JP4963440B2 - Air cell mounting structure and cushion - Google Patents

Description

The present invention relates to an air cell mounting structure and a cushion used to prevent the occurrence of pressure ulcers of a patient by arranging a plurality of air cells on a predetermined plane in a hospital bed or a wheelchair, for example.

Generally, as a cushion having this type of air cell, a plurality of air cells that are arranged side by side on a predetermined plane and can enclose air therein, and the inside of each air cell are communicated with each other to equalize the air pressure in each air cell. It is known that a plurality of communication paths are provided and pressure applied to the body on each air cell is dispersed to prevent the occurrence of pressure sores (see, for example, Patent Document 1).
JP 2003-159286 A

  By the way, the cushion having the air cell is formed of a flexible material such as a rubber material or a resin material having a plurality of air cells extending upward and having an area corresponding to the size of the bed. It is composed of an upper sheet-like member and a lower sheet-like member having the same area as the upper sheet-like member, and the lower sheet-like member is bonded to the lower surface of the upper sheet-like member, and the lower opening of each air cell The part is closed by the lower sheet-like member. In addition, each communication path that allows each air cell to communicate with each other is disposed between each sheet-like member.

Here, in order to more effectively disperse the pressure applied to the body, it is desirable to set the size of each air cell according to the height or body shape of the patient, or the state and symptoms of the affected area.

However, in the cushion, in order to change the size of each air cell, it is necessary to change the shape of the upper sheet-like member, and each air cell of the upper sheet-like member has a plurality of concave portions and convex portions provided in the mold. Therefore, it is necessary to have a mold for the type of the upper sheet-like member, and the size of each air cell cannot be easily changed according to the height or body shape of the patient, or the state and symptoms of the affected part. There was a problem.

  In addition, it is preferable that each air cell is flexible in order to disperse the pressure applied to the body, but the flexible air cell is likely to break and cause air leakage, and each air cell communicates with each other through each communication path. Other air cells are also affected by the damage of some air cells. Therefore, when the air cell is damaged, it is necessary to repair the damaged part or replace the cushion itself, but it takes time to repair the damaged part, and the replacement of the cushion itself is expensive. there were.

  In addition, in hospitals it is desirable to use a new cushion for each patient to keep each air cell clean, but it is expensive to purchase a cushion for each patient, so the cushion must be washed. The current situation is that it is used repeatedly. However, each air cell is flexible and easily damaged, and it is difficult to perform a cleaning operation in a state where a plurality of air cells are arranged side by side, and each air cell cannot be sufficiently cleaned.

The present invention has been made in view of the above problems, and the object of the present invention is to easily and inexpensively change the size of each air cell and to easily and inexpensively repair the air cell when it is damaged. In addition, an object of the present invention is to provide an air cell mounting structure and a cushion capable of always maintaining each air cell in a clean state.

In order to achieve the above object, the present invention provides a plurality of air cells each formed in a bag shape capable of enclosing air therein and having at least one opening, and arranged in parallel on a plane. In the cushion having a plurality of protrusions to which the opening edge of each air cell is detachably attached to each outer peripheral surface by being fitted to each other, the opening edge of the air cell can be attached to and detached from the protrusion. An air cell mounting structure for mounting, wherein the inner peripheral surface of the opening edge of the air cell is formed so as to engage with the outer peripheral surface of the protruding portion in the air cell removing direction, and the opening of each air cell mounted on each protruding portion A plurality of pressing members that press the edge portions toward the protruding portions are provided , and each pressing member is formed in a ring shape that is continuous in the circumferential direction of the opening edge portion of the air cell .

Thereby, since the opening edge part of each air cell is detachably attached to the outer peripheral surface of each protrusion by fitting, the size of the air cells arranged in parallel can be obtained by using a plurality of types of air cells having different sizes. Can be set arbitrarily.

Further, since each air cell is detachably attached to the protruding portion, when some of the air cells are damaged, only the damaged air cell can be replaced.

Further, since each air cell is detachably attached to the protruding portion, each air cell can be removed and washed one by one, and a part of the air cells can be replaced with a new air cell.

In order to achieve the above object, the cushion of the present invention is formed in a bag shape capable of enclosing air therein, and includes a plurality of air cells made of a flexible material having at least one opening, and a plane. And a plurality of protrusions to which the opening edges of the air cells are detachably attached to the respective outer peripheral surfaces by fitting so that the air cells are arranged in parallel on a plane, and are attached to the protrusions. An air passage for sucking and exhausting air in the air cell through the opening, and a plurality of pressing members for pressing the opening edge of each air cell attached to each protrusion to the protrusion. The inner peripheral surface of the opening edge of the air cell is configured to engage the outer peripheral surface of the protrusion in the air cell removal direction, and each pressing member is formed in a ring shape that is continuous in the circumferential direction of the opening edge of the air cell . .

Thereby, since the opening edge part of each air cell is detachably attached to the outer peripheral surface of each protrusion by fitting, the size of the air cells arranged in parallel can be obtained by using a plurality of types of air cells having different sizes. Can be set arbitrarily.

Further, since each air cell is detachably attached to the protruding portion, when some of the air cells are damaged, only the damaged air cell can be replaced.

Further, since each air cell is detachably attached to the protruding portion, each air cell can be removed and washed one by one, and a part of the air cells can be replaced with a new air cell.

According to the present invention, it is possible to arbitrarily set the size of each air cell, for example in a hospital, a patient's height and body shape, or depending on the state or condition of the affected part the size of each air cells easily and inexpensively This can be varied and is very advantageous in effectively distributing the pressure applied to the patient's body. In addition, when some of the air cells are damaged, only the damaged air cell can be replaced, so that each air cell can be repaired easily and inexpensively. In addition, each air cell can be removed and cleaned one by one, and some of the air cells can be replaced with new air cells. Therefore, it is very advantageous in that each air cell can be always kept clean.

  1 to 7 show a first embodiment of the present invention. FIG. 1 is a perspective view of an air cell unit, FIG. 2 is a plan view of the air cell unit, and FIG. 3 is a cross-sectional view taken along line AA in FIG. 4 is a cross-sectional view taken along line BB in FIG. 1, FIG. 5 is a perspective view of two air cell units before being connected, FIG. 6 is a perspective view of each connected air cell unit before being attached to a mounting plate, and FIG. It is side surface sectional drawing of each air cell unit attached to the board.

  The cushion according to the present embodiment includes a plurality of air cells 10 each provided with one opening edge 11, a plurality of base members 20 to which the opening edges 11 of each air cell 10 are detachably attached, and each base member. The air cell unit 1 having a plurality of clamp members 30 as pressing members that are detachably attached to the outer periphery of each air cell 10 attached to the air cell 10, and the base members 20 of the air cell unit 1 are detachably attached. Mounting plate 40.

  The air cell 10 is made of a flexible material such as soft rubber or resin, and has a bag shape in which air can be enclosed. The opening edge 11 of the air cell 10 is thicker than the other part of the air cell 10, and the protruding part 11 a that protrudes radially inward from the other part is provided on the inner peripheral surface of the opening edge 11 on the opening end side. Yes.

  The base member 20 is made of a rubber material or a resin material harder than the material of the air cell 10 and has a rectangular plate shape. One surface in the thickness direction of the base member 20 is provided with a projecting portion 21 having a circular cross section projecting in the thickness direction, and a concave portion 22 extending in the thickness direction of the base member 20 is provided at the center of the projecting portion 21. Is provided. In addition, a radially protruding portion 21 a that protrudes radially outward from the outer peripheral surface of the proximal end side is provided on the outer peripheral surface of the protruding portion 21 on the distal end side. The opening edge portion 11 of the air cell 10 is attached to the outer peripheral surface of the protruding portion 21 by fitting, and the protruding portion 11a of the opening edge portion 11 engages with the radial protruding portion 21a of the protruding portion 21 in the removal direction of the air cell 10.

  The base member 20 is provided with four air passages 23 penetrating from the outer peripheral surface thereof to the concave portion 22, and the air passages 23 are arranged at equiangular intervals in the circumferential direction. In addition, each air passage 23 opens at four ends of the base member 20 having a rectangular shape. The opening on the end side of the base member 20 of each air passage 23 is formed by a cylindrical member 23a. Each tubular member 23a is formed of rubber, resin, or the like that is harder than the base member 20.

  One convex portion 24 and one concave portion 25 are provided at each end of the base member 20. Each convex portion 24 and concave portion 25 is provided at a predetermined position of each end portion of the base member 20. That is, as shown in FIG. 5, when the plurality of base members 20 are arranged so that the end portions thereof are close to each other, the convex portion 24 of one base member 20 of the two adjacent base members 20 is the other base member. 20, and the convex portion 24 of the other base member 20 is coupled to the concave portion 25 of the one base member 20. Accordingly, when the base member 20 is arranged on a predetermined plane so that the end portions of the base member 20 and the other base member 20 are close to each other, the base member 20 is connected to the other base member 20. Thus, the air cells 10 attached to the base members 20 are arranged side by side on a predetermined plane. Further, when connecting the base members 20 to each other, the connecting pipes 23 b are disposed between the base members 20, and the connecting pipes 23 b are inserted into the cylindrical members 23 a of the base members 20, respectively. Thereby, when the base members 20 are connected to each other, the air passages 23 of the base members 20 communicate with each other via the connection pipe 23b. In addition, each base member 20 is provided with four engagement holes 26 serving as second engagement portions penetrating in the thickness direction.

  The clamp member 30 is formed of a coil spring wound in a ring shape. After the air cell 10 is attached to the protruding portion 21 of the base member 20, the clamp member 30 is attached to the opening edge 11 of the air cell 10 from the outside in the radial direction. The clamp member 30 has an inner diameter smaller than the outer diameter of the opening edge 11 of the air cell 10 attached to the protruding portion 21. That is, when the clamp member 30 is attached to the opening edge portion 11, the opening edge portion 11 is pressed against the protruding portion 21 side by the clamp member 30. In the present embodiment, the clamp member 30 is formed of a coil spring. However, the clamp member 30 may be a ring-shaped member made of plastic or rubber having higher rigidity than the metal or base member 20. . In this case, by making the inner diameter of the ring-shaped member slightly smaller than the outer diameter of the opening edge portion 11 attached to the base member 20, the opening edge portion 11 is pressed against the protruding portion 21 side.

  The mounting plate 40 is made of a rubber material or a resin material harder than the material of the air cell 10 and has a rectangular plate shape having an area several to several hundred times that of each base member 20. A plurality of projecting portions 41 as first engaging portions projecting in the thickness direction are provided on the upper surface of the mounting plate 40, and the distal end portion 41a of each projecting portion 41 has a larger outer diameter than the base end side. Each protrusion 41 is disposed at a position corresponding to each locking hole 26 of each connected base member 20, and each base member 20 is attached to the mounting plate 40 by each protrusion 41 passing through each locking hole 26. Fixed to. Further, each protrusion 41 inserted into each locking hole 26 has its tip 41a locked in the locking hole 26, and becomes a resistance when the protrusion 41 is extracted from each locking hole 26. That is, each base member 20 is detachably attached to the attachment plate 40 and is reliably positioned by the attachment plate 40. Further, the base member 20 can be arranged at any position on the mounting plate 40 as long as the protruding portion 41 is inserted into the locking hole 26.

  The cushion configured as described above is used by being placed on a hospital bed, for example, and has an area corresponding to the size of the bed. Further, the cushion placed on the bed is covered with a sheet, air is supplied from the air passage 23 of at least one of the base members 20 among the base members 20, and each air cell 10 is filled with a predetermined amount of air. Yes. As a result, when the patient is sleeping on the bed, the air pressures in the air cells 10 are equalized by the air passages 23 communicating with the air cells 10, and the pressure applied to the patient's body is dispersed to prevent the occurrence of pressure ulcers. can do.

  Here, the pressure applied to the patient's body can be more effectively dispersed by setting the size and arrangement of each air cell 10 according to the height and body shape of the patient, or the state and symptoms of the affected area. For example, it is possible to effectively reduce the pressure applied to the patient's body by changing the size of the air cell 10 where the weight of the patient's shoulder, waist, heel, etc. is easy to add and the other portion of the air cell 10. is there. On the other hand, since each air cell 10 is detachably attached to each base member 20, the size and arrangement of each air cell 10 can be arbitrarily set.

  Moreover, since each air cell 10 consists of soft rubber | gum, resin, etc. in order to disperse | distribute the pressure added to a patient's body, the air cell 10 tends to be damaged. On the other hand, since each air cell 10 is detachably attached to the base member 20, when some of the air cells 10 are damaged, only the damaged air cell 10 is replaced. be able to.

  Furthermore, since each air cell 10 supports a patient via a sheet, it is desirable that each air cell 10 is always clean. In contrast, since each air cell 10 is detachably attached to the base member 20, each air cell 10 can be removed and cleaned, and a part of the air cells 10 can be replaced with new air cells 10. .

  Further, since each base member 20 is fixed to the mounting plate 40, each air cell 10 attached to each base member 20 is not easily displaced.

  Thus, according to this embodiment, since the size and arrangement of each air cell 10 can be arbitrarily set, for example, in a hospital, on the bed according to the height and body shape of the patient or the state and symptoms of the affected part. The size and arrangement of each air cell 10 can be easily and inexpensively changed, which is extremely advantageous in effectively distributing the pressure applied to the body.

  Moreover, since the material of the air cell 10, a hardness, etc. can be changed arbitrarily according to the state and symptom of an affected part, the pressure added to a body can be disperse | distributed more effectively.

  Furthermore, when some of the air cells 10 are damaged, only the damaged air cell 10 among the air cells 10 can be replaced. Therefore, the repair of each air cell 10 can be performed easily and inexpensively.

  In addition, since each air cell 10 can be removed and cleaned, and some of the air cells 10 can be replaced with new air cells 10, for example, the cleaning operation of each air cell 10 in a hospital is facilitated, and each air cell 10 The air cell 10 can be replaced with a new air cell 10 according to the state, and it is extremely advantageous in that each air cell 10 can always be kept clean.

  Further, since the protrusion 21 is provided on the base member 20 and the opening edge 11 of the air cell 10 is attached to the protrusion 21 by fitting, the air cell 10 can be easily and reliably attached to the base member 20.

  Moreover, since the opening edge 11 fitted to the protrusion 21 is pressed against the protrusion 21 by the clamp member 30, air leakage from between the air cell 10 and the base member 20 can be prevented. This is extremely advantageous in keeping the amount of air in each air cell 10 constant.

  Further, each base member 20 is fixed to the mounting plate 40, and each air cell 10 attached to each base member 20 is not easily displaced, so that the patient can easily move on the bed. Can do.

  Further, the mounting plate 40 is provided with a plurality of projecting portions 41, each base member 20 is provided with a locking hole 26, and each projecting portion 41 is inserted into the locking hole 26 of each base member 20, whereby each base member Since 20 is detachably fixed to the mounting plate 40, the arrangement of the base members 20 can be easily changed. That is, the air cell 10 can be removed from the mounting plate 40 together with the base member 20 when changing the size and arrangement of each air cell 10 according to the height and body shape of the patient, or the state and symptoms of the affected part. This is extremely advantageous for easily and quickly performing the operation of changing the size and arrangement.

  In the present embodiment, the cushion is used for the bed, but the cushion can be used for a wheelchair or a chair. At this time, the same effect as described above can be obtained because the size and arrangement of each air cell 10 and the replacement and cleaning of each air cell 10 are easy as in the case of using the bed.

  Further, in the present embodiment, the base member 20 is fixed to the mounting plate 40, but the base members 20 can be connected to each other. Similar effects can be obtained.

  In the present embodiment, the air cell unit 1 is shown in which one opening edge 11 is provided in each air cell 10 and each air cell 10 is attached to each base member 20 one by one. As in the air cell unit 2 shown in FIG. 9, two opening edges 51 are provided in each air cell 50, and two air cells 50 can be attached to each base member 52.

  Further, as shown in FIGS. 10 and 11, it is possible to connect a base member 20 to which one air cell 10 is attached and a base member 52 to which two air cells 50 are attached. In this case, for example, by disposing the base member 20 on the shoulder, waist and heel of the patient who is likely to add weight, and disposing the base member 52 on the other portion, the pressure applied to the patient's body is effectively dispersed. can do.

  As shown in FIG. 12, the base members 20 are connected, the air passages 23 are connected to each other, and the air passages 23 that are not connected to other air passages 23 are closed, so that FIG. Although it is possible to connect the air passages 23 through such a route, as shown in FIG. 14, it is possible to change the route through which the air passages 23 are communicated by closing any air passage 23. It is. Thereby, the time required for the movement of the air in each air cell 10 can be adjusted.

  Further, as shown in FIG. 15, a base member 60 having an air passage 61 that does not communicate with the air passage 23 of the adjacent base member 20 is provided, and an air passage of another base member 20 that is not adjacent to the air passage 61 of the base member 60. 23 can be communicated with each other by a communication pipe 62. A base member 70 having only two air passages 71 can also be provided. That is, the path through which the air passages 23, 61, 71 are communicated can be changed by the combination of the base members 20, 60, 70.

  Furthermore, it is possible to arbitrarily switch the path of each air passage 23. Specifically, as shown in FIGS. 16 and 17, each air cell unit 1 is divided into first to fourth groups G1, G2, G3, and G4 according to the path of each air passage 23, and each group G1, An opening / closing valve 23c is provided in the air passage 23 connecting G2, G3, and G4, and the path of each air passage 23 can be switched by each opening / closing valve 23c. Thereby, by opening each on-off valve 23c, the pressure of the air in all the air cell units 1 can be made equal, and by closing each on-off valve 23c, each group G1, G2, G3, G4 Inside, the pressure of the air in the air cell unit 1 becomes equal, and a difference can be provided in the pressure by each group G1, G2, G3, G4.

  The case where such a cushion is used for a wheelchair will be described. First, when sitting, each on-off valve 23c is opened, and the pressure of the air in each air cell 10 is made equal. Thereby, the pressure added to a body can be disperse | distributed effectively. Next, each on-off valve 23c is closed to prevent air from flowing between different groups. Thereby, it can prevent that the air in each air cell 10 moves excessively, and can improve the stability on a cushion.

  In the present embodiment, the opening edge 11 of the air cell 10 is pressed and fixed to the protruding portion 21 of the base member 20 by the clamp member 30, but the opening edge of the air cell 10 is shown in FIG. It is also possible to fix 11 to the protrusion 21 with an adhesive. In this case, the clamp member 30 becomes unnecessary. Although only the air cell 10 cannot be replaced, the air cell unit 1 including the air cell 10 and the base member 20 can be detached from the mounting plate 40. Since the base member 20 is detachably fixed to the mounting plate 40, the size, arrangement, replacement, and cleaning of each air cell 10 can be easily performed.

  In the present embodiment, the air cell 10 is attached to each base member 20 one by one. However, as shown in FIG. It is also possible to attach a plurality of air cells 10 to the member 80.

  20 to 23 show a second embodiment of the present invention. FIG. 20 is a plan view of the air cell unit, FIG. 21 is a sectional view taken along the line CC in FIG. 20, and FIG. FIG. 23 is a plan view of the cushion. In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 1st Embodiment.

  The cushion of the present embodiment includes an air cell unit 3 having a plurality of air cells 10 and a plurality of clamp members 30 similar to those in the first embodiment, and a plurality of base members 100 to which the air cells 10 are detachably attached. A pair of first outer frame members 110 and a pair of second outer frame members 111 that cover the outer peripheral portions of the connected base members 100 and a dummy member 112 are provided.

  The base member 100 is made of a rubber material or a resin material harder than the material of the air cell 10 and has a regular hexagonal plate shape. A protrusion 101 having a circular cross section protruding in the thickness direction is provided on one surface in the thickness direction of the base member 100, and a concave portion 102 extending in the thickness direction of the base member 100 is provided at the center of the protrusion 101. Is provided. In addition, a radially protruding portion 101 a that protrudes radially outward from the proximal outer peripheral surface is provided on the outer peripheral surface on the distal end side of the protruding portion 101. The opening edge portion 11 of the air cell 10 is attached by fitting the inner peripheral surface thereof to the outer peripheral surface of the protruding portion 101, and the protruding portion 11 a of the opening edge portion 11 is connected to the radial protruding portion 101 a of the protruding portion 101. Engage in removal direction.

  Three protrusions 103 are provided on the outer peripheral surface of the base member 100 at intervals in the circumferential direction, and three recesses 104 are provided at intervals in the circumferential direction. The concave portions 104 are alternately arranged in the circumferential direction with the convex portions 103. Furthermore, each convex part 103 and each recessed part 104 are each provided in each edge part of the base member 100 of a regular hexagon. Moreover, each convex part 103 is formed in the outer diameter where the front-end | tip part is larger than the base end side, and the inlet_port | entrance of each recessed part 104 is narrow.

  The base member 100 is provided with three air passages 105 that penetrate from the tip of each convex portion 103 to the concave portion 102 and three air passages 106 that penetrate from the concave portion 104 to the concave portion 102.

  That is, the base members 100 are arranged so as to be adjacent to each other and the base members 100 are connected by fitting the convex portions 103 and the concave portions 104 to each other, and the air passage 105 and the air passage 106 are connected to each other. Are concatenated.

  As shown in FIG. 23, each outer frame member 110 and 111 is formed along the outer peripheral surface of each connected base member 100. Further, the outer frame members 110 and 111 are connected to each other, and the movement of the base members 100 is restricted.

  The dummy member 112 has a regular hexagonal plate shape similar to the base member 100 and is provided in a portion where the base member 100 is not installed.

  Thus, according to this embodiment, since each air cell 10 is detachably attached to each base member 100, the size and arrangement of each air cell 10, the replacement and cleaning of each air cell 10 are easy. The same effect as in the first embodiment can be obtained.

  Further, since the air passages 105 and 106 are connected by connecting the base members 100, the size, arrangement, replacement, and cleaning of the air cell units 3 are easier.

  Further, since the dummy member 112 is provided in a portion where the base member 100 is not disposed, it is not necessary to install the air cell 10 unnecessarily, the air cell 10 can be installed efficiently, and unnecessary damage to the air cell 10 is prevented. can do.

  In the present embodiment, a plurality of base members 100 having the same size are connected to each other. However, as shown in FIG. 24, a base member 100 and a base member 120 larger than the base member 100 are provided. Can also be connected. In this case, by providing the adapter 121 between the base member 100 and the base member 120, the base member 100 and the base member 120 can be connected without a gap.

  FIGS. 25 to 31 show a third embodiment of the present invention. FIG. 25 is a sectional view of an air cell unit, FIG. 26 is a perspective view of the air cell unit, FIG. 27 is a perspective view of a base member, and FIG. FIG. 29 is a perspective view of a cushion when the air cell unit is attached to a mounting plate, FIG. 30 is a perspective view of the cushion when a connecting pipe or a rubber plug is attached to each air passage, and FIG. 31 is a sectional view of the cushion. It is. In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 1st Embodiment.

  The cushion according to this embodiment includes a plurality of clamp members 30 similar to those of the first embodiment, a plurality of air cells 130 each provided with a single opening edge 131, and an opening edge 131 of each air cell 130, respectively. A plurality of air cell units 4 having a plurality of base members 140 that are freely attached, and a mounting plate 150 to which the base members 140 of the air cell units 4 are detachably attached are provided.

  The air cell 130 is made of a flexible material such as soft rubber or resin, and has a bag shape in which air can be enclosed. The opening edge 131 of the air cell 130 is thicker than the other part of the air cell 130, and the inner peripheral surface of the opening edge 131 protrudes radially inward from the inner peripheral surface of the other part of the air cell 130.

  The base member 140 is made of a rubber material or a resin material harder than the material of the air cell 130, and is formed in a disk shape. One surface of the base member 140 in the thickness direction is provided with a one-end-side protruding portion 141 having a circular cross-section protruding in the thickness direction, and a central portion of the one-end-side protruding portion 141 in the thickness direction of the base member 140. An extending concave portion 142 is provided. In addition, a radially protruding portion 141a is provided on the outer peripheral surface on the distal end side of the one end side protruding portion 141 so as to protrude radially outward from the outer peripheral surface on the proximal end side. The opening edge portion 131 of the air cell 130 is attached to the outer peripheral surface of the one end side protruding portion 141 by fitting, and the inner peripheral surface of the opening edge portion 131 is in the radial direction protruding portion 141a of the one end side protruding portion 141 in the removal direction of the air cell 130. Engage. Further, after fitting the opening edge 131 of the air cell 130 to the one-end-side protruding portion 141, the clamp member 30 is attached to the opening edge 131 of the air cell 130 from the outside in the radial direction. As a result, the opening edge 131 is pressed against the one end side protruding portion 141 by the clamp member 30.

  The other surface in the thickness direction of the base member 140 is provided with a projecting portion 143 having a circular cross section projecting in the thickness direction. The projecting portion 143 penetrates from the outer peripheral surface to the concave portion 142. Four air passages 144 are provided. Further, the air passages 144 are arranged at equiangular intervals in the circumferential direction of the other end side protruding portion 143.

  The mounting plate 150 is made of a rubber material or a resin material harder than the material of the air cell 130 and has a rectangular plate shape having an area several to several hundred times that of each base member 140. The mounting plate 150 is provided with a plurality of through holes 151 penetrating in the thickness direction, and each through hole 151 has an outer diameter slightly smaller than the outer diameter of the other end side protruding portion 143 of the base member 140. The other end side protruding portion 143 of each base member 140 is inserted into each through hole 151 from the one end surface side of the mounting plate 150 toward the other end surface side, whereby the other end side protruding portion 143 of each base member 140 is Each base member 140 is detachably attached to the attachment plate 150 by being fitted into each through hole 151. Further, the other surface in the thickness direction of each base member 140 abuts on one end surface of the mounting plate 150. Thus, the base members 140 are arranged side by side on a predetermined plane.

  When each base member 140 is attached to the attachment plate 150, the other end side protruding portion 143 of each base member 140 protrudes to the other end surface side of the attachment plate 150. Further, each air passage 144 provided in the other end side protruding portion 143 is also arranged on the other end surface side of the mounting plate 150. Here, when connecting pipes 160 as communication members are provided between the base members 140 and the connecting pipes 160 are respectively inserted into the air passages 144 of the base members 140, the air passages 144 of the base members 140 are connected to the connecting pipes 160. Communicate via Further, the air passage 144 into which the connecting pipe 160 is not inserted is closed by the rubber plug 161. In the present embodiment, the air passage 144 into which the connection pipe 160 is not inserted is closed by the rubber plug 161, but the air passage 144 is formed in each base member 140 by the amount of insertion of the connection pipe 160. (For example, two air passages 144 are formed in the base member 140 disposed at the four corners of the quadrangular cushion), and it is possible to save the trouble of closing the air passage 144 by the rubber plug 161.

  The cushion configured as described above is used, for example, by being placed on a seating portion of a wheelchair, and has an area corresponding to the seating portion of the wheelchair. Each air cell 130 is filled with a predetermined amount of air. Thereby, when sitting on the wheelchair, the air pressure in each air cell 130 becomes equal, and the pressure applied to the body of the seated person can be dispersed to prevent the occurrence of pressure ulcers.

  Here, by setting the size and arrangement of the air cells 130 according to the body shape of the seated person, the pressure applied to the body of the seated person can be more effectively dispersed. For example, it is possible to effectively reduce the pressure applied to the body of the seated person by changing the size of the air cell 130 that supports the vicinity of the buttocks of the seated person and the air cell 130 of the other part. On the other hand, since each air cell 130 is detachably attached to each base member 140, the size and arrangement of each air cell 130 can be arbitrarily set.

  In addition, each air cell 130 is made of soft rubber, resin, or the like in order to disperse the pressure applied to the seated person's body, so that the air cell 130 is easily damaged. On the other hand, since each air cell 130 is detachably attached to the base member 140, when some of the air cells 130 are damaged, only the damaged air cells 130 are replaced. be able to.

  Further, since each air cell 130 supports a seated person, it is desirable that each air cell 130 is always clean. On the other hand, since each air cell 130 is detachably attached to the base member 140, each air cell 130 can be removed and cleaned, and a part of the air cells 130 can be replaced with new air cells 130. It is.

  Further, since each base member 140 is attached to the attachment plate 150, each air cell 130 attached to each base member 140 is not displaced from each other.

  Thus, according to this embodiment, since the size and arrangement of each air cell 130 can be arbitrarily set, the size and arrangement of each air cell 130 on the wheelchair can be easily and inexpensively according to the body shape of the seated person. It can be changed and is very advantageous in effectively distributing the pressure on the body.

  Moreover, since the material, hardness, etc. of each air cell 130 can also be changed arbitrarily, the pressure added to a body can be disperse | distributed more effectively.

  Furthermore, when some of the air cells 130 are damaged, only the damaged air cell 130 among the air cells 130 can be replaced. Therefore, the repair of each air cell 130 can be performed easily and inexpensively.

  In addition, each air cell 130 can be removed and cleaned, and some of the air cells 130 can be replaced with new air cells 130, so that the cleaning operation of each air cell 130 is facilitated and each air cell 130 is brought into a state. Accordingly, the air cells 130 can be replaced with new ones, which is extremely advantageous in that each air cell 130 can be kept clean at all times.

  The mounting plate 150 is provided with a plurality of through holes 151 penetrating in the thickness direction, and the other-end-side protrusions 143 of the base members 140 are formed in the through-holes 151 from the one end surface side to the other end surface side of the mounting plate 150. As each base member 140 is attached to the mounting plate 150, the base member 140 can be easily and reliably attached to the mounting plate 150, and the base member 140 can be attached and detached in a short time. Can be done.

  Further, the other end side protruding portion 143 of each base member 140 protrudes to the other end surface side of the mounting plate 150, and the air passage 144 of each base member 140 is also disposed on the other end surface side of the mounting plate 150. Since the air passages 144 arranged on the other end side are communicated with each other by the connection pipes 160, even when the air cells 130 are arranged close to each other, the connection of the air passages 144 is easy and reliable. This is extremely advantageous in shortening the connecting operation of the air passages 144. Further, when each air passage 144 and each connection pipe 160 are arranged on one end surface side of the mounting plate 150 where each air cell 130 is arranged, deformation of each air cell 130 is restricted by each air passage 144 and each connection pipe 160. However, in this embodiment, the deformation of the air cells 130 is not restricted by the air passages 144 and the connection pipes 160, which is extremely advantageous in effectively distributing the pressure applied to the body. Furthermore, since the path when each air passage 144 communicates with each connecting pipe 160 is not restricted by each air cell 130, it is advantageous that the path that communicates each air passage 144 can be freely changed. is there.

  In the present embodiment, the mounting plate 150 is formed to have a uniform thickness. However, as shown in FIG. 32, a part of the mounting plate 150 is formed to have a stepped difference in thickness. In addition, the base members 170 and 171 corresponding to the thickness dimension of the mounting plate 150 may be provided, and the air cells 180 and 181 corresponding to the base members 180 and 171 may be provided. Thereby, each base member 130,170,171 will be in the state arranged in parallel on the predetermined plane. Each air cell 130, 180, 181 is formed such that its upper ends are arranged at the same height. Accordingly, when the thickness dimension of the mounting plate 150 corresponding to each air cell 130 in the vicinity of the buttock is made smaller than the thickness dimension of other parts, the height dimension of each air cell 130 in the vicinity of the buttock becomes larger. Compared with this portion, the pressure applied to the buttocks where the pressure at the time of sitting tends to be high can be effectively reduced. That is, the pressure applied to the body can be more effectively distributed.

The perspective view of the air cell unit which shows 1st Embodiment in this invention. Plan view of air cell unit AA line sectional view in FIG. BB sectional view in FIG. The perspective view of two air cell units before connecting Perspective view of each connected air cell unit before mounting on the mounting plate Side sectional view of each air cell unit mounted on the mounting plate Side surface sectional drawing of the air cell unit which shows the modification of the air cell and base member in 1st Embodiment The top view of the air cell unit which shows the modification of the air cell and base member in 1st Embodiment The principal part top view of the cushion which shows the 1st example of a combination of the air cell unit in 1st Embodiment. The top view of the cushion which shows the 1st example of a combination of the air cell unit in 1st Embodiment. The principal part top view of the cushion which shows the 2nd example of a combination of the air cell unit in 1st Embodiment. The figure which shows the path | route of the air path in the 2nd example of a combination of the air cell unit in 1st Embodiment. The figure which shows the other path | route of the air path in the 2nd example of a combination of the air cell unit in 1st Embodiment. The principal part top view of the cushion which shows the 3rd example of a combination of the air cell unit in 1st Embodiment. The figure which shows the other path | route of the air path in the 4th example of a combination of the air cell unit in 1st Embodiment. The top view of the cushion in the 4th example of combination of the air cell unit in 1st Embodiment Side surface sectional drawing which shows the modification of the air cell unit in 1st Embodiment. Side surface sectional drawing which shows the other modification of the base member in 1st Embodiment. The top view of the air cell unit which shows 2nd Embodiment in this invention CC sectional view in FIG. Cross section of the main part of the convex part and concave part Top view of cushion The principal part top view of the cushion which shows the example of a combination of the air cell unit in 2nd Embodiment Sectional drawing of the air cell unit which shows 3rd Embodiment in this invention Perspective view of air cell unit Perspective view of base member Top view of base member Perspective view of cushion when attaching air cell unit to mounting plate Perspective view of cushion when attaching connecting pipe or rubber stopper to each air passage Cross section of cushion Sectional drawing of the cushion which shows the modification in 3rd Embodiment

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Air cell unit, 2 ... Air cell unit, 3 ... Air cell unit, 4 ... Air cell unit, 10 ... Air cell, 11 ... Opening edge part, 12 ... Locking part, 20 ... Base member, 21 ... Projection part, 21a ... Radial direction Projection, 22 ... concave part, 23 ... air passage, 23b ... connection pipe, 24 ... convex part, 25 ... concave part, 26 ... locking hole, 30 ... clamp member, 40 ... mounting plate, 41 ... projection part, 50 ... Air cell 51... Opening edge 52. Base member 60. Base member 61. Air passage 62 62 Communication pipe 70 Base member 71 Air passage 80 Base member 81 Projecting portion 100 Base member 101 ... Protruding part 102 ... Concave part 103 ... Convex part 104 ... Concave part 105 ... Air passage 106 ... Air passage 110 ... First outer frame member 111 ... Second outer frame member 112 ... Dummy DESCRIPTION OF SYMBOLS 120 ... Base member, 121 ... Adapter, 130 ... Air cell, 131 ... Opening edge part, 140 ... Base member, 141 ... One end side protrusion part, 141a ... Radial direction protrusion part, 142 ... Concave part, 143 ... Other end side protrusion part DESCRIPTION OF SYMBOLS 144 ... Air passage, 150 ... Mounting plate, 151 ... Through-hole, 160 ... Connection pipe, 161 ... Rubber plug, 170 ... Base member, 171 ... Base member, 180 ... Air cell, 181 ... Air cell.

Claims (2)

A plurality of air cells each formed in a bag shape capable of enclosing air therein and having at least one opening, are arranged side by side on a plane, and the respective outer peripheral surfaces are arranged side by side on the plane. In the cushion provided with a plurality of protrusions to which the opening edge of each air cell is detachably attached by fitting, an air cell mounting structure for detachably attaching the opening edge of the air cell to the protrusion,
The inner peripheral surface of the opening edge of the air cell is formed to engage with the outer peripheral surface of the protruding portion in the air cell removal direction,
Providing a plurality of pressing members that press the opening edge of each air cell attached to each protruding portion to the protruding portion side ,
Each pressing member is formed in a ring shape continuous in the circumferential direction of the opening edge of the air cell. A plurality of air cells made of a flexible material formed in a bag shape capable of enclosing air therein and having at least one opening;
A plurality of protrusions that are juxtaposed on the plane and removably attached to the outer peripheral surface of each air cell by fitting so that the air cells are juxtaposed on the plane;
An air passage for sucking and exhausting air in an air cell attached to each protrusion through the opening;
A plurality of pressing members that press the opening edge of each air cell attached to each protruding portion to the protruding portion side;
The inner peripheral surface of the opening edge of each air cell is configured to engage with the outer peripheral surface of the protruding portion in the air cell removal direction ,
A cushion characterized in that each pressing member is formed in a ring shape continuous in the circumferential direction of the opening edge of the air cell .

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