower sheet | seat of the cushion main body is shown, (a) is a top view, (b) is a front view. It is the perspective view which showed the upper sheet | seat of the cushion main body. The elastic member is shown, (a) is a top view, (b) is bb sectional drawing of (a), (c) is cc sectional drawing of (a). It is the perspective view which showed the elastic member. It is explanatory drawing which showed the use condition of the cushion. It is the top view which showed the outline of the cushion which concerns on 2nd Embodiment of this invention. It is the top view which showed a part of cushion based on 2nd Embodiment of this invention.

(First embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. 1 and 2 show a part of the cushion 10 according to the embodiment. The cushion 10 is formed in a flat shape having a square shape in plan view and an uneven upper surface. The cushion 10 houses an elastic member 14 in a substantially bag-shaped cushion body 11 and encloses air a. Configured. The cushion main body 11 is formed by joining predetermined portions of a lower sheet 12 and an upper sheet 13 both made of EVA (ethylene-vinyl acetate copolymer) film. The lower sheet 12 is a planar square sheet as shown in FIGS. As shown in FIG. 4, the upper sheet 13 is composed of an uneven sheet in which a plurality of dome-shaped accommodation protrusions 13 a that protrude upward are formed side by side in the front-rear and left-right directions.

  In addition, a communication protrusion 13b that rises upward so that the lower surface side becomes a space and communicates with the two storage protrusions 13a is formed between the two front and rear adjacent storage protrusions 13a in the upper sheet 13, respectively. Between the two accommodating protrusions 13a adjacent to each other, a communicating protrusion 13c is formed so as to rise upward so that the lower surface side becomes a space and communicate with the two accommodating protrusions 13a. The left and right widths of the communication protrusion 13b are wider than the front and rear widths of the communication protrusion 13c. A portion of the upper sheet 13 other than the portion where the accommodating protrusion 13 a and the communication protrusions 13 b and 13 c are formed is a flat surface, and the flat surface portion is joined to the lower sheet 12. And the accommodating part 11a is comprised in the part enclosed by each accommodating protrusion 13a and the lower sheet | seat 12, and the communication path 11b, 11c is comprised in the part enclosed by each communicating protrusion 13b, 13c and the lower sheet | seat 12. Yes.

The lower sheet 12 and the upper sheet 13 are both set to have a front and rear length of 553 mm, a left and right length of 506 mm, and a thickness of 0.5 mm. Moreover, the diameter of the accommodating part 11a and the length between the centers of two adjacent accommodating parts 11a are each set to 50 mm. That is, if the communication passages 11b and 11c are not formed, the outer peripheral portions of the two adjacent storage portions 11a are in contact with each other, but by forming the communication passages 11b and 11c, the two adjacent storage portions 11a are connected to the communication passages 11b and 11c. Depending on the width of the. The communication passage 11b has a width in the left-right direction of 20 mm and a cross-sectional area of 120 mm ² , and the communication passage 11c has a width in the front-rear direction of 10 mm and a cross-sectional area of 60 mm ² .

  The elastic member 14 is composed of a molded body made of porous urethane, and as shown in FIGS. 5A to 5C and FIG. It is comprised by the connection part 14c which connects the two elastic parts 14a which connect the two elastic parts 14a which adjoin the part 14a, the two elastic parts 14a adjacent to the front and back. The front and rear and left and right lengths of the elastic member 14 are each set to 498 mm. The elastic portion 14a has a diameter of 48 mm and a height of 19 mm, and the length between the centers of two adjacent elastic portions 14a is set to 50 mm. The connecting portion 14b is set to be slightly smaller than the communication path 11b, and the connecting portion 14c is set to be slightly smaller than the communication path 11c. Further, the entire elastic member 14 is formed substantially uniformly, and its porosity is 40%. In addition, the porosity of the elastic member 14 can be changed in the range of 30 to 90%.

  The elastic member 14 has the elastic portion 14a in the housing projection 13a, the coupling portion 14b in the communication projection 13b, and the coupling portion 14c in the communication projection 13c. It arrange | positions between the sheets 13, and is accommodated in the cushion main body 11 in the airtight state by joining the plane part of the upper sheet | seat 13 to the lower sheet | seat 12. FIG. In addition, air a that enters the hole of the elastic member 14 and can enter and exit from the elastic member 14 is also enclosed in the cushion main body 11, thereby maintaining the cushion main body 11 in an appropriately swollen state. Has been. The cushion 10 is formed such that when a part of the cushion 10 is recessed due to the load of the user's weight W (see FIG. 7), the air a in the recessed part moves to the other part. The internal pressure is set so that the user feels comfortable.

  Next, an operating state when using the cushion 10 configured as described above will be described. In this case, the cushion 10 is used by being placed on a portion of the upper surface of the bed or futon where the waist and the buttock are located. First, the cushion 10 before use is in a state where there is no load and the whole is uniformly swelled. When the user lies on the cushion 10, the elastic member 14 is compressed in the vertical direction by its weight, and the air a inside the cushion body 11 moves toward the smaller load while being compressed. At this time, since the cross-sectional area of the communication path 11b is large and the cross-sectional area of the communication path 11c is small, most of the moving air a follows the flow path that passes through the communication path 11b and moves to the front and rear accommodating portions 11a. A small amount of air a follows the flow path that passes through the communication passage 11c and moves to the left and right accommodation portions 11a.

  Due to the compression of the elastic member 14 and the movement of the air a, the portion of the upper surface of the cushion 10 where the user's buttocks H come into contact becomes a curved surface along the shape of the buttocks H as shown in FIG. The contact area between the upper surface of 10 and the flange portion H increases. The cushion 10 in FIG. 7 is a schematic diagram shown for explanation, and is slightly different from the cushion 10 shown in FIGS.

  At this time, the air a in the cushion body 11 is easy to move in the front-rear direction, but difficult to move in the left-right direction. Therefore, when the user tries to move the heel part H in the front-rear direction on the upper surface of the cushion 10, the cushion 10 feels soft, and when the user tries to move the heel part H in the left-right direction, the cushion 10 I feel stiff. Further, when the direction of the cushion 10 is changed so that the front-rear direction in FIG. 1 is directed to the left and right and the left-right direction is directed to the front-rear, the cushion 10 is stiff when trying to move the collar portion H in the front-rear direction. When feeling and moving the heel part H in the left-right direction, the cushion 10 feels soft.

  In the state where the weight W of the user and the total value of the elastic force sf of the elastic member 14 and the pressure af of the air a are balanced, the cushioning property of the cushion 10 is maintained constant, and the cushion 10 Since the contact area with the buttocks H increases and the body pressure is dispersed, the user can sleep comfortably on the bed or the futon. Further, when the user leaves the bed or the futon, the cushion 10 is released from the weight W of the user, the elastic member 14 expands and tries to restore the original state, and the air a in the cushion body 11 is restored. Also moves following the expansion of the elastic member 14. The moving direction of the air a at this time is opposite to the direction when the cushion 10 is compressed by the weight W of the user.

  As described above, in the cushion 10 according to the present embodiment, the cross-sectional area of the communication passage 11b that communicates the front and rear accommodation portions 11a is increased, and the cross-sectional area of the communication passage 11c that communicates the left and right accommodation portions 11a is reduced. Therefore, the air a is easy to move in the region extending in the front-rear direction, and the air a is difficult to move in the region extending in the left-right direction. Accordingly, the user of the cushion 10 feels that the hardness of each region is different, such that the region where the air a is easy to move feels soft and the region where the air a hardly moves feels hard. Therefore, by appropriately setting the cross-sectional areas of the communication passages 11b and 11c so that each region of the cushion 10 has an arbitrary hardness, each region has a cushion corresponding to the body part. 10 can be obtained.

  Further, in the cushion 10 according to the present embodiment, the elastic member 14 is installed inside the cushion body 11, so that the cushioning property can be further improved, and the cushion 10 is gradually deformed, so that the cushion has a high-class feeling. . That is, when the cushion 10 is recessed due to the weight W applied to the cushion 10, moderate elasticity can be imparted, and when the cushion 10 is restored to its original shape, the elasticity of the elastic member 14 is sure. To restore to. Moreover, the elastic member 14 can also be abbreviate | omitted as a modification of this embodiment. This also makes it possible to obtain a cushion that allows the movement of the air a along the arbitrary flow path when the weight W is loaded. Furthermore, as another modification, the elastic member 14 may be configured only by the elastic portion 14a, and the connecting portions 14b and 14c may be omitted.

  Further, the response when the air a moves when a load is applied to the cushion 10 changes depending on the size (width, cross-sectional area) of the communication passages 11b, 11c with respect to the size (diameter, cross-sectional area) of the accommodating portion 11a. By appropriately setting this value, the aforementioned response can be arbitrarily changed. For example, when the diameter of the accommodating portion 11a is DI and the width of the communication passages 11b and 11c is WI, the range of WI / DI is set to 0.5 to 1.0 in order to speed up the response. In a normal case, 0.2 to 0.5, and in a case where a response is delayed, 0.01 to 0.2. Further, when the cross-sectional area of the accommodating portion 11a when viewed from the direction of FIG. 5C is AR and the cross-sectional area of the communication passages 11b and 11c is S, the S / AR range is accelerated. Is set to 0.2 to 1.0, 0.1 to 0.2 for normal response, and 0.01 to 0.1 for slow response.

(Second Embodiment)
FIG. 8 schematically shows a cushion 20 according to the second embodiment of the present invention. The cushion 20 is installed on a seating surface of a chair, a sofa or the like and used for sitting. The cushion 10 is the same as the cushion 10 except that the positions of the communication paths 21b and 21c are different from the communication paths 11b and 11c of the cushion 10 described above. The configuration is substantially the same. Like the cushion 10 described above, the cushion 20 is configured by housing an elastic member 24 and enclosing air a inside a substantially bag-shaped cushion body 21. The cushion body 21 is formed by joining a predetermined portion of a lower sheet (not shown) made of the same material as the cushion body 11 described above and an upper sheet 23.

  The lower sheet is made of a flat rectangular sheet, and the upper sheet 23 is composed of an uneven sheet in which a total of 25 dome-shaped accommodating protrusions 23a projecting upward are formed in each of five rows on the left and right. . Actually, the accommodating protrusions 23a are provided to the same extent as the accommodating protrusions 13a of the cushion 10. However, here, the number is 25 for ease of explanation. In addition, communication protrusions 23b and 23c that protrude upward and communicate with the two storage protrusions 23a are formed between two storage protrusions 23a adjacent to each other in the front, rear, left, and right of the upper seat 23. The width on the left and right of 23b is larger than the width on the front and rear of the communication protrusion 23c.

The communication protrusion 23c includes a left-end storage protrusion 23a and a right-side storage protrusion 23a, a right-end storage protrusion 23a and a left-side storage protrusion 23a, and a left-side storage protrusion 23a. The housing projection 23a and the housing projection 23a on the right side thereof, the housing projection 23a on the right end and the housing projection 23a on the left side thereof, and the second housing projection 23a from the front in the second to fourth rows on the left side and the rear thereof The housing projections 23a communicate with each other. The other two adjacent projections 23a are communicated with each other through a communication projection 23b. The accommodating part 21a is comprised by the part enclosed by each accommodating protrusion 23a and a lower sheet | seat, and the communication path 21b, 21c is comprised by the part enclosed by each communicating protrusion 23b, 23c and a lower sheet | seat. The communication path 21b has a left-right width of 20 mm and a cross-sectional area of 120 mm ^{2. The} communication path 21 c has a front-rear width of 5 mm and a cross-sectional area of 30 mm ² .

  An elastic member 24 made of porous urethane is accommodated in the cushion main body 21 thus configured. The elastic member 24 includes a plurality of substantially hemispherical elastic portions 24a arranged on the front, rear, left, and right sides, and connecting portions 24b and 24c that connect two adjacent elastic portions 24a. The elastic part 24a is formed in a size that can be accommodated in the accommodating part 21a, the connecting part 24b is formed in a size that can be accommodated in the communicating path 21b, and the connecting part 24c is formed in a size that can be accommodated in the communicating path 21c. In addition, air a that enters the hole of the elastic member 24 and can enter and exit from the elastic member 24 is also enclosed in the cushion body 21.

  When the user is seated, the cushion 20 is divided into a region A in which the heel portion H is located, a region B in the rear, regions C1 and C2 in the left and right sides, and a region D in which the thigh is located. And the six accommodating parts 21a located in the center side of back 2 rows and three rows shown in Drawing 8, and elastic part 24a located in the inside are contained in field A, and five accommodating parts located in the back row The region B includes 21a and an elastic portion 24a located therein. In addition, the five accommodating portions 21a excluding the accommodating portions 21a at the rear ends of the left and right rows and the elastic portions 24a located therein and the elastic portions 24a located therein are included in the regions C1 and C2, respectively. The other six accommodating portions 21a and the elastic portion 24a located therein are included in the region D.

  That is, the narrow communication path 21c is located on both the left and right sides and the front side of the region A, and the air a is difficult to move directly from the region A to the left and right sides and the front side. For this reason, when the user sits on a chair or sofa on which the cushion 20 is installed, first, the weight 20 is applied to the cushion 20 around the region A. The air a in the accommodating portion 21a included in the region A tries to move to another part, but the air a is difficult to move from the region A to the left and right sides and to the front, so the air a moves to the rear region B. Thereafter, the air a is divided into left and right and moves forward in the areas C1 and C2. The surplus air a that has passed through the areas C1 and C2 finally moves to the area D where the user's thigh is located.

  Further, a part of the air a moving outside from the accommodating portion 21a included in the area A passes through the communication path 21c without moving to the area B, and moves to the areas C1, C2 and D. As described above, most of the air a moving outside from the accommodating portion 21a included in the region A passes through the region B and the regions C1 and C2 and moves to the region D without directly moving to the region D. For this reason, when a user sits down, a thigh part is not pressed and it is maintained in a comfortable state.

  In the state where the weight W of the user and the total value of the elastic force sf of the elastic member 24 and the pressure af of the air a are balanced, the cushioning property is maintained constant as when the cushion 10 is used. Since the contact area between the cushion 20 and the buttocks H increases and the body pressure is dispersed, the user can comfortably maintain the sitting posture. When the user leaves the chair or the sofa, the cushion 20 is released from the load, the elastic member 24 expands and tries to restore the original state, and the air a in the cushion body 21 is also elastic member 24. It moves following the expansion. The moving direction of the air a at this time is opposite to the direction in which the cushion 20 is compressed by the weight of the user.

  Moreover, the elastic member 24 can also be abbreviate | omitted as a modification of this embodiment. This also makes it possible to obtain a cushion in which the movement of the air a when the body weight is loaded follows an arbitrary flow path. Furthermore, as another modification, the elastic member 24 may be configured only by the elastic portion 24a, and the connecting portions 24b and 24c may be omitted.

(Third embodiment)
FIG. 9 shows a part of the cushion 30 according to the third embodiment of the present invention. The cushion 30 is configured by attaching a pump 31, an intake valve 32, and an exhaust valve 33 to the cushion 10 according to the first embodiment described above. Regarding configurations other than the pump 31, the intake valve 32, and the exhaust valve 33, Since it is the same as the cushion 10, in FIG.

  In this cushion 30, a manual pump 31 is connected to a predetermined accommodating portion 11 a located at the right end of the cushion body 11 via an intake valve 32. The intake valve 32 is composed of a check valve, and the air a sent from the pump 31 to the cushion body 11 passes through the cushion body 11 as it is, but the air a does not flow from the cushion body 11 toward the pump 31. To do. Further, an exhaust valve 33 is connected to the accommodating portion 11 a located at the front right end of the cushion body 11. The exhaust valve 33 is closed when the air pressure in the cushion body 11 is less than or equal to the set value, so that the air a in the cushion body 11 does not exit to the outside, and is opened when the air pressure in the cushion body 11 exceeds the set value. The air a in the cushion body 11 is discharged to the outside. The set value of the air pressure can be changed as appropriate by adjusting the exhaust valve 33, whereby the air pressure in the cushion body 11 can be set to an arbitrary value.

  The cushion 30 can be adjusted to an arbitrary value by adjusting the air pressure in the cushion body 11 to an arbitrary hardness, so that it is optimal regardless of any place or season, that is, what temperature or atmospheric pressure. Can be used in the state. Other functions and effects of the cushion 30 are the same as those of the cushion 10 described above. As a modification of the cushion 30, a pump 31, an intake valve 32, and an exhaust valve 33 may be attached to the cushion 20 described above. Furthermore, also about the cushion 30 and its modification, the elastic members 14 and 24 may be abbreviate | omitted, or the elastic members 14 and 24 may be comprised only by the elastic parts 14a and 24a.

  Further, the cushion according to the present invention is not limited to the above-described embodiments, and can be implemented with appropriate modifications within the technical scope of the present invention. For example, in each of the above-described embodiments, the cushions 10 and 30 are used in a bed or a futon, and the cushion 20 is used for sitting. However, these cushions can be used for a chair back and other uses. Moreover, in each embodiment mentioned above, although air is used as a fluid, it replaces with this air, water may be used, gas other than air may be sufficient, and liquids other than water may be sufficient.

  In addition, when using a liquid as a fluid and using a fluid injection pump and a fluid discharge valve, a tank for storing the fluid is provided, and the fluid injection pump supplies the fluid in the tank to the cushion body and discharges it from the fluid discharge valve. The fluid is returned to the tank so that the fluid circulates. Further, the material, shape and size of each member constituting the cushion 10 and the like, and the number and size of the accommodating portions 11a and the like can be changed as appropriate.

  DESCRIPTION OF SYMBOLS 10, 20, 30 ... Cushion, 11, 21 ... Cushion main body, 11a, 21a ... Accommodating part, 11b, 11c, 21b, 21c ... Communication path, 14, 24 ... Elastic member, 31 ... Pump, 32 ... Intake valve, 33 ... exhaust valve, A, B, C1, C2, D ... area, a ... air.

Claims (5)

Cushion body made of a flat bag-like film having flexibility, in which a plurality of storage portions arranged in the front, rear, left, and right, and a plurality of communication passages that connect adjacent storage portions of the plurality of storage portions are formed When,
A cushion that is sealed inside the cushion body and includes a fluid that can move between the plurality of accommodating portions via the communication path,
The cross-sectional areas when the fluid passes through the plurality of communication passages are different from each other, and the fluid moves along a fixed flow path when the user's weight is applied. Cushion.   The plurality of housing portions are divided into a large communication passage region including a housing portion communicated by a communication passage having a large cross-sectional area and a small communication passage region including a housing portion communicating by a communication passage having a small cross-sectional area. The main flow path of the fluid when the weight of the user is applied to the central portion of the cushion is a flow path from the Dalian passage area to the small passage area. Cushions.   Used for seating, when the user's weight is applied to the central part, the main flow path of the fluid is directed from the central part to the rear part of the cushion body, and then is directed from both sides to the front part. The cushion according to claim 1 or 2, wherein:   The cushion as described in any one of Claim 1 thru | or 3 by which the porous elastic member is installed in the inside of the said cushion main body.   The cushion according to any one of claims 1 to 4, wherein a fluid injection pump and a fluid discharge valve are connected to the cushion body so that the pressure of the fluid in the cushion body can be adjusted.

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