JP5206141B2 - cushion - Google Patents

Description

  The present invention relates to a cushion that is placed on a seating surface of, for example, a hospital bed or a wheelchair and softly supports a patient or a seated person in order to prevent pressure ulcers that occur in the patient or the seated person.

In general, this type of cushion includes a flat base member, a plurality of air cells provided so as to extend upward from the upper surface of the base member, and a base member for adjusting the amount of air in each air cell. And a plurality of air amount adjusting devices such as an electric air pump, a solenoid valve, and a control device provided on the wheelchair, which are used by being mounted on a seating surface of a wheelchair (see, for example, Patent Document 1) .)
Japanese Patent No. 4010557

  By the way, although the said cushion is used in a hospital or a home, the operation state changes with environments used. For example, since a hospital has a plurality of cushions and each cushion is used as necessary, each cushion does not operate every day, but at home, it operates almost every day. Also, in hospitals, nurses often operate cushions, and nurses are accustomed to operating cushions, so the operation time of each air conditioning device is relatively short. The operation of the cushion may be troublesome depending on the body type and symptoms, and the operation time of each air amount adjusting device becomes relatively long.

  On the other hand, in recent years, an electric air pump and a solenoid valve are automatically controlled by a control device to effectively prevent a pressure ulcer on a seated person's buttocks. In this case as well, the operating state of each air amount adjusting device differs depending on the body shape and symptoms of the seated person.

  For this reason, when the cushion is broken and repaired, or when the cushion is regularly maintained, it is impossible to grasp the damage received by the air amount adjusting device only by the elapsed time from the start of use. Therefore, at the time of repair or maintenance, there are cases where only the air conditioning devices that are actually broken are replaced, or all air conditioning devices are replaced for the purpose of preventing failure. There is a problem in that it cannot be performed efficiently and reliably.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a cushion capable of performing repair and maintenance efficiently and reliably.

In order to achieve the above object, the present invention provides a plurality of air cells, a base member that supports each air cell, an air pump, a solenoid valve, and a control device provided in the base member for adjusting the amount of air in each air cell. In the cushion with
An operating time storage means for accumulating and storing the time during which at least one of the air pump and the control device is operating as an operating time; provided in at least some of the air cells; A crush amount detecting means capable of detecting that the elastic member in the air cell has been pressed and the sensor is turned on; and a detection number storage means for storing the number of detections by the crush amount detecting means. A thin film portion formed integrally with the base member on the bottom surface of the air cell; a cylindrical elastic member provided in the air cell with a lower end attached to the top surface of the thin film portion; and the thin film on the base member A hole extending in the vertical direction on the lower side of the portion and opened in the lower surface of the base member, provided in the hole, A sensor switch type for detecting that the film portion is elastically deformed downward, and a.

Accordingly, an air pump, a solenoid valve, a control device, and the collapse amount detection means are provided, and the time during which at least one of the air pump and the control device is operated is accumulated and stored as the operation time and the collapse amount detection means. Since the number of times of detection is stored , the operation history of the cushion can be grasped regardless of whether the cushion is used every day, for example.

Further, the present invention provides a cushion including a plurality of air cells, a base member that supports each air cell, and an air pump, a solenoid valve, and a control device that are provided on the base member in order to adjust the amount of air in each air cell. The operation time storage means for accumulating and storing the operation time of the air pump and the control device, the operation frequency storage means for storing the operation frequency of the electromagnetic valve, and at least some of the air cells A crushing amount detecting means for detecting that the elastic member in the air cell is pushed and the sensor is turned on when the air cell is crushed , and a detection number storage means for storing the number of detections by the crushing amount detecting means with the door, the collapse amount detecting means includes a thin film portion provided on the molding integrally with the base member to the bottom surface of the air cell, the A cylindrical elastic member provided in the arsel and having a lower end attached to the upper surface of the thin film portion, and formed to extend vertically below the thin film portion of the base member and open to the lower surface of the base member And a switch-type sensor that is provided in the hole and detects that the thin film portion is elastically deformed downward .

Thus, an air pump, solenoid valve and the control device and the collapse amount detecting means is provided, the time that the operation of the air pump and the controller are integrated and stored respectively crushed with number operation of the electromagnetic valves are also stored Since the number of times of detection by the amount detection means is stored , the operation history of the cushion can be grasped regardless of whether the cushion is used every day, for example.

  According to the present invention, for example, regardless of whether or not the cushion is used every day, the operation history of the cushion can be grasped, so that repair and maintenance can be performed efficiently and reliably.

  1 to 7 show an embodiment of the present invention. FIG. 1 is a plan view of the cushion, FIG. 2 is a sectional view taken along the line AA in FIG. 1, and FIG. 4 is a cross-sectional view of the main part of the cushion, FIG. 5 is a schematic diagram showing the piping state of the cushion, FIG. 6 is a block diagram of the cushion, and FIG. 7 is the operation time data and operation frequency data stored in the storage unit. It is an example. The explanation of directions in the following text is based on the directions shown in FIGS. Further, the left-right direction coincides with the width direction of the seating surface.

  The cushion is provided on each side of the seating surface in the width direction of the seating surface with respect to each of the first aircells 10 for supporting the seater's seat bone and the vicinity of the coccyx. A plurality of second air cells 20 for supporting both sides in the width direction, a front end side support member 30 provided on the front end side of the seating surface with respect to the air cell group composed of each first air cell 10 and each second air cell 20; Each first air cell 10, each second air cell 20, and a flat base member 40 that supports the lower end side of the front end side support member 30 are provided. The seating surface is, for example, a seating surface of a wheelchair, and this cushion is used by being placed on the seating surface in order to softly support a seated person's buttocks.

  Each first air cell 10 and each second air cell are made of rubber or plastic air bags.

  The first air cells 10 and the second air cells 20 are grouped into five groups, a first air cell group, a second air cell group G2, a third air cell group G3, a fourth air cell group G4, and a fifth air cell group G5. The 1 air cell group is further grouped into a 1-1 air cell group G1-1 and a 1-2 air cell group G1-2 (see FIG. 1).

  The front end side support member 30 is made of a sponge-like member such as urethane foam, and supports the vicinity of the thigh of the seated person.

  The base member 40 is made of rubber or plastic and has a flat plate shape. The base member 40 is formed by bonding an upper base member 40a formed in a flat plate shape and a lower base member 40b formed in a flat plate shape. A plurality of air chambers AR are formed by the upper surface of the base member 40 and each air cell 10. An air passage 40 c is formed in the base member 40. The lower end surface of the front end side support member 30 is attached to the upper surface of the front end portion 40d of the base member 40 by a surface fastener, an adhesive, or the like, and the lower end side of the front end side support member 30 is supported by the base member 40. The front end portion 40d of the base member 40 has a thickness dimension larger than the other portions, and the front end portion 40d is provided with a hollow portion 41 that opens downward. That is, the hollow portion 41 is disposed below the front end side support member 30.

  A thin film portion 40e is integrally formed on the bottom surface of each air chamber AR formed by the base member 40. An elastic member 42 formed in a cylindrical shape is provided in the air chamber AR provided with the thin film portion 40e. The elastic member 42 is made of a known material having rubber-like elasticity such as rubber or urethane, and has a lower end at the lower end. It is attached to the upper surface of the thin film part 40e.

  Under the thin film portions 40e of the base member 40, holes 40f extending in the vertical direction are provided, and the holes 40f are open on the lower surface of the base member 40. A well-known switch type sensor 43 is attached in each hole 40f. In the sensor 43, when a downward force of a predetermined size or more is applied to the button 43a provided so as to be movable in the vertical direction, a circuit provided therein is energized by the downward movement of the button 43a.

  For this reason, when the amount of collapse of the first air cell 10 in the vertical direction becomes equal to or greater than a predetermined amount, a downward force is applied to the elastic member 42 and the elastic member 42 is elastically deformed in the vertical direction. The thin film portion 40e is elastically deformed downward, and the deformation is detected by the sensor 43. For example, the predetermined amount is set to a limit collapse amount that can softly support the heel portion by each first air cell 10, and the fact that the first air cell 10 cannot softly support the heel portion is referred to as bottoming.

  In the hollow portion 41, a pump 50 including a known electric air pump for supplying air to the air cells 10 and 20, first to seventh electromagnetic valves V1 to V7 having a known structure, and a first control. A device 71 and a second control device 72 are provided. The pump 50, the solenoid valves V1 to V7, the first control device 71, and the second control device 72 are fixed in housings 51, 60, 73 that open downward, and the housings 51, 60, 73 are hollow portions. 41 is fitted. The opening of the hollow portion 41 is closed by a plate-like bottom cover 41a made of plastic.

  The pump 50, the solenoid valves V1 to V7, and the air cell groups G1-1 to G5 are piped as shown in FIG. That is, the pump 50 is connected to the fourth air cell group G4 via a communication pipe (not shown), a known check valve 80, and an air passage in the base member 40. The other piping states are as shown in FIG.

  The first control device 71 is composed of a well-known microcomputer and is connected to each sensor 43, pump 50 and each electromagnetic valve V1 to V7, and controls the pump 50 and each electromagnetic valve V1 to V7 to control the inside of each air cell 10,20. The amount of air is adjusted. The first control device 71 is connected to a start button 71a.

  The second control device 72 includes a control unit 72a made up of a known CPU, a storage unit 72b made up of a known hard disk, etc., and a known USB port 72c as a transmission means. The control unit 72a is connected to the first control device 71, and is also connected to the storage unit 72b and the USB port 72c. The USB port 72c is connected to an external device via a USB cable, and the control unit 72a transmits data stored in the storage unit 72b to the external device in response to a request from the external device. It is like that.

  The cushion configured as described above is covered with, for example, a cloth cushion cover (not shown), and is used to softly support a seated person's buttocks. In addition, when the occupant is seated and the start button 71a is operated, the cushion 50 is controlled by the first controller 71 to control the pump 50 and the electromagnetic valves V1 to V7, and the amount of air in the air cells 10 and 20 is reduced. It is automatically adjusted. Further, when the sensor 43 detects that the amount of crushing of some of the first air cells 10 has reached a predetermined amount or more, the first controller 71 causes the pump 50 and the electromagnetic valves V1 to V7 to be turned on. It is controlled and the bottom of each first air cell 10 is avoided. Further, the first control device 71 sets the air amount of the 1-1 air cell group G1-1 and the 1-2 air cell group G1-2 by the pump 50 and the electromagnetic valves V1 to V7 every predetermined time (for example, 5 minutes). Perform alternative control to increase or decrease alternately. Alternative control is performed for the purpose of preventing congestion of the seated person's buttocks. In the case of alternative control, the first solenoid valve V1, the second solenoid valve V2, the third solenoid valve V3, the fourth solenoid valve V4, and the seventh solenoid valve V7 open and close.

  Here, as shown in FIG. 7, the control unit 72a of the second control device 72 accumulates the time during which at least one of the pump 50 and the first control device 71 is operating as the operating time, and stores it in the storage unit 72b. Remember. Moreover, as shown in FIG. 7, the control part 72a integrates | accumulates the time which the pump 50 and the 1st control apparatus 71 operate | move as an operating time each separately, and memorize | stores it in the memory | storage part 72b. Furthermore, as shown in FIG. 7, the control unit 72a stores the number of opening / closing operations of the electromagnetic valves V1 to V7 in the storage unit 72b. Here, since the first solenoid valve V1, the second solenoid valve V2, the third solenoid valve V3, the fourth solenoid valve V4, and the seventh solenoid valve V7 are opened and closed in the alternative control, the alternative control is always performed. The operation of the first solenoid valve V1, the second solenoid valve V2, the third solenoid valve V3, the fourth solenoid valve V4, and the seventh solenoid valve V7 is compared with the fifth solenoid valve V5 and the sixth solenoid valve V6. The number of times increases.

  Thus, according to the present embodiment, the time during which at least one of the pump 50 and the first control device 71 is operating is integrated and stored as the operating time. For this reason, for example, whether the cushion is used every day or whether the cushion operation is performed by a person who is accustomed to the cushion, the operation history of the cushion can be grasped. And maintenance can be performed efficiently and reliably.

  In addition, the operating times of the pump 50 and the first control device 71 are stored as individual operating times, and the number of opening / closing operations of the electromagnetic valves V1 to V7 is stored. For this reason, for example, regardless of whether or not the cushion is used every day or whether or not the operation of the cushion is performed by a person who is accustomed to the operation history of the pump 50 and the first control device 71, respectively. Since it can grasp | ascertain and the operation | movement log | history of each solenoid valve V1-V7 can also be grasped | ascertained respectively, repair and a maintenance can be performed efficiently and reliably.

  Further, the second control device 72 is provided with a USB port 72c, and when the USB port 72c is connected to an external device, the control unit 72a sends the operation time data and the operation frequency data of the storage unit 72b to the external device. It can be sent. For this reason, when performing repairs and maintenance, the above-mentioned operation history can be confirmed by removing the bottom cover 41a and connecting an external device and the USB port 72c with a USB cable. It is advantageous for easy implementation.

  Moreover, the data memorize | stored in the memory | storage part 72c, the pump 50, the 1st control apparatus 71, and the actual state of each electromagnetic valve V1-V7 are compared, and the pump 50, the 1st control apparatus 71, and each electromagnetic valve V1-. It becomes possible to accurately set the service life of V7, which is extremely advantageous in improving the reliability of the cushion.

  It is also possible to provide a threshold value corresponding to each data stored in the storage unit 72c and provide an alarm for notifying that any one of the data exceeds the threshold value.

  In the present embodiment, the first control device 71 and the second control device 72 are provided. However, the functions of the first control device 71 and the second control device can be provided in one control device. is there.

  In the present embodiment, the second control device 72 is provided with a USB port 72c, and the operation time data and the operation frequency data are transmitted to an external device using the USb port 72c. On the other hand, it is also possible to provide a known antenna in the second control device 72 and transmit the operation time data and the operation frequency data wirelessly using the antenna.

  In the present embodiment, the number of opening / closing operations of the electromagnetic valves V1 to V7 is stored in the storage unit 72b. On the other hand, the number of detections of each sensor 43 can be stored in the storage unit 72b. In this case, it is possible to determine whether or not each sensor 43 or each elastic member 42 needs to be replaced based on the number of detections at the time of repair or maintenance, which is extremely advantageous for efficiently and reliably performing repair or maintenance.

  Further, in the present embodiment, the cushion used by being placed on the seating surface has been described, but the cushion used by being placed on the bed can also have the same configuration as described above.

The top view of the cushion which shows one Embodiment in this invention AA line sectional view in FIG. Bottom view of cushion with bottom cover removed Cross section of the main part of the cushion Schematic showing the piping state of the cushion Cushion block diagram An example of operation time data and operation frequency data stored in the storage unit

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... 1st air cell, 20 ... 2nd air cell, 30 ... Front end side support member, 40 ... Base member, 40a ... Upper base member, 40b ... Lower side base member, 40e ... Thin film part, 41 ... Hollow part, 42 ... Elasticity 43, sensor, 43a ... button, 50 ... pump, 71 ... first control device, 71a ... start button, 72 ... second control device, 72a ... control unit, 72b ... storage unit, 72c ... USB port, V1- V7 ... Solenoid valve.

Claims (4)

In a cushion including a plurality of air cells, a base member that supports each air cell, and an air pump, a solenoid valve, and a control device provided in the base member to adjust the amount of air in each air cell,
An operation time storage means for accumulating and storing the time during which at least one of the air pump and the control device is operating as an operation time;
A crushing amount detecting means provided in at least some of the air cells , and capable of detecting that the elastic member in the air cell is pushed and the sensor is turned on by crushing the air cell ;
A number-of-detections storage means for storing the number of detections by the crushing amount detection means ,
The crushing amount detecting means includes
A thin film portion formed integrally with the base member on the bottom surface of the air cell;
The cylindrical elastic member provided in the air cell and having a lower end attached to the upper surface of the thin film portion;
A hole formed on the lower side of the thin film portion in the base member so as to extend in the vertical direction and opened on the lower surface of the base member;
A switch type sensor provided in the hole and configured to detect that the thin film portion is elastically deformed downward . The cushion according to claim 1, further comprising transmission means capable of transmitting the operation time data stored in the operation time storage means to an external device. In a cushion including a plurality of air cells, a base member that supports each air cell, and an air pump, a solenoid valve, and a control device provided in the base member to adjust the amount of air in each air cell,
An operating time storage means for integrating and storing the operating time of the air pump and the control device, respectively;
An operation frequency storage means for storing the operation frequency of the solenoid valve;
A crushing amount detecting means provided in at least some of the air cells , and capable of detecting that the elastic member in the air cell is pushed and the sensor is turned on by crushing the air cell ;
A number-of-detections storage means for storing the number of detections by the crushing amount detection means ,
The crushing amount detecting means includes
A thin film portion formed integrally with the base member on the bottom surface of the air cell;
The cylindrical elastic member provided in the air cell and having a lower end attached to the upper surface of the thin film portion;
A hole formed on the lower side of the thin film portion in the base member so as to extend in the vertical direction and opened on the lower surface of the base member;
A switch type sensor provided in the hole and configured to detect that the thin film portion is elastically deformed downward . The transmission means capable of transmitting the operation time data of the air pump and the control device and the operation frequency data of the solenoid valve stored in the operation time storage means to an external device is provided. Cushions.

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