Source: https://patents.google.com/patent/JP4072970B2/en
Timestamp: 2019-12-14 10:42:23
Document Index: 388014864

Matched Legal Cases: ['art 11', 'art 11', 'art 11', 'art 11', 'art 11', 'art 12', 'art, 11', 'art, 12', 'art, 12', 'art, 12']

JP4072970B2 - Air cell - Google Patents
JP4072970B2
JP4072970B2 JP2006234608A JP2006234608A JP4072970B2 JP 4072970 B2 JP4072970 B2 JP 4072970B2 JP 2006234608 A JP2006234608 A JP 2006234608A JP 2006234608 A JP2006234608 A JP 2006234608A JP 4072970 B2 JP4072970 B2 JP 4072970B2
JP2006234608A
JP2008054873A (en
2006-08-30 Application filed by 国立大学法人 東京大学, 横浜ゴム株式会社 filed Critical 国立大学法人 東京大学
2006-08-30 Priority to JP2006234608A priority Critical patent/JP4072970B2/en
2008-03-13 Publication of JP2008054873A publication Critical patent/JP2008054873A/en
2008-04-09 Publication of JP4072970B2 publication Critical patent/JP4072970B2/en
The present invention relates to an air cell that is placed on, for example, a wheelchair seating surface or a hospital bed and used to prevent pressure ulcers that occur in a seated person or a patient.
In general, a cushion using this type of air cell is arranged so as to be aligned along the seating surface, and is formed so as to extend along the seating surface and a plurality of air cells each consisting of an air bag extending upward. And a flexible base member that supports the lower end side of each air cell and an air passage that communicates with each other inside the air cell. There is known one in which the pressure applied to a person's buttocks is dispersed (see, for example, Patent Document 1).
By the way, in the cushion, air of a predetermined pressure is sealed in each air cell, and after a seated person is seated, the air is gradually discharged from each air cell. By adjusting the amount of air so that the upper end side does not come into contact with the base member side, the pressure applied to the seated person's buttocks is effectively dispersed. However, there is a problem that it is difficult to confirm the collapsed state of the air bag when the seated person is seated.
Therefore, as another cushion, an air cell composed of an air bag extending upward, a first contact provided in the air bag of the air cell and attached to the upper end surface of the air bag, and provided in the air bag A second contact mounted on the lower end side of the air bag; and a determination unit that is provided outside the air bag and is connected to each contact to determine the presence or absence of contact of each contact. When the upper end side and the lower end side of the air bag are closer than the predetermined distance, the first contact and the second contact come into contact with each other, and it is detected that the upper end side and the lower end side of the air bag are closer to the predetermined distance. (See, for example, Patent Document 2).
JP-T 6-510436 US Pat. No. 6,943,694
By the way, in the latter cushion, each contact point is provided in the air bag, and a determination unit is provided outside the air bag, and each contact point and the determination unit need to be connected by electric wiring. However, it is difficult to ensure the airtightness of the air bag, and the manufacturing cost is high.
The present invention has been made in view of the above problems, and the object of the present invention is to detect that the upper end side and the lower end side of the air bag are closer than a predetermined distance, and is inexpensive. An object of the present invention is to provide an air cell that can be manufactured.
In order to achieve the above object, the present invention has a cylindrical portion (11a) extending in the vertical direction and an upper end surface (11b) formed so as to close the upper end of the cylindrical portion (11a). air bag formed of an air to be sealed inside with an opening (11), the opening edge portion of the opening edge portion of the air bag (11) (11c) and is attached air bag (11) and (11c) In the air cell (10) having a base member (12) which is sealed between the base member (12) and disposed on the seating surface or on the bed and used to prevent pressure ulcers occurring on the seated person or patient, the air bag (11) of the inner surface and the base member (12) air chamber formed by the upper surface of the (AR), with is provided on the upper surface of the base member forming the bottom surface of the air chamber (AR) (12), elastically deformable in the vertical direction possible thin film portion and (12f), air Provided in (AR), the extending member provided so as to extend upward from the upper surface of the thin film portion (12f), provided on the lower side of the thin portion (12f), the lower thin section (12f) and a detection means for detecting (20, 60) the deformation in the forms of an elastically deformable elastic member (14) said extending member in the vertical direction.
As a result, a thin film portion that can be elastically deformed in the vertical direction is provided on the upper surface of the base member that forms the bottom surface of the air chamber, and an extending member that extends upward from the upper surface of the thin film portion is provided. Since the detecting means for detecting the downward deformation of the thin film portion is provided, the air bag is crushed and the upper end side of the air bag contacts the extending member, and a downward force is applied to the extending member. Then, the thin film portion is elastically deformed downward, and the deformation is detected by the detecting means. Moreover, since the detection means is provided below the thin film portion forming the bottom surface of the air chamber, the detection means is disposed outside the air chamber.
The present invention also includes a cylindrical portion (11a) extending in the vertical direction and an upper end surface (11b) formed so as to close the upper end of the cylindrical portion (11a). an air bag formed of an air to be sealed (11), is sealed is between the opening edge portion of the opening edge portion of the air bag (11) (11c) and is attached air bag (11) (11c) An air cell (10) having a base member (12) and disposed on a seating surface or on a bed and used to prevent pressure ulcers occurring on a seated person or a patient, the inner surface of the air bag (11) an air chamber defined by the upper surface of the base member (12) and (AR), with is provided on the upper surface of the base member forming the bottom surface of the air chamber (AR) (12), elastically deformable thin film portion in the vertical direction ( and 12f), provided in the air chamber (AR) Is, mounting a movable member disposed above the thin film portion (12f), with provided within the air chamber (AR), the upper end of the vertical direction consist of elastically deformable elastic member, the movable member on its upper side A first elastic member (15) capable of elastically deforming in the vertical direction and supporting the movable member above the thin film portion (12f) so as to be movable in the vertical direction and biasing the movable member upward. , provided on the lower side of the thin portion (12f), and a detection means (20, 60) for detecting the deformation of the lower thin portion (12f), the elastic deformable said movable member in the vertical direction It is formed from two elastic members (16) .
Thus, a thin film portion that can be elastically deformed in the vertical direction is provided on the upper surface of the base member that forms the bottom surface of the air chamber, and the movable member is disposed above the thin film portion, and the movable member is thin film portion by the first elastic member . The movable member is urged upward by the first elastic member , and a detecting means for detecting a downward deformation of the thin film portion is provided below the thin film portion. since it is provided, along with the upper end side of the air bag to collapse the air bag contacts the movable member or the first elastic member, a force directed downward in the movable member or the first elastic member is applied, the movable member first While moving downward against the urging force of the elastic member, the thin film portion is elastically deformed downward by the contact of the movable member, and the deformation is detected by the detecting means. Moreover, since the detection means is provided below the thin film portion forming the bottom surface of the air chamber, the detection means is disposed outside the air chamber.
According to the present invention, with the upper end side of the air bag to collapse the air bag contacts the extending member and the movable member or the like, when a force directed downward extending member and the movable member or the like is applied, the thin film portion is downward Therefore, the deformation of the thin film portion can be detected by the detecting means. Therefore, by appropriately setting the shape of the extending member and the movable member , the upper end side of the air bag and the base member It can be detected that the upper surface is at a position closer than a predetermined distance. In addition, since the detection means can be arranged outside the air chamber, the detection means and other devices can be easily connected, which is extremely advantageous for reducing the manufacturing cost.
1 to 8 show an embodiment of the present invention. FIG. 1 is a side sectional view of an air cell, FIG. 2 is a perspective view of the air cell, FIG. 3 is a side sectional view of an essential part of a cushion, and FIGS. FIG. 7 is an operation explanatory diagram of the air cell when the air bag is crushed by the collar, FIG. 7 is a side sectional view of the switch, and FIG. 8 is an operation explanatory diagram of the switch.
The air cell 10 of the present embodiment includes an air bag 11 having an open lower end, a base member 12 to which the air bag 11 can be detachably attached, and a ring-shaped holding member 13 that holds the air bag 11 on the base member 12. And have.
The air bag 11 is made of a flexible material such as soft rubber or plastic, and can enclose air therein. The air bag 11 has a cylindrical portion 11a as a side surface having a circular cross section extending in the vertical direction, and an upper end surface 11b formed so as to close the upper end of the cylindrical portion 11a. The cylindrical portion 11a and the upper end surface 11b are formed in a thin film shape having a uniform thickness dimension of 1 mm or less. The lower end of the cylindrical part 11a is open, and the opening edge part 11c at the lower end of the cylindrical part 11a has a larger thickness dimension than the other part of the cylindrical part 11a, and the other part of the cylindrical part 11a. It protrudes radially inward from the inner peripheral surface.
The base member 12 is made of rubber or plastic harder than the material of the air bag 11 and is formed in a disk shape. The upper end surface of the base member 12 is provided with an upper end side protruding portion 12a having a circular cross section protruding upward, and the upper end side protruding portion 12a is provided with four vent holes 12b extending in the vertical direction. In addition, a radially projecting portion 12c is provided on the outer peripheral surface on the distal end side of the upper end side projecting portion 12a so as to project radially outward from the outer peripheral surface on the proximal end side. The opening edge portion 11c of the air bag 11 is attached to the outer peripheral surface of the upper end side protruding portion 12a by fitting, and the inner peripheral surface of the opening edge portion 11c engages with the radial protruding portion 12c of the upper end side protruding portion 12a from below. . Further, when the holding member 13 is attached to the outer peripheral surface of the opening edge portion 11c after the opening edge portion 11c of the air bag 11 is fitted to the upper end side protruding portion 12a, the opening edge portion 11c is pressed against the upper end side protruding portion 12a side. It is done. Thereby, the space between the opening edge portion 11c and the upper end side protruding portion 12a is sealed, and the air chamber AR is formed by the air bag 11 and the upper end surface of the upper end side protruding portion 12a.
The lower end surface of the base member 12 is provided with a lower end side protruding portion 12d having a circular cross section protruding downward, and the lower end side protruding portion 12d has four air passages 12e penetrating from the outer peripheral surface to the respective vent holes 12b. Is provided. Further, the air passages 12e are arranged at equiangular intervals in the circumferential direction of the lower end side protruding portion 12d.
A thin film portion 12 f is formed at the center of the upper end side protruding portion 12 a of the base member 12. The thin film portion 12f is formed integrally with the base member 12, and can be elastically deformed in the vertical direction. A hole 12g having a rectangular cross section is provided below the thin film portion 12f. The hole 12g is formed so as to extend in the vertical direction and is open to the lower surface of the lower end side protruding portion 12d. A protrusion 12h extending upward is integrally provided on the upper surface of the thin film portion 12f, and the protrusion 12h is formed in a cylindrical shape. The elastic member 14 as extending member attached to the protrusions 12h, the elastic member 14 is formed so as to extend upward from the upper surface of the thin portion 12 f. The elastic member 14 is a metal coil spring.
A switch 20 as a detecting means is attached in the hole 12g. The switch 20 includes a hollow main body 21, a button member 22 provided on the upper end surface of the main body 21 so as to be movable in the vertical direction, a first contact member 23 provided below the button member 22, And a second contact member 24 provided below the first contact member 23.
The main body 21 is made of an insulating material such as plastic and has an outer shape slightly larger than the inner shape of the hole 12f of the base member 12. That is, when the main body 21 is fitted into the hole 12g of the base member 12, the switch 20 is detachably attached to the hole 12g of the base member 12. The switch 20 is attached to the base member 12 so that the lower surface of the thin film portion 12f and the upper end surface of the button member 22 are separated by a distance SG (see FIG. 1).
The button member 22 is made of an insulating material such as plastic.
The first contact member 23 is made of a metal material such as copper and is formed in a thin plate shape. The first contact member 23 is in contact with the lower end surface of the button member 22. One end of the first contact member 23 is supported by one end side support member 21a made of an insulating material, and the other end of the first contact member 23 is supported by the other end side support member 21b made of an insulating material. A first electrical wiring 31 is connected to one end of the first contact member 23 .
The second contact member 24 is made of a metal material such as copper and is formed in a thin plate shape. The second contact member 24 is disposed at a position separated from the lower surface of the first contact member 23 by a predetermined distance G. One end of the second contact member 24 is insulated from the first contact member 23 by the one end side support member 21a, and the other end of the second contact member 24 is insulated from the first contact member 23 by the other end side support member 21b. It is supported by. A second electrical wiring 32 is connected to the other end of the second contact member 24 .
The cushion 100 is formed by attaching the plurality of air cells 10 to the attachment plate 40 so as to be aligned in a substantially horizontal direction (see FIG. 3). The mounting plate 40 is made of rubber or plastic harder than the material of the air bag 11 and has a rectangular plate shape having an area several to several hundred times that of each base member 12. The mounting plate 40 is provided with a plurality of through holes 41 penetrating in the thickness direction, and each through hole 41 has an inner diameter slightly smaller than the outer diameter of the lower end side protruding portion 12 d of the base member 12. When the lower end side protruding portion 12d of each base member 12 is inserted into each through hole 41 from the upper end surface side to the lower end surface side of the mounting plate 40, the lower end side protruding portion 12d of each base member 12 becomes each through hole. The base member 12 is detachably attached to the attachment plate 40. Further, the lower end surface of each base member 12 contacts the upper end surface of the mounting plate 40. Accordingly, the plurality of air cells 10 are arranged on the mounting plate 40 so as to be aligned in a substantially horizontal direction.
When each base member 12 is attached to the attachment plate 40, the lower end side protruding portion 12 d of each base member 12 protrudes to the lower end surface side of the attachment plate 40. Each air passage 12 e provided in the lower end side protruding portion 12 d is also disposed on the lower end surface side of the mounting plate 40. Here, a connection pipe 50 is provided between each base member 12, and each connection pipe 50 is inserted into the air passage 12 e of each base member 12. As a result, the air passages 12e of the base members 12 communicate with each other via the connection pipes 50, and the air cells 10 attached to the mounting plate 40 communicate with each other. The air passage into which the connecting pipe 50 is not inserted is closed by a rubber plug 51. In the present embodiment, the air passage 12e into which the connection pipe 50 is not inserted is closed by the rubber plug 51. However, the air passage 12e is formed in each base member 12 by the amount of insertion of the connection pipe 50. In addition, it is possible to save the trouble of closing the air passage 12e with the rubber plug 51.
The cushion 100 configured as described above is used by being mounted on a seating surface of a wheelchair, for example, and has an area corresponding to the seating surface of the wheelchair. Further, when a seated person sits on the cushion 100, the air in each air cell 10 moves through each connection pipe 50, and the air pressure in each air cell 10 becomes equal.
Here, the pressure applied to the seated person's buttocks H is more dispersed when the larger area on the lower surface side of the buttocks H is supported by each air cell 10. On the other hand, when the upper end side of the air bag 11 of the air cell 10 that is most crushed among the air cells 10 and the upper end surface of the base member 12 are closer than the predetermined distance L (see FIG. 6), the air bag 11 is The heel part H cannot be supported softly. That is, when the amount of air in each air cell 10 is adjusted so that the upper end side of the air bag 11 of the air cell 10 that is most crushed among the air cells 10 and the upper end surface of the base member 12 are slightly separated from the predetermined distance L, The pressure applied to the seated person's buttocks H can be effectively dispersed.
Therefore, when a seated person sits on the cushion 100, first, a predetermined amount of air is filled into each air cell 10 by an electric pump (not shown). Next, a seated person sits on the cushion 100, and the air in each air cell 10 is discharged from a discharge valve (not shown). Thereby, each air cell 10 is crushed according to the shape of a seated person's buttocks H, respectively.
Here, a part of the bottom surface of the air chamber AR of each air cell 10 is formed by the thin film portion 12f that is elastically deformable in the vertical direction, and the elastic member 14 that extends upward from the upper surface of the thin film portion 12f is provided. When the upper end side of the air bag 11 of the air cell 10 that is most crushed among the air cells 10 contacts the elastic member 14, a downward force is applied to the elastic member 14 (see FIGS. 4 and 5). Thereby, the elastic member 14 starts to compress and deform in the vertical direction, and the thin film portion 12f starts to elastically deform downward. Further, when the upper end side of the air bag 11 moves downward, the elastic member 14 is further compressed and deformed in the vertical direction, the thin film portion 12f is elastically deformed downward, and the lower surface of the thin film portion 12f is the button of the switch 20. While contacting the upper end surface of the member 22, the button member 22 is pushed by the thin film portion 12f and moves downward by a predetermined distance G (see FIGS. 6 and 7). As a result, the central portion of the first contact member 23 is moved downward by a predetermined distance G by the button member 22, and the first contact member 23 and the second contact member 24 come into contact with each other (see FIG. 8). That is, the switch 20 detects that the first electrical wiring 31 and the second electrical wiring 32 are energized and the deformation amount of the thin film portion 12f is equal to or greater than the distance SG. At this time, the upper end side of the air bag 11 of the air cell 10 and the upper end surface of the base member 12 are at a predetermined distance L.
Thus, according to the present embodiment, when the air cell 10 is crushed and the upper end side of the air bag 11 is in contact with the elastic member 14 and a downward force is applied to the elastic member 14, the thin film portion 12f is directed downward. The elastic deformation and the downward deformation of the thin film portion 12f can be detected by the switch 20. Therefore, the vertical dimension of the elastic member 14, the elastic modulus of the elastic member 14, the elastic modulus of the thin film portion 12f, and the thin film portion 12f The upper end side of the air bag 11 and the upper end surface of the base member 12 are closer to the predetermined distance L by appropriately setting a distance SG between the lower surface of the switch 20 and the upper end surface of the button member 22 of the switch 20. Can be detected. Therefore, after the air in each air cell 10 is discharged from a discharge valve (not shown) until the downward deformation of the thin film portion 12f is detected by the switch 20 of any one of the air cells 10, each air cell 10 10 is filled with a predetermined amount of air so that the upper end side of the air bag 11 of the air cell 10 that is most crushed among the air cells 10 and the upper end surface of the base member 12 are slightly separated from the predetermined distance L. The amount of air in each air cell 10 can be adjusted.
Further, since the switch 20 is provided below the thin film portion 12f that forms a part of the bottom surface of the air chamber AR, and the switch 20 is disposed outside the air chamber AR, the switch 20 and other devices can be easily connected. This is extremely advantageous in reducing the manufacturing cost.
Further, since the elastic member 14 extending upward from the upper surface of the thin film portion 12f is provided and the elastic member 14 is formed so as to be elastically deformable in the vertical direction, the air bag is further moved after the button member 22 is moved downward by the thin film portion 12f. 11 even when the upper end side of 11 is moved downward, the elastic member 14 is elastically deformed in the compression direction to allow movement of the upper end side of the air bag. It is extremely advantageous for soft support.
Further, the switch 20 has a button member 22 and a first contact member 23 that move downward when pressed by the thin film portion 12f from above, and a center of the first contact member 23 that has moved downward by a predetermined distance G. Since the second contact member 24 with which the portion abuts is provided, when the thin film portion 12f is deformed downward by the distance SG, the thin film portion 12f abuts against the upper end surface of the button member 22, and the button member 22 and the first member The contact member 23 moves downward by a predetermined distance G, and the contact members 23 and 24 come into contact with each other. That is, the deformation of the thin film portion 12f can be reliably detected with a simple structure, which is extremely advantageous for reducing the manufacturing cost.
In this embodiment, the switch 20 is provided below the thin film portion 12f and the deformation of the thin film portion 12f is detected by the switch 20. However, a known proximity sensor is provided below the thin film portion 12f. It is also possible to detect the deformation of the thin film portion 12f by detecting that the distance between the proximity sensor and the thin film portion is a predetermined size or less. Further, the deformation of the thin film portion 12f can be detected by a known photoelectric sensor.
It is also possible to provide a pressure sensor capable of measuring the air pressure in the air chamber AR in the air cell 10 and measure the air pressure in each air cell 100 constituting the cushion 100. In this case, the pressure sensor is provided so as to pass through the base member 12 and protrude into the air chamber AR. Accordingly, when a seated person sits on the cushion 100 in a state where a predetermined amount of air is filled in each air cell 10 constituting the cushion 100, the air pressure in each air cell 10 changes, and the change in the air pressure is changed. Each is measured. That is, an air pressure distribution corresponding to the weight of the seated person and the shape of the buttocks H can be obtained.
In the present embodiment, the case where the upper end side of the air bag 11 is simply moved downward is shown. However, even when the upper end side of the air bag 11 is moved obliquely downward, the cylindrical portion of the air bag 11 is shown. While 11a contacts the elastic member 14, a downward force is applied to the elastic member 14, the thin film portion 12f is elastically deformed downward, and the downward deformation of the thin film portion 12f is detected by the switch 20 ( (See FIG. 9). That is, the upper end side of the air bag 11 may move obliquely downward depending on the posture of the seated person. Even in this case, the upper end side of the air bag 11 and the upper end surface of the base member 12 are not too close to each other. This is extremely advantageous for softly supporting H.
In the present embodiment, the switch 20 is provided below the thin film portion 12f. However, as shown in FIGS. 10 to 14, a switch 60 can be provided instead of the switch 20. In this case, the switch 60 includes a main body 61 and a button member 62 similar to the switch 20, a first contact member 63 provided below the button member 62, and a second contact provided below the first contact member 63. A member 64 and a third contact member 65 provided below the second contact member 64 are included.
The first contact member 63 is made of a metal material such as copper and is formed in a thin plate shape. The first contact member 63 is in contact with the lower end surface of the button member 62. One end of the first contact member 63 is supported by one end side support member 61a made of an insulating material, and the other end of the first contact member 63 is supported by the other end side support member 61b made of an insulating material. In addition, a first electrical wiring 71 is connected to one end of the first contact member 63 .
The second contact member 64 is made of a metal material such as copper and is formed in a thin plate shape. The second contact member 64 is disposed at a position separated from the lower surface of the first contact member 63 by a first predetermined distance G1 (see FIG. 10). One end of the second contact member 64 is supported by the one end side support member 61a in an insulated state from the first contact member 63, and the other end of the second contact member 64 is insulated from the first contact member 63 by the other end side support member 61b. It is supported by. A second electrical wiring 72 is connected to the other end of the second contact member 64 .
The third contact member 65 is made of a metal material such as copper and is formed in a thin plate shape. The third contact member 65 is disposed at a position separated from the lower surface of the second contact member 64 by a second predetermined distance G2. One end of the third contact member 65 is supported by the one end side support member 61a in an insulated state from the first contact member 63 and the second contact member 64, and the other end of the third contact member 65 is supported by the other end side support member 61b. The contact member 63 and the second contact member 64 are supported in an insulated state. A third electrical wiring 73 is connected to one end of the third contact member 65 .
In the air cell 10 configured as described above, when the upper end side of the air bag 11 comes into contact with the elastic member 14, the elastic member 14 starts to elastically deform downward, and the thin film portion 12f starts to elastically deform downward. Further, when the upper end side of the air bag 11 moves downward, the elastic member 14 is further compressed and deformed in the vertical direction, the thin film portion 12f is elastically deformed downward, and the lower surface of the thin film portion 12f is the button member of the switch 60. The button member 62 and the first contact member 63 are moved downward by a first predetermined distance G1 when pressed by the thin film portion 12f while being in contact with the upper end surface of 62 (see FIG. 11). Thereby, the 1st contact member 63 and the 2nd contact member 64 contact (refer FIG. 13). That is, the first electric wiring 71 and the second electric wiring 72 are energized, and the switch 60 detects that the amount of deformation of the thin film portion 12f downward is equal to or greater than the distance SG. That is, the switch 60 detects that the upper end side of the air bladder 11 and the upper end surface of the base member 12 are closer than the first predetermined distance L1.
Further, when the upper end side of the air bag 11 moves downward, the elastic member 14 is further compressed and deformed in the vertical direction, and a downward force is applied to the button member 62, the first contact member 63 and the second contact member 64. When the central portion of the second contact member 64 moves downward by the second predetermined distance G2 by being pushed by the button member 62 and the first contact member 63 from above, the second contact member 64 and the third contact member 65 The second electric wiring 72 and the third electric wiring 73 are energized. That is, the switch 60 detects that the upper end side of the air bag 11 and the upper end surface of the base member 12 are closer than the second predetermined distance L2.
Here, when the second predetermined distance L2 is set to a limit distance at which the flange portion H is softly supported, the upper end side of the air bladder 11 and the upper end surface of the base member 12 are the first predetermined distance L1 and the second predetermined distance L2. It can be detected by the switch 60 that it is in between. Here, if the upper end side of the air bag 11 and the upper end surface of the base member 12 are between the first predetermined distance L1 and the second predetermined distance L2, the upper end side of the air bag 11 and the upper end surface of the base member 12 are It is arranged at a position slightly separated from the second predetermined distance L2. That is, the upper end side of the air bladder 11 and the upper end surface of the base member 12 can be prevented from approaching the second predetermined distance L2, and the upper end side of the air bladder 11 and the upper end surface of the base member 12 are 2 The amount of air in each air cell 10 can be easily adjusted so as to be slightly away from the predetermined distance L2.
In the present embodiment, the elastic member 14 formed so as to extend upward from the upper surface of the thin film portion 12f is shown. However, the extending member 14k is provided instead of the elastic member 14 and the protrusion 12h. It is also possible. In this case, the extending member 14k is formed integrally with the thin film portion 12f and is formed to extend upward from the upper end surface of the thin film portion 14. With the upper end side of the air bag 11 is in contact with the extending member 14k, the force directed downward extending member 14k is applied, the thin film portion 12f is deformed downward, the deformation of the thin portion 12f is detected by the switch 20 The That is, it can be detected that the upper end side of the air bladder 11 and the upper end surface of the base member 12 are closer than a predetermined distance.
In the present embodiment, the elastic member 14 formed so as to extend upward from the upper surface of the thin film portion 12f is shown. However, instead of the elastic member 14, the first elastic member 15 and the second elastic member 15 are provided. It is also possible to provide a member 16. In this case, the first elastic member 15 is a metal coil spring and is formed so as to be elastically deformable in the vertical direction, and is formed so that the winding diameter gradually decreases from the lower end side toward the upper end side. . The first elastic member 15 is placed on the upper end surface of the upper end side protruding portion 12 a of the base member 12. The second elastic member 16 is made of a metal coil spring, is formed so as to be elastically deformable in the vertical direction, and is formed so that the winding diameter gradually decreases from the upper end side toward the lower end side. The upper end side of the second elastic member 16 is attached to the upper end side of the first elastic member 15, and the second elastic member 16 is disposed above the thin film portion 12f. A predetermined gap is provided between the second elastic member 16 and the thin film portion 12f. That is, the second elastic member 16 is supported by the first elastic member 15 so as to be movable in the vertical direction above the thin film portion 12 f , and the first elastic member 15 can bias the second elastic member 16 upward. is there. Further, the protrusion 12h on the upper surface of the thin film portion 12f is not necessary. The first elastic member 15 corresponds to the biasing member described in the claims, and the second elastic member 16 corresponds to the movable member described in the claims.
In the air cell 10 configured in this manner, when the upper end side of the air bag 11 contacts the first elastic member 15 or the second elastic member 16, a downward force is applied to the first elastic member 15 or the second elastic member 16, The first elastic member 15 begins to elastically deform downward. When the upper end side of the air bag 11 further moves downward, the first elastic member 15 is further compressed and deformed in the vertical direction, and the lower end of the second elastic member 16 comes into contact with the thin film portion 12f. Further, when the upper end side of the air bag 11 moves downward, the first elastic member 15 is further compressed and deformed in the vertical direction, and the thin film portion 12f is elastically deformed downward, and the deformation amount of the thin film portion 12f is the distance SG. If it becomes above, the deformation | transformation of the thin film part 12f will be detected by the switch 20. FIG. That is, it can be detected that the upper end side of the air bladder 11 and the upper end surface of the base member 12 are closer than a predetermined distance.
Further, since the second elastic member 16 is supported by the first elastic member 15 and the second elastic member 16 is formed to be elastically deformable in the vertical direction, the air bag is further moved after the button member 22 is moved downward by the thin film portion 12f. 11 even when the upper end side of the air bag 11 moves downward, the second elastic member 16 is elastically deformed in the compression direction to allow movement of the upper end side of the air bag. This is extremely advantageous for softly supporting H.
Side surface sectional drawing of the air cell which shows one Embodiment in this invention Air cell perspective view Side sectional view of the main part of the cushion Operation explanatory diagram of the air cell when the air bag is crushed by the buttocks Operation explanatory diagram of the air cell when the air bag is crushed by the buttocks Operation explanatory diagram of the air cell when the air bag is crushed by the buttocks Switch side view Switch operation diagram Operation explanatory diagram of the air cell when the air bag is crushed by the buttocks Side surface sectional drawing of the switch which shows the 1st modification of this embodiment Air cell operation explanatory diagram showing a first modification of the present embodiment Air cell operation explanatory diagram showing a first modification of the present embodiment Switch operation explanatory diagram showing a first modification of the present embodiment Switch operation explanatory diagram showing a first modification of the present embodiment Side surface sectional drawing of the air cell which shows the 2nd modification of this embodiment. Side surface sectional drawing of the air cell which shows the 3rd modification of this embodiment.
DESCRIPTION OF SYMBOLS 10 ... Air cell, 11 ... Air bag, 11a ... Cylindrical part, 11b ... Upper end surface, 11c ... Opening edge part, 12 ... Base member, 12a ... Upper end side protrusion part, 12b ... Vent hole, 12c ... Radial direction protrusion part, 12d: Lower end side protruding portion, 12e: Air passage, 12f: Thin film portion, 12g ... Hole, 12h ... Projection, 13 ... Holding member, 14 ... Elastic member, 14k ... Extension member, 20 ... Switch, 21 ... Main body, 22 ... button member, 23 ... first contact member, 24 ... second contact member, 31 ... first electric wiring, 32 ... second electric wiring, 40 ... mounting plate, 41 ... through hole, 50 ... connecting pipe, 51 ... rubber Plug, 60 ... switch, 61 ... main body, 62 ... button member, 63 ... first contact member, 64 ... second contact member, 65 ... third contact member, 71 ... first electric wiring, 72 ... second electric wiring, 73 ... 3rd electrical wiring, H ... buttocks.
It has a cylindrical part (11a) extending in the vertical direction and an upper end surface (11b) formed so as to close the upper end of the cylindrical part (11a). The lower end is open and air can be enclosed inside. an air bag (11) that is, the opening edge portion of the air bag (11) and (11c) and is attached air bag opening edge (11) the base member (12) between (11c) is sealed In the air cell (10) used for preventing pressure ulcers occurring on a seated person or a patient while being placed on a seating surface or a bed,
An air chamber (AR) formed by the inner surface of the air bag (11) and the upper surface of the base member (12) ;
A thin film portion (12f) provided on the upper surface of the base member (12) forming the bottom surface of the air chamber (AR) and elastically deformable in the vertical direction;
An extending member provided in the air chamber (AR) and extending upward from the upper surface of the thin film portion (12f) ;
Provided on the lower side of the thin portion (12f), detecting means for detecting the downward deformation of the thin portion (12f) (20,60) and provided with,
An air cell characterized in that the extending member is formed of an elastic member (14) elastically deformable in the vertical direction .
A movable member provided in the air chamber (AR) and disposed above the thin film portion (12f) ;
The elastic member is provided in the air chamber (AR) and is elastically deformable in the vertical direction. The upper end of the movable member is attached to the upper end of the elastic member , and the movable member is moved in the vertical direction above the thin film portion (12f). A first elastic member (15) capable of elastically deforming in a vertical direction capable of supporting the movable member and biasing the movable member upward;
Provided on the lower side of the thin portion (12f), detection means (20, 60) for detecting the deformation of the lower thin portion (12f) and includes a,
The air cell, wherein the movable member is formed of a second elastic member (16) that can be elastically deformed in the vertical direction.
A first contact member (23) having a plate shape supported at both ends by the detection means (20) , and a central portion not supported by the thin film portion (12f) being moved from above is moved downward. And the central portion of the first contact member (23) which is supported in an insulated state from the first contact member (23) and is disposed below the first contact member (23) and has moved downward. The air cell according to claim 1 or 2 , further comprising a second contact member (24) in contact therewith.
A first contact member (63) having a plate shape supported at both ends by the detection means (60) and having a central portion that is not supported by being pushed from above by the thin film portion (12f) moves downward. And both ends of the first contact member (63) are plate-like supported in an insulated state, and are disposed below the first contact member (63) and moved downward . A second contact member (64 ) in which the central portion abuts from above and the unsupported central portion moves downward by being pushed by the first contact member (63) from above, and a first contact member ( 63) and the second contact member (64) are supported in an insulated state, and are arranged below the second contact member (64), and the central portion of the second contact member (64) moved downward is upward. A third contact member (65) that comes into contact with Air cell of claim 1 or 2, wherein the provided.
The air cell according to claim 1, 2, 3, or 4 , further comprising a pressure sensor capable of detecting an air pressure in the air chamber (AR) .
JP2006234608A 2006-08-30 2006-08-30 Air cell Active JP4072970B2 (en)
JP2006234608A JP4072970B2 (en) 2006-08-30 2006-08-30 Air cell
US12/439,952 US8024828B2 (en) 2006-08-30 2007-08-30 Air cell
PCT/JP2007/066925 WO2008026701A1 (en) 2006-08-30 2007-08-30 Air cell
CN2013103464291A CN103393514A (en) 2006-08-30 2007-08-30 Air cell
CN200780032164.0A CN101511320B (en) 2006-08-30 2007-08-30 Air cell
JP2008054873A JP2008054873A (en) 2008-03-13
JP4072970B2 true JP4072970B2 (en) 2008-04-09
ID=39135983
JP2006234608A Active JP4072970B2 (en) 2006-08-30 2006-08-30 Air cell
US (1) US8024828B2 (en)
JP (1) JP4072970B2 (en)
CN (2) CN101511320B (en)
WO (1) WO2008026701A1 (en)
JP5510627B2 (en) * 2008-10-29 2014-06-04 横浜ゴム株式会社 Air cell manufacturing method
CN103190784B (en) * 2013-03-18 2015-06-24 南安市腾龙专利应用服务有限公司 Inflatable air column applied to airbed
CZ2016277A3 (en) * 2016-05-12 2018-01-17 Linet Spol. S.R.O. A detection system for pressure optimization
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2006-08-30 JP JP2006234608A patent/JP4072970B2/en active Active
2007-08-30 CN CN200780032164.0A patent/CN101511320B/en active IP Right Grant
2007-08-30 WO PCT/JP2007/066925 patent/WO2008026701A1/en active Application Filing
2007-08-30 US US12/439,952 patent/US8024828B2/en active Active
2007-08-30 CN CN2013103464291A patent/CN103393514A/en not_active Application Discontinuation
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US20100205745A1 (en) 2010-08-19
JP2008054873A (en) 2008-03-13
US8024828B2 (en) 2011-09-27
WO2008026701A1 (en) 2008-03-06
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